KR20160061931A - Reactor equipment of distribution input device for the treatment of nuclear waste in the ocean nuclear power plant with a block tank dust collector of the dual structure - Google Patents

Abstract

The present invention relates to a distribution input apparatus of a reactor facility for treating nuclear waste in an ocean nuclear power and hydroelectric power plant having a double-structured block tank dust collector, which performs a nuclear waste treating control to continuously operate a nuclear plant while excluding a natural disaster effect by using a disaster preventing apparatus.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nuclear waste disposal system for nuclear waste disposal of marine nuclear hydroelectric power plants having dual structure block tank dust collectors dual structure}

The present invention relates to a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, and more particularly, Dual structure block tank Dust collector or double tube structure Capsule type Dual structure storage tank provided in multiple reactor facilities and a tunnel installed in the cooling water and loess mixture of fuel control detonation control products connecting each part of the nuclear waste treatment shield And a floating tank of a small, medium and large sized marine nuclear hydroelectric power plant is installed in the river estuary and the ocean to provide double structure storage tanks for the nuclear waste disposal shielding device for nuclear power plant operation. And firepower Connected to a number of pumps and valve generators, nuclear waste The plant will be equipped with the control of nuclear waste disposal from the estimation of the global village to the river estuary and the ocean. Hydroelectric generators for wind power generators and thermal power generators for nuclear power generation and alternative power generation will be provided. Power Generation at Power Generation Nuclear Waste Treatment Division Power Generation Division and Transportation Division of Construction Machinery to Provide Position Control of Adjustment Shaft and Power Transmission Unit to Transfer Power to Nuclear Power Plant Operation Safety Control Production Production Control Section and Electronic Control Control Section Construction Control Section And to a nuclear waste disposal apparatus for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector constituting a nuclear waste disposal treatment for continuously operating a nuclear reactor excluding the influence of natural disaster as a disaster prevention device .

Generally, the installation of conventional nuclear power plants' nuclear reactors installed due to the location of the inland riverside of the global village and coastal coastal areas is weak due to natural disasters and the nuclear power generation operation is stopped or nuclear reactors are exploded. Thus, once the manufacturers of these reactors have been able to meet the reliability of the power consumers, they have developed a new reactor wall that contains the reservoir containers contained in the fourth wall of the reactor and the fifth wall In order to construct a plurality of through holes at an angle of 45 degrees at the upper part of the nuclear reactor building, the drilling machine and the machine rotation lath machine are equipped with a computer cutter, a construction machine crane and conveyors, A plurality of safety valves may be arranged in a block- Line to the flange of the gasket to the bolt and nut, and on the outer wall of the nuclear reactor building, double-structured block tanks of twice the diameter of the nuclear reactor building. Block tanks for nuclear waste treatment storage and radiation- As a result, the existing nuclear power plants' reactor facilities are exposed to the nuclear power plant design process which is very serious and dangerous about the safety and economical efficiency. Therefore, the best nuclear safety and economical efficiency of the nuclear power plant Operation of Nuclear Power Plant Nuclear Power Plants Operation of Nuclear Reactor Nuclear Radiation Leakage Control of Nuclear Waste Treatment Shielding Device Nuclear Reactor Operation Suitable for Nuclear Reactor Double Structure Block Tank Nuclear Reactor Operation Nuclear waste treatment shielding equipment has been urgently needed for safety and economical efficiency. Continue designing and experimenting with solutions As the research progresses, a double structure block tank dust collector for forming a dual structure block tank dust collector dispensing device according to a nuclear radiation leakage control for a reactor facility of a nuclear waste disposal screening device of nuclear reactors of a nuclear power plant of the global nuclear power plant Much effort has been devoted to the design of the distribution input device design of the reactor facility for the nuclear waste disposal of marine nuclear hydroelectric power plants.

However, to meet the needs of those who have recovered the reliability of electric power consumers because their demands have been diversified and serious risk levels have been exposed to nuclear safety and economics, a marine nuclear power plant with dual structure block tank dust collector Nuclear waste treatment facility Dual structure block tank to control nuclear radiation leakage of dispensing equipment Nuclear reactor vessel included in the fourth wall of the reactor dust collector and nuclear reactor contained in the fifth wall Constant 45 ° A plurality of through holes at an angle are machined by a drilling machine and a machine turning lathe machine as a computer cutter, a construction machine crane, and a conveyor, a block pipe line of a dual pipe structure is formed in the plurality of through holes,

A plurality of safety valve connection structures are provided on the double pipe structure block pipe line and the rubber packing of the gasket is provided on the bolt and nut so that the connecting structure of the flange is provided on the circumference surface of the outer wall of the reactor building with the tool hammer and the wrench A plurality of safety valve connection structures constituting a double pipe structure piping line are secured to a plurality of through holes while a vacant space for a nuclear waste disposal storage block tank is secured in a double structure block tank having a size twice as large as the reactor building The double tubular block piping line,

It is equipped with a radiation-type connection structure and is equipped with a nuclear waste disposal screening device for a nuclear reactor of a marine nuclear hydroelectric power plant. The dual structure block tank dust collector that distributes the multiple reactor facilities of the distribution input unit is composed of the construction machine that provides the floating dock basis of the marine nuclear hydroelectric power plant and the distribution input device of the marine tunnel transportation device formed by replacing the marine vessel The operation of floating nuclear power hydroelectric power plants of small size, medium size and large scale is composed of the distribution and input devices of marine nuclear hydroelectric power plants in the upper barge hull of the sea surface with the floating nuclear power plant of marine nuclear hydroelectric power plant,

A double structure block tank which constitutes safe nuclear reactor facility operation by further inputting the barge ship hull position movement control device and the throttle control device in the ocean constituting the installation operation in which the holding block tank is easily opened and spreaded. Of the reactor facility for nuclear waste disposal.

A plurality of nuclear reactor facilities for nuclear power generation at the prior art level, which are provided inside the main body of the distribution apparatus of the nuclear waste disposal facility of a marine nuclear hydroelectric power plant having the dual structure block tank dust collector, I will explain.

The conventional nuclear reactors for nuclear power generation of the prior art are formed by boiling water reactor and pressurized water reactor facilities. Power reactors are mainly used for light water reactors, Reactor facilities and multi-purpose high temperature gas reactor facilities and new conversion furnace reactor facilities are being used. Boiling water reactor reactor facilities, pressurized water reactor facilities, gas cooling furnace reactor facilities and multipurpose hot gas reactor facilities and new conversion furnace reactor facilities and high speed The six types of reactor facilities are collectively referred to as a plurality of reactor facilities for nuclear power generation at the prior art level.

Not only are the reserves of uranium as a raw material of nuclear energy limited, but also there is nuclear energy as an energy source that causes pollution less than fossil fuel. Therefore, this nuclear energy is attracting attention as a new power source in the future. The more serious problem is the disposal of nuclear waste.

Environmental pollution caused by nuclear waste can fatally destroy our only earth.

So, we have come up with a way to get energy without pollution, and today we want to get the answer from the sun and the sea.

There are many ways to get energy from the ocean. Tidal power to obtain energy using tidal and tide movements, Wave power to get energy using the power of waves, Sea water temperature to get energy using the temperature difference of seawater. Using these methods, we are able to provide an unlimited amount of pollution-free energy at sea.

A plurality of nuclear reactor facilities included in a distributing apparatus of a nuclear reactor waste disposal apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector for inserting into the double structure block tank dust collector of the nuclear radiation leakage control,

The boiler water reactor (802) and the pressurized water reactor (803) are formed. The power reactor is mainly used for the light water reactor. The other is the gas cooling furnace reactor (804) and the multi- The reactor 805 and the new conversion furnace reactor 806 are used in the boiler water reactor reactor installation 802 and the pressurized water reactor installation 803 and the gas cooling furnace reactor installation 804 and the multi- And the new conversion type, the reactor facility (806) and the high-speed proliferation furnace reactor facility (838) were combined to collect all six types of reactor facilities, and the six types of reactor facilities were installed in a plurality of reactor facilities for nuclear power generation , And a plurality of nuclear reactor hydrostatic power plants having a double structure block tank dust collector each having a plurality of nuclear reactor facilities are provided with a plurality of The reactor facilities are distributed with the construction equipment.

The plurality of nuclear reactor installations may include:

Using the shielding concept of the defense concept of nuclear safety engineering which constructs blocking and shielding the nuclear radiation pollutants outside the nuclear reactor by arranging the nuclear waste disposal in the double structure block tank dust collector with the transportation with the fuel explosion prevention control goods, To prevent leaks of nuclear fuel radiation outside the double structure block tank dust collector and to prevent leakages of nuclear fuel leakage preventing nuclear reactors,

The primary purpose is to prevent nuclear fuel explosion by controlling the treatment of nuclear waste into the interior of a dual structure block tank reactor,

A double structure block tank consisting of a connection structure of alternative marine vessel traffic facility as a secondary. A double structure composed of a plurality of nuclear reactor facilities in the distribution apparatus of the nuclear reactor waste disposal unit of a marine nuclear hydroelectric power plant having a dust collector. In the double tube block piping system, which is provided as double tube structure block piping to the outside of the block tank dust collector and controls nuclear waste treatment,

Temperature pressure sensing sensor Nuclear waste treatment of land and ocean nuclear power plants with safety valve and water pump connection structures to efficiently improve nuclear operation Double structure block tank Double structure block tank put into dust collector Marine equipped with dust collector The distribution input device of the reactor facility for the nuclear waste disposal of the nuclear power plant is equipped with the safety pressure valve and the water supply pumps that provide the connection to the double pipe structure pipe with the position energy of the water and the soap contained in the cooling water Using a nuclear waste disposal unit that constitutes the conversion of the energy of the position energy of the water into kinetic energy,

In general, a distributing and inputting device for a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector is a double structure block tank egg type, and has connection structures constituting the outer wall surface of the former reactor building, In order to provide a distribution and input device for the nuclear waste disposal facility of a marine nuclear hydroelectric power plant having a block tank dust collector, it is possible to use the land and the land which effectively improve the operation of the nuclear reactors constituting the manufacturing, Nuclear power plants in the marine Nuclear power plant Nuclear waste disposal system Double structure block tank reactor that forms nuclear reactor leakage control of the nuclear reactor waste disposal system is provided with double pipe structure piping with water potential energy, It is equipped with valves and water pumps to generate cooling water and soap bubbles. A dual structure block tank which is formed on the outer surface of the outer wall of a conventional reactor in the form of a double structure egg type and a dual structure capsule while using a mixture dispensing device, and a distribution input device for a nuclear waste processing nuclear waste water treatment plant equipped with a marine nuclear hydroelectric power plant , It is manufactured with a remarkable difference in that it has a double structure block tank dust collector and a reactor facility in which a conventional nuclear fuel cell explosion occurs.

The apparatus for dispensing nuclear reactor waste treatment equipment comprises a nuclear waste disposal reactor facility for a marine nuclear hydroelectric power plant having the dual structure block tank dust collector,

FIG. 1 is a block diagram of a conventional nuclear power plant 672, in which a plurality of nuclear reactor facilities for nuclear power generation of the prior art are combined to provide a nuclear power plant having a nuclear waste treatment dual structure block tank dust collector, ) To describe the structure of a conventional boiling water nuclear reactor (802) composed of a plurality of nuclear reactor facilities of the Korean Federation of States Peace Preservation Representative Construction diagram will be described with reference to the drawings.

Referring to FIG. 1, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear hydroelectric power plant. Within the range of 1,200 km from the center of the Korean Peninsula and including a radius of 2,400 km, common land and reclaimed landfills are divided into three circles, each of which is divided into 360 circles ranging from 1 ° to 360 °. The round one-way form is located in Northeast Asia 3000, which is located in Northeast Asia No. 3, which is located in Northeast Asia with a radius of 200M from the center of the Korean peninsula, A new concept of the Northeast Asia Northeast Asia Nuclear Hydroelectric Power Plant with dual structure block tank dust collector A composite structure representing the present invention showing elemental characteristics of a dispensing apparatus of a nuclear reactor disposal facility for nuclear waste treatment,

Referring to FIG. 2, there is shown a nuclear hydroelectric power plant 811 having a dual structural block tank dust collector according to the present invention, which is installed inside a main body 1 of a nuclear reactor waste disposal reactor, The Land Mine Removal Control Department has a circular one-way form to explain in detail the constitution of administrative capitals in the Northeast Asia New South Korea, which is composed of the unified Korean map of land number 45 in Northeast Asia, Is a nuclear reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant at a distance of 200M from the center of the Korean peninsula, The detailed map of the unified Korea lot area showing the characteristics of the embodiment of the dispensing apparatus of the present invention,

Referring to FIG. 3, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor, A dispute for explaining the shared landfill 995 and the shared surface landfill 996 design plan formed before and after the common water surface embedding process illustrating a prior art embodiment constituting the territorial dispute resolution adjusting section 811y including Territorial Boundaries between States Parties Territorial Boundaries in accordance with the Convention on International Maritime Legislation between States Parties illustrating the Conventional Example in cross section in accordance with the International Maritime Code,

Referring to FIG. 4, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. The territorial dispute resolution control unit 811y, which is a constituent feature of the conventional example constituting the territorial dispute resolution control unit 811y, includes a common and shared sleeping territorial dispute resolution control unit 811y, Development (957) shared landfill sites in the Himalayan Mountains of the shared landfill and oceanic hydroelectric power plant connected to the satellite control unit (811z) for prevention of nuclear radiation contamination. Side configuration Road,

Referring to FIG. 5, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor apparatus for a marine nuclear power plant, The landfill site 957 of the Himalayan Mountains of the shared reclaimed landfill and the shared landfill showing the elemental characteristic that constitutes a prior art embodiment constituting the territorial dispute resolution control section 811y including The territorial dispute resolution control section 811y, which provides a detailed description of the state, And a satellite control section for preventing radioactive contamination of the nuclear power station, the detailed state of the moving state of the marine nuclear hydroelectric power plant of the landfill treatment,

Referring to FIG. 6, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention includes a main body 1 of a nuclear reactor waste disposal facility Containment Dispute Resolution Regulations and Space Development Including And a satellite control section for preventing nuclear radioactivity contamination of the marine nuclear hydroelectric power plant to illustrate one embodiment of the embodiment of the present invention.

Referring to FIG. 7, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, The nuclear waste disposal unit 811a to the territorial dispute resolution control unit 811y and the electronic sensor valve screw control unit 811aa including the nuclear waste disposal unit 811aa of the nuclear power plant combined with the facility control unit of the floating- The double pipe structure of the double pipe structure of the block Piping line control shaft (238) Electronic sensor Valve screw control and disaster prevention Preventive control and forest fire Prevention of natural disaster Prevention of territorial dispute Resolution control unit and space power generation And a dual structure block tank which shows elemental characteristics of a common surface and a shared water surface embedding processing device connected to satellite control parts for preventing radioactive contamination of the nuclear reactor main body of the distribution device for nuclear waste treatment for a nuclear waste hydro- (1) Side and cross-sectional configuration of the common surface and shared water surface treatment process of the marine nuclear hydroelectric power plant showing the composition of the elemental detail enlargement characteristics of the distribution input device of the nuclear waste disposal facility of the marine nuclear hydroelectric power plant constituting the inside ,

Referring to FIG. 8, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear waste hydro- The nuclear waste disposal control unit 811a and the territorial dispute settlement control unit 811y and the electronic sensor valve control unit 811aa including the nuclear power generation nuclear waste treatment unit 811a and the territorial dispute resolution control unit 811y, Sectional divisions between territories of the parties to the dispute to explain in detail the shared landfill connected to the valve screw controls (811aa) and the shared landfill site of the marine nuclear hydroelectric power plant formed before and after the shared water surface landfill process. Territorial Boundaries between Countries of the Parties to the Dispute that Illustrate One Embodiment Section Detail Section Enlargement Section Construction Road,

Referring to FIG. 9, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector according to the present invention, The double pipe structure of the nuclear waste disposal of the nuclear hydroelectric power plant combined with the equipment control part of the construction machine, including the float-type diversion hull structure, the electronic sensor valve control part of the block pipe line control shaft (238) and the disaster prevention preventive control part The dispute settlement control department and the space development And a common structure connected to satellite control units to prevent radioactive contamination and an example formed before and after the process of a shared water surface landfill, Detailed description of landfill process of shared landfill and shared reclamation landfill, which constitutes distribution input device of reactor facility for nuclear waste disposal of marine nuclear hydroelectric power plant with block tank dust collector.

Referring to FIG. 10, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, The nuclear waste nuclear waste disposal unit 811a to the territorial dispute resolution control unit 811y and the electronic sensor valve screw control unit 811aa including the nuclear plant hydroelectric power plant nuclear power unit combined with the facility control unit of the floating- The double pipe structure of waste treatment block pipe line control shaft (238) electronic sensor valve screw control part and disaster prevention preventive control part and forest fire natural disaster preventive control part showing territory dispute resolution control part and space power generation And a common structure connected to satellite control units to prevent radioactive contamination and an example formed before and after the process of a shared water surface landfill, Detailed description of landfill process of shared landfill and shared reclamation landfill, which constitutes distribution input device of reactor facility for nuclear waste disposal of marine nuclear hydroelectric power plant with block tank dust collector.

FIGS. 1 to 10 are schematic views of a nuclear hydroelectric power plant (hereinafter referred to as a "nuclear power plant") 1 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear hydroelectric power plant having a double structure block tank dust collector, The shared landfill 945 and the shared surface landfill 946 of the reactor facility for nuclear waste disposal of the present invention.

As shown in FIGS. 1 to 10, a shared landfill apparatus constituting a distributing and inputting device for a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structural block tank dust collector inside the territory of the new Korean Federal State (989) (945) and the shared surface landfill (946)

China has land area of 239,085 ㎢ and sea area of 188,377 ㎢, total area is 427,462 ㎢,

Russia has a land area of 3,566 ㎢ and a sea area of 54,137 ㎢ with a total area of 57,703 ㎢,

Japan has land area of 32,229 ㎢ and marine area of 143,061 ㎢, total area is 175,360 ㎢,

North Korea has land area of 120,000 ㎢ and sea of 132,704 ㎢, total area is 252,704 ㎢,

South Korea has a land area of 100,000 ㎢ and a sea area of 283,205 ㎢ with a total area of 383,205 ㎢,

The total area of land area is 494,550 ㎢ and the sea area is 801,484 ㎢. The total area is 1,296,434 ㎢, and the double structure block tank dust collector of the landfill range when the total area of each country is subdivided within a radius of 600 km from the center of the Korean peninsula (1000) (1) of the Nuclear Waste Treatment Nuclear Hydroelectric Power Plant of the Marine Nuclear Hydroelectric Power Plant (1) Distribution of the Nuclear Reactor Nuclear Reactor Facilities of the Marine Nuclear Hydroelectric Power Plant Including the Shared Landfill (945) and the Shared Reclaimed Landfill 946) areas.

      In addition, as for the producers, in the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector while preventing the territorial dispute and the armed war in advance,

      As shown in FIG. 1 to FIG. 10, the landfill apparatus constituting the interior of the common and shared water surface embedding process control unit is constructed in such a manner that the water surface of the common water surface To establish a peaceful coexistence between the Northeast Asian neo-Confucian states that guarantees full halt of hostilities and all-out acts on the Korean Peninsula surrounded by Russian territory in China and Japan in Northeast Asia, part of the Pacific region formed in Huxi, Area North Latitude 38 degrees 20 minutes 00 seconds, Tokyo 127 degrees 17 minutes 00 seconds, Kangwon-do, Cheolwon-gun, Gangwon-do, Gangsan-ri,

      As shown in FIG. 1 to FIG. 10, in the center of the Korean Peninsula No. 1 in Northeast Asia located at the inside of the main body 1 of the distribution apparatus of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector In the Northeast Asia 3000, there is a nuclear reactor installed at a nuclear power plant in accordance with the installation location of the inland riverside of the global village and the seashore of the coast. The nuclear facilities are not safe from natural disasters, The nuclear power generation industry has had the worst consequences, and once the companies that manufacture these reactors have been working to replace the maritime transportation alternatives of the recently developed common and shared water surface treatment devices to meet the reliability of electric power consumers. Double structure block included as distributing device of mounted construction machine Distribution of the Nuclear Waste Treatment Plant of Marine Nuclear Hydroelectric Power Plant Having a Large Dust Collector Dual Structure Block Tank Consisting of the Inside of the Main Body Distribution Tank of the Nuclear Waste Treatment Reactor for Marine Nuclear Hydroelectric Power Plant Having a Dust Collector Pre- .

      In a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the dual structure block tank dust collector,

      As shown in FIG. 1 to FIG. 10, the nuclear reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector corresponds to the fourth wall of the reactor constituting the inside of the main body 1 of the distribution reactor And a reactor wall corresponding to the fifth wall Drilling machine and machine with a certain 45 ° angle at the upper part of the building Drilling machine and machine Turning machine, computer machine and construction machine After crane and conveyor processing, In the through hole, a block pipe line of a double pipe structure is constituted, and a plurality of safety valves are provided in the block piping line as bolts, nuts and gaskets, connected to the flange of the double structure block tank, To construct a double-structured block tank of double the diameter of the reactor building, a radiation-like connection structure with a block tank for nuclear waste treatment storage The Castle.

      On the other hand, a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

      As shown in FIGS. 1 to 10, a common surface and a common water surface embedding processing unit constituted inside the main body 1 of the nuclear reactor waste disposal reactor facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, , The distribution equipment of the construction machine installed in the marine traffic substitute ship shows the safety designing process of the nuclear reactor at a very safe level with respect to the safety and economy of the nuclear power. At the same time, Of the world's nuclear power plants with the best nuclear safety and economics to restore the credibility of power consumers with the distribution equipment of the construction machinery installed in the nuclear power plant. Of the double structure block tank reactor to control the distribution As a result of research and development, we have been working on designing and testing solutions for the safety and economics of nuclear power plants. Many hydropower plants and a large number of nuclear reactors have been operating nuclear reactors. Dual structure block tank to control leaks Dual structure to distributing equipment of construction machine installed in alternative vessel for marine transportation of common and shared water surface treatment equipment which is constituted by improving power efficiency of production process of nuclear reactor dust collector dispensing device A double-structure block tank consisting of a nuclear reactor waste disposal unit for a marine nuclear hydroelectric power plant having a block tank dust collector, and a dual structure block tank reactor for the nuclear waste disposal unit of a marine nuclear hydroelectric power plant having a dust collector, Nuclear power plant nuclear waste disposal reactor facilities and territorial disputes A number of landmine explosives buried in the military area with switchover to small methods are used for the safe removal of common landfill and landfill landfill. Efforts were made.

As shown in Figs. 1 to 10, the distribution of the reactor facilities of the nuclear power plant constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor for the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the charging device,

A double structure block tank having a size twice as large as that of the nuclear reactor building formed on the outer wall surface of the nuclear reactor building is provided with a hollow space for a nuclear waste disposal storage block tank while a double pipe structure block piping line The block piping line is provided with a radiation type connection structure and the floating type docking nuclear power plant of the marine power plant is provided with a plurality of nuclear plant nuclear power plants, Dual structure block tank to control leakage of nuclear radiation Leakage of the offshore power plant of the distribution power plant and connection structure of the marine power plant Construction machinery with the base for the installation of the anti-sinking detoxification dock and the table equipment table Equipped with the same barge hulls, the same as a table leg Holding tank blocks of Line ship will provide a nuclear reactor facility in marine operations to spread easily pinch all the blocks holding tank of the barge hull at sea level positions in construction machinery.

As shown in FIGS. 1 to 10, a barge ship hull at the top of the sea surface can be easily pushed and unfolded by anyone in the holding block tank of the barge hull. The barge hull position shifting control device and the bucket control device Of the nuclear power plant of the marine nuclear power plant equipped with a dual structure block tank dust collector for further operation of the reactor equipment of the construction machine mounted on a ship for replacing the marine traffic of the common land and the shared water surface treatment apparatus. The installation of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant equipped with the double structure block tank dust collector constituting the inside will be provided.

As shown in FIGS. 1 to 10, the distribution input apparatus for the nuclear waste disposal facility of the marine nuclear hydroelectric power plant having the double structure block tank dust collector is installed in the main body. The system is equipped with a dual-structure block tank dust collector and a distribution input device for the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant. It is designed to continuously control the flood control of floods and droughts by the land and sea. The weather forecast is broadcast promptly through efficient broadcasting.

As shown in FIGS. 1 to 10, a large-sized block tank dust collector is installed in the main body of the distribution apparatus of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant, , A number of natural disasters such as heavy snowfall, typhoons, typhoons, earthquakes and tsunamis, landslides, and nuclear radioactive contamination have been installed in distribution facilities of reactor facilities for nuclear waste disposal to prevent many natural disasters,

A dual structure block tank disposal unit for the nuclear waste disposal of a marine nuclear hydroelectric power plant, and a landfill apparatus for overcoming flood damage from the disaster while avoiding a plurality of artificial territorial disputes and armed conflicts, To ensure the complete suspension of hostilities and all acts of violence in Korea surrounded by Russian territory in China and Japan in Northeast Asia as part of the Pacific region. To build a peaceful coexistence with peaceful coexistence of peaceful coexistence with peaceful coexistence of peaceful coexistence and peaceful coexistence of the North Korean nuclear state For the treatment of nuclear waste constituting the inside of the dispensing device of the reactor facility Provide for the introduction of the dispensing device of the construction machine for removing the double pipe structure mine as the dispensing device of the reactor facility.

As shown in FIG. 1 to FIG. 10, a nuclear water reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector is constructed inside a distribution input device body of a reactor facility for nuclear waste disposal A construction machine for the removal of a double pipe structure mine that has been converted into a territorial dispute settlement method, which is designed to be a new concept of unified Korea formed by the Unification Korea Land Cadastral Cadastre, while safely removing many mine explosives buried in the military area. And the distribution input apparatus of the construction machine for removing the double pipe structure mine is included in a common and shared water surface embedding processing apparatus for a plurality of construction machines having a double structure block tank The system for disposing of the construction equipment for the removal of double pipe structure mines, which constitutes a dual pipe structure mine removal construction machine including a nuclear water treatment reactor facility of a nuclear power plant in a marine tunnel transportation device of a marine traffic alternative ship, It is possible to inject the amount of sediment collected by providing the input, By connecting the ocean to a single location, consumers can control the landfill treatment at the location of the upper deck (SDU) of the dock hull deck of a marine nuclear power plant according to their preference, It is equipped with a distributing and inputting device for the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a double structural block tank dust collector to prevent territorial disputes and armed wars.

As shown in FIGS. 1 to 10, the upper part of the deck hull deck of a marine nuclear hydroelectric power plant constituting the inside of the distribution apparatus of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector SDU) is located in the upper part of the sea surface of the shared land reclamation land for the industrial development of trade control, and the marine tunnel transportation equipment is provided with the control of the growth of the steel industry in parallel with agriculture, industry and fisheries. And the marine tunnel transportation equipment of the marine traffic alternate vessel which controls the distribution of the world economic logistics in the Northeast Asia, and to improve the production efficiency before and after the common land and shared water surface treatment process, Nuclear reactor of marine nuclear hydroelectric power plant with double structure block tank dust collector for preparation of foundation Distribution chute line of a construction machine for mine clearance having a double pipe structure composed of an internal distribution input apparatus main body of the reactor equipment for the vessels to provide a process input.

      As shown in FIG. 1 to FIG. 10, a double structure block tank is provided in the main body of the dispensing apparatus of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector. The distribution and input device of the nuclear reactor waste disposal facility of hydroelectric power plant is transferred to the control equipment of the nuclear fuel explosion prevention control of the construction machine mounted on the alternative transportation ship for the common land and the shared water surface landfill processing apparatus to prepare the nuclear waste storage, The use of the shielding concept of the defense concept of Nuclear Safety Engineering to block and shield the nuclear radioactive contaminants, while preventing the leakage of the nuclear fuel radiation to the outside of the nuclear reactor dust collector and the nuclear fuel explosion prevention reactor It is buried in the military area while performing the primary prevention of nuclear fuel explosion. Double structure block for safe removal of mine explosive explosives Block structure of double structure of common and shared water surface disposal device equipped with connection structure of construction machine mounted on alternative transportation ship while controlling landmine explosive treatment inside tank Double structural block tank with control of nuclear waste and landmine explosive treatment and dual structure block tank mounted on alternative marine transport vessel Double structure block of tank reactor for nuclear waste treatment of marine nuclear hydroelectric plant with dust collector Block tank In order to deal with the nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with dual structure block tank dust collectors of land and sea as a type connection structure, it is necessary to construct a double structure block tank dust collector Of Nuclear Waste Treatment Reactor for Marine Nuclear Hydroelectric Power Plant It is manufactured at a remarkable difference from the previous technology by providing a distribution input device for the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structural block tank dust collector constituting the distribution dispensing apparatus main body.

As shown in FIG. 1 to FIG. 10, in a nuclear reactor unit for nuclear waste treatment of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to an embodiment of the present invention, A nuclear waste disposal unit 811a, a power generation and production unit 811b, a traffic transportation unit 811c of the construction machine, and a power transmission unit 811d for transmitting power, which are included in the nuclear hydroelectric power plant 811, ), A nuclear power plant safety control and management production electric field section 811e, an electronic control regulating apparatus construction machine control section 811f, a screw control section 811g, a disaster prevention prevention regulating section 811h, An accident prevention section 811i, a yellow dust natural disaster prevention section 811j, a snowfall natural disaster prevention section 811k, an extinction natural disaster prevention section 8111, a typhoon natural disaster dictionary Prevention control section 811m, a flood prevention countermeasure preventing section 811n, a drought A landslide natural disaster prevention control section 811p, an artificial fish and shellfish scattering control section 811q, an artificial fish and shellfish moving control section 811r for controlling the movement of fish and shellfish inside the tunnel, A ground water depth control unit 811t connected to the control unit of the tunnel fish and shellfish scattering control unit 811s, groundwater and deep sea water volume supply control unit 811t for controlling groundwater and deep sea water volume supply control, (811v), a postal service transport control unit (811v) which prepares postal services after establishing individual postal codes by forming individual parcels, and an international society The Free Trade Department of the issuance of currency, the credit control section of the check bond free trade service of the international community currency, the territorial dispute resolution control section 811y, And an electronic sensor valve screw control unit 811aa, which are connected to the facility control unit 811a of the floating type poison ship hull moving and construction machine, and a nuclear hydroelectric power plant The double pipe structure of the nuclear waste disposal line 238 is provided with a connection structure of the distribution input device of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector for the nuclear waste control Consists of.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (811y) of the territorial dispute settlement control unit (811y) includes a tranquil relief type Northeast Asia new Korean federal state consisting of a unified Korean territorial intellectual land number 45 in Northeast Asia composed of a common land and a shared water surface embedding process. The 1-car form is called A-45, which is divided into 200 km distance from the center of the Korean Peninsula and 36 km from the northeast, 1 km radius and 1 km radius and 18 km radius. The total area of the United Nations national capitol is set at 1000 ㎢, and a radius of 600 km from the center of the peninsula is called Northeast Asia 1500 and a radius of 1200 km distance range is called Northeast Asia 3000, and it will be explained as follows by dividing the total area of each country by the countries that have gathered the territories of the ancient sovereigns' peace sovereignty territories around each Korean Peninsula.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, ), The land dispute resolution cancellation controller 811y includes the land dispute resolution control unit 811y, which is located within a radius of 600 km from the center of the Korean Peninsula and a radius of 1,200 km from the center of the Korean Peninsula,

China has land area of 239,085 ㎢ and land area of 188,377 ㎢ with a total area of 427,462 ㎢. At the same time, Russia has land coverage of 3,566 ㎢ on land and 54,137 ㎢ on total area of 57,703 ㎢, 32,229 ㎢ and 143,061 ㎢ in total, and land area of 175,360 ㎢. North Korea has land area of 120,000 ㎢ and land area of 132,704 ㎢, totaling 252,704 ㎢, while South Korea has land area of 100,000 ㎢, 283,205 ㎢ with a total area of 383,205 ㎢, the land area for the preparation of the founding of the new federal state in the whole of the new federation of Northeast Asia ,

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, ) territorial dispute resolution adjusting unit (811y) Northeast Shin Shin Korea Commonwealth countries founding the preparation of the Korea Federation Areas There is an area totals 1,296,434 ㎢ a land area totals 494,550 ㎢ and marine 801,484 ㎢ by including a radius 600 km away from the peninsula center Of the total area of each country, and the landfill coverage when the radius is set at a distance of 1,200 km from the center of the Korean Peninsula.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The territory dispute resolution control section (811y) of the new Korean federal state includes 221,336 ㎢ land area and 10.6% land area, and China has land area of 1,558,045 ㎢ and the ratio is 74.7%. Land area is 2,080 ㎢ and area ratio is 0.1%. In Japan, land area is 304,501 ㎢ and area ratio is 14.6%. Land area is 2,085,989 ㎢ and sea area is 2,435,611 ㎢, total area ratio is 100%, total area is 4,521,600 ㎢. The Nuclear Waste Treatment Plant of the Marine Nuclear Hydroelectric Power Plant with dual structure block tank dust collector, which is a new concept of the United Nations, which occupies 46% of the total area and occupies 54% Distribution of the reactor equipment for the chute body (1) resolving territorial disputes, including the nuclear power hydropower plants portion 811 constituting the internal control unit (811y) There are lines mine clearance land reclamation process of the New Korea Commonwealth countries Areas After adjustment.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The area calculation is performed using the Internet image and may be different from the actual area. In the center of the Korean Peninsula, each of the 3000 circular forms in the center of the peninsula is 1 ° to 360 ° By forming a new concept of United Nations integrated nation which is divided into 360 fields and forming each parcel, and after unified postal code with divisional lot number, and the united Korea map numbering up to 3000 Northeast Asia constituting postal service execution, The land mine dispute resolution control section 811y included in the nuclear hydroelectric power plant section 811, which is configured to achieve world peace with Northeast Asia, Jersey military forces of the expansion of our country that causes previous territorial disputes and Dokdo laid the territorial share of the New Korea Commonwealth countries Areas across all our land, spend it Koo leaders and its people in our land, the parties to the dispute is mutual (1) inside the main body (1) of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a double structure block tank dust collector which is configured to automatically perform peace in Northeast Asia This is characterized by the provision of a distribution input device for a reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector with a peace keeping structure.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The territorial dispute resolution coordinator (811y) included in the territorial dispute resolution coordination section (811y) included the territorial disputes parties to the Northeast Asia region in June 1950, after the World War II, Even after more than six decades of unraveling the collective war criminals who caused the Korean War in the eastern court office before and after the Korean War on 25th, the dispute of the Senkaku Islands, Conflict, the Vietnam War, the Himalayan Tibetan Plateau, and the forced integration of the weak countries, Panmunjom ax blast incident in 1977, The need for the abduction of the past, the recent Cheonan incident, the Yeonpyeong Island bombing, and the nuclear frenetic nuclear threat incident in March 2013 have all become urgent, and the so-called " Even if the people are extinct, the highly developed Peaceful Coexistence Treaty treaties and amendments to the Constitution will make the people of the defeated peoples alive and permanently alive, even though the new state of the Union, which is a United Nations integrated state, disappears. In preparation for the founding of the new federal state in the whole of the New Republic of Northeast Asia, which constitutes the purpose and purpose, the landfill materials of the Highland Reclamation Center are located within a radius of 1,200 km from the center of the Korean peninsula, Equipment with a construction machine, said moving means being capable of reciprocating in each main tower A cable car 256 equipped with a wiper and a crane is installed to constitute a distribution input device of a construction machine as a lifting device to lift the construction machine for removing the double pipe structure mine,

As shown in FIG. 1 to FIG. 10, the unmanned land demilitarized land and the shared water surface landfill process are prepared. In the whole of the Northeast Asia New South Korean nationwide area , (1003), the demilitarized zone (1003), the southern marginal zone (1042), the northern marginal zone (1043), the interim action zone of Korea and China (1045), the straight baselines (1046), EEZ (1047) for Korea to claim that China claims, EEZ (1048) to the Japanese claim, the former Marine Act, which consists of one day middle zone (1051) are the Northeast new Korea federal legislation to having a new chapter in the country Areas plateau toseok collected will be permanently destroyed, as gukho disappears Northeast Asia peace yijunggu for automatic Pirate peacekeeping equipped with a place so laid territorial reclamation process Block Tank precipitator of marine nuclear power hydroelectric plants provided the solution dual structure blocks tank precipitator having a distribution chute of the reactor facility for nuclear waste disposal in the marine nuclear hydroelectric power plant equipped with internal territories established new to Korea Commonwealth countries founding ready line to The shared landfill and the shared reclaimed landfill included in the nuclear hydroelectric power plant unit 811 constituting the distribution dispensing apparatus main body 1 of the nuclear waste disposal facility and the border line 1041 and the shared sleeping landfill site 1004 are permanently immobile do.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (811y) of the Territorial Dispute Resolution Settlement Division (811y) includes a new concept of a new concept that changes the ODA to land and changes the ODA to ODA when any one country rejects or cancels the mutual agreement of the parties to the territorial dispute. The position of SDU at the top of the deck of the dock of the Nuclear Hydroelectric Power Plant, which is composed of peaceful forms to be a unified country, is embedded in the marine tunnel transport device composed of the upper part of the sea surface and the lower part of the sea surface And a nuclear waste disposal site of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector (1) The dual-structure block tank reactor with a dust collector is equipped with a distribution and input device for the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant, Nuclear waste disposal reactor of marine nuclear hydroelectric power plant with dual structure block tank dust collector inside the territory of the new Korean federal state in the area of 2,400 km (1050) in diameter, which constitutes a distance of 1,200 km (1083) from the center. it is characterized by providing for the construction of a distribution chute of the line equipment prepared to perform new Korea national Union countries.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The territorial dispute resolution coordinator (811y) included in the Territorial Dispute Resolution Settlement (811y) shall comply with the Northeast Asian peaceful coexistence conditions and regulations described in the following items formed before and after the common land and water surface embedding process, And Russia and Japan agree to jointly or jointly prepare for the establishment of a new Korean federal state, and the intent of these terms and regulations is to prevent the expansion of military power in our country causing purely territorial disputes, (963), but in order to solve the territorial dispute purely peacefully, one of the new concepts The leaders of the peace-keeping states, which are composed of the United States, destroyed all the agreements and treaties between the analog system states before and after the Korean War, and destroyed 2,400 km (1050) of the 1,200 km (1083) Within the scope of the scope, there are arrangements between the digital system nations and arrangements for the treaties, so as to provide a distribution and input device for the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant equipped with double structure block tank dust collector inside the territory of the preparation of the new federal state So It is necessary for those skilled in the art to do their best to maintain peace in Northeast Asia by establishing the foundation of the nation.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, ) Of the nuclear disposal facility of the marine nuclear hydroelectric power plant equipped with a double structure block tank dust collector constituted at a time before and after the common land surface and the common water surface embedding process in the territorial dispute resolution control section 811y In the Northeast Asia region,

Hoping to consolidate the peace mechanism and to defend itself against attacks from the outside in order to prevent any potential invaders from having hallucinations that any one of the States is isolated in the Northeast Asia region of the Pacific Ocean. And to strengthen the efforts for collective defense to maintain peace and security until the development of a more comprehensive and effective regional security organization in the Pacific Northeast Asia. Parties that wish to occupy the former territory of the Republic of Korea shall establish a seal of ratification in the ratification of the Convention by the United Nations Organization (990) with the guarantee of land, including the territorial sea, including the territorial sea, The distribution of nuclear reactor facilities for the treatment of nuclear waste before and after the water embedding process Double structure with dual structure block tank dust collector constructed inside the mouth unit The double structure with a distance of 1,200 km (1083) from the center of the Korean Peninsula (1000) to the distribution input unit of the nuclear waste disposal facility of the marine nuclear hydroelectric power plant It is characterized by having a distribution facility for the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power station with a block tank dust collector, and for the payment of royalties to the federation of the United Nations within the range of 2,400 km (1050) .

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The territorial dispute settlement control section 811y includes all territorial waters formed before and after the common landfill and landfill process, and the territorial dispute settlement control section 811y includes primarily territorial disputes, The Northeast Asian all-territorial waters will be used as land for the earth's crustal deformation and deformation of the earth's crust, as the distribution equipment for the nuclear waste disposal reactor of marine nuclear hydroelectric power plant equipped with double structure block tank dust collector , And the land is the territorial sea of the earth and the earth, (963), which is composed of Nuclear Power Plant's nuclear waste disposal facilities, which are equipped with Nuclear Power Plant's nuclear waste disposal facilities, Of the production and transportation of military goods,

As shown in FIG. 1 to FIG. 10, the international peacekeeping operations under the United Nations Organization (990) can be used to search for and retrieve logistics goods between foreign countries and foreign countries from the Yalu River to the Tumen River, And the establishment of checkpoints to ensure the security of the international peacekeeping force, each country should provide convenience to the international peacekeeping forces,

As shown in FIGS. 1 to 10, ships and submarines, fighter planes and vessels of both North and South Korean military goods inside Northeast Asia are supplied with fuel and weapons under the control of the International Peacekeeping Force,

As shown in FIG. 1 to FIG. 10, within the Northeast Asian region, each state is required to prepare for entry and exit of nuclear carriers, ships and fighters under the control of international peacekeeping forces,

As shown in FIG. 1 to FIG. 10, by providing the power and authority of the peacekeeping force, a reactor structure for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting a construction machine of a digital system (1050) with a distance of 1,200 km (1083) from the center of the Korean peninsula (1000) before and after the process of common landfill and reclamation method. Distribution and sharing of reactor facilities for the nuclear waste disposal of a marine nuclear hydroelectric power plant Nuclear waste water treatment plant for marine nuclear hydroelectric power plants with dual structure block tank dust collector, A reactor for the treatment of nuclear waste at a marine nuclear hydroelectric power plant equipped with a double structure block tank dust collector before and after the water surface treatment process Distribution line provided In the international peacekeepers mine clearance carried out in the control device formed of the is characterized by.

     1 to 10 are diagrams illustrating a dual structure of a nuclear reactor main body 1 of a nuclear reactor plant for treating nuclear waste of a marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention. A double structure block tank with a concept of in-depth peace keeping in the Northeast Asia region formed at the time before and after the common and shared water surface treatment process, to the distribution input device of the nuclear waste disposal facility of the marine nuclear hydroelectric power plant having the block tank dust collector, In order to solve the question of a person skilled in the art about a common water surface filling process and a common water surface disposal apparatus for a reactor installation for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dust collector, the details will be described as follows.

      As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, ), The territorial dispute resolution control unit 811y is provided with a double structure block tank dust collector which is provided so that all the territorial waters formed at a time before and after the common land surface filling process are deformed to land, A number of shared water surface reclamation design schemes were built before and after the shared water surface reclamation process of the distribution reactor of the treatment reactor facility and crossed the central area of the gold coin administrative office and the cotton farm center in Pyung River and Cheorwon, And a nuclear waste water treatment plant of a marine nuclear hydroelectric power plant having a double structural block tank dust collector Configure the Military dividing line 1002, one of the reference point determined to consist of the distribution into the input device body (1) of the equipment, and

     As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The territory dispute resolution control section 811y included in the territory dispute resolution control section 811y has a total area of 2,400 km (1050), which is a distance of 1,200 km (1083) from the reference point, to a territory of 4,521,600 ㎢, The common water surface embedding design process 1001 includes a common site and a common water surface embedding design apparatus 1001 formed in the shape of a circle of 3000 circles, and each of the water surface reclamation and designing processes is divided into a landfill site and a reclaimed landfill site, Lt; / RTI &

     As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The territorial dispute resolution control section 811y included in the territory dispute settlement control section 811y forms individual parcels by dividing the central point of the peninsula from 360 degrees to 360 degrees, Northeast Asia 3) Radiation-type Uniform Korea Prior to the formation of a new concept of United Nations Unified Country formed by the cadastral map, the water surface treatment process was shared with the landfill and the shared landfill. (997) of the earth ores collected in the distribution facility of the reactor facility for the nuclear waste disposal of the power plant,

     As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, ), The territorial dispute resolution controller 811y is equipped with a flood control device efficiently and quickly in accordance with the weather forecast of the Meteorological Agency which analyzes and analyzes the communication weather information data transmitted from the flood control device and the satellite through the global land and ocean There are a number of natural disasters such as large-scale forest fires, yellow dust, heavy snow, typhoons, typhoons, earthquakes and tsunamis, landslides, Nuclear waste disposal of a marine nuclear hydroelectric plant with dual structure block tank dust collector to prevent artificial territorial disputes, war and terrorism in advance Provided by the distribution chute of a nuclear reactor plant, and by having from disasters for preventing the plurality of artificial territorial and war and terrorism, etc. in advance in the embedding processing unit of the flood overcome system provided continuously perform flood overcome and,

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The territorial dispute resolution control unit 811y includes the methods for controlling flood disaster, and it is composed of methods for controlling hostilities and all forms of armed forces in Korea, which are surrounded by Russian territory in China and Japan in Northeast Asia, which is a part of the Pacific region. In order to establish a peaceful coexistence that guarantees a complete stoppage, it is necessary to establish a peaceful coexistence in the territory of the new Republic of Korea, The United Nations' union, which transforms itself into a new concept of integrated nation formed by the cadastral map, will formally resolve territorial disputes. Methods to form a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector,

     As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The territorial dispute resolution control section 811y included in the land dispute settlement control section 811y includes a construction machine constituted of landfill processing apparatuses having a construction machine with no natural energy to replace the use of oil, a flood control apparatus, A shared landfill including distribution input devices of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank and a distribution input device of the construction machine for removing the double pipe structure mine formed in a shared water surface landfill Of the Nuclear Reactor for Nuclear Waste Treatment of Marine Nuclear Hydroelectric Power Plant with Dual Structure Block Tank Dust Collector Lip treatment process can be characterized in that formed at the front and rear.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, ), The territorial dispute resolution controller (811y) included in the territorial dispute settlement control section (811y) is responsible for the territorial dispute between Northeast Asian countries in order to transform all territorial waters formed before and after the common landfill and landfill process. In case of accelerated implementation, it is necessary to provide peaceful natural resources to prevent natural disasters such as large-scale forest fires, dust storms, typhoons, typhoons, earthquakes and tsunamis, To provide all the territorial waters of Northeast Asia as land and territorial sea as land,

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (971) to the interior of the Northeast Asia Peace Sovereignty Line (963) of the former ancestor, and the territorial dispute resolution control unit (811y) The provision of underground mineral resources and all production of military goods and suspension of transportation,

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (811y) in the territorial dispute resolution control unit (811y) includes the international peacekeeping force under the United Nations Organization, including the border area from the Yalu River to the Tuman River, (974) of both military and civilian materials (971) of North and South Korea to the inside of Northeast Asia by establishing checkpoints and providing security assurance of international peacekeeping forces, , Submarines (975), fighter planes (976), and naval vessels (977) are supplied with fuel and weapons under the control of the International Peacekeeping Force,

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (971), nuclear ship (974), fighter (974), and combat aircraft (971) under the control of the International Peacekeeping Force. 976) are equipped with the input and exclusion of each country to provide the power and authority of the peacekeeping force. By constructing a digital system and sharing the landfill with the shared landfill landfill, ), A double structure block tank house, which provides security under the control of international peacekeeping forces within a range of 2,400 km within a 1,200 km radius and forms a shared landfill and a shared reclaimed landfill The territorial dispute resolution control unit (811y) equipped with a double structure block tank dust collector consisting of the inside of the distribution input unit of the nuclear reactor waste disposal facility of marine nuclear hydroelectric power plant with genuine nuclear power plant, And it can be characterized that it is formed at a time before and after the common land surface filling process with the distribution dispenser of the nuclear reactor facility.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (811y) of the territorial dispute settlement control unit (811y) is located inside the Northeast Asian region formed before and after the common landfill and landfill process, both sides connecting bridges to roads and railways blocked inside the DMZ, (972) for human and material traffic in the Tenjin Mountains and the Gobi Desert, and to participate in the Siberian oil pipeline and gas pipeline burial project, (963) There's an internal territory of the new federal states Korea national canal preparation including a river that passes whales and prawns forming a complex with freshwater and saltwater In the Northeast Asia region, which consists of a new concept of integrated nations, the two sides will set up a free private access permit, and a marine nuclear hydroelectric power plant with the dual structure block tank dust collector, which is formed in a shared landfill and a shared landfill Distribution structure of nuclear reactor waste disposal facility Dual structure block tank built in the main body Common and common water that constitutes the distribution and input device of the reactor facility for nuclear waste disposal of marine nuclear hydroelectric power plant with dust collector Before and after the landfill process As shown in Fig.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (811y) in the Territorial Dispute Resolution Adjustment Department (811y) included in the Northeast Asia Peace and Coexistence Treaty Agreement document which was formed before and after the common land and water surface treatment process, The WIPO International Treaty Organization, which is dead for its descendants to exercise their rights for 300 years, and the 18th President of the Republic of Korea who was elected by the Berne Treaty, was created by the 18th President of the Republic of Korea. Inland, with the intellectual property rights enforcement that is organized inside the shared landfill and shared landfill A double structure block tank consisting of an inner tank main body (1) for the nuclear waste water treatment plant of a marine nuclear hydroelectric power plant equipped with a dust collector, and a nuclear waste disposal system for a marine nuclear hydroelectric power plant having a dust collector And it is characterized in that it is formed at a time before and after the common landfill and landfill treatment process with the distribution and charging device of the nuclear reactor facility.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, ) In the territorial dispute resolution coordination department (811y), the representatives of the Free China and the representatives of North Korea in the Northeast Asia region formed before and after the process of the common land and water surface disposal process, appealed to the United Nations General Assembly for the peaceful coexistence of Northeast Asia In particular, the delegates of the Japanese national delegations who publicly cited the Constitution, and their nationals, are at the point of filing the sovereignty of the Dokdo to the International Court of Justice as the defeated nation of World War II, To prepare for the implementation of a series of measures to prevent disasters such as tsunami and earthquake volcanic eruption, The author prepared the right to the inside of Northeast Asia consisting of one new unified country formed in the interior of the shared water surface embedding device and the marine nuclear power plant with the double structure block tank dust collector, Of the nuclear waste disposal facility for nuclear waste disposal facility (1) Double-structured block tank tank facility for the nuclear waste disposal of marine nuclear hydroelectric power station equipped with dust collectors, And may be formed before and after the treatment process.

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (811y) of the Territorial Dispute Resolution Administration (811y) strictly warns that the Chinese government insisting on the territorial rights of Northeast Asia, which was established before and after the common land and water surface treatment process, was not free from the natural disasters mentioned above The Chinese government has also decided to dispose of the book books of the whole world that marked the East Sea as the Sea of Japan, and to dispose of historical relics such as Goguryeo, Bohai and Baekje, The Northeast Asian Regional Integration Consortium, consisting of one new, The gathering provided a total flux World Heritage Site in the administrative capital in the Northeast 45 Street and

As shown in FIG. 1 to FIG. 10, the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (811y) in the Territorial Conflict Resolution and Control Department (811y) to establish the Cultural Heritage Administration to efficiently manage and preserve the human heritage. As a member of the international community, they should carry out their duties responsibly and dutifully, A double structure block tank built in the main body (1) of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector formed in a shared water surface landfill, a marine nuclear hydroelectric power plant having a dust collector Of the nuclear waste disposal facility of the nuclear waste disposal facility, have.

Hereinafter, the nuclear power plant unit 811 connected to the distribution input device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector of the present invention according to the prior art level, The nuclear waste disposal unit 811a to the territorial dispute resolution control unit 811y and the electronic sensor valve screw control unit 811aa are connected to the facility control unit 811a of the lifting / The double pipe structure of the double pipe structure of the block Piping line control shaft (238) Electronic sensor Valve screw control and disaster prevention Preventive control and forest fire Prevention of natural disaster Prevention of territorial dispute Resolution control unit and space power generation And the satellite control parts for prevention of nuclear radioactive contamination. The hydroelectric power production control part of marine hydro-nuclear power generation and the power transmission control part of the submarine transverse railway substation for the treatment of nuclear waste to provide power transmission. The power of the engine and the generator will be described with reference to the drawings with respect to each compressor, pump, and boiling water reactor (802) structure as follows.

Referring to FIG. 11, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor, The nuclear waste disposal unit 811a to the territorial dispute settlement control unit 811y and the electronic sensor valve screw control unit 811aa including the nuclear waste disposal unit 811a are connected to the nuclear waste disposal unit 811a, (238), the control of the electronic sensor valve screw, the disaster prevention prevention control unit, and the forest fire disaster prevention control unit. And a satellite hydroplaning prevention satellite control unit, which shows the entire structure of the crest of the crest of the crest of the mountain, which is located at the crest of the crane. The hydroelectric power station of the offshore hydroelectric power station and the island tunnel (672a) And marine power plant strabismus control of hull position movement of medium and large sized marine nuclear hydroelectric power plant supporting cat (593,594,595)

Referring to FIG. 12, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention, Double pipe structure of nuclear waste treatment of nuclear power hydroelectric power plant combined with nuclear power generation nuclear waste treatment section (811a) Including nuclear power plant Electromagnetic sensor valve of control shaft (238) Control valve and disaster prevention Preventative control and forest fire Natural disaster dictionary Territorial dispute resolution coordinator and space station And a satellite hydroplaning prevention satellite control unit, which shows the entire structure of the crest of the crest of the crest of the mountain, which is located at the crest of the crane. The hydroelectric power station of the offshore hydroelectric power station and the island tunnel (672a) And the marine power station side structure of the hull locomotion control of the medium and large sized marine nuclear hydroelectric power plant supporting cat (593,594,595)

Referring to FIG. 13, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for a marine nuclear hydroelectric power plant. Double pipe structure of nuclear waste treatment of nuclear power hydroelectric power plant combined with nuclear power generation nuclear waste treatment section (811a) Including nuclear power plant Electromagnetic sensor valve of control shaft (238) Control valve and disaster prevention Preventative control and forest fire Natural disaster dictionary Territorial dispute resolution coordinator and space station And a satellite hydroplaning prevention satellite control unit, which shows the entire structure of the crest of the crest of the crest of the mountain, which is located at the crest of the crane. The hydroelectric power station of the offshore hydroelectric power station and the island tunnel (672a) And the marine power plant cross-sectional configuration of the marine nuclear power hydropower plant (593,594,595)

As shown in FIG. 11 to FIG. 13, a nuclear water hydraulic power plant having a double structure block tank dust collector according to the present invention comprises a main body (1) The double pipe structure of the nuclear waste disposal of the nuclear power hydroelectric power plant combined with the nuclear power generation nuclear waste disposal part included in the facility part 811 The electronic sensor valve control part of the control block shaft 238 and the disaster prevention preventive control part and the forest fire Prevention of natural disaster Prevention of territorial disputes constituting the control section and space development And a nuclear hydraulic power plant part (811) located at the ridge line of the mountain connected to the satellite control parts for preventing radioactive contamination of nuclear power, has a hydraulic structure of a land hydraulic power plant of a stepped dam rotation road and a connection structure with an island tunnel (672a) And mid-sized and large-sized marine nuclear power hydro-electric power plant Hull position movement of marine power plant to move marine power plant hull position movement Construction machinery control Marine power plant body dock Small, medium and large sized marine nuclear power hydro power The marine tunnel traffic device (941), which consists of the interior of the marine tunnel traffic device (941) connected to the bridge bridge (937) and the bridge pier (928) And internal train cars 771.

As shown in FIGS. 11 to 13, the nuclear power generation nuclear waste treatment unit 811a, which controls the hull position movement of the marine nuclear hydroelectric power plant lifting tanks (593, 594, 595) In addition,

A hydraulic rotary cylinder 620 of a rack and pinion type (NRP) which is a rotary cylinder constituting a nuclear power generation nuclear waste processing unit 811a, a butterfly valve 622 for controlling the buoyancy of the band guide 621, The hydraulic cylinder key 623 is provided as a hydraulic cylinder door 624 so that the portable lug 607 and the portable lug pin 608 are provided on the vertical partition wall 605 and the pin linking shaft 606 for engaging the portable lug. (901) to the inside of the marine tunnel transport device (941) to the pipe connection bridge (928) and the pipe bridge (937) to the construction machine connection structure and pipe connection hole (615) A marine tunnel transport apparatus internal railway train 771 including a pipe bridge bridge 928 and a pipe bridge 937 and constituting the inside of a double structure block tank marine tunnel transport apparatus 941 for nuclear waste disposal is constituted.

As shown in FIGS. 11 to 13, the nuclear hydroelectric power plant (1) constituting the inside of the distribution and dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector 811, the nuclear power generation nuclear waste treatment unit 811a,

Control of hull position movement and adjustment of construction machine position in small, medium and large sized hydroelectric power plant floating tank (593, 594, 595) Double structure block tank for nuclear waste disposal with construction machine connection structure and disassembly connection Marine tunnel transportation device (771) of a maritime tunnel transport apparatus internal to the main body (941) of the nuclear reactor, and a damper control unit The nuclear power generation nuclear waste treatment section 811a is constituted in the nuclear power generation facility section 811 including the inside of the reactor 1,

As shown in FIGS. 11 to 13, the nuclear hydroelectric power plant (1) constituting the inside of the distribution and dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector 811) of the nuclear waste disposal unit (811a) of the nuclear power plant, and the electronic sensor valve control unit and the disaster prevention preventive control unit and the forest fire of the double pipe structure block piping line control shaft (238) Prevention of natural disaster Prevention of territorial disputes constituting the control section and space development And a nuclear hydropower generation facility unit (811) located at each ridge line of the mountain connected to the satellite control units for preventing nuclear radiation pollution,

A hydraulic rotary cylinder 620 of a rack and pinion type (NRP) which is a rotary cylinder constituting the nuclear hydropower generation facility 811, a butterfly valve 622 for controlling the buoyancy of the band guide 621, The vertical partition wall 605 and the pin coupling shaft 606 for the portable lug coupling, which are provided as hydraulic cylinder doors 624 in the hydraulic pressure generating key 623 and constitute the distributing and inputting devices of the reactor installation of the nuclear hydroelectric power plant, A large flange connection connector joint portion machining hole 615 on the portable lug 607 and the portable lug pin 608 on the construction machine connection structure and the marine tunnel communication device constituting the pipe bridge 928 and the pipe bridge 937 (908) Hydraulic power generation equipment Double structure block tank for nuclear waste disposal connected with construction machinery connection structure and disassembly connection facility composed of disassembly coupling Marine tunnel transportation device 941), the marine tunnel traffic (1) of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant having an internal electric train (771) facility and a flood control facility and having a double structural block tank dust collector, 811, < / RTI >

Referring to FIG. 14, in a nuclear hydroelectric power plant 811 constituted inside the main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, The electric power production and production unit 811b includes an electronic sensor valve control unit of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear power hydroelectric power plant combined with the nuclear power generation nuclear waste treatment unit 811a, Preventive Control Department and Wildfire Natural Disaster Prevention Prevention Division Control of Territorial Dispute Settlement Department and Space Development And a satellite control unit to prevent radioactive contamination. Diesel power plant to operate as a hydro-power plant. Production of diesel engine and generator. Power generation by each compressor and pump. Construction of electric motor pump with power supply.

As shown in FIG. 14, the nuclear hydroelectric power plant part 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention The power generation and production section 811b includes,

The double tube structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear power hydroelectric power plant combined with the nuclear power generation nuclear waste processing unit 811a constituting the power production and manufacture unit 811b is provided with an electronic sensor valve screw control unit and disaster prevention Preventive Control Department and Forest Fire Prevention of Natural Disasters Prevention of Territorial Disputes in the Control Section And the satellite control unit for prevention of nuclear radioactive contamination, a compressor for supplying power to the diesel engine and a generator of the hydroelectric power plant, an electric motor pump for generating electricity from the construction machine, and a nuclear power plant 811b) to constitute the offshore hydromechanical hydroelectric power plant 943 of the hydroelectric power plant constituting recovery before and after the failure during operation of the nuclear power plant.

The offshore iso hydroelectric power plant 943 constituting the offshore nuclear hydroelectric power plant 811 includes:

The hydraulic aeration turbine pump turbine 943a constituting the offshore iso hydroelectric power plant 943, the Pelton aberration turbine 943b for the large hydro-electric power generator, and the Francis turbine a turbine 943c for the large- Generator and the iso hydroelectric power plant 944, respectively,

The offshore iso hydro power plant (943) equipment constituting the hydro-power plant (943)

A power transmission mechanism including a power transmission line 95, a transformer 96, a power line 71, an air compressor 80, a high pressure storage tank 145, a motor motor body 192, a compressor body 263, a turbine 267, 268, 269, 263, 263, 263, 263, 263, 268, 263, 263, The power generating and manufacturing section (811) included in the marine nuclear hydroelectric power plant section (811) for providing the power production of the dual pipe structure block pipe line adjustment shaft (238) for the nuclear waste treatment of the nuclear power hydroelectric power plant constituting the inside of the apparatus main body (943) facility connection structure of the hydroelectric power station with restoration before and after failure during operation of the nuclear power plant constituting the nuclear power plant (811b).

As shown in FIG. 14, the nuclear waste treatment of a nuclear hydroelectric power plant constituting the inside of the main body (1) of a nuclear reactor waste disposal reactor for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the related art The hydraulic power generation equipment distribution and input device of the hydroelectric power station constituting the power generation and production section 811b included in the marine nuclear hydroelectric power plant section 811 for providing the power production of the dual tubular structure block pipe line adjustment shaft 238 , The water pressure located between the multipurpose dam (680) and the multipurpose dam (680), which store the water of flood control facilities such as dams and hydrangea in the conventional highland reservoirs and rivers to regulate flood and drought At the distal end of the introducing tube 191,

Is connected to the through hole of the multipurpose dam 680 constituting the tip portion of the introduction pipe 191 and the rear end portion of the introduction pipe 191 is connected to the suction port 269 of the head tank 189 having the pressure, A plurality of introduction pipes 191 are connected to the discharge port 270 located at the rear end of the multipurpose dam 189 and connected to the hydraulic power plant located at the lower end of the multipurpose dam 680, (1) of the reactor installation for the nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, (811), which provides the power production of the double pipe structure block pipe line control shaft (238) for the nuclear waste treatment of the nuclear hydraulic power plant constituting the inside of the nuclear power plant It consists of the box electricity production unit hydroelectric plant distribution of hydraulic plants that comprise the (811b) input apparatus.

Referring to FIG. 15, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear power plant. The electric power production and production unit 811b includes an electronic sensor valve control unit of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear power hydroelectric power plant combined with the nuclear power generation nuclear waste treatment unit 811a, Preventive Control Department and Wildfire Natural Disaster Prevention Prevention Division Control of Territorial Dispute Settlement Department and Space Development And the nuclear regulation of the nuclear radioactive contamination combined with the nuclear radioactive pollution prevention nuclear waste processing double tube structure of the block pipe line control shaft (238) showing the entire structure of the hydroelectric power plant inside the body of the hydrostatic generator Francis aberration , Pelton aberration, pump aberration, turbine and guide vane internal assembly model constructions, and strabismus configuration of pump aberration roads,

As shown in FIG. 15, it is possible to prepare a nuclear reactor system for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, Hydroelectric Power Plant's Offshore Ise Hydro Power Plant (943)

The power plant constituting the offshore iso hydro-power plant 943 includes:

A hydro turbine pump turbine 943a constituting the power generation facility, a Pelton aberration 943b for a large hydro-electric power generator, and a Francis turbine 943c for a large hydro-electric power generator, Provided separately with the facility 944,

In the Siiso hydroelectric power plant 944 constituting the large hydroelectric generator,

The hydroelectric power plant constituting the Siiso hydroelectric power plant may be,

A plurality of aberrons and turbines 267, which generate hydraulic energy within the generator 944 to generate mechanical energy to rotate several aberrons and turbines 267 to constitute power production, And a rotational speed detector 944a for the hydrostatic power generator is disposed at an upper end portion of a rotating shaft 198 connecting the turbines 267 and the generator 944 to each other. Below the rotational speed detector 944a, there is an exciter 944b for DC generator which supplies current to the motor coil of the alternator. The exciter 944b for DC generator is pushed A rotary shaft receiving member 944d is positioned below the device 944c for pushing the annular pipe feathers and a stator coil 944f is disposed below the device 944e for pushing the rotary shaft receiving member 944c. Stator frame ( A fan 195 is positioned below the center stator 944h and a braking device ring 944 is disposed below the fan 195. The fan striker 944h is disposed at a center portion of the center stator 944h, A low-speed rotation shaft receiver 944j and a braking device jack 944k and a low-speed rotation shaft receiver 944l are positioned below the low-speed rotation shaft receiver 944l, and a low-speed cooler 944i is positioned below the low- A rotor coil which is a rotating electromagnet constituted on the surface of the rotary shaft receiving portion 944p and the rotary shaft receiving portion 944p and an armature coil for a generator which is a non-rotating coil provided on the circumferential surface of the rotor coil, A turbine 267 and a turbine rotary shaft receiving portion 944n and an impeller 944q located at the lower end of the rotary shaft 198 are installed inside the casing 141 of the hydrostatic power generator 944, Power Generation Connection Structure Nuclear power generation facilities included in the nuclear hydroelectric power plant (811) Composed of a water processing unit (811a) and the electricity producing unit (811b), and

As shown in Fig. 15, in the Francis aberration 943c and the Pelton aberration 943b constituting the Siiso hydroelectric power plant,

The inside of the casing 141 constituting the suction port 269 and the discharge port 270 and the flow volume with the pressure move in the hydraulic power generator 944 while the turbine 267 is different in shape, And the voltage is adjusted in the substation of the transformer 96 of the substation, which is the power transmission unit, so as to control the distribution to each industry,

The pump aberration 943a, which constitutes the iso hydro-hydroelectric power plant,

The hydraulic power supplied from the nuclear power plant is supplied to the pump aberration 943a by controlling the opening and closing of the main valve 265 with the electric power supplied from the nuclear power plant,

The water is moved to the water storage dam 680 located at the upper part of the power plant, and the water is disposed inside the main body 1 of the distribution apparatus of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector (943) facilities of hydroelectric power station to provide recovery before and after trouble during nuclear power plant operation,

(1) Inside the main unit (1) of the nuclear waste water treatment plant of the marine nuclear hydroelectric power plant with dual structure block tank dust collector. (943), the ship's position is shifted to the construction machine control unit, the hydro-hydro power production control unit, the power transmission control unit, the harmful red tide prevention control unit, the disaster prevention prevention control unit, A distributing device of a nuclear reactor waste disposal facility connected to a control section, and a distributing injection device of a nuclear waste disposal nuclear reactor facility having a double structure block tank dust collector equipped with a distribution shaft and a connection shaft connection structure And a nuclear hydroelectric power plant 811 inside the main body 1.

As shown in Fig. 15, in a marine iso hydroelectric power plant 943 constituted inside the main body 1 of the nuclear plant waste disposal reactor facility for a marine nuclear hydroelectric power plant having a dual structural block tank dust collector,

The power plant constituting the offshore iso hydro-power plant 943 includes:

A hydro turbine pump turbine 943a constituting the power generation facility, a Pelton aberration 943b for a large hydro-electric power generator, and a Francis turbine 943c for a large hydro-electric power generator, Provided separately with the facility 944,

The hydroelectric power plant constituting the Siiso hydroelectric power plant may be,

A head tank 189 which is a pressure tank for providing a position above the hydroelectric power plant 943 and an inlet pipe 199 which is a water pressure pipe are connected to a head tank 189 at a suction port 269 in front of the head tank 189 A plurality of aberrators and turbines 267 and turbine rotary shaft receivers 944n and wing wheels 944q for constructing the structure are provided inside the casing 141 of the hydroelectric power generator 944, The nuclear power generation nuclear waste treatment section 811a and the power production and production section 811b included in the facility section 811 are constituted,

In the Francis aberration 943c and the Pelton aberration 943b constituting the hydraulic power plant 943,

The turbine 267 constituting the Francis aberration 943c and the Pelton aberration 943b are different from each other so that the suction port 269 and the discharge port 270 are connected to each other in the casing 141, A plurality of aberrons are rotated while generating hydroelectric power while providing movement in the power supply unit 944, and a voltage is adjusted in a substation of a transformer 96 of a substation, which is a power transmission unit,

The pump aberration 943a, which constitutes the hydroelectric power plant 943,

The hydraulic power supplied to the offshore iso hydro power plant 943 while operating the pump aberration 943a by regulating the opening and closing of the main valve 265 with the power supplied from the nuclear power plant stored in the river, The water storage dam 680 is provided with a movement of water,

In the hydropower generator (944) facility of the offshore iso hydroelectric power plant (943) constituting the distribution input apparatus main body (1) of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector,

The hydraulic power generating unit (944)

And the impeller 143 is attached to the rear of the rotary shaft 192 of the electric motor body 192 and is provided as a prime mover having a connection structure with the power pump 304,

(811) consisting of the inside of the distribution input device main body (1) of the nuclear waste disposal reactor of a marine nuclear hydroelectric power plant equipped with a double structure block tank dust collector constituted by the urine site equipment, A double tube structure of a nuclear waste disposal unit of a nuclear hydroelectric power plant combined with a treatment unit 811a, an electronic sensor valve screw control unit of the control shaft 238, a disaster prevention preventive control unit, and a forest fire disaster prevention control unit Dispute Resolution and Space Development A nuclear power generation nuclear waste disposal unit 811a, a power generation and production unit 811b, a traffic transportation unit 811c of the construction machine, and a power transmission unit 811d And a power transmission unit 811d for transmitting the power of a submarine crossing railway substation for the purpose of nuclear waste disposal to prepare hydroelectric power.

Referring to FIG. 16, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor, A power transmission unit 811d for transmitting power, a nuclear power plant safety control and production production electric power unit 811e, a nuclear power plant nuclear waste disposal unit 811b, Electronic control system construction machine control unit 811f, screw control unit 811g, and disaster prevention preventive control unit 811h, the nuclear waste processing double tube structure block piping line control shaft (238), and a model construction of the internal disassembly assembly of the motor motor.

As shown in FIG. 16, is included in the nuclear hydroelectric power plant unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation, a nuclear waste disposal unit 811a for the nuclear power generation, Control tubular structure of the nuclear waste disposal of a nuclear hydroelectric power plant constituting a connection to the control device construction machine control unit 811f, the screw control unit 811g and the disaster prevention preventive control unit 811h. 238, the electric motor body 192, which is a power motor,

The hood 193 constituting the electric motor body 192 and the fan 195 and the body frame 196 to the snap ring 194 are provided with a body front reinforcing steel plate 197 and a rotary shaft 198 and a rotor assembly 199 The front frame 201 and the frame 202 for motor protection, the terminal box 203, the lifting bolts 204, the terminal box cover 205 and the rear rotation shaft receiving part 200 206, the rear reinforcing steel plate 207, the air gap 208, the fan protecting cover 209, the rotor iron core 210, the stator core 211, and the stator winding wire 212, The generation of power generation is carried out by a power transmission unit and a machine which is powered by a diesel engine generator (268) and has a tackle winch (137) connected to each pump and compressor by a rope or a chain wound around a fuselage Of the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector The nuclear power generation nuclear waste treatment section 811a included in the nuclear hydropower generation facility section 811 constituting the inside of the distribution dispensing apparatus main body 1 and the power motor motor main body 811b provided to the marine nuclear hydroelectric power generation and production section 811b 192) are connected and connected to the facility connection structures.

As shown in Fig. 16, in the facility of the power motor electric motor body 192 constituting the electric power producing and producing section 811b,

A hood 193 constituting the electric motor body 192 and a body frame 196 constituting a casting of the fan 195 and the electric motor body 192 in the snap ring 194 are mounted on the body frame 196 A forward rotating shaft receiving member 200 is provided at a front portion of the center shaft of the rotating shaft 198 and a body of the rotor assembly 199 constituting the circumferential surface of the center rotating shaft 198. [ And the stator assembly 201 is formed inside the body frame 201. An outer surface of the casting frame 202 for protection of the motor after the object is formed is provided with a terminal box 203 and an upper end of the casting frame 202, And a lifting bolt (204) for lifting the electric motor (192)

A screw tab 167 having a predetermined dimension is formed in consideration of the weight of the object by the electric horsepower water constituting the binding of the lifting bolt 204 and the lifting bolt 204 in the form of an O- And a terminal box cover 205 is attached to the terminal box 203 after four screw tabs are installed in the terminal box 203. A rear rotation shaft receiver 206 is provided behind the rotation shaft 198, A rotor 208 and a fan cover 209 for protecting the fan are provided with a rotor iron core 210, a crank 248 attached to the rotating body, and a link stand (not shown) connected to the crank 248 249 are provided with a sprayer 250,

(Having a size of 6 mm x 6 mm x 6 mm and a length of 60 mm, 254) of the fixing pin hole 20 constituting the front portion of the rotating shaft, 250) A fixed pinhole (width × length × height × length: 3 mm × 3 mm × 3 mm × 80 mm, 20) constituting the inside of the central machining hole is formed by half of the rotation shaft fixing pin hole and the pressing pin hole After the fin pin hole is machined and aligned with the fixing pin hole during assembly, the fixing pin 254 is disassembled and assembled by means of a hand tool finer,

In the fixture pin 254 constituting the electric motor body 192,

The stator core 211 and the stator winding 212, which constitute the fixture pin 254,

A motor pump is attached to the inner surface of the body frame and attached to the processing hole 20 of the fixing pin 254 of the impeller 143 without the pulley 250. The motor 251 is connected to the piston 251 by a reducer 251 and a belt 252 127) attached to the circumferential surface by a plurality of cylinders (126) is a compressor and is connected to a pump and a compressor. A nuclear disaster prevention countermeasure measures a distribution device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant. Device.

As shown in Fig. 16, in the nuclear power generation nuclear waste treatment section 811a and the power motor motor body 192 constituting the power production and production section 811b,

 In the operation of the impeller of the motor motor rotary shaft 198 constituting the power motor motor body 192,

(2) Booster pump control box installed in front of the left and right sides of the pump inside the industrial field machine room where the water pressure of the incoming fire water is compressed and stored. (2) Suction joining piping (3) and joining piping (4) (189) and is provided with a dis- tribution pipe which is a means of conveying fire water, and is provided with a dis- charge pipe from the tail of the head tank to the lower mountain at the top of the mountain peak ridge, Disaster prevention piping is provided,

The plastic vinyl coating material constituting the disaster prevention piping (14) is provided with flow pipes having a diameter of 350 mm and is light and long in life that can be transported by manpower. In the event that the rainy season is overflowing with valleys due to heavy rainfall, The disaster prevention piping 14 including the disaster prevention pipe 89 and the disaster prevention waterway 17 at a constant inclination angle 16 for every mountain line of a certain size (width × height × width × height = 1M × 1M) (129). The fire-fighting piping line (168), which runs along the valley mountain mountain range, is constructed by rotating the balloon from 360 ° to 360 °, A rudder 35 and a piping connection elbow or a tee elbow 44 are provided at a lower position of the collecting tank 34 of the disaster prevention waterway 17 in the form of the latching and tumbling device 129, And is connected to the piping line 168.

Referring to FIG. 17, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. A power transmission unit 811d for transmitting power, a nuclear power plant safety control and production production electric power unit 811e, a nuclear power plant nuclear waste disposal unit 811b, The double tubular structure block piping line adjustment shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant coupled to the electronic control adjusting apparatus construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, ) Territorial dispute resolution authority and space development And a satellite control unit to prevent radioactive contamination. The control block diagram and the BF model are shown in the block diagrams of the frontal and frontal view and the mouthpiece multi-stage pump system concept; Speed control method, 3 pump direct start method configuration of the mouth type multi-stage pump operation method example,

As shown in FIG. 17, is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation, a nuclear waste disposal unit 811a for the nuclear power generation, Control tubular structure of the nuclear waste disposal of a nuclear hydroelectric power plant constituting a connection to the control device construction machine control unit 811f, the screw control unit 811g and the disaster prevention preventive control unit 811h. 238) of the Nuclear Waste Treatment Nuclear Waste Treatment Plant of Marine Nuclear Hydroelectric Power Plant In the multi-stage pump,

A control block diagram constituting a multi-stage pump for the distribution apparatus of the reactor installation, and a multi-stage pump operation system of a non-FEP model, and a control power source 273 is connected to the pump power source 272, and,

The control power source 273, which constitutes the mouth type multi-stage pump operation mode,

The dyspower source is brought into contact with the output circuit end of the (M / C) drive signal contact output circuit 279 of the supply circuit 275 and then the pump power supply 272 ) M / C switch contacts, inverter (47) circuit contacts, and each pump emergency operation to form a contact connection,

17, a micro control unit 276 constituting a de-energization supply circuit 275 of the control power source 273 is provided, and a de-ip switch setting circuit 277 and a switch input circuit 276 are provided. And a switch input circuit 58 and a switch input circuit 58 are provided in the unit 276 so as to control the display circuit 278 and the M / The MCC B + THR and MCCB circuit contacts of the end of the unit 276 and the pump power supply 272 are connected to the inverter (not shown) via the contact output circuit 279, 47), and the inverter operation data input / output circuit 281 is composed of an inverter 47 circuit, a micro control unit 276, and a circuit for mutual input and output, and is connected to a discharge pressure transmitter (284) is coupled to a pressure sensing circuit (282) and is equipped with a dual structure block tank dust collector The circuit 282 constituted by the nuclear reactor facility control process constituting the inside of the dispensing apparatus main body 1 of the nuclear waste disposal facility of a marine nuclear hydroelectric power plant is again inputted to the unit 276, / The discharge pressure switch 285 is connected to the external state input circuit 283 and then the input circuit 283 is again connected to the microcontroller 276 so that the input multi- It consists of distributing unit connection structures of a reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric plant with dual structure block tank dust collectors.

As shown in Fig. 17, in the control system using the microcomputer and the digital pID control system of the disaster prevention preventive control type multi-stage pump 8 constituted by the distribution dispenser of the reactor facility, A double structure block tank with an unmanned camera (184) of the system installed and equipped with an inverter system in which fire water is discharged from the injection nozzle and the equipment of the control system; a distribution input device for nuclear waste processing nuclear waste hydro- The flammable object 166 formed with the flushing control process constituting the inside of the apparatus main body 1 is burned while the flameproof holding water pressure of the fire hose is stored inside the firefighter nozzle body, Gas 164 is stored and discharged to the outside of the fire extinguisher body at the same time and discharged to the fire ejection nozzle 38 through the gap 15 of the fire- The fire suppression scene is transmitted to the unmanned camera 184 installed at the height of the electric pole around the fire scene when the discharge water jetting number water jetting film 39 is disinfected and removed at a moment when the burning pillar 237 is burned down by a plurality, The multi-stage pump (8) of the mouth type multi-stage pump (8) is provided with a display on the monitor (52) through the information detection function of the pump control server (51) of the control system (150) (1) of a distribution reactor of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector including a digital control system constituting control and an inverter (47) speed control system and an algebraic control system And is constituted by the distribution and input devices constituting the nuclear hydroelectric power plant part 811

Referring to FIG. 18, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. A power transmission unit 811d for transmitting power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation nuclear waste, a transportation transportation unit 811c for the construction machine, The double tubular structure block piping line adjustment shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant coupled to the electronic control adjusting apparatus construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, ) Territorial dispute resolution authority and space development And a control system using a microcomputer of a mouth type multi-stage pump constituting a connection to a satellite control unit for prevention of nuclear radiation pollution and an inverter system of a digital pID control system, an unmanned camera of a control system is installed, Fire sensor with integrated inverter system and equipment of control system Operation configuration inside pump body Road,

As shown in FIG. 18, is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector A power transmission unit 811d for transmitting power, a nuclear power plant safety control and management production electric field unit 811e for controlling the nuclear power generation, a nuclear waste disposal unit 811a for controlling the nuclear power generation, a transportation transportation unit 811c for the construction machine, The double pipe structure block pipe line control shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the regulating device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention preventive control unit 811h Territorial dispute resolution coordination and space development And a control system using a microcomputer of a mouth type multi-stage pump constituting a connection to a satellite control unit for prevention of nuclear radiation pollution and an inverter system of a digital pID control system, an unmanned camera of a control system is installed, In the high-pressure inlet multi-stage pump (8) consisting of the inside of the pump body of the fire sensor composed of the inverter system and the control system equipment,

A high-pressure inlet multi-stage pump (8) constituting the nuclear power plant (811)

The operation control device is provided with a power line constituted by the control room and the inside of the machine room, an electric line for detecting sensor, and an electric line arrangement for electronic control, so that the overcurrent breaker for the overcurrent breaker 61 and the main switchbar A connection is provided by turn 66,

The isolation valve 5 formed outside the pump body connected to the control device by each of the "ON-ON" and the "OFF-ON" constituting the switch button, and the regulator valve 136, An internal backflow prevention valve 6,

As shown in Fig. 18, in the equipment of the electronic control unit 88 formed by the electronic control unit such as the emergency valve 84 and the pressure check sensor in the low-pressure shut-off valve 83 and the plurality of pumps in the plural valves,

A plurality of switch buttons are provided and connected to the inverter 48 of the unit and the input multi-stage pump control board 53 of the high-pressure bottom-up pump control server 51 and the power supply 46, The portable radio terminal 82 of the above communication means or the electronic control device connected to the public telephone communication network as the wireless communication antenna 54 and the short-range wireless communication control module 55 are installed inside the mouth-type multi-stage pump control box 2 Respectively,

When the portable wireless communication terminal transmits a signal wirelessly to the access point 49, when the electronic control unit module receives the signal and the "switch button-on" inside the control room, the display screen 63 of the monitor 52 is displayed in the control room (83) to the isolation device (5) on the front, rear, left and right sides of the inlet type multistage pump and the reverse flow prevention valve (6), which are included in the electronic control device inside the machine room, A solenoid valve 76 of an electronic control function other than the pressure reducing valve 85 is connected to the emergency valve 84 and an air cleaner 34 is provided in the air compressor 80 and the spray nozzle and the disaster prevention pipe line 89, And an electronic control unit, and the control unit controls the flow of the gas and the liquid, which are disaster prevention materials,

It is installed on the roof of a large number of forest fires and residential areas by providing fire disinfection materials with a constant water pressure in a plurality of nozzle clearance and multiple nozzle clearance holes as discharge water or curtain water film shapes. A double structure block tank provided with fire fighting and disaster prevention countermeasures for life rescue Nuclear hydroelectric power plant (811) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dust collector And a high-pressure inlet multi-stage pump (8) installed inside the machine room.

As shown in FIG. 18, the structure of the connection structure of the high-pressure three-stage multi-stage pump 8 constituting the nuclear hydropower generation facility unit 811,

The high-pressure inlet type multi-stage pump control box (2) inside the machine room connected with the initial ignition sense wire is connected to the detection sensor (104) for checking the quantity of fire in the low- When the disaster prevention water reaches a predetermined water level after the pump operation is stopped, the ball tap (499) in the form of a circle is attached to the sensing line (41) of the operation fire water level sensing device again by a small thin wire When the ball tab 499 is moved downward, the pump is operated. When the position of the ball tab 499 is fixed to the horizontal position, the pump stops operating. At this time, the sensing strap 41 is formed with an operation distance of 90 ° or 120 °,

High Mountain The low mountain pickling tanks form collecting tanks in a category that does not damage nature,

The water inside the tank (34) is opened and closed by an air compressor (80) so that the height and the water film provided in the double pipe structure can be adjusted before the disaster occurs and elevation can be adjusted. A nuclear power plant (811) consisting of the interior of the main body (1) of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant equipped with a dual structural block tank dust collector which provides a fire suppression within one second of a fire, Pressure multi-stage pump (8) installed in the interior of the machine room.

As shown in FIG. 18, the structure of the connection structure of the high-pressure three-stage multi-stage pump 8 constituting the nuclear hydropower generation facility unit 811,

A first pressure check sensor 86 installed in front of the isolation valve 5;

A second pressure check sensor (87) installed integrally with the pressure reducing valve;

A bypass disruption piping line (168) installed to bypass the isolation valve (5) by connecting the front and rear sides of the isolation valve (5) and bypassing the isolation valve (5);

An emergency valve (84) installed in the bypass pipe line (168) so as to open and close as opposed to the isolation valve (5);

An electronic control unit (88) integrally controlling the operation of the emergency valve (84) by checking a pressure value from the first pressure check sensor (86) and the second pressure check sensor (87);

The solenoid valve 76 at the joint portion of the suction merging pipe 3 flange 28 at the upper end of the ground surface at the lower end of the mouth type multi-stage pump 8 and the flush water installed in the collecting tank 34 at the upper portion of the pump machine chamber And ball tabs 499, which are fire water level detection sensors, to detect the disaster prevention quantity,

An air hose 109 installed inside the nozzle hose 9 and air nets 110 for a socket connected to the air hose 109 so as to be separated from and connected to the air hose 109, And an engine generator 226 at the upper end of the interior of the machine room provided with the airship 78 at the upper end of the upper surface of the ground surface are operated to supply an air compressor 80 having a power source 46, The air generated by the operation of the air compressor 80 after providing the control module 106 with the air is stored in the air recirculation high-pressure storage tank 145 before the disaster, A nuclear water reactor reactor for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector deployed by an emergency valve 84 provided in a disaster prevention air pipeline line 181 in the event of a disaster, Air is blown into the inside of the building constituting the nuclear hydropower generation facility part 811 constituted by the inside of the distribution dispenser main body 1 of the refrigerator, and attached to the piping frame outside the building.

As shown in FIG. 18, in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, (8) The connection structure of the high-pressure mouth type multi-

The solenoid valve (76) at the joint portion of the flange (28) of the lower end road surface upper surface suction merging pipe (3) with the inlet multi-stage pump (8) The fire fighting water installed in the collecting tank 34 at the upper part of the pump machine room is provided with ball tabs 499 as fire water level detecting sensors to detect the disaster prevention quantity,

An air hose 109 installed inside the nozzle hose 9, an air knit 110 for socket for male and female connections separated and connected to the connection portion of the air hose 109, And the diesel engine generator 268 at the upper part of the interior of the machine room provided with the airship 78 at the upper end of the upper surface of the ground surface are operated to connect the power source 46 to the motor control module 80 of the prime mover 80, Pressure storage tank 145 before the occurrence of a disaster in which the air generated by the operation of the motor 192 of the prime mover 80 supplied to the high-pressure storage tank 106 is stored in the high-pressure storage tank 145 ), Air pressure is constantly provided in the inside,

The emergency valve 84 of the disaster prevention air piping line 181 is deployed to blow air into the building and attached to the piping frame outside the building as shown in FIG. 18, and at the same time, the pressure gauge 101 and the pressure switch A crank handle handle and a piston 127 constituted by a crank 248 and a link bar 249 and a piston 127 and a cylinder 126 are provided in the compressor main body 263 in the overpressure prevention switch box 108 of the motor control module 106, And the electric motor 192 to provide the safety operation by connecting the pulley 250 included in the speed reducer 251 and the pulley 252,

The balancer 261 is installed on the periphery of the pulley 250 and the brake lever 252 to adjust the rotational speed of the prime mover 80 while adjusting the rotational speed of the prime mover 80 to the upper position of the compressor main body 263, The piston 127 of the compressor main body 263 and the air discharge port 270 to which the cylinder 126 is attached are connected to the receiver high pressure storage tank 145 so that a predetermined amount of air pressure The pressure gauge 101 and the pressure switch 104 connected to the safety valve 258 cut off the operation of the electric motor 192 when pressure is injected into the high pressure receiver storage tank 145 at 6 kg per 1 cm 2,

When the pressure in the high-pressure storage tank 145 drops below 6 kg per 1 cm2 of air pressure, the operation of the electric motor 192 is resumed and the high-pressure storage tank 145 is supplied with the air valve 257 and the automatic valve 259, An air compressor 80 for providing a piston reciprocating operation while being disassembled into an air hose 109 and an air hose connector nipple 110 while being equipped with an internal cooler 170 and a tail cooler 182, A lifesaving tube 130 and a basket 42 connected to the discharge port 270 through a suction port 269 which can be coupled and disconnected by a connecting device by a multi-stage screw cooler 147 in which heat is dispersed by an oil cooler 157, (172) of the combined use and a distributing and inputting device of a reactor facility of a nuclear hydroelectric power plant,

(1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, and a connection structure of a hydrological control and control section of a dam constituted in the nuclear hydroelectric power plant section (811) And the distribution input devices of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector are constituted.

As shown in FIG. 18, in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, (8) The connection structure of the high-pressure mouth type multi-

The pressure suction confluent pipe (3) and the discharge confluent pipe (4) are joined to the left and right sides around the suction port around the impeller (143) inside the protective cover constituting the mouth type multi-stage pump (8) The head tank 189 is referred to as a tank 189, and the water pressure of the fire water rises at a very high and high pressure. At this time, the head tank is compressed and stored at a pressure of 8 liters and can withstand 16 bar. A large-sized piping 14 of a certain standard size at the back of the pump inlet or pump discharge port, which is the front portion of the head tank, and an elbow or tee elbow 44, (1) of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector provided with an accurate setting of the installation position, Establish a connection structure in the mouth-type multistage pump (8) of the high pressure that would be installed in a machine room inside which is formed a magnetic force hydroelectric power plant unit 811.

As shown in FIG. 18, in the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The equipment structure connected to the high-pressure mouth-type multi-stage pump 8,

A watertight hole 169 of the fire and disaster prevention line and a water supply port 168 and a water supply port 168 to the lower end of the watertight hole 169 are formed in the interior of the mouth multi-stage pump 8 and the water collecting tank 34 inside the pump extinguisher body, The float 315 located above the manhole cover 152 and the float 315 located below the manhole may be located between the water supply port 168 and the watertight port 169, To fill a certain amount of the inside of the house,

Attached above and below the manhole 152 is the float 315,

An inductor switch 551 and a louver cover 550 which are joined to and disconnected from a float 315 constituted by four places around the processing hole 20 of the outer wall of the tank, The flange is inserted into the tank outer wall machining hole 20 to fill the nut 25 after being coupled to the flange machining hole 4, Separating,

18, the upper portion of the bed frame 286 constituting the outside of the upper portion collecting tank 34 of the bed frame 286 above the ground surface GLL, A stop valve 114 located at the left side of the valve 114,

The pump 259 with the upper thigh elbow 44 of the pump 308 is provided with an oval valve 259 and a timer or a level switch 541 ) And a low level alarm (542), a buzzer alarm (543), a steam relay alarm (544) and an alarm reset button (545) A switch 546 is installed inside and outside the pump control board 53.

The rotary shaft 198, which is the center shaft 198 of the motor 192 constituting the center pugu pump 308,

A guide vane 142 is attached to a previous pump driving yaw portion by providing an impeller 143 in a casing 141 which is a body of the pump 308 and a rotation axis 198) and a balance hole 376 is formed in the partition wall 372 of the shaft seal device 156 and the cooling system 391 of the cylindrical seal, (390)

The control box constituting the pump control board (53)

The multi-stage pump control board 53 has the same function as that of the flow meter 105 for checking the amount of water and the overpressure prevention switch 108 connected to the line pipe 168 of the stop valve 114 above the water pipe 169 line pipe Is constructed to be inside the main body 1 of the nuclear reactor disposal reactor for nuclear waste treatment of a marine nuclear hydroelectric power plant having a double structure block tank dust collector, It is sensed that it is formed in the nuclear hydroelectric power plant part 811.

And a bolt nut is used to easily disassemble and disassemble the flange and the flange by adjusting the washer 26 to 0.5 millimeter or 5 millimeter,

The ejection / ejection number 38 of the mouth type multi-stage pump 8,

It is possible to quickly and accurately discharge the fire water from the operation of the valve and the high-pressure inlet multi-stage pump 8 with the radiation curtain water film 39 or the straight discharging jet number, The number of ejection nozzles 38, which provide ejection to the gap 15, prevents the spread of large fires,

 (78), which consists of a plurality of airfoils (78) for observing the meteorological observation system above the curtain water film, constituting an application to a versatile range of precautionary measures to prevent disasters, And an air hose (109) and a connecting nipple (110) for feeding air generated by the air compressor (80) to the inside of the nozzle hose. Pressure multi-stage multi-stage reactor installed in the inside of the machine room formed in the nuclear hydroelectric power generation facility 811 constituting the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the block tank dust collector, The pump 8 is provided with a connection structure.

In this way, the mouth type multi-stage pump 8 can be easily operated by anyone and the description of the mouth type multi-stage pump 8 according to the accurate function is as follows.

Mouth type multi-stage pump specification,

Details of the control method of the inlet type multi-stage pump system are as follows.

· Pressure control method (Figure 1)

The operating range of the system is formed from the starting point (P o n) of all pumps to the starting point P o f f 1 of the maximum load operating pump and the operating point P o f f 2 of the main pump.

It stops completely after the minimum operation between 180 seconds to 210 seconds (C O-C R) and 0 to 120 seconds (C O -E R) after reaching the operation stop point of P o f f 2 of the pressure control type system.

Although the width of ΔP can not be kept narrower than the inverter control method, it is mainly used for absorption pressure of the low layer by detecting input change of about 1 b a r.

· Frequency modulation control decoration (Figure 2)

The operating range of the system maintains the adjustment value range.

When the flow rate of each operating pump reaches 100%, and the pressure of the operation standby pump is the operating point P o n and the pressure of the individual maximum operation pump is the stop point P off.

Therefore, the frequency modulation method can keep the width of AP small and by controlling the rotational speed of the main pump with the frequency modulator,

This system consists of a system that compensates for sudden pressure changes occurring when the operation standby pump is running or when the maximum operation pump is stopped.

When the pressure of the system is lowered to the vicinity of the operating point, the main pump is gradually operated by the frequency modulator control, and if there is no change in the flow rate, the controller stops the pressure fluctuation due to the system hunting.

As shown in the drawing of the main functions of the mouth type multi-stage pump in general, a detailed description will be given below.

As described above, in the mouth type multi-stage pump, the main function is described in detail inside the body of the pump nozzle type hollow pipe type pump which is the urinal part, which is the urinal part, so that anyone can easily make a pumping without approaching the fire site or near the pump machine in case of fire. As a result of the constitution of the present invention which provides for relieving the suffering of the residents while sleeping (at bedtime), fire engine fire helicopters according to their life structure and preventative measures have technical features that constitute the initial evolution within one second before the arrival of the fire scene and,

As shown in FIG. 18, in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, (8) In the high-pressure inlet type multi-stage pump,

The distribution input device of the nuclear power plant nuclear reactor facility constituting the high-pressure inlet multi-stage pump (8)

And is connected directly to the disaster prevention waterway 17 constituting the suction port 269 of the collecting tank (limited to the tank cushion cover of 10M × 10M × 1M in the form of a cement cone of length × width × height × height) A plurality of disaster prevention piping lines 168 connected to the lower portion of the collecting tank 34 draws overflowing valleys to allow the flood water to flow immediately to the Sea of East Sea and the Sea of the Yellow Sea of the South Sea,

As shown in FIG. 18, it is an opportunity to prevent the harmful red tide of the ocean from being blown away by flowing into the artificial waterfall as the natural waterfall of Jeju Island, such as Jeongbang Waterfall, , The air compressor (80) and the diaphragm pump (144) are simultaneously operated to prevent the valleys from overflowing,

In case of 150m or 300m of rainfall per hour, double vinyl (43) for vinyl house should be properly installed in the disaster prevention area to re-install double vinyl (43) in disaster prevention piping type to reduce landslide damage. If the embankment is lost, the bridge is broken,

In order to relieve the refugees isolated in the mountain valleys, an iron canopy (139) is installed in the valley, in which the iron canopy is formed in the form of a mesh of wire rope (19) of 3M × 50M, A small pipe with a diameter of 100 m and a length of 10M or less was formed on the bottom of the valley, and then a small pipe was installed so that a crawfish could pass through it. After installing a large number of 60 m m x 1 M arson and loess (180), it is laid on top of the saddle (180) with the size of 200 m long and 7 m long or less, The bag is sandwiched with gravel and sand. After the bag has been laid, the large-sized pipe top (180) and the large-sized pipe (300 m long and 5 m long)

As shown in FIG. 18, after the iron wire netting 139 formed by the wire rope 19 in the form of a mesh is covered in a stepwise staircase unit, the iron wire netting 139 having a sharp end or sharp end 185 or an O- ) And Anchor Bolt (133) are equipped with equipment for disaster prevention, fire prevention and disaster prevention measures, which constitute a ship structure, combined with the embankment, which is installed so that it can not be floated on rapids while knotting (811) constituting the inside of the main body (1) of the dispensing apparatus main body of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, Of dispensing devices.

As shown in FIG. 18, is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector (8) In the installation of high-pressure inlet type multi-stage pump,

The pressure tank 189 and the collecting tank 34 and the control unit inverter 47 of the inlet multi-stage pump and control system concept are interconnected at this time where the associated line relationship between the control unit inverter 47 and the collecting tank 34 is When the fire extinguishing water is sucked in, the suction port 269 is provided with a ball prevention device 271 and a reversing valve of each pump so as to be able to control full closing and expansion in the inverter 47, The connection structure is provided in a high-pressure inlet multi-stage pump (8)

As shown in Fig. 18, a pressure tank in which the installation position is clearly set in front of the isolation valve 5, which is the valve 5 in front of each pump 8, integral with the shelf part of the back- (189) and the control unit inverter (47)

The first pressure check sensor 86 and the second pressure check sensor 87, which are discharge pressure check sensors, are connected to the line of the miscellaneous pressure sensor 87 in the pressure line 189 and the control unit inverter 47, A plurality of fire nozzles 10 serving as ejection nozzles, which are ejection openings 270, are connected to a mixer 73 for constituting cooling action and choking action for each fire A within one second The fire cable cable (256) which injects loess (158) into the cable car (256) and which constitutes the top priority of the fire prevention of the large-sized forest fire and the fire in the neighborhood living area in the residential area is included in each high and low mountain peaks A plurality of buildings each having a difference in height, a plurality of fire hoses (9) each having a wye rope, and a mesh hose (9) including a safety net (401) Configure It is a technical feature of the present invention.

The control power source 273, which constitutes the pressure tank 189 and the control unit inverter 47,

The dyspower source forming the emergency circuit 274 is brought into contact with the output circuit of the (M / C) drive signal contact output circuit 279 of the supply circuit 275 and then the pump power supply 272 (M / C) switch contact point and the contact point of the inverter (47) circuit contact and each pump emergency operation,

As shown in Fig. 18, in the microcontroller 276 constituting the decoupling power supply circuit 275 of the control power supply 273,

The DIP switch setting circuit 277 and the switch input circuit 58 are input to the UNIT 276 and the LIP 277 and the M / C drive signal contact output circuit 279,

The motor constituting the driving signal contact output circuit 279 and the energizing signal input circuit 280 are,

The MCC B + THR and MCCB circuit contacts of the unit 276 and the pump power supply 272 are connected to the contacts of the inverter 47 and the inverter operation data input / output circuit 281 is connected to the inverter 47) circuit and a microcontroller unit 276 and a mutual input / output circuit, and the discharge pressure transmitter 284 is connected to the pressure sensing circuit 282, After the input / output pressure switch 285 is inputted to the unit 276 through the external state input circuit 283, the input circuit 283 is again connected to the micro control unit 276 Input This equipment is formed in a nuclear hydroelectric power plant unit (811) comprising the interior of the main body (1) of the reactor installation for nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector.

Referring to FIG. 19, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor, A power transmission unit 811d for transmitting power, a nuclear power plant safety control and management production electric power unit 811e, and a nuclear power plant nuclear waste disposal unit 811a, A double pipe structure block piping line control shaft for nuclear waste treatment of a nuclear hydroelectric power plant coupled to an electronic control regulating apparatus construction machine control unit 811f, a screw control unit 811g, and a disaster prevention prevention control unit 811h 238), which shows the composition of the territorial dispute resolution authority and space power generation Sectional view of a movable compressor, a stationary compressor, and a multi-stage screw compressor, which are a plurality of compressors constituting a connection to a satellite control section for preventing nuclear radioactive contamination, and a front section operating structure for fixing an underground anchor bolt;

As shown in Fig. 19, the fire sensor pump body of the nuclear power generation nuclear waste processing unit 811a constituting the nuclear hydropower generation facility unit 811,

A predetermined amount of the disaster prevention material formed by the impeller 143 constituting the inside of the spiral casing 310 of the plurality of pump bodies is coupled to the power motor rotary shaft 198 of the impeller 143 constituting the inflow port A plurality of fire-fighting disaster prevention piping lines 168 of a predetermined amount of fire-fighting water 7 transferring apparatus, a left-hand side head tank 189 and a right-hand side head pump 187 for compressing and storing the water pressure of the fire water 7, A dust collecting tank (34) having a double structure which is disposed forward at a predetermined distance from the disaster prevention waterway (17) at a constant inclination angle (16) A ball tab 499 serving as a sensing sensor for detecting the level of the flushing water in the collection tank 34 and a fire sensor pump body for blocking foreign matter from entering the collection tank 34,

A flange stopper wire net 28 for a plug filter, a plurality of solenoid valves 76 that are deployed when the switch is turned on and are fully closed when the switch button is turned on, When the capillary 29 and the tail end of the disaster prevention pipe 14 are guided to the tee elbow 44 of the binding apparatus so that the disaster prevention material carbon dioxide 164 and the halon gas 175 are introduced into the rear of the head tank 189 Pressure shut-off valve 83 for shutting off the supply of the natural earth loam 158 and a mixer (hopper, 73) for mixing the disaster prevention material carbon dioxide 164 with the natural loamy soil 158 and the power motor control module 106, The fire extinguishing water passes through the disassembly pipe 14 connected to the flange 28 to the reefer yarn 35 and to the nozzle hose 9 while being operated by the pump 8 (15) around the pipe circumference and a gap (15) between the processing hole (20) and a plurality of flange (28) Precipitator tank marine nuclear hydraulic distribution of nuclear waste processing plant reactor for a power plant having an input device body (1) to form a hydraulic nuclear power plant in a nuclear power plant hydraulic unit 811 that make up the interior.

As shown in Fig. 19, in the nuclear hydropower generation facility unit 811,

The fire water (7) constituting the nuclear hydropower generation facility (811)

There are provided 490 circular ejection nozzles 38 or curtain water film 39 shapes constituting the discharge of the fire water 7 and eight water films at higher and higher positions are formed in the form of an adverb 77 ) And the buoyancy of the airship 78 extend the life of the facility by dispersing the body load of the fire-fighting cable car 256. After the safety is ensured, the mixture of the loess is ejected into the pipe nozzle 10, , A large-sized fire inside and outside the building is prevented before and after a disaster. It is a non-powered pump (393), which is caused by fluid movement, And the inside of the main body (1) of the reactor installation for nuclear waste disposal of the marine nuclear hydroelectric power plant,

As shown in Fig. 19, the heat is dispersed in the oil cooler 157 without the air compressor 80, which is a reciprocating piston, and the intercooler 170, which is an intercooler, A lifespan basket 42 is attached to an air tube 730 composed of a suction port 269 and a discharge port 270 so as to be detachable and detachable by means of a connecting device integrally formed with a toe-staged air cushion air compressor 80 Disaster prevention means installed in the bed nozzle 172 serving as the rescue structure together with the detoxification loess 158 and the arsonist 159 and the vinyl tube for storing the air,

The fluid can be moved to the air pressure formed in the pressure tank (high-pressure ball tank 303) inside the non-powered pump 393,

(6) and the isolation valve (5) so that it can be pumped up to 50 times of the lift by the control operation. Distribution of the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector provided by the system connection device of the pipe control valve and the flow control valve to the flow control valve. And is configured to constitute the nuclear hydropower generation facility unit 811 constituted inside the charging apparatus main body 1.

Referring to FIG. 20, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation facility, The double pipe structure block pipe line adjustment shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the control adjustment device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, Territorial dispute resolution authority and space development And a suction valve in a squeegee compressor (290) to which an oil separation tank is connected, the squeegee compressor (290) having an oil separation tank connected to the satellite control parts for preventing radioactive contamination of the nuclear fuel.

Referring to FIG. 21, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation facility, The double pipe structure block pipe line adjustment shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the control adjustment device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, Territorial dispute resolution authority and space development And a suction filter 262 attached to the inside of the rear cooler and the inside of the air dryer constituting the connection to the satellite control parts for prevention of nuclear radiation pollution, and a suction filter attached to the inside of the air dryer 291,

As shown in FIGS. 20 to 21, a nuclear hydroelectric power plant (nuclear power plant) having a double structure block tank dust collector and a nuclear hydroelectric power plant 811 of the present invention, in the distribution apparatus of the nuclear reactor facility of the nuclear power plant,

A squirrel compressor main body 263 and a suction valve (not shown) connected to a gear drive 290 and an electric motor 192 to which a disaster prevention preventive control oil separation tank 288 of a conventional nuclear power generation facility unit 811 is adhered, 289) is connected to the air intake port (269) of the receiver high-pressure storage tank (145) to provide the distribution and input devices of the nuclear hydroelectric power plant, and a nuclear waste hydrothermal plant having a double structure block tank dust collector And the connection structure for adjusting the flood damage constituted by the inside of the main body (1) of the distributing and dispensing apparatus of the nuclear reactor facility.

As shown in FIGS. 20 to 21, a nuclear hydroelectric power plant (nuclear power plant) having a double structure block tank dust collector and a nuclear hydroelectric power plant 811 of the present invention, in the distribution apparatus of the nuclear reactor facility of the nuclear power plant,

A suction filter 262 attached inside the dryer 291 and a suction filter 262 installed inside the dryer 291 are disposed inside the rear cooler 182 constituting the hydrological control unit of the conventional nuclear power plant 811, 262) of the nuclear power plant of the marine nuclear power plant equipped with the double structure block tank dust collector and the nuclear power plant, And connection structures for adjusting the disaster by providing the distribution inputs of the reactor facilities of the nuclear hydroelectric power plant formed in the power generation facility unit 811.

Referring to FIG. 22, a nuclear hydroelectric power plant 811 having a dual structural block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear nuclear hydroelectric power plant. A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation facility, The double pipe structure block pipe line adjustment shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the control adjustment device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, Territorial dispute resolution authority and space development And the control system of the nuclear radioactive contamination, the power transmission control part of the submarine transverse railway substation for the nuclear waste disposal and the outdoor fire hydrant which is the structure of the groundwater and deep water water supply control part. (179a) of a fire hydrant, an excretory type fire hydrant and a fire hydrant manhole of an underground fire hydrant box at a lower portion of a road surface of an underground double fire hydrant (179b). A fire hydrant (179) is connected to the water supply port (168) of the connection water pipe and the water discharge port (fire extinguisher extinguisher, 169), and the fire hydrant Territorial dispute resolution coordinator and space station Sectional configuration and strainer configuration connected to satellite control parts for preventing radioactive contamination and nuclear radiation, and (a) a large-scale fire hydrant system and (b) a partial side configuration showing a small-scale fire hydrant system A sprinkler system piping system sprinkler system and a sprinkler head of a tranquility head, and a configuration of a vibration alarm device 300,

As shown in FIG. 22, in the nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, In the distribution apparatus of nuclear reactor facilities for nuclear waste disposal,

(179a) of a twin bullet-type ground type fire hydrant and an excretory type fire hydrant fire hydrant (179a) constituting an outdoor fire hydrant of a disaster prevention preventive control part of a conventional nuclear power generation facility part (811) And the underground fire hydrant box manhole located at the upper part of the lower surface of the road surface of the underground double fire hydrant (179b). The fire extinguisher (161) and the fire hydrant box inside the fire hydrant box (160) (168) of the connecting water pipe and a fire hydrant (179) in a fire extinguisher dedicated to the fire brigade of the watertight area, and a large scale fire hydrant system (a) and a small scale fire hydrant system (b) (1) Disconnection structure for adjusting the disaster inside the main body (1) of the reactor installation for nuclear waste disposal of the marine nuclear hydroelectric power plant It consists of a.

Referring to FIG. 23, a nuclear hydroelectric power plant 811 having a dual structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear hydroelectric power plant. A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation facility, The double pipe structure block pipe line adjustment shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the control adjustment device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, Territorial dispute resolution authority and space development And the control of the territorial dispute, which shows the composition of the power transmission control unit of groundwater and deep sea water capacity supply control unit of the submarine transverse railway substation for nuclear waste disposal, A sprinkler system pipeline system sprinkler system and a sprinkler head of a tranquility head showing a conventional configuration showing connection to a satellite control unit for prevention of nuclear radiation pollution,

As shown in FIG. 23, in the sprinkler equipment constituting the disaster prevention preventive control unit of the nuclear hydropower generation facility unit 811,

A plurality of draining heads 299a, b, c, and d are attached to the sprinkler head 111 of the tranchorage head constituting the sprinkler facility, the fusible usable metal 113 and the stop The block 117 is connected to the water valve 114 of the valve by the underground pipes 115 and the block 117 is connected to the auxiliary circuit breaker 118, the bell 119, the alarm valve 120, (1) of a nuclear reactor waste disposal reactor installation of a marine nuclear hydroelectric power plant having a valve (121), a high-pressure water pump (122) and a vibration alarm device (300) And a disaster prevention preventive control unit connection structure of the nuclear hydropower generation facility unit 811 constituted by the disaster prevention shutoff control unit.

Referring to FIG. 24, the nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector according to the present invention A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation facility, The double pipe structure block pipe line adjustment shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the control adjustment device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, Territorial dispute resolution authority and space development And the operation of the reciprocating pump piston pump 127 showing the configuration of the power transmission control section of the deep-sea transit railway substation for the treatment of nuclear waste constituting the connection to the satellite control sections for nuclear radiation contamination prevention and the control section for the groundwater and deep- And a partial plunger pump 148 operating configuration diagram illustrating the manner in which the plunger 253 is operated in partial planar fashion with the plunger pump 148, Side view showing a side view of the pump tank 311 and the turbine pump 140 and a side view showing the installation state of the waste pump 309,

Referring to FIG. 25, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation facility, The double pipe structure block pipe line adjustment shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the control adjustment device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, Territorial dispute resolution authority and space development And nuclear radioactivity pollution control stations. The electromagnetic sensor that shows the configuration of the power transmission control unit and the groundwater and deep-sea water capacity control unit of the submarine transverse railway substation for nuclear waste disposal. Prevention control unit, a forest fire natural disaster prevention control unit, and an artificial tunnel fishery scattering control unit. FIG. 33 is a perspective view showing a turbine pump of the related art. ) Of the propeller pump 146 and the mixing pump 342 of the propeller pump 146 and the viscous pump 343 is shown in the perspective view of the viscous pump and the impeller strainer The construction of the side operation showing the pump operation mode side,

Referring to FIG. 26, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor, A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation facility, The double pipe structure block pipe line adjustment shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the control adjustment device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, Territorial dispute resolution authority and space development And nuclear radioactivity pollution control stations for the treatment of nuclear wastes. Transmission of power transmission and control of groundwater and deeper water capacity of the substation and control of electromagnetic sensor valve screw and disaster prevention prevention control The present invention relates to a method of controlling a pump, which includes a pump for driving a pump, a pump for driving the pump,

Referring to FIG. 27, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section And a plurality of valves formed on the prime mover and the prime mover showing a conventional construction showing a configuration in which the pre-distress prevention control section and the odometer tunnel fishery scatter control section are connected to each other.

FIGS. 11 to 27 show an embodiment in which the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention is constructed. 2 is a configuration diagram illustrating exemplary features.

27 and 27, the piston pump 127, the plunger pump 148, and the bleed pump (not shown) constituting the disaster prevention preventive control unit of the nuclear hydropower generation facility unit 811 311, the turbine pump 140, and the waste water pump 309,

In the guaranteed function of the pump, which clearly defines the position of the full closing and the position of deployment within the positive displacement pump, which constitutes the type and characteristics of the pump,

(1) of a nuclear reactor for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector having a system for sending a certain amount of fluid as if it is a gas turbine, And the disruption prevention device for disaster prevention and disruption prevention control part included in the power generation facility unit 811.

Therefore, a piston or a plunger of a reciprocating pump is provided so as to suck up a predetermined amount of liquid and send it up.

First, get a high pressure even in a compact And is effective for small flow rates of high viscosity,

Secondly, there is pulsation because the liquid flow action is intermittent. To reduce this, a flywheel is used to keep the rotating speed constant or an air chamber (air chamber) 402 is provided. In case of high pressure, And the like).

Thirdly, since the discharge amount of one stroke (Stroke) is constant, it is possible to dispatch and dispatch a fixed amount.

Next, even if the number of revolutions is changed, the change of the discharge pressure is not as severe as the centrifugal pump. That is, there is a suction / discharge valve so that the number of parts is increased, and the failure of the valve is fatal.

A mechanism for converting the rotational motion of the power into the reciprocating motion requires a crank method or an extinguishing method, which may complicate the components or cause vibration.

As shown in Figs. 24 to 27, in the facility of each pump constituting the disaster prevention preventive control unit of the nuclear hydroelectric power plant unit 811,

In the facilities of the individual pumps constituting the kind of the reciprocating pump,

First, the piston pump has a seal line (packing) and a valve attached to the piston,

Second, the plunger pump differs from the piston pump in that the seal line is fixed to the pump body and is not attached to the reciprocating plunger. Therefore, the plunger 253 is easy to replace the packing, and it is possible to obtain a very high pressure.

The plunger 253 pump, which constitutes the type of the reciprocating pump,

A machine room located inside a machine room located on the roof of a large building. Reducer (251) to various motors in a rooftop house correction tank (34) Motor rebuilt in a motor (192) It is operated by pushing the switch button at the top and bottom. The disaster prevention water line (7) of the line of the fire prevention disaster prevention pipeline (168) is provided integrally with the equipment inside the pump fire extinguisher body, Firefighting activities are provided when fire on the mountains and roads is carried out with the loom (158) and firefighter (159).

The membrane pump 144, which is a diaphragm pump constituting the movement of the loess 158 and the arsonization 159,

Water, which contains a lot of fluid, mud, sand, etc., can also be pumped. The rubber membrane or teflon membrane 538 is moved up and down to suck and discharge.

The feature that the crank 248 located at the upper end of the pump 144 and the link stand 249 are formed on the rubber film 538 and are not easily worn or closed with particles containing fluid or the like, . ≪ / RTI >

Therefore, it is suitable for chemical and harmful fluids because it can be completely leak-proofed without grand packing. It is suitable for fire disaster prevention in case of fire and other disasters.

The vane pump, which is a wing pump constituting the movement of the oil,

By moving the handle to the left and right, the two chambers can easily be mounted on the wall with a simple pump consisting of suction and discharge, which is often used to transfer oil from the drum or to pour water under the vessel.

As shown in Figs. 24 to 27, in the facility of each pump constituting the disaster prevention preventive control unit of the nuclear hydroelectric power plant unit 811,

A plurality of pumps are constituted by a fire sensor pump body mounted on the same fire fighting cable car 256 as the elevator constituting the movement of the equipment installed in the past,

The tackle winch 137, which is mounted on the fire fighting cable car 256,

The rooftop fire-fighting cabin 394 constituted by the tackle winch 137 using air and the steel tows 116 of the high and low mountains 395 are provided with air by supplying the air supplied from the air compressor 80, A driving spool roller 135 is installed in the tackle winch control box 53 so that the motor spindle constituting the pulley code 396 and the speed com- puter 397 and the teeth of the transmission 398 A disk brake 399 serving as a brake is formed while winding the car and the wire rope to form a hydraulic cylinder 396 and a pneumatic cylinder 396 and a motor motor 192 and a switch.

As shown in Figs. 24 to 27, in the facility of each pump constituting the disaster prevention preventive control unit of the nuclear hydroelectric power plant unit 811,

A rotary pump rotary pump 357 is provided and one of the positive displacement pumps pushes fluid between the casing and the rotor when the rotor inside the pump rotates.

The characteristics of preventing this confusion with the centrifugal pump having a centrifugal force are as follows: First, there is no suction / discharge valve such as a reciprocating pump, and there is little pulsation due to continuous discharge. Second, high pressure discharge is possible and,

The third is viscous and good for fluid (oil, oil, tar, pitch, paint, etc.)

At this time, the larger the viscosity, the smaller the number of revolutions and the larger the power is selected.

In the case of high pressure, it is necessary to install a safety valve, and it is sensed that a centrifugal pump is good for liquid having no viscosity,

The gear pump is a pump that has two types of gears meshing to open and close the gear when it is opened.

First, it is suitable for transfer of high viscosity liquid,

Secondly, it is suitable for high-pressure use, and the discharge amount does not change much even if the discharge pressure is changed.

Third, the fact that the fluid does not vigorously agitate like a centrifugal pump,

Fourth, the structure is simple, and it is easy to decompose, clean and clean,

Fifth, since the abrasion is promoted by the liquid containing the particles, it can not be used for the liquid containing solid particles.

Spur gears (spur gears) are simple in structure, easy to process, and cheap in cost. However, they are subject to noise and vibration, bearings may be damaged, and durability is weak.

As shown in Figs. 24 to 27, in the rotary pump rotary pump 357 equipment constituting the disaster prevention preventive control unit of the nuclear hydropower generation facility unit 811,

Double helical gears to offset the torsional helical gear or helical thrust (axial force) are difficult to machine and expensive, but have no noise or vibration.

The external gear pump 326a and the internal gear pump 326b are classified according to the shape of the gear and the reference for the sealing and cavitation by the teeth of the gear pump 326 will be described as follows.

As shown in Figs. 24 to 27, in the rotary pump rotary pump 357 equipment constituting the disaster prevention preventive control unit of the nuclear hydropower generation facility unit 811,

Inertial gears are in contact with each other when the gears are meshed with each other, so that the liquid contained between them is hardly compressed to form a very high pressure, which is called a seal. This causes a great obstacle to the rotation of the pump, , Causing damage to bearings, noise and vibration,

As shown in Figs. 24 to 27, in the rotary pump rotary pump 357 equipment constituting the disaster prevention preventive control unit of the nuclear hydropower generation facility unit 811,

On the other hand, if the gears are in contact with each other when the gears are in contact with each other, if the two points are in contact, the liquid outside the two points of the gear will not enter, and a very large negative pressure will form in the space between the two points. It causes a large noise as the liquid enters and collapses, generating bubbles and causing vibration, and remarkably reducing the durability of the pump, which is called cavitation. In order to prevent such cavitation,

First, the finishing must be very precise, the material must be carefully selected, the price becomes very expensive,

Secondly, it is difficult to exchange or assemble because of the complicated structure,

The third is that depending on the material, if it is not careful, it may cause cracks or cracks,

Fourth, the mixing of foreign objects should be avoided,

Fifth? If you do not go through each number,

The sixth is that you can not add clipping on the way like a gland packing, you have to swap it back once it has been exchanged or wrapped,

The seventh is to connect the power of the pump well and shorten the life time of the seal if the vibration is not eliminated, which is the most excellent sealing method at present,

Therefore, it is important to know the disadvantages and to avoid them.

First, the type of mechanical seal is:

An unbalanced type and a balanced type constituting an inside and outside type having a set type and a single seal type and a double seal type surface pressure balance type constituting a seal type can be mentioned.

First, the inside type is generally used in the way that the fixed ring is on the pump side.

Secondly, when the outer ring type is on the pump side, there is a problem in the corrosion resistance of the structural material and the spring material, when the viscous coefficient is high viscosity liquid exceeding 100 cp and when the solidification point is low, It is usually used when it is high vacuum.

The third type is a general method in which the single seal type is sealed with one sliding surface.

Fourth, double seal type,

It is used when it is necessary to keep warm or cold, when liquid is solidified when it leaks, when the inside is high vacuum or when gas is sealed. It is used in high temperature or low temperature liquid or mechanic It is also effective for a liquid containing slurry as a disadvantage of curl seal.

Fifth, the unbalanced type is generally used in a sealing manner in which the pressure in the pump is directly applied to the sliding surface of the seal.

The liquid pressure,

Less than 4k g / ㎠ (depending on the product, less than about 7k g / ㎠ for lubrication fluids and less than 2.5k g / ㎠ for less lubrication fluids).

Sixth,

When the pressure in the pump is large, it is used as a low carbon in such a way that the pressure is not applied to the sliding surface of the seal as it is, or when the pressure is 4 to 5k g / cm2 or more, it is used for low boiling liquid such as LPG or liquefied gas .

In the case of ordinary mechanical seals, the pushing of the rotating ring of the sliding surface is a spring. When the liquid pressure is applied thereto, the contact force of the sealing section is added to prevent leakage.

However, when the contact pressure is too high, the abrasion of the sliding surface is promoted. Therefore, when the internal pressure is high, this pressure is balanced to adjust the contact pressure.

The following cooling and lubrication is the frictional heat of the liquid or the sliding surface of the liquid. When the temperature rises due to the heat of the liquid, the material wears and corrodes or the packing seals. Therefore, the cooling and lubrication functions As shown in the drawing, the? In each method 391,

As shown in Figs. 24 to 27,? In the quenching portion 268 and the clamping portion 367 as the upper portion of the shaft rod portion 390 constituting each method, a flaking hole 361 is formed,

Firstly, the flushing hole 361 is formed by

The most common method is to inject liquid from outside at the high-pressure side of the shaft rod and extract the liquid from the outside to keep the temperature of the seal appropriately, thereby preventing the vaporization of the sealing cross-section to improve lubrication, It prevents the accumulation of wealth.

Second, the quenching 268,

In the area where there is no fluid on the high pressure side of the shaft rod, it is injected so that the cooling fluid comes into contact with the sealing end face of the seal. When handling volatile fluid or air, Flush the fluid to dilute and recover.

In addition, there is provided a double structure block tank dust collector for separating air from the sealing end surface and providing an action of preventing oxidation, and a nuclear water hydro power generating unit And equipment formed in the facility unit 811.

For example, in the case of handling (L P G) or the like, this cooling water is allowed to flow out of the sealing face so as to be washed away as soon as it is leaked.

Third, cooling is a method of cooling the outer periphery of the seal, not the sealing cross section, which has a lower cooling effect than quenching, but does not need to prevent leakage to the atmosphere, and does not need to pay attention to the purity of cooling water.

Next, for the material constituting the mechanical seal,

The material of the seal depends on the type of the sealed liquid, the temperature, the pressure, the presence of foreign matter, the speed, the degree of leakage and the like, but is known to the general public as a combination of stainless steel and kaolin graphite. Carabong graphite is self-lubricating, does not fuse with metals,

Low friction, strong against chemicals. In addition to the Stainles River, the distribution of reactor facilities for the nuclear waste disposal of a marine nuclear hydroelectric plant with a double structure block tank dust collector, which is provided with stellite, ceramics, cemented carbide, or heat treatment and which provides sufficient corrosion resistance and abrasion resistance And is formed in the nuclear hydroelectric power plant part 811 constituting the inside of the apparatus main body 1.

Examples of combining materials of mechanical seals are as follows.

The vibration of the pump is very much overlapped with one or several factors.

Firstly, according to the hydraulic vibration,

First, vibration caused by cavitation: a period of about 600 to 25,000 cycles brings about rapid vibration and noise.

Second, the vibration cavitation caused by the surging phenomenon,

Surging occurs when the discharge amount is large, but surging occurs not only when the discharge amount is small, but also has a long period of about 10 to 0.1 times the cycle.

Third, the vibration due to waterhammer,

Fourth, the vibration due to the unbalance of the flow in the pump,

The following is the vibration caused by mechanical vibration,

First, the vibration due to the unbalance of the rotating body,

Secondly, the vibration due to the dangerous speed causes a severe vibration caused when the rotational speed of the shaft resonates with the natural frequency of the rotating body.

Third, vibration caused by solid friction is a kind of self-excited vibration that occurs when the lubricant is insufficient on the rotating shaft, or when an active part such as a bearing or a bush and ring contacts,

Fourth, the vibration caused by the hydraulic pressure of the bearing is vibration caused by the hydraulic pressure of the bearing part when the rotary shaft rotates at an angular speed about twice as high as the dangerous speed. It is not so common in the normal speed pump, And,

Fifth, the vibration due to the natural frequency of the pump is a problem especially in the vertical axis pump,

Sixth, the vibration due to the centering failure is very important in the case of centering failure,

The seventh is the vibration caused by the prime mover, and the nuclear vibration of the eighth, because the foundation is weak.

The output definition for the use of the diesel engine 226 will be described as follows.

First, the term commercial refers to the generator Refers to the applied power (I S O, equivalent to 8528 PRP)

Secondly, the term "emergency" refers to an output (equivalent to ISO 8528 ESP) applied to an emergency generator used for a limited period of time in the event of a main power failure. In the engine model, a cooling fan 195, a cylinder 126, 250 are assembled and attached to the belt 252 and the flywheel 268. [ As shown in the figure,

As shown in the above table, the output tolerance is ± 5%. The description of the specification of the engine 226 is the same as that of the engine specification specification of the right side.

<Engine specification>

Finally, the precautions for handling the compressor are described in detail as follows.

First, in general precautions concerning the handling of compressors,

First, the compressor is always kept clean and the surroundings are cleaned and arranged thoroughly.

Second, when the operation of the compressor is shut down and the compressor is shut down for a short period, the compressor is operated once a day for a while.

However, in case of long-term shutdown, disassemble and disassemble, replace worn or damaged parts or lubricant with new ones, remove all cooling water (drain) and do anti-corrosion measures.

Third, each axis number is checked and adjusted whenever there is an opportunity.

Fourth, valves, pressure gauges, regulators, filters, etc. are regularly inspected and routinely inspected to prevent malfunctions.

Fifth, cool water uses clean water. Cooling tube is disassembled every June or year. It is cleaned with water vapor. If the weight is decreased by 10% or more, it is corroded or worn.

Sixth, always pay attention to the gas leak of each part, and to find out toxic and flammable, even with a small amount of detector, and take appropriate measures.

Seventh, oil is chosen with the help of a mker.

In the eighth, if there is an abnormality, stop driving immediately and notify the maker and ask for repair.

In the following notes on starting,

Be sure to check that bolts, nuts and other screws are tight.

Next, fill the crankcase with a specified amount of lubricating oil and check the lubrication condition.

Pass the third cooling water and check the circulation of the cooling water.

Next, open the pressure gauge, pressure regulating valve, drain valve, etc., and check the pressure indication for any abnormality.

Next, the small compressor is rotated by hand with no load. Check that the motor is connected to the cylinder by inserting the switch after checking it.

The sixth suction valve is closed and the switch is opened with the bypass valve or drain valve open.

Next, when the normal rotation is performed, the drain valve and the bypass valve are closed from the first stage to the next stage, and the suction valve is simultaneously opened.

Finally, pay attention to pressure, lubricating oil, temperature, noise, vibration leakage at each stage.

Then, in the notes during driving,

The pressure, leakage, vibration, temperature, abnormal noise of each stage, the quantity and temperature of the cooling water, the temperature and pressure of the lubricating oil and the load of the motor are checked.

In particular, pay attention to abnormal rise or drop in temperature or pressure, and never try to tighten or hammer the bolt during operation.

This is divided into the following.

First, regarding the handling of the reciprocating compressor,

First, the scale of the pressure gauge, the abnormality of intake / exhaust gas temperature at each end,

Second, the change of bearing temperature,

Third, watch for changes in the coolant temperature and adjust the quantity if necessary.

Fourth, keep an eye on the cylinder lubrication and control the flow rate, or supply oil to the lubricator.

Fifth, changes in external flow rate and hydraulic pressure,

Sixth, the leakage and temperature rise of piston rod packing,

Seventh, whether or not the color of the drains is rapidly blackened,

Eighth, whether there is any difference in sound or vibration of each part from normal,

Ninth, whether there is any leakage of gas from valves such as safety valve, drain valve, or flange, joint or other tight surface,

Next, whether there is any abnormality in power consumption,

Finally, the abnormality of the automatic device / monitoring instrument operation,

The following is a description of the handling of the Torque Compressor,

First, the lubricating pressure of the bearing lubricating oil, the temperature of the returned oil,

Second, the oil pressure or return oil pressure for the shaft bar or the leakage pressure or leakage flow

Third, vibration of each part such as main body, bearing,

Fourth, abnormality of bearing water temperature

Fifthly, the change of the cooling water temperature is monitored, and the quantity of water is adjusted when necessary.

Sixth, there is no leakage of gas from piping system valve or flange connection or other tight surface

Next, is there any abnormality in power consumption?

Finally, the abnormality of the automatic device / monitoring instrument operation

In the notes at the fourth stop,

First, switch off the electric motor and close the intake valve.

Second, check the pressure drop and close the discharge valve. Observe the abnormal sound or vibration until stop.

Next, close the chilled water valve to cut off the chilled water and drain all of the water in the water jacket or chiller.

Finally, discharge any other condensate or oil.

In the notes on the fifth disassembly and inspection,

Firstly, when disassembling and checking, make sure that the machine is disconnected from the power source so that it does not operate.

Secondly, if the gas inside is toxic or flammable, it should be completely insulated and replaced with inert gas.

The following should be done after confirming that there is no pressure at each end of the decomposition operation.

Finally, when the cylinder head is disassembled, the bolts alternate in the order of the opponent facing each other, and gradually release to the two relatively positioned positions (of course, confirming that there is no abnormality,

As described above, the conventional structure of the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector As shown in Fig. 1, it can be seen that, as shown in Fig. 1, as the distribution type of the reactor installation for the nuclear waste disposal of the fire prevention disaster prevention measures, Because the damage caused by a fire occurring at a flashing moment can not be deduced, the fire should be selected in the most appropriate manner with the precautionary methods in the first place.

24 and 27, the turbine pump and the flaming 339 constituting the disaster prevention preventive control unit 811h of the nuclear hydropower generation facility unit 811 and the suction pump 340 ) And a propeller pump (341), a mixed-flow pump (342), a viscous pump (343) and an impeller, and a nuclear waste water treatment plant The nuclear power generation nuclear waste treatment section 811a included in the nuclear hydropower generation facility section 811 constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear reactor installation, the traffic transportation section 811c of the construction machine, A nuclear power plant safety control and management production electric field section 811e, an electronic control regulating apparatus construction machine control section 811f, a screw control section 811g and a disaster prevention preventive control section 811h), the double tube structure of the nuclear waste treatment of the nuclear power plant Resolving territorial conflicts that constitute the axis (238) control unit and space development And nuclear radioactivity pollution control station. The electronic sensor that controls the supply of groundwater and deep seawater capacity is equipped with a power transmission control unit for substation railway transit substations for the treatment of nuclear wastes. And a turbine pump which is connected to the control section for prevention of natural disaster and the control section of the tuna tunnel fish and shellfish, and a double structure block tank dust collecting apparatus for the nuclear waste water treatment plant of the marine nuclear hydroelectric power plant, (1) inside.

As shown in Figs. 24 to 27, in the valve installation equipment of each of the dispensing apparatuses for the nuclear waste disposal reactor apparatus constituting the disaster prevention prevention regulating unit 811h of the nuclear hydropower generation facility unit 811,

The control valves 459 (459), 459 (459), and 459 (459), which are constituted by the facility control valve 459 constituting each valve and the distribution apparatuses of the reactor plant of the nuclear power plant installed in the sea and the land of the general type faucet 496 of the faucet- The secondary side sensing hole 462 and the diaphragm 463 and the pilot valve 463 are integrally formed with the pressure reducing valve 460, the pilot operated pressure reducing valve 461 and the magnetic pressure reducing valve 461, 464, the main valve 466, the main valve spring 467, the adjusting spring 468, the automatic pressure regulating valve 469, the threaded automatic pressure regulating valve 470a, the flange pressure regulating valve 471b, A spring type safety valve 473 and a relief type safety valve 474 and a steam type fork spring type safety valve 475 and a puff type safety valve 476 and a temperature control valve 477. [ An automatic level controller 478 for the automatic water dispenser, an automatic water dispenser 479a, an automatic level controller 480 and an air vent valve 481, A hot air type automatic air exhaust valve 483, a refrigerant pipe valve 484, a refrigerant stop valve 485 and a packed valve (not shown) 486, a bellows type charge valve 487, a diaphragm type charge valve 488, an expansion valve 489, a diaphragm type expansion valve 490, and a bellows type A nuclear plant hydropower plant having a double structure block tank dust collector provided with an expansion valve 491, a rich valve 492, a refrigerant pressure regulating valve 493 and a solenoid valve 494, Distribution input devices,

The general faucet 496 of the faucet type, which constitutes the piping accessories,

And the packing 531, the stem 532, the handle 533, the disk 534, the disk packing 535, the inner water packing 536, and the inner aging (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the above-mentioned double structure block tank dust collector having a state of being installed with a packing material (537) and a rubber membrane and a Teflon membrane (538) And a disaster prevention preventive control unit connection structure formed in the nuclear hydroelectric power plant unit 811 constituting the inside.

In the meantime, the above description will be abbreviated as the above-mentioned ground surface, the upper surface of the ground surface and the lower surface of the ground surface.

A 5000 k gauge crane wire rope (19) or rope (131) at the industrial site that constitutes a cable car (256) installation with tongue springs (137) The wire rope 19 and the rope 131 are provided as a shackle 23 in the hook hook 18 at the lower end portion C and at the point D, 131, and is coupled to the driving wheel roller 135,

The lifespan basket 42 and the injection nozzle 10 constituting the cable car (256) equipment provided with the tobacco pipes 137 at the respective positions of the respective branches are connected to each other by a 15-m long fire hose,

And a power transmission line 71 constituted by the interior of the cable car 256 is installed together with the collecting tank 34, which is a bucket of a movable dual structure, The length of the nozzle is set by providing a plurality of cable car 256 mounts at the respective points (A), (B), (C), and (D)

(811) constituting the inside of the distributing and dispensing apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector 459) for the treatment of nuclear waste of marine nuclear hydroelectric power plants with dual structure block tank dust collectors, equipped with the valves of the general type faucet (496) of the integral type and the piping accessories for the land and the ocean, It is composed of distributing devices of nuclear reactor facilities, and the operation of nuclear power is carried out in the land and ocean of the world.

As shown in FIG. 24 to FIG. 27, the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector (459) and piping accessories Reactor for nuclear waste disposal of offshore nuclear hydroelectric power plant equipped with dual structural block tank dust collector installed on land and offshore of general faucet (496) In the facility of the dispensing and dispensing apparatus valve constituting the inside of the dispensing and dispensing apparatus main body 1,

It is used to control fluid and flow rate of steam or water, and it can be used according to the purpose of use such as a sluice valve, a stop valve, a glow valve, an angle valve, a check valve, a reducing valve and a cock.

Table 2-1 shows the valve configuration, Table 2-2 lists the valves, and Table 2-3 lists the (K S) specifications of the valves.

<Table 2-1> Configuration of valve

<Table 2-2> Classification of Valve

<Table 2-3> Valve KS specifications table

As shown in FIG. 24 to FIG. 27, the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector The following describes the sloshing valve device in the disaster prevention preventive control connection structure that is constructed in Fig.

The valve is also referred to as a gate valve 296 by opening and closing the valve by a screw rod in parallel with the cross section of the pipe. When the valve is fully opened, the resistance of the fluid flow is very small compared to other valves. There is no fluid left in the valve chamber, the diameter is usually 50mm or 1,000mm, and the large size is operated by power.

However, there is a drawback that the valve is expensive and takes time to open and close the valve.

Therefore, when the diameter of the water pipe of the power plant 267 or the water pipe of the water supply pipe is large and it is not necessary to frequently open and close the valve, various accessories formed on the slow valve 403 are attached. The valve 403 is pressed against the valve cover 405 and the slow valve 406 by a packing button 407 and a packing press 407 as shown in the figure. A valve seat 409, a handle 410 and a handle nut 411 and a packing 412 are attached to the nut 408.

As shown in Figs. 24 to 27, the specification table of the relief valve of the disaster prevention preventive control unit connection structure constituting the nuclear hydroelectric power plant unit 811 will be described as follows.

The types of the above-mentioned sloshing valves are Wedge Gate Valve, Parallel Slide Valve, Double Disk Gate Valve, Drain Valve, etc., depending on the structure of the disc.

As shown in Figs. 24 to 27, in the apparatus of the wedge gate valve 413 of the disaster prevention preventive control unit connection structure constituting the nuclear hydroelectric power plant unit 811,

The weight gate valve 413 constituting the nuclear hydropower generation facility unit 811,

A single valve 414 and a flexible valve 415.

As shown in the figure, the unit type is a wedge-shaped valve, and the angle of the wedge is usually 6 ° to 8 °, while the bronze small valve has a wedge angle of 8 °.

Flexible valve 415,

As shown in the drawing, grooves are formed at the center, and the influence of heat on the valve seat in the high-temperature pipe or the like is absorbed by the flexure.

Second, in the device configuration of the parallel slide valve 416,

The parallel slide valve inserts a spring between two parallel valve bodies so that the valve is pressed against the valve seat by the fluid pressure.

As shown in Figs. 24 to 27, friction between the valve body and the disk of the connection structure of the disaster prevention preventive control part constituting the nuclear hydroelectric power plant part 811 is small and the thermal expansion is not affected It is easy to open and close the valve.

The valve disc and valve seat operate by sliding, so the valve seat uses a hard metal. This valve is suitable for high temperature and high pressure when vertically mounted.

Next, in the device configuration of the double disk gate valve 417,

The wedge type valve is difficult to completely open and close due to deformation of the valve seat due to frictional resistance and thermal expansion. In order to prevent this, the valve body is divided into two, and the valve disk is widened by the thrust of the valve step, and the valve is pressed on the valve seat.

The structure adopting the advantages of the wedge gate valve 413 and the parallel gate valve 416 has a relatively small influence on the deformation due to temperature and pressure.

As shown in Figs. 24 to 27, a detailed description of the apparatus of the stop valve 418 of the disaster prevention preventive control unit connection structure constituting the nuclear hydroelectric power plant unit 811 is as follows.

It is called the glow valve that the inlet and the outlet are in a straight line according to the flow direction of the fluid, and that the inlet and outlet are at right angles.

The connection method of pipe is screwed joint and flange joint method, and the material is forged steel for high-temperature and high-pressure bronze for small-sized medium pressure, and cast iron main steel for large-sized one.

The opening / closing spherical surface of the valve has a flat seat, a conical seat, a spherical seat, a septic seat, a resistance loss against a fluid flow, and a dust collecting at a dead zone.

This is the most widely used type of valve because it is easy to make valve and valve seat if the valve (l i f t) is small and the valve opening and closing is fast.

Valve and valve stem are connected by packing glands, and valve and rod are in the body.

The Y-type glow 419,

It is used for applications such as glow valves and is intended to reduce the resistance by inclining the valve cage to 45 to 60 degrees with respect to the center line.

The angle valve 420 has the same function as the glow valve 419, but is used to change the flow direction of the fluid at a right angle.

As shown in Figs. 24 to 27, the needle valve of the disaster prevention preventive control connection structure constituting the nuclear hydropower generation facility unit 811 includes:

15 to 16 mm m conical needle used for flow control is used for slightly increasing or decreasing the flow rate at a high pressure although the flow rate is very small. However, as shown in the drawing with reference to the specification table of the valve, the valve body 421 A valve presser 425 and a valve pusher 426 are provided on the cover 422 and the cover 424 and the lid fitting valve seat 424 and the valve presser 426 and the packing presser ring 428, 429 and the packing button 430 to the screw-in type 431 and the cover bolt 432 to the packing bolt 433 and the pin 434 to the cover bolt nut 435 and the handle nut 437 The stop screw 438 is a slow valve device of a disaster prevention preventive control connection structure constituted in the nuclear power plant 811 to which the gasket 441 is attached to the washer 439 and the packing 440.

As shown in Fig. 24 to Fig. 27, the valve specification sheet (flange type glow valve and angle valve) of the disconnection preventive control part connecting structure constituting the nuclear hydroelectric power generation facility part 811 is described as follows .

As shown in Figs. 24 to 27, in the disaster prevention preventive control unit connection structure cock of the nuclear hydroelectric power generation facility unit 811,

And the cock 1 type 443 is classified into a cock 1 type 443 and a cock 2 type 444. A bronze screw insertion main cock 445 and a bronze flange type gland type 446 are provided with a gland screw insertion gland cock 447 And the cock 2 444 is formed as a handle cock 450 in a trunk cock 448 and a four-way cock 449. However, when the fluid is flowed in a straight line and the cock is rotated 1/4, Opening and closing is fast because the passage is open. There are many cast iron and bronze items, and a small-diameter low pressure is used for drainage.

The cock can be a two-way cock and a three-way cock two-way flow.

The main cock is (a) fastened with a nut under the plug 458 as shown in the same figure, and the gland cock is pressed by the packing as shown in (b) and (c).

As shown in Figs. 24 to 27, in the check valve 451 of the disaster prevention preventive control unit connection structure constituting the nuclear hydroelectric power plant unit 811,

It is classified as swing type check valve (452) and lift type check valve (453). It is used to close the valve when the fluid flow flows in one direction. It has swing type and lift type.

As shown in Figs. 24 to 27, the swing type check valve 452 of the disaster prevention preventive control connection structure constituting the nuclear hydropower generation facility part 811,

Since it is opened and closed by rotating the pin 457 about its axis, the frictional resistance against the water flow can be used for any pipe that is smaller than the lift type and is horizontal or vertical.

The lift-type check valve 453 has the structure of a valve seat such as a glow valve, and the valve is vertically lifted by the pressure of the fluid as shown in the drawing.

The lift of the valve is about ¼ of the diameter and the friction resistance against the flow is large. A disk 456 and a disk pin 457 and a plug 458 are attached to a body 454 and a cover 455 formed by the check valve 451. The disk 457 and the plug 458 are connected to each other.

The check list of the check is as follows.

In addition, there is a smoothing key type in which the lift type check valve 453 has a wing to mitigate the impact.

The check valve is designed to flow only in a certain direction, so pay attention to the flow direction of the fluid when installing. A 10A or 15A bronze screw type, 50A or 200A type cast iron or main steel flange type.

As shown in Figs. 24 to 27, in the regulating valve 459 of the disaster prevention preventive control unit connection structure constituting the nuclear hydroelectric power plant unit 811,

The pressure reducing valve 460 constituting the adjusting valve 459 and the temperature regulating valve 477 for the safety valve 472 and the air vent valve 481 for the automatic water purifier 478 460) is a valve that is installed between a high-pressure pipe and a low-pressure pipe and brakes the lift of the valve by an appropriate device, and maintains a substantially constant pressure on the low-pressure side regardless of changes in pressure on the high-

The behavior of the valve is usually performed by a bellows, a diaphragm 463, or a piston 127.

When the pressure ratio of the high-low pressure is within 2: 1 and the pressure ratio of the high-low pressure is exceeded, it is better to use the two pressure-reducing valves 460 in series to perform the two-stage pressure reduction. The structure is generally composed of an adjustment spring 468, a diaphragm 463, a pilot valve 464, a piston 127, a main valve 466, and the like as shown in the figure.

As shown in Figs. 24 to 27, in the pyroelectric-operated pressure reducing valve (magnetic force type) 461 of the disaster prevention preventive control section connecting structure constituting the nuclear hydroelectric power plant section 811,

A main valve spring 467 is attached to the pilot valve 464 and the piston 127 and the main valve 466 in the secondary side sensing hole 462 and the diaphragm 463, (2 to 6 inches) pressure regulating valve 471b, and a screw type (½ to 1½ inch) type pressure regulating valve 470a and a flange type (2 to 6 inch) pressure regulating valve 471b.

24 and 27, in the safety valve 472 of the disaster prevention preventive control unit connection structure constituting the nuclear hydroelectric power plant unit 811,

The spring type safety valve 473 and the relief type safety valve 474 are separated into a steam type safety valve 475 and a pneumatic safety valve 476.

In this way,

The glow valve 419 is similar to the glow valve 419 and the glow valve 419 is opened or closed by an external force, but the safety valve is opened or closed by the force of the spring against external force or the weight of the valve stem and the weight of the lever.

As shown in Figs. 24 to 27, the safety valve of the connection structure of the disaster prevention preventive control unit constituting the nuclear hydropower generation facility unit 811,

It is installed in pressure vessel such as boiler and other pipes handling high-pressure fluid. When the pressure in pipe or vessel reaches the specified limit, it takes in internal energy and discharges it to the outside to maintain the pressure inside the vessel at a safe level at all times. to be.

It is a safety device that must be attached to pressure vessels with large accumulation energy such as boilers. One type of safety valve is a relief valve.

It is used as a valve connected directly to a pipe line of a pipe through which a pressure fluid flows, and is used for the purpose of warning while adjusting the pressure of the pipe constantly.

The performance of the valve is determined by the accuracy of the ejection pressure, the pressure at the ejection stop, the pressure difference in the ejection, and the ejection volume. When the valve is opened and the steam is spouted, the pressure at the inlet side is referred to as the ejection pressure, the pressure at the inlet side is referred to as the ejection stop pressure when the valve is closed, and the difference between the ejection pressure and the ejection stop pressure is referred to as the ejection difference pressure.

24 to 27, the temperature control valve 477 of the disaster prevention preventive control unit connection structure constituting the nuclear hydropower generation facility unit 811,

It has the same structure as OOTO temperature control valve (477), which is used to regulate the temperature of the liquid. It is opened and closed by the action of the ballast, which is very sensitive to the temperature change. It is used for heat exchanger and heavy oil heater.

As shown in FIGS. 24 to 27, an automatic level adjuster 480 is separately formed in the automatic water supply unit 479 of the disaster prevention preventive control unit connection structure of the nuclear hydroelectric power generation facility unit 811. The groundwater dispenser 479 and the water heater 480 constantly supply the level of the automatic water boiler to the maximum efficiency point. The water level difference is always induced at a rich time, It is to prevent the danger that arises.

As shown in Figs. 24 to 27, in the air vent valve 481 included in the adjustment valve 459 of the disaster prevention preventive control unit connection structure constituting the nuclear hydroelectric power plant part 811,

The air vent valve 481 is divided into a hot air exhaust valve type (for steam 482), a hot air exhaust and a valve barlet type (hot water type, 483). The exhaust valve (Length × width: 53 mm × 68 mm, 483) dimensions, and the air vent valve for the air has a columnar shape or column There are two types of copper float, and the open air intake and exhaust valves are float type.

The body is made of bronze jelly, bronze, brass, and bronze.

As shown in Figs. 24 to 27, in the refrigerant piping valve 484 of the disaster prevention preventive control unit connection structure constituting the nuclear hydroelectric power generation facility unit 811,

(Diaphragm type) 488 is connected to the refrigerant stop valve 485, the pack valve 486 and the pack valve (bellows type) 487 constituting the refrigerant pipe valve 484, Type expansion valve 490 and a balance-type expansion valve 491 are formed in the expansion valve 489, and the rich valve 492 and the pressure adjustment valve 492 are formed by the refrigerant stop valve 485, Is formed as a valve for refrigerant piping (484) as a single valve (493) for refrigerant and an electronic valve (494) as an integrated off-gas supply valve.

As shown in Figs. 24 to 27, the pack valve 486 included in the refrigerant stop valve 485 of the disaster prevention preventive control unit connection structure constituting the nuclear hydroelectric power plant unit 811, The valve 485 integral with the Woods type charge valve 487 and the diaphragm type charge valve 488 has the structure of a valve and a valve seat similar to the glow valve described above, In order to prevent the refrigerant leaking from the fuselage penetration side, the shaft is encapsulated with a packed type or diaphragm, which is sealed by an asbestos packing or the like and is sealed by a gland packing type (net net type) and a bellows There is an ear type, and it can not be manufactured by a bellows or a diaphragm.

The Grand type has all shaft caps (bonnet, cap) and is recently packed almost in shape to prevent the exchange of bellows, packs or packing seals (packing) or leakage during valve opening .

As shown in Figs. 24 to 27, the valve material of the disaster prevention preventive control unit connection structure constituting the nuclear hydropower generation facility unit 811,

The bigger fuselage is made of cast iron or cast iron, the smaller diameter is almost forging, the valve stellite, and the valve seat is made of nerunnel metal.

Valve material should be harder than valve seat material to prevent wear.

The expansion valve 489 is divided into a diaphragm-type expansion valve 490 and a bellows-type expansion valve 491, and a nuclear waste of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector The expansion valve (489) of the disaster prevention preventive control unit connection structure constituting the nuclear hydropower generation facility unit (811) constituting the distribution input apparatus main body (1) of the processing reactor installation includes a passive expansion valve pressure expansion valve, There are three types of expansion valves.

As shown in FIG. 24 to FIG. 27, the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector ) Preventing disaster prevention Preventive control In the main problem facilities during the pump operation,

The standard gland packing 344 includes a gland 345, a main liquor ring ring packing 346, a lantern packing 347, a double gland packing 348 and a droplet bushing packing 349 And a cooling water outlet 351 and a cooling water inlet 352 are provided and a water jacket attaching packing 353 for a sleeve inner cooling jacket and an inner cooling chamber 354 of a sleeve The gland 355 and the cooling liquid chamber 356 for the leakage liquid,

In the plurality of manufacturing methods constituting the gland packing 344,

The sealing ring 364 and the sealing ring 364 are provided with the flushing hole 361, the O-ring 362, the stopper 363, the middle ring 364 and the sealing cross- The handle 371 and the partition wall 372 are provided with the seat ring 366, the driven ring 367, the quenching 368 and the claw ring 369, The balance 374 and the balancing hole 376 in which the pressure 374 acting on the impeller front and the pressure 375 acting on the rear side of the impeller are adjusted to balance 334 and unbalance 335 Suction pressure 377 and back pressure 378 are provided,

The discharge pressure 381, which constitutes the front ring 380 of the ballast hole 376,

The impeller arrangement shaft rods 390 of the pressure distribution and the impeller 385 of the multi-stage pump are provided with the cooling system of the mechanical seal 382 and the rear wing 384, The water pump 393 is constructed such that the return pipe 370 is connected to the impeller arrangement 386 of the multi-stage pump by an order separation 387, The water hammer pumps 393 with the water hammer 388 provide the water hammer action 389,

The water hammer pump 393 provides the water hammer action 389 with the water hammer pump 393 having the water separation 387 and the water supply coupling 388 in the impeller arrangement 386 of the multi- ,

The main problem to configure during pump operation Pump installation,

Disaster Prevention and Control Section Connection Structures in the Nuclear Hydroelectric Power Plant Unit (811) constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector And the pump facility is constituted.

As shown in FIGS. 24 to 27, the nuclear hydroelectric power plant (1) constituting the inside of the distribution and dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector 811 have a plurality of slew valves 403 in the fire pump and prime mover,

Type glow valve 419 and a flange-type angle valve 420 constituting the slope valve 403 are divided into a body 421, a main net 422 as a lid, a disk 423, A valve seat 425 and a valve seat 426 and a handle 427 and a cover fitting ring 428 and a packing ring ring 429 and a packing pusher 430 and a screw The cover bolt 432 and the packing bolt 433 and the pin 434 and the cover bolt nut 435 and the packing bolt nut 436 and the handle nut 437 and the detent screw 438 and the gasket 441 and the gasket 441 while the valve pusher 442 has a flat pusher 442a and a conical pusher 442b, A push button 442c and a push button 442d so as to have a one-piece cock 443 and to receive a bronze threading main cock 445, a cast iron flange type gland 446, Landcocks 447 Type swivel check valve 452. The swivel type check valve 452 is a swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel type swivel swivel type And a lift type check valve 453 while the check valve body 454 is provided with a cover 455, a disk 456, a disk pin 457 and flags 458, And the disaster prevention preventive control section distribution input-unit connection structures of the nuclear hydropower generation facility section (811) constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant .

As shown in FIGS. 24 to 27, the nuclear hydroelectric power plant (1) constituting the inside of the distribution and dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector 811, the fire pump and the plurality of slew valves 403 constituting the prime mover,

The passive expansion valve constituting the slew valve (403)

It is hardly used except for one part, and the static pressure expansion valve is used for a small capacity such as a domestic refrigerator, so that the pressure in the evaporator is constant The operation is provided,

Thermodynamic expansion valves are more widely used today, and are liquid evaporators that evaporate completely and operate as a gasification system. They are used in direct expansion type evaporators,

The valve is made of stainless steel, the valve seat is made of monel metal, the bellows is made of phosphor bronze, and the rich valve (492) is constituted,

The float valve constituting the rich valve (492)

The valve is a low pressure side rich valve which regulates the liquid level in the evaporator constantly. The valve is opened and closed according to the amount of refrigerant in the evaporator, and the structure is made of brass The surge chamber is made of cast iron or steel, the valves are made of stainless steel, the valve seat is made of brass, and the valve is equipped with a high pressure fl ow The valve is also configured.

As shown in FIGS. 24 to 27, the nuclear hydroelectric power plant (1) constituting the inside of the distribution and dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector 811, the fire pump and the plurality of slew valves 403 in the prime mover,

The pressure regulating valve 493, which constitutes the refrigerant pressure regulating valve 493,

This object can be achieved by having the pressure in the evaporator used to keep the temperature of the refrigerant evaporated in the evaporator constant regardless of the load in the evaporator.

A plurality of evaporators are used in one compressor and are effective when the evaporation temperatures of the evaporators are different. However, the solenoid valve 494 is a separate valve for operating the opening and closing of the valves by the action of an electromagnet.

This is because the electronic coil is attached to the glow valve. When the current flows through the coil, the electron moves to the upper end of the plunger with the needle valve. When the valve opens and the current does not flow, the plunger falls down by gravity. The valve closes.

It is installed in front of the expansion valve to prevent the refrigerant liquid from flowing into the evaporator when the compressor is stopped.

As shown in FIGS. 24 to 27, the nuclear hydroelectric power plant (1) constituting the inside of the distribution and dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector 811) and a plurality of sluice valve (403) equipment constituting the prime mover,

The automatic water supply valve is used to increase or decrease the amount of water supplied to the condenser in response to the fluctuation of the load of the compressor due to the load on the outlet side of the condenser of the freezer (on the outlet side of the cooling water) Or a bellows is installed and operated by the high pressure gas pressure of the compressor to operate the valve up and down.

(811) constituting the inside of the main body (1) of the reactor installation for nuclear waste treatment of a marine nuclear hydroelectric power plant having the double structure block tank dust collector, and a plurality of In the slew valve (403) equipment,

The plurality of slew valves (403) equipment constituting the fire pump and the prime mover,

(534) and a handle (532) are attached to the body (529) of the faucet (496) and the packing box (530) Corrosion resistant packing 536 and a packing 537 of an aging resistant material are disassembled and assembled to the disc 533 and the disc 534 and the disc packing 535.

The equipment that opens and closes the flow of water and water directly connected to the end of the water supply hot water pipe is called as a faucet. The material of the faucet is made of bronze casting and brass casting in general. Nickel or chrome plating is generally used,

The structure and part name of the general-purpose faucet are as shown in the figure, and the general faucet specification table is the same as the general faucet used for building equipment and faucet.

Standard faucet The same as the specification table in the table below.

A general type faucet (496) formed in the inside of the building has a double structure block tank dust collector having a fire extinguishing piping pump fire extinguisher as a fire extinguishing piping pump fire extinguisher A conventional separate valve facility is also provided in the nuclear hydropower generation facility unit 811 constituting the inside of the nuclear power plant 1.

Referring to FIG. 28, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for processing marine nuclear hydroelectric power plants. And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section The faucet includes a long faucet body 512a and a long faucet body 512a. The faucet body 512 includes a long faucet 512a and a long faucet body 512a. A long transverse faucet 512c and a long transverse faucet 512c and a short transverse faucet 512d and a short faucet faucet 512e, , A water taxon (512f), a universal water tank (5 Sanitary flash valve 513 which is provided with the cap ring lateral faucet 512h, the acid faucet 512i, the sanitary faucet 512j, and the hot water mixed comb 512k, The transverse material receiver 514a, the transverse material receiver 514b, the longitudinal material receiver 514c, the Fomats type transverse material receiver 514d, the medical receiver 514e, the transverse material receiver 514b, 514j, 514h, 514h, 514i, 514j, 514j, 514j, 514j, 514j, 515a), building type faucet valve (A type; 515a), and construction equipment faucet valve (for urinal; 517a, 517a, 517b, 517b, 517b, 517b, 517b, 517b, 517b, 517b, , A hand shower (520), and a shower set (521) A plurality of valves are connected to form a normal type can only faucet 512 showing a configuration perspective road configuration,

As shown in Fig. 28, in the general-purpose water-only faucet 512 constituting the nuclear hydroelectric power plant part 811,

A double pipe structure block pipe line adjustment shaft 238 for nuclear waste of nuclear power hydroelectric power plant constituting the nuclear waste disposal unit 811a, an electronic sensor valve screw control unit, a disaster prevention prevention control unit, and a forest fire disaster dictionary The water-resistant faucet (512) is connected to the anti-fouling control unit

A long transverse faucet 512a with a long body and a long transverse faucet 512b with a Fomatsu body and a long overall faucet 512c with a long body and a short faucet 512d with a short body, ), A short-side water faucet 512e, a longitudinal water faucet 512f, an all-purpose water faucet 512g, a cap ring lateral faucet 512h, an acid faucet 512i, A sanitary faucet 512j, a sanitary flash valve 513 and a parallel bath faucet 514.

28, a transverse material receiver 514a, a transverse material receiver 514b, a longitudinal material receiver 514c, a Pompos type transverse material receiver 514d, a medical receiver 514e, 514j, 514h, 514h, 514i, 514j, and 514j, respectively, in the horizontal and vertical directions, respectively, In addition,

A nuclear reactor nuclear waste treatment section 811a included in a nuclear hydropower generation facility section 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, In addition,

(515) of a faucet for faucets for construction equipment (515) constituting the double pipe structure block piping line control shaft (238) for the nuclear waste disposal of a nuclear hydroelectric power plant, and a float valve 515a), a mixer valve (for three-way valve 517), a mixer valve (for a for-sale) 515a, (517a), a hand shower (518), a sow head (519), a hand shower (520) and a shower set (521) And a plurality of valves, each of which is provided with a double structure block tank dust collector, and a water supply faucet (512) for exclusive use of water in the main body (1) of the nuclear waste disposal reactor facility of a marine nuclear hydroelectric power plant.

Referring to FIG. 29, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention, ), An electronic sensor valve screw control unit, a disaster prevention prevention control unit, and an electronic control unit, which show the configuration of a double pipe structure block pipe line control shaft (238) for nuclear waste disposal of a nuclear hydroelectric power plant A method of operating each of the valves showing a conventional configuration showing a configuration in which the fire fighting natural disaster prevention control unit and the artificial tunnel fishery scatter control unit are connected,

Referring to FIG. 30, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector according to the present invention, And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section (148) and a diaphragm pump (144) of a reciprocating pump for each type of volumetric pump, which shows a conventional configuration showing a configuration for connecting to a pre- And the operation of the wing pump 327 and the operation of the rotary pump 337 and the external gear pump 326 and the other rotary pump rotor 338 to the part Configuration of the operation illustrating a road works,

Referring to FIG. 31, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section (339) and the sucking pump (340). The turbine pump (140) is connected to the disaster prevention control section The schematic diagram of the operation of the axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146 is shown in a perspective view of the viscous pump 343, work Expression to the side structure of the illustrated side road works,

Referring to FIG. 32, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section And a control unit for controlling the operation of the automatic collecting tank in accordance with the present invention,

Referring to FIG. 33, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section And a control unit for controlling the operation of the automatic collecting tank in accordance with the present invention,

Referring to FIG. 34, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating marine nuclear hydroelectric power plants. And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section And a control unit for controlling the operation of the automatic collecting tank in accordance with the present invention,

Referring to FIG. 35, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section And a control unit for controlling the operation of the automatic collecting tank in accordance with the present invention,

Referring to FIG. 36, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section In which a plurality of solenoid valve actuating assemblies are attached to a hydraulic pneumatic cylinder showing a conventional configuration showing a configuration in which an accident prevention preventing portion is connected to an accident prevention preventing portion and an artificial turtle egg scattering adjusting portion, In this paper, we propose a new sensor technology for the detection of high-

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant portion (1) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The nuclear waste disposal unit 811a included in the nuclear waste disposal unit 811 includes a double pipe structure pipe line adjustment shaft 238 for treating nuclear waste of the nuclear hydroelectric power plant with a plurality of slew valves 403 constituting a fire pump and a prime mover ) In facilities,

The slew valve (403) equipment constituting before the water flow index will be described.

Before the index, there are two types of index. It is used to regulate a part of water quantity of water supply device or to open and close it. Generally, it is installed at a position where it can be freely opened and closed in the middle of the vertical water supply vertical pipe, shower vertical vertical pipe and upper vertical vertical pipe. There are two types of joints with pipe: screw joint for steel pipe and soldering for connection pipe.

(497), which sets up the restriction of water supply to the entire water supply system, is installed in the subterranean water supply branch of the highway and the boundary of the land, unlike before the water supply.

The exponent (497) is usually protected by a pre-exponential box and is not open or closed at will, except for special cases, such as water leakage.

As shown in the drawing, the structure of the exponent field 497 is such that, when the plug is rotated by 90 degrees, water flows, while when it is rotated by 90 degrees, the flow of water is stopped

At the next fractionalization 498,

It is a faucet used for branching water supply pipes less than 40m from the water supply pipe buried in the highway. The diameter of the water before the fraction is 13, 16, 20, 25m. Attach directly to the supply pipe of a cast iron or asbestos cement pipe or by using fractional saddles.

Before the fountain can be installed, it is possible to use a non-water-based perforator (a machine that punctures the water pipe without interrupting the water) to stop the water in the water pipe.

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant portion (1) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector 811 are provided with a ball tab 499 of the fire pump and the plurality of slew valves 403 constituting the prime mover,

It is a rich type valve used to supply water to the water tank. When the water in the water tank reaches a certain level due to the ball of copper or synthetic resin at the end of the lever, the valve is closed by the buoyancy of the ball, A certain amount of water is stored in the tank.

The ball tab 499 has a small diameter and a large diameter, and has a fast type and a double type according to the type.

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant portion (1) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector 811) nuclear waste disposal unit (811a) disaster prevention preventive control unit,

In the plurality of the strainer 392 constituting the exponent line 497 and the fractional flow 498 of the piping 14 constituting the distributing and inputting facility of the reactor facility of the nuclear hydroelectric power plant,

Shaped Y-shaped strainer 501a, a U-shaped strainer end face 502b, and a V-shaped strainer 503,

The tube fixing metal 504, which constitutes a plurality of strainer 392,

And the connecting structure is formed by the supporting band 506 and the roller supporting band 507 and the vertical tube 508 and the steel band 509 and the bottom band 510 of the buckle portion 505, In addition,

In the traps 511 constituting the connection structure with the bottom bands 510,

Type bucket trap 522 and a bottom trap 524 and a bottom trap 524 and a bucket trap 524 and a top-bottom bucket trap 525 and a top-bottom bucket trap 526 and a float trap 527) and the impulse steam traps (528), and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector (811) disaster prevention preventive control unit distribution dispenser unit.

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant portion (1) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector 811), each valve-actuated installation showing the configuration in the disaster prevention shut-

The V-type strainer 503 is formed on the screw-type and Y-type strainer 501 and the U-type strainer 502 in a strainer 392 constituting a distributor / dispenser of the reactor installation of each valve nuclear power plant ,

The strainer, which constitutes the valve-operated system,

It is used for piping of steam, water, oil, etc. and is used for removing dirt in the pipe.

Generally, 2 B or less is a bolt screw type, and a cast iron flange type is used for 2½B or more.

The Y-type strainer 501 has a cylindrical metal net in a Y-shaped body inclined by 45 degrees, and the strainer 392 has a Y-, U-, V- In order to reduce the resistance, the fluid flows from the inside to the outside of the net, and the opening area of the metal net, in which impurities are removed by installing the plug at the bottom, is about 3 times the nominal diameter, .

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant portion (1) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector 811 in the nuclear power plant nuclear waste disposal unit 811a,

In the U-shaped strainer 502 constituting the disaster prevention prevention control section,

Inside the cast iron body, a round barrel with a filter net is installed vertically, and the fluid flows from the inside to the outside of the net. Since the flow direction of the fluid changes perpendicularly to the structure, resistance to the fluid is higher than that of the Y-type strainer. However, it is easy to perform maintenance and inspection.

In the V-shaped strainer 503 constituting the disaster prevention prevention control section,

Since the fluid flows through the net and the dirt is filtered by the metal mesh in the body of cast iron, the resistance against the flow velocity is less than that of the Y or U type because the structural fluid flows linearly through the strainer. A bucket trap 524 and a bottom-up bucket trap 525 are provided to the angle-type thermal trap 522 and the straight thermal trap 523 constituting the trap 511 of the piping accessories, The steam trap separates the condensed water and air from the heat sink or steam from the steam so that the steam is not passed but only the condensed water is returned to the steam trap 528. [ It is a device that discharges to the pipe.

Generally, it is installed at the end of the steam pipe, the radiator outlet or the place where the condensate collects.

Types of steam traps include thermal traps, bucket traps, float traps, and impulse steam traps (528). Applications vary with operating pressure and emissions.

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant portion (1) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector 811) Nuclear waste disposal unit (811a) Operation mode showing the construction of disaster prevention preventive control unit In the nuclear disposal facility of the nuclear power plant,

The thermal trap (523), which constitutes the distribution system of the reactor installation,

The trap, which is divided into an angled type and a straight type according to the type of use, is called a "silpone trap". The bellows is made of a thin plate of phosphor bronze and filled with a volatile liquid (ether) And when the steam is around the bellows, the bellows is expanded due to evaporation of the bellows. When the valve is closed and the drain (301) or the air is heated, the temperature is lowered and the bellows is contracted As the valve is expanded, the inner pressure is low, and a radiator of less than 1 kg / ㎠ is used for the pipe end trap. Also, it is used for the air piping of the air rithening system or the vacuum return pipe type.

 As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant portion (1) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector 811) Nuclear waste disposal unit (811a) Operation mode showing the construction of disaster prevention preventive control unit In the nuclear disposal facility of the nuclear power plant,

The trap facility constituting the distribution dispensing apparatus of the nuclear reactor facility comprises:

The buoyancy of the bucket is operated by the steam pressure, so there should be a pressure difference between the steam pipe and the return pipe. The pressure difference is 1 kg / ㎠ day Theoretically, the condensate can be pumped up vertically up to 10.33 m, but it is actually less than 8 m.

In addition, the low pressure steam pipe which does not have enough pressure difference does not discharge the condensed water. At the same time, the bucket trap is suitable for the high pressure steam pipe and it can pipe the water return pipe to the upper side of the trap. And top-down.

In the bottom-up bucket trap (525) equipment that constitutes the distribution input device of a reactor installation,

The bottom up bucket trap (525) is also called an open trap. When condensate enters the trap, it floats on the outside of the bucket (A) and the bucket (B) Close. When the condensate is slowly filled up and flows into the bucket, the Bucket becomes heavy, loses its buoyancy and sinks, and the valve (C) opens. When the valve is opened, the condensate is discharged by the pressure of the steam acting on the water surface in the bucket.

A top-down bucket trap (526) arrangement, which constitutes a distribution dispenser of a reactor installation,

The top down bucket trap (526) facility is located upside down when the bucket is upside down. When steam and condensate enter the bottom of the trap, the bucket is filled with steam, buoyant, floated up, and the valve closes.

The steam in the bucket is discharged to the small hole in the upper part of the bucket according to the accumulated condensate. When the steam is discharged, the bucket loses its buoyancy and descends to its own weight, and the valve is opened and the condensed water and air are discharged. At the end of the discharge, the bucket is again filled with steam, buoyant, and the valve closes.

As shown in FIGS. 29 to 36, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector ) Operation Method Showing the Disaster Prevention Preventive Control Section Composition Providing the Nuclear Power Plant Nuclear Waste Treatment Unit 811a of the Nuclear Power Generation Plant 811a In the form of the float trap 527 constituting the distribution apparatus of nuclear reactor nuclear plant,

The float trap 527 is also referred to as a so-called multipass trap and has a buoyancy of the float to provide a valve opening and closing operation. The operating pressure is set by a low pressure, medium pressure (about 4 kg / It is used when treating a large amount of condensate and it is not possible to discharge air. Therefore, when necessary, heat is supplied to induce low temperature air discharge through the upper air discharge pipe.

An operation showing the disaster prevention preventive control unit configuration of the nuclear hydroelectric power plant unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the distribution system of the reactor system of the nuclear reactor,

With the impulse steam trap 528, the impulse steam trap 528 opens and closes the valve continuously according to the temperature change in the cylinder, and is smaller than the amount of drains that the structure is extremely simple to handle, It can be used for high pressure, medium pressure and low pressure, but the drawbacks are that the steam leaks somewhat.

As shown in Figs. 29 to 36, in the drain trap facility constituted by the disk-shaped valve rod and the disk seat,

The drain trap is a manual discharge mechanism for preventing gas generated in the sewer pipe from flowing back to the room through the drain pipe from the apparatus drain port. The drain trap is made of cast iron, bronze brass, and ceramics,

The structure is designed to allow water to flow through a portion of the drainage system and to allow free passage of water,

The depth of the trap seals is between 50 and 100 mm. If the depth of the trap is less than 50 mm, gas and air may pass through. If it is deeper than 100 mm, the self-cleaning force will weaken and cause debris to accumulate on the bottom of the trap.

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant portion (1) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector 811) of the nuclear power plant nuclear waste disposal unit 811a. The drain trap constituting the distribution facility apparatus of the reactor facility of the nuclear power plant is composed of:

Structurally, it can be roughly divided into pipe traps and box traps. In vertical pipe support metal installations,

If the vertical pipe penetrates through the floor, put a sleeve on the floor to allow the pipe to expand and contract freely, and install the supporting metal in the middle of the layer to prevent transverse swing. I will explain.

As shown in Figs. 29 to 36, in the pipe-fixing metal 504 of the fixed metal,

A steel spectacle band 509 and a bottom band 510 are formed on the support band 506 and the support band 506 of the buckle portion 505 and the roller support band 507 and the vertical pipe casting band 508,

The purpose of this pipe is to prevent the tube from moving against the expansion and contraction of the pipe. It is necessary to provide a rigid fitting on the building,

For the properties and applications of the packing,

The gasket 32 is generally sandwiched between two flanges and is compressed by the tightening force of the tightening nut and leaks in close contact with the flange. And the gasket has a slight elasticity.

This is because if the gasket 32 is not resilient when the bolt is stretched for some reason, leakage will occur immediately.

The following points should be considered when selecting gasket for piping.

First, consider the physical properties of the object in the tube, and then the temperature, pressure, the distinction between gas and liquid, the density, and the viscosity should be considered. The chemical properties of the material in the tube should be taken into account, and the chemical composition, stability, corrosiveness, , Attention must be paid to flammability and explosiveness, and the mechanical properties of gasket for piping,

Since the most suitable gasket material should be selected after all the conditions of exchange, the presence of vibration, the degree of internal pressure and the external pressure are examined, the gasket material can be classified into the following six types,

The first is rubber products and processed products,

The second is plant fiber products,

The third is animal textile products,

The fourth is a mineral fiber product, the fifth is a synthetic resin product,

The sixth is metal products and the main ones are as follows.

The above rubber streams and their processed products are widely used as gasket materials since they have high elasticity and are not eroded by chemicals.

If strength is required, use gaskets to mix rubber or metal mesh with cloth (cloth, 75)

For the selection of natural rubber,

The characteristic of the rubber is that it is very elastic and not absorbent and does not erode well to soft acids or alkalies but is poor in heat resistance. Therefore, rubber products and their processed products which are prevented from being used in piping handling a high temperature of 100 ° C or higher, Respectively,

The main drawback of natural rubber is that it has poor oil resistance and therefore can be used for general cold water, drainage and air piping. However, it is not suitable for use in oil, steam, hot water and refrigerant piping, The nuclear waste water treatment unit 811 of the nuclear hydropower generation facility unit 811 constituting the inside of the main body 1 of the distribution and input device of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the conventional double structure block tank dust collector, (811a). It is a gasket material to the distribution apparatus of the reactor plant of the nuclear power plant.

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant portion (1) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector 811 of the nuclear power generation nuclear waste disposal unit 811a,

The nuclear hydropower generation facility part (811) constituting the hydrologic control section of the nuclear hydropower generation facility part (811) is provided with the facility for each type of pump of the distribution and input device of the nuclear hydropower generation facility part (811), and a reciprocating pump planer pump The operation mode of the diaphragm pump 144 constituting the connection between the discharge joining pipe 4 and the bal- ance cover 261 in the electric motor 192 constituting the diaphragm 148 and the suction merge pipe 3, A rotary pump rotor 338 is provided inside the rotary pump 337 and the external gear pump 326 while the wing pump 327 is operated to form the discharge port 270 in the suction port 269 to move the water (593,594,595) of small-sized, medium-sized and large-sized marine nuclear hydroelectric power plants constructed in the marine environment, equipped with the respective types of pumps, are installed in the nuclear hydroelectric power plant unit 811 of the marine nuclear hydroelectric power plant equipment Disaster Prevention Preventive Control Pump Drive Bal (811), which is composed of the main body (1) of the dispensing apparatus main body for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector equipped with the facilities of the nuclear power plant, It is composed of distributing and inputting device of the reactor facility of the nuclear hydroelectric power plant constituting, and facility connecting structure of each pump type.

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant portion (1) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector 811 of the nuclear power generation nuclear waste disposal unit 811a,

A plurality of gears for replacing the connection between the electric motor 192 constituting the turbine pump 140 and the turbine pump 140 with the pulley 250 on the rotary shaft 198 of the electric motor 192, The pump 30 is rotated by the pump 30 and the pump 30 is rotated by the pump 30 while the pump 30 is rotating. A viscous pump 343 and an impeller 143 of a viscous pump are provided in the flow pump 342 and the main body of the distribution input apparatus of the reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having the above- A certain amount of fluid shoveling is provided for the guaranteed function of the pump, which clearly defines the full closing position and the opening position of the positive displacement pump,

The positive displacement pumps constituting the above-mentioned constant amount of fluid shovel are the same as those of the marine power plant equipment for controlling the hull position movement of the floating type poison (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants, (1) of the nuclear reactor waste disposal facility of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, and the nuclear waste of the nuclear power generation facility section (811) of the nuclear hydroelectric power plant section And a disposal input device of a reactor plant of a nuclear hydroelectric power plant showing a disaster prevention preventive control section having a treatment section 811a.

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant part 811 of the marine power plant facility for controlling the hull position movement of the floating type poison (593, 594, 595) of the small, medium and large- ) Disaster prevention preventive control unit that provides the nuclear power generation nuclear waste treatment unit 811a of the nuclear power plant,

The nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector constituting the individual collecting tank 34, (811a) of the nuclear power plant Operation method constituted in the disaster prevention prevention control section Providing the distribution device of the reactor facility of the nuclear power plant Having the facility of the correction tank (34) of the nuclear power plant, Control unit The operation configuration of the automatic collecting tank showing the conventional configuration and the facility of the distributing and loading device collecting tank 34 of the nuclear hydroelectric power plant are provided,

The pump body horizontal horizontal center line PBCL of the centrifugal pump 308 constituting the position outside the collecting tank 34 is connected to the electric motor 192 constituting the centrifugal pump 308, And the centripetal force pump 308 is connected to the rotating shaft 198 of the electric motor 192 by a plurality of gears coupled to a plurality of gears, The automatic valve 259 coupled to the tee elbow 44 connected to the pipe 14 located at the center of the outer wall manhole cover 152 located at the front of the bed fixing tank 34, (28) is provided with a collection tank (34)

The electric motor 192 and the centrifugal pump 308 provide a connection with the valve 315 for operating the water level according to the low pressure level pressure switch 104, And the flange 315 is inserted into the through hole of the collecting tank 34 by the tool 316 for pushing the ball so that the flange cap ring 317 is pushed into the flange 28 are connected to the switch input circuit 58 provided inside the louver cover 550 while coupling the bolts and the nuts with a male tool, the main switch button 66, which is a switch for on-off control of each pump, The switch 318 is connected to the stop valve 114 and the automatic valve 259 to the inlet / outlet switch 285 and the flow rate check flow meter 105 and to the motor control module 106 In addition,

A device including a metal 539 having a large thermal expansion and a metal 540 having a small thermal expansion is provided with a time alarm level switch 541 and a low level alarm 542 with a buzzer alarm 543, An alarm reset switch 545 is connected to the ambulatory relay 544 and a check nozzle 549 and a plug insulator 549 are connected to the flap 547 and the sound cap 548 on thelow level switch 546, And a bent pipe connection 554 and a flange connection 555 to the indicator scale 552 and the overflow connection 553 on the switch 551, (34) is provided with water level adjustment,

(593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants, each of which is connected to each other by means of each pump, (811) of a nuclear power plant (811) constituting a distribution input device main body (1) of a reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a double structure block tank dust collector, And each pump operation method connecting each of the apparatuses for adjusting the overcoming of water and the connection structure of the switch and the piping line to the distributing and inputting device of the reactor facility of the nuclear power plant constituting the individual collecting tank 34, A reactor of a nuclear hydroelectric power plant constituting a disaster prevention preventive control section for providing a nuclear power generation nuclear waste treatment section 811a of the hydroelectric power generation facility section 811 (34) facility connection structures with a distribution dispensing device of the facility.

As shown in FIGS. 29 to 36, the nuclear hydroelectric power plant part 811 of the marine power plant facility for controlling the hull position movement of the floating type poison (593, 594, 595) of the small, medium and large- ) Of the nuclear power generation nuclear waste treatment section (811a) of the nuclear power generation nuclear power plant (811a). In a plurality of solenoid valve operation assembly equipments constituting the hydraulic pneumatic cylinder connected to the valve during the pump operation,

(2) a dual structure block tank assembly providing a plurality of solenoid valve actuating assemblies to constitute a hydraulic pneumatic cylinder; (3) a distributing and inputting device for a nuclear reactor waste disposal apparatus for a marine nuclear hydroelectric power plant having a dust collector; A solenoid valve pressure switch of each solenoid valve 76 and a solenoid valve start switch button main switch button 66 for supplying pressure air generated in the air compressor 80 to the connecting structure constituting the facility unit 811 , The butterfly valve 622 is deployed and depressed by hand into the off-time main switch button 66 of the main switch button 66 The butterfly valve (622) connection structure is manually depressed to the on-time main switch button (66) of the main switch button (66) for the starter switch button, The connection structure of the Lai valve 622 is expanded so that the pressure air generated in the air compressor 80 is passed through the pipeline connection structure while the construction machine and the plurality of hatch covers 153 for the ship and the plurality of fire doors (154) A connection structure for providing a connection structure with a body, which comprises a dual structural block tank dust collector and a nuclear reactor main body (1) of a nuclear reactor for nuclear waste treatment of a marine nuclear hydroelectric power plant, In the facility of the detection switch sensor,

A solenoid valve body (557) that constitutes the application of oil, air and sensor technology is provided,

The 8 inch large flow manifolds 564 are provided while providing connections with the carver 558, spool 559, spool packing 560, pilot 561, coil 562 and connector 563. (564) and a manifold (565), which constitute a plurality of types constituting the oil, air pressure and sensor technology application methods, and the screw bolt (567), the air hose coupling center union coupling (568) (569) to connect the solenoid valve body (557) to the main body of the distribution apparatus (1) of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector ),

Position single 570 and two-position double 571 constituting the solenoid valve body 557, a central vertical type 572, a vertical type 573 and a horizontal type 574, (575), which include the horizontal &lt; RTI ID = 0.0 &gt;

In the solenoid valve body 557,

A direct tubing 582 providing a connection to the microswitch 581 with a single 576, a double 577, an aerator 578, an eye 579 and a jaw 580, The pneumatic cylinder operating control for providing a connection structure with the damper spindle 584 of the damper damper 583 which controls the air flow rate of the suction port 585a and the discharge port 585b of the damper 585, (1) of a reactor installation for nuclear waste treatment of a marine nuclear hydroelectric power plant having a tank dust collector, a connecting structure constituting the interior of the main body (1), a diesel control valve (622) Connected Structure Doctor Venture (585) Connective structure that provides pressure air generated from the compressor to the connection structure is provided with piping line automatic pneumatic conveying device (916) Luster Butterfly Val 622 provide a connection structure,

Prevention of disaster prevention at the nuclear hydroelectric power plant (811) of the marine nuclear hydroelectric power plant with the control of the hull position movement of the floating type poison (593,594,595) of the small, medium and large sized marine nuclear power hydroelectric power plants constituting the ocean (1) of a reactor installation for the nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector, which is provided with a plurality of solenoid valve operation assembling apparatuses constituting a hydraulic pneumatic cylinder connected to a valve (811) of the nuclear hydropower plant (811), which are connected to the switch and piping line, are provided with each pump operation method.

Operation scheme showing the construction of the disaster prevention preventive control unit in the nuclear hydroelectric power plant (811) constituting the distribution input apparatus main body (1) of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structural block tank dust collector Pipeline line automatic pneumatic conveying device (916) with connection structure to constitute the nuclear power plant of the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector.

As shown in Figs. 29 to 36, the 5-port solenoid valve constituting the solenoid valve 76,

The coil 562 is inserted into the guiding pilot 561 in the spool 559 and the spool packing 560 in the valve body 557 and the cover 558 and the coil 562 is inserted in the two position single 569, And the two-position double 570 is also attached to the left and right sides of the coil on the left and right sides of the valve body 557 to form a two-position single 569 and a two-position double 570, .

In addition to the above-mentioned standard products, custom-made products are provided with 3-position center cradle (577) and 3-position center cradle (578) with 3-position center cradle (579)

The single product 575 and the double product 576 are divided into the standard product and separated into the product 577 and the child 578 in a variety of structures, In this embodiment,

(579) is a mechanism of the fan damper opening / closing device of the ventilation device of the ventilation vent of the doctor ventilation and the ventilation device of the ventilating device in the case of fire in the front of the cylinder 126 Is connected to the air hose 109 and is widely used in buildings or other industrial and marine vessels.

As shown in FIGS. 29-36, the manifold type of the manifold system includes five leaflets (DMQF 100-MO OS) and (DMQ F100-M O OL ), Which is described in the following specification.

As shown in Figs. 29 to 36, in each of the solenoid valve specifications,

As shown in Figs. 29 to 36, in the solenoid valve 76, as a mounting type,

(LL, 571) and vertical type (L, 572) are installed in the form of direct piping type (581) and base piping type (valve seat, 582) (DC, DC 24 V) and DC (DC 24 V) are connected to the coil 562 body for switching on The screw tap and the machining hole dimension are described as follows in the intake port and the discharge port of all the accessories attached to the solenoid valve body 557. [ (Distance dimension explanation is omitted)

As shown in Figs. 29 to 36, the threaded tabs of the respective dimensions are integrally formed with an air hose coupling center union coupling 567 and a union coupling (body coupling, 568) (20) is as follows.

As shown in Figs. 29 to 36, a pump installed on the cable car 256 is provided so as to have an initial evolution and lifespan within one second of the present configuration arranged in the elevator machine room pressure sensor and the hydraulic pressure sensor. A detailed configuration of the fire extinguisher is described with the illustration of the unexplained part.

As shown in Fig. 3O, the sign of the state before use of the product of the air solenoid valve 76 will be described as follows.

As shown in Figs. 29 to 36, in the detailed description of the use conditions of the fluid,

First, the filter should have a filter with a filtration degree of 5 μm or more. If the drain is large, the pneumatic equipment may malfunction when the valve is used for the first time. Be careful

As shown in Figs. 29 to 36, when the drain solenoid valve 76 is difficult to manage, the use of an automatic filter with an auto drain lane is provided.

When there is a large amount of carbon tar in the air compressor, a large amount of carbon tar may adhere to the inside of the valve, making it impossible to operate. Therefore, when there is less carbon tar, an air compressor is used, but an oil mist and a separator are used .

Regarding other conditions of the fluid to be used, the compressed air cleaning system of the pneumatic equipment is taken into account.

The following is an initial lubrication for lubrication, so it may be used without lubrication. However, if lubrication is required, use turbine oil type 1 (ISOVG 32), but if lubrication is stopped during use, Lubrication must be used continuously as it may cause malfunction.

Especially, do not use spindle oil.

The following leakage voltage will be described as follows.

When the power is cut off, the leakage voltage remaining at both ends due to leakage current should be suppressed to 3% or less,

If a C-R device is used for contact protection, the leakage voltage flowing through the C-R device may increase the leakage voltage.

Particular attention should be paid to the contactless relay because it may have a built-in protection circuit.

Fourth,

It is possible to use it up to a temperature of -10 DEG C, but it is necessary to pay attention to solidification or freezing of moisture of the drain 301,

If you are concerned about freezing, install an air dryer.

As shown in Figs. 29 to 36, when the double solenoid type is used by momentary passage before the instantaneous passage, the energization time is set to 0.1 second or more.

As noted above, it is a note of the solenoid valve prior to use according to the description of the warning sign.

In the detailed description when selecting and handling pneumatic equipment according to the warning signs,

First, the proper selection and determination of pneumatic equipment should be done after the design or specification of the person with the specialized knowledge and experience is determined,

The use of pneumatic equipment is handled by a person with sufficient knowledge and experience,

Compressed air is very dangerous if it is handled incorrectly, so maintenance personnel are responsible for the maintenance of the equipment.

After confirming the safety device, operate the pneumatic equipment and confirm that the initial condition of the system and the compressed air are completely exhausted when disassembling and disassembly and assembly.

The maintenance of the compressed air in the condition that the air is not branched may cause injury to the human body due to the malfunction of the machinery.

As shown in FIG. 29 to FIG. 36, it is possible to select a pneumatic device in consultation with the manufacturer under the conditions other than the general use condition, and the control of the fluid other than the compressed air and other harmful substances to the human body. Even if safety is strictly required, contact the manufacturer to remove the hazard.

Therefore, before using the pneumatic device, the person skilled in the art should confirm once again whether the specification to be ordered is correct, and then thoroughly clean the inside of the pipe before piping or other cleansing, so that foreign matter and cutting oil,

When the Teflon membrane 538 is used, it may be rolled around 1.5 to 2 mm of the screw.

In the case of using the intermediate stop valve as described above, care should be taken not to cause leakage in the piping between the valve 76 and the cylinder 126. In the case of precise position control, precise stopping due to compressibility and minute leakage, If you need to stop for a long period of time, contact the manufacturer to solve the problem. If the pipe is tightened with excessive force or if it is not tightened properly, damage to the human body due to malfunction of the device Therefore, it is necessary to install the following proper tokyo pipe.

For a more detailed description of the operating environment

Install in a place with corrosive gas, chemical solution, seawater, rainwater, water vapor, etc. Install in a place where water, oil, etc. are temporarily installed. A muffler or the like should be attached to the exhaust port of the valve to prevent dust or the like from entering the valve,

As shown in FIGS. 29 to 36, it should not be used in an explosive environment, and it is necessary to prevent radiant heat in an environment where there is a heat source by avoiding direct sunlight, avoiding use in a place with vibration and impact, A pressure sensor and a pressure sensor constituting a nuclear hydraulic power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, To be arranged and installed.

Referring to FIG. 37, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section The diagram shows the operation of the adverboon and the airship showing the conventional configuration showing a configuration for connecting the control section for prevention of disaster and the control section for the air-sea shellfish and scattering of the air, and is an operating configuration diagram according to the typhoon and weather forecast in the atmosphere. Fire and Disaster Prevention Methods that are configured to achieve initial evolution within 1 second after spray nozzles and bed nozzles are installed. ,

Referring to FIG. 38, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector according to the present invention, And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section The control of the disaster prevention and the connection to the control section of the earthen tunnel shellfish scattering control unit, the power transmission control unit of the substation of the Trans-Taekwondo Transit Railway for the treatment of nuclear waste to provide power transmission, Disaster Prevention Prevention and Control Section includes the disaster prevention and disaster prevention unit of the disaster prevention prevention control unit constituting the ship 1078 having the conventional sinking vessel and rescue force rescue force incapable of sinking, A nuclear power plant of a nuclear power plant showing a configuration showing an embodiment of the nuclear power plant 1078 as a rescue force rescue force for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, The nuclear power plant's nuclear reactor installation including the flood control disaster prevention device distribution dispenser The HVAC which constitutes the international maritime safety system includes the faire damper 583, the damper spindle 584, Ventilation 585, a doctor ventilation inlet 585a, and a doctor ventilation outlet 585b, (1) of a nuclear reactor for nuclear waste disposal of a marine nuclear hydroelectric power plant having a rescue force for life rescue,

Referring to FIG. 39, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector according to the present invention, And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section The control of the disaster prevention and the connection to the control section of the earthen tunnel shellfish scattering control unit, the power transmission control unit of the substation of the Trans-Taekwondo Transit Railway for the treatment of nuclear waste to provide power transmission, Disaster Prevention Prevention and Control Section includes the disaster prevention prevention control section of the ship 1078 constituting the conventional sinking vessel and the rescue force rescue force incapable of sinking, preventing the superfluous wave 1101 from among the flood control disaster prevention apparatuses. (1078) having a rescue force for nuclear waste disposal for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, and a disaster prevention preventive control The nuclear reactor power plant of the nuclear power plant provided with the addition of the disaster control disaster prevention device Dispensation injecting device The HVAC which constitutes the international maritime safety system includes the faire damper 583, the damper spindle 584, A doctor ventilation port 585, a doctor ventilation port 585a, and a doctor ventilation port 585b, (1) of a nuclear reactor for nuclear waste disposal of a marine nuclear hydroelectric power plant having a rescue force for life rescue,

Referring to FIG. 40, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section The control of the disaster prevention and the connection to the control section of the earthen tunnel shellfish scattering control unit, the power transmission control unit of the substation of the Trans-Taekwondo Transit Railway for the treatment of nuclear waste to provide power transmission, Disaster Prevention Prevention and Control Section includes the disaster prevention and disaster prevention unit of the disaster prevention prevention control unit constituting the ship 1078 having the conventional sinking vessel and rescue force rescue force incapable of sinking, A nuclear power plant of a nuclear power plant showing a configuration showing an embodiment of the nuclear power plant 1078 as a rescue force rescue force for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, The nuclear power plant's nuclear reactor installation including the flood control disaster prevention device distribution dispenser The HVAC which constitutes the international maritime safety system includes the faire damper 583, the damper spindle 584, Ventilation 585, a doctor ventilation inlet 585a, and a doctor ventilation outlet 585b, Of flood control disaster prevention devices comprising a vessel having a life saving restoring force into the dispensing chute body (1) of a reactor plant for a nuclear waste in marine nuclear hydroelectric power station process with a road-side configuration,

Referring to FIG. 41, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear waste hydro- And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section The control of the disaster prevention and the connection to the control section of the earthen tunnel shellfish scattering control unit, the power transmission control unit of the substation of the Trans-Taekwondo Transit Railway for the treatment of nuclear waste to provide power transmission, Disaster Prevention Prevention and Control Section includes the disaster prevention and disaster prevention unit of the disaster prevention prevention control unit constituting the ship 1078 having the conventional sinking vessel and rescue force rescue force incapable of sinking, A nuclear power plant of a nuclear power plant showing a configuration showing an embodiment of the nuclear power plant 1078 as a rescue force rescue force for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, The nuclear power plant's nuclear reactor installation including the flood control disaster prevention device distribution dispenser The HVAC which constitutes the international maritime safety system includes the faire damper 583, the damper spindle 584, Ventilation 585, a doctor ventilation inlet 585a, and a doctor ventilation outlet 585b, (1) of a nuclear reactor for nuclear waste disposal of a marine nuclear hydroelectric power plant having a rescue force for life rescue,

As shown in FIG. 37 to FIG. 41, the nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector ), An electronic sensor valve screw control unit, a disaster prevention prevention control unit, and an electronic control unit, which show the configuration of a double pipe structure block pipe line control shaft (238) for nuclear waste disposal of a nuclear hydroelectric power plant The control of the natural disaster of forest fire and the connection to the control section of the sea tide tunnel and shellfish scattering control unit. Disaster Prevention &

Prevention of disaster prevention Prevention of disasters Among the disaster prevention and disaster prevention devices, disaster prevention preventive control device constituting a submergence preventing ship to overcome a submergence prevention is also provided in a severe storm wave (1101). A marine equipped with a double structure block tank (1) of nuclear power plant for nuclear waste disposal of nuclear power plant, and (2) a floating portable power plant of small, medium and large sized nuclear hydroelectric power plant of nuclear power plant (811) ) 811e of the nuclear power hydroelectric power plant 811 constituting the facilities of the disaster control system which is adjusted by the construction machine of the hull position movement control of the hull, Among the disaster prevention and controllable disaster control disaster prevention apparatuses provided with the mechanical control unit 811f and the screw control unit 811g, Ships 1078 having life-resisting resilience in contrast to a conventional sinking ship constituting a sinking prevention ship are installed in a distribution dispensing apparatus main body 1071 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector (1) inside,

As shown in Figs. 37 to 41, a nuclear waste disposal apparatus of a nuclear hydroelectric power plant of a nuclear hydroelectric power plant unit 811 constituting a disaster prevention preventive and controllable disaster control disaster prevention apparatus and a ship having rescue force for life rescue A hatch cover 153 provided on the hatch cover 1078, a lifting rope 629, a rope knot claw 630, an emergency staircase 631 and an elevator alley 632 A double structure block tank dust collector having a conveyor 633, a ballard 638, an anchor 639, an anchor chain 640, a helicopter 647 and a rubber balloon 914, A nuclear waste disposal unit 811a of a nuclear power hydroelectric unit 811 constituting a distribution dispensing apparatus main body 1 of a nuclear waste disposal facility of a hydroelectric power plant and a transportation transportation unit of a power generation manufacturing unit and a construction machine And the power transmission part for transmitting the power and the operation of the nuclear power plant Equipment safety control management Production electric part and electronic control control device Construction machine control part and screw control part,

As shown in Figs. 37 to 41, the rising airflow 925 of the typhoon and the descending airflow 926 constituting the flood control disaster prevention apparatus, the air flow control apparatus nuclear waste disposal apparatus, and the yatch basket 951), a flexible high pressure hose 190, an inlet pipe 191, a blower 641, a heater fan 642 for keeping the air, and an ocher cement mixing device mixer machine 649 and a crane boom 651 and the crane boom hanging ring 652 and the rubber balloon 914 and the air nozzle 923 and the loess mixture 927 and the crude oil drill 934 and the cooling air bubble 939 and the underwater disaster prevention nozzle 945 Construction equipment that is provided with submarine line wiring (946) and dual structure air-inflated rubber tubes (947) inside the container for the inflow control device, providing the base for installation of anti-submergible lifting dock and marine tunnel transportation equipment substituting marine vessel The dispenser has a displacement control unit and an infusion control unit. (593, 594, 595) of small-sized and medium-sized and large-scale marine nuclear hydroelectric power plants constituting the nuclear power plant of the marine nuclear power plant equipped with a marine power plant facility for controlling the displacement of the hull, (593, 594, 595) of small, medium and large sized nuclear hydroelectric power plants of nuclear power plant (811) connected to the inside of distribution dispensing apparatus main body (1) It is composed of facilities of disaster prevention apparatus which constitute flood control which provides position control by construction machine of movement control.

Conventionally, when a marine vessel sinks,

As shown in FIGS. 37 to 41, although the right and left sides are confused, in the present invention, the emergency exit of the cross shape is taken into account in consideration of these points, The structure-combined bed nozzle 172 and the rope rope 629, the rope knot claw 630, the emergency stairs 631, the elevator all bed 632, the conveyor 633, the ballard 638, A distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having an anchor 639, anchor chain 640, a helicopter 647, and a rubber balloon 914, After rescue, the skipper is composed of marine vessels for emergency escape, regardless of whether the marine vessels fall into or sink into the body (1) to the left or right.

In the past, the dams were not equipped at all with the same number of revolutions as the round water tanks, causing landslides in the rainy season, causing the flood victims to take away the lives and property of the people, and low- Due to inundation of living area, livestock industry and industrial complex, wastewater from living and livestock industries flows into rivers and flows into the sea, so that marine creatures move to rivers, so that fishes and shellfish can not freely scatter in the rivers of valleys The reason why the national economic development, the four major river revival projects and the restoration of the world's four largest fisheries improvement environment improvement projects cause a great deal of damage can be cited, There is a need for a comprehensive countermeasure plan,

 Therefore, the disaster prevention distribution dispensing apparatus of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector of the present invention Which is provided as a connection structure between a switch and a piping line, and is provided with each pump operating method,

Dispensing device of reactor nuclear waste disposal facility of nuclear hydroelectric power plant Operation method of disaster prevention preventive control unit configuration of nuclear power hydroelectric power plant part (811) constituting inside main body (1) Dispensing injecting device of nuclear plant nuclear reactor power plant Pipeline line automatic pneumatic transportation system (916) It is equipped with connection structures and is equipped with flood control facilities to prevent landslides and prevent natural disaster,

By replacing the stored river gates with the dam gates, it is possible to install a water supply system for brine inlets and bridges. By constructing a large number of waterway tunnels, the marine creatures move to the rivers, , It is possible to maximize the ecosystem restoration activities by restoring the natural ecosystem order and balance by improving the geology by introducing germanium geology contained in the soil of the river bottom into the ocean to allow the fishes and shellfish to fully enjoy their spawning. In the drought period, which is constructed to control the flood control at the same time, the stored water which can be used for 3 years is stored in the dam or storage tank, and the drinking water and the hydroelectric power generation water And industrial water, sanitation and disaster prevention water The quality water source is continuously provided to the nuclear hydroelectric power plant unit 811 constituting the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector,

Water storage tanks for marine hydroelectric power plants and marine hydroelectric dam facilities. It is separated and divided into control and distribution shafts by the distribution and input devices of the construction machinery, and the flood control and marine hydroelectric hydroelectric dam facilities are sequentially prepared ,

As shown in Figs. 37 to 41, in the nuclear hydroelectric power generation facility 811, a disaster is generated in the power transmission control section and the harmful red tide prevention control section in the hull position moving construction machinery control section and the marine hydroelectric power production control section. (1) of the reactor main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structural block tank dust collector, And the disaster prevention preventive control unit distribution and input devices of the nuclear hydroelectric power plant 811.

Referring to FIG. 42, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, And an electronic sensor valve screw control section showing the configuration of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section and the forest fire nature control section The control of the disaster prevention and the connection to the control section of the earthen tunnel shellfish scattering control unit, the power transmission control unit of the substation of the Trans-Taekwondo Transit Railway for the treatment of nuclear waste to provide power transmission, Marine Hydro-Nuclear Power Generation Power Generation Division includes the TVA's Paradise Power Plant steam turbine in the vicinity of the traditional Kentucky paradise, which constitutes a distribution input device for the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric plant with a dual structural block tank dust collector. A hydrostatic generator and an engine side elementary diagonal configuration showing the structure and engine side showing an elemental configuration of an embodiment formed for the operation of a nuclear power generator,

As shown in FIG. 42, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, Nuclear power plant nuclear waste disposal unit (811a) and Nuclear Power Plant's nuclear power plant steam turbine generator of TVA's paradise power plant steam turbine generator located near the conventional city of Kathmandu Paradise constituting the double tube structure block pipe line control shaft (238) TVA's Paradise Power Plant Steam Turbine Generator in the vicinity of Paradise, Kentucky, constitutes 1,150 MW. When it first started operation in February 1970, it was the largest power plant in the world.

The turbine, produced by the utility company, first enters the high-pressure turbine under the right-angled pipe on the left, then flows through the rectangular pipe in turn to the two lids behind the medium-pressure turbine and the two lids in front of the low-

The high pressure turbine is connected to the gray box on the left side of one generator and the other two turbines are connected to the front box on the second generator with the same capacity. The entire plant is operated by 3.6 million kilograms of steam per hour, which enters the high pressure turbine at a pressure of 1,650 kilograms per square inch and 427 degrees centigrade.

The coal consumption per day is 10,572 tons, enough to fill 210 coal cargoes. The net heat efficiency of this facility is 39.3%. Two small turbine generators, each 704M W, are visible at the rear.

The efficiency of converting the energy contained in a fuel into a useful form varies depending on the conversion method and the desired end use. When burning wood or coal in an open fireplace, less than 20% of that energy is emitted into the room.

To determine the overall efficiency of a steam turbine plant, this value must be multiplied by the efficiency of other energy converters in the chain from fuel to power.

A nuclear power plant with an output of 1,000MW is 10% more expensive than a fossil fuel plant ($ 280 million compared to $ 250 million), but nuclear fuel is already cheaper than fossil fuel.

However, in the future when more new facilities will emerge, the facilities that currently cover the basic load are too large to easily operate and can not easily be downgraded to accommodate intermittent use because it is difficult to stop.

According to a comparatively reasonable estimate, it is thought to be about 100G W.

But I have just seen that the electrical industry has to increase this output by 10 times to meet the demand in 1990.

We can conclude that tidal energy is not qualified to be a major innovative energy source.

[Figure 8-15] Three incremental curves were compared. Curve A is an exponential increase curve. Curve B is an extension of the doubling period by 20%. In curve C, the amount of increase during this doubling period is always constant.

It is estimated that it will be possible to build a solar power plant with a power output of 1,000 million W, which is about four times the cost of the existing nuclear power plant.

As they pointed out, the solar power includes economic problems of purchasing by facility funds rather than operating expenses.

It is estimated that these 40-year-old solar power plants will be able to produce power at an average of 1/2 cents per kW / h.

The 8 × 8 k m receiver will accept about 8.5 × 10 ⁷ kW of solar radiation. A solar cell that operates at about 18% efficiency converts it to a power of 1.5 x 10 ⁷ kW, which is converted to microwaves and sent to Earth.

On Earth, this translates back to 10 ⁷ net W W, a sufficient amount of power in New York City. The coverage area of the receiving antenna will be about 6 times as wide as required for coal-fired power plants with the same output, or about 20 times as wide as required for nuclear power plants.

The great advantage of an energy plan based on solar energy collected from the wind or the earth's surface may sound like an overpower today, but it does not add heat to the earth's ecosystem. They say it is an invariant energy system. .

The solar energy collected in the orbit is not an invariant energy system in the strict sense because most of the radiant energy blocked at 3,500k m altitude would otherwise have not reached the Earth.

Only the energy collected when the solar light plate is in line with the sun and the center of the earth does not increase the earth's heat load.

On the other hand, light plates in outer space will emit much less waste heat into the environment than fossil fuel or nuclear power plants.

All but 20% or less of the total energy of the microwave wave going to Earth is converted to useful power.

Of course, when this power is consumed, it is released into heat.

Recognizing the macroscopic nature of the development of invariant energy systems, one has to be aware of what a certain amount of exponential growth means.

The process of doubling is a dreadful phenomenon.

The amount of increase during any one doubling period - whether it is energy consumption, population, or land area occupied by the highway - is the same amount of increase over its past past.

For example, the next batch of fossil fuels will be mined for all the fossil fuels that have been mined on Earth.

As described above, the present invention provides a nuclear waste treatment dual structure block tank marine tunnel traffic apparatus (941) including a marine biotope, which constitutes the demand for electric power with an invariable energy system, To provide environment-friendly means of producing green energy and extend resources to be depleted,

All those who have made the best efforts should be accompanied by cooperation and efforts to join in the construction of a zero-accident global village for their descendants.

Turbines rotated by propellers can convert wind power into electric power with an efficiency of 60 to 80%. Like tidal energy or other forms of hydroelectricity, wind power offers a great advantage that it does not release waste heat to the living quarters.

The difficulty in using wind power results in the problem of energy storage.

Of all natural energy sources, wind is the most variable.

If you want a somewhat constant power plant, you must acquire and save that energy when the wind blows.

Unfortunately, no technology has been developed to produce realistic energy storage media. The charger is not a problem either.

Referring to FIG. 43, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of a nuclear reactor waste disposal reactor for treating marine nuclear hydroelectric power plants. And a power generation and production unit 811b of a marine nuclear hydroelectric power plant for providing power production includes a nuclear power plant operating in a nuclear power plant operating a thermal power generation plant in a conventional thermal power plant, Nuclear power generation facility Nuclear power plant for nuclear waste water treatment plant equipped with a double structure block tank dust collector showing decomposition side of thermal power generation operation method of conventional thermal power plant Of nuclear power plants operating in nuclear power plants in elementary power plants constituting the distribution device of nuclear power plants Thermal power degradation of the movable side road works configuration,

Referring to FIG. 44, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, And a power generation and production unit 811b of a marine nuclear hydroelectric power plant for providing power production includes a nuclear power plant operating in a nuclear power plant operating a thermal power generation plant in a conventional thermal power plant, Nuclear power generation facility Nuclear power plant for nuclear waste water treatment plant equipped with a double structure block tank dust collector showing decomposition side of thermal power generation operation method of conventional thermal power plant Of the nuclear power plant during operation of the nuclear power plant, A pipe 779 and a high-temperature high-pressure steam inlet 780 of steam or a strong gas, and a boiler operating core 783 inside the boiler. The nuclear power plant of the elementary conventional nuclear power plant, Decomposition side Thermal power generation of thermal power plant Operation method Elemental aspect Construction Road,

Referring to FIG. 45, a nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention And a power generation and production unit 811b of a marine nuclear hydroelectric power plant for providing power production includes a nuclear power plant operating in a nuclear power plant operating a thermal power generation plant in a conventional thermal power plant, Nuclear power generation facility Nuclear power plant for nuclear waste water treatment plant equipped with a double structure block tank dust collector showing decomposition side of thermal power generation operation method of conventional thermal power plant Of nuclear power plants, which constitute the distribution system of nuclear power plants Nuclear Power Plant Operation of Nuclear Power Plant Nuclear Power Plant Operation of Conventional Nuclear Power Plant Showing Constitution of One Example of the Present Embodiment The conventional production power central control room (781) and the transmission measuring room transformer room (782) Thermal power generation of a thermal power plant, which illustrates the operating modes of operation in a side view.

FIG. 28 through FIG. 45 are schematic diagrams illustrating an embodiment of a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector of the present invention.

As shown in FIGS. 43 to 45, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector The nuclear power generation nuclear waste disposal unit 811a included in the nuclear power plant and the power generation and production unit 811b of the marine nuclear hydroelectric power plant providing the power generation are operated at the nuclear power plant operating the nuclear power plant for the thermal power generation operation of the conventional thermal power generation plant Nuclear power generation facility in operation of nuclear power plant of elementary conventional nuclear power plant showing example configuration In the thermal power plant (626) facility for thermal power generation of conventional thermal power plant,

Thermal power plants (626) Thermal power plants,

A power transmission line 775, a power transmission pylon 776, an opening and closing facility 777, a piston pump 127, a regulator 136, and an exhaust gas (not shown) provided in the substation. Ignition material wire 178, spark 236, rotating blades 267, crank 248, link rod 249, cooling water outlet 350 and cooling water inlet 352 A steam pipe 779 and a steam 780 and a turbine generator 772 that provide a vent pipe 465 and a power 685, A rotator electromagnet coil 774 rotating for a nuclear power generator, a condenser 790 serving as a cooling device for cooling water vapor to cool water, a core 791, A heavy oil tank 795, a heavy oil 796, a kettle 778, a steam pipe 779, and vapors 780 are connected to a transmission measuring room transformer 792, a reheater 793, a thermal power plant dust collector 794, Electronic control units in the form room 782 and the production power central control room 781 to provide an internal operating state check of the boiler operating core 783,

A nuclear power plant in which a nuclear power plant with a dual structure block tank dust collector is installed in a distributing and inputting device for the nuclear waste disposal of a nuclear waste hydroelectric power plant. Nuclear Power Generation Facilities of Conventional Nuclear Hydroelectric Power Plant Showing Configuration The conventional production power of the nuclear power generation facility is composed of a central control room (781) and a power transmission room transformer room (782) Consists of,

As shown in FIGS. 43 to 45, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector The nuclear waste disposal unit 811a of the nuclear power plant includes a dis-

A double structure block tank dust collector provided with a flood control facility to prevent many natural disasters such as forest fires, dust storms, snow storms, typhoons, floods, droughts, and landslides constituting the dis- (588) and hot air balloon (587) in Mongolia, which are located inside the main body (1) of the nuclear reactor waste disposal reactor for hydroelectric power plants, 589) equipped with disaster control apparatuses, and in the fire area before and after the occurrence of the forest fire,

It is equipped with a connection structure of a water tank water pump and a water tank water pump connected to a roof tank and a pressure tank, which are provided in a fire area before and after the occurrence of a forest fire, (393), which consists of a carbon dioxide gas fire extinguisher equipped with a double pipe fire hose and a spray nozzle assembly, and a three stage stepped pump extinguisher and a manometer turn type replacing the water collecting tank Level balance pipe Nozzle installation Blue water mixture stored in the double vinyl tent nozzle type of the ridge line within 1 second by the non-motorized water pump constituting the distribution input device of the machine. Double pipe for the fire water supply and fire water supply Helicopter (647 ) And a large number of high and low mountains (395) to replace the fire engine dispatch The soil mixture fire extinguishing and fire extinguishing water supplied a double tube for a fire hose with a bolt 133, the tower 116, the wire rope 19 provided to the drive wheel roller rail bases 135 for the securing to constitute the positioning control,

A vibration control device 396, a speed control device 397, an electric motor rotation transmission 398, and a disk brake 398 constituting a building roof-top operation cabin 394 of a cable car 256 constituting a distribution- A tug winch 137 for controlling the opening and closing of the water gate by a rope or a chain wound around a body provided with the devices 399. The fire extinguisher 124 is attached to the fire extinguisher fixing pin 128, ) Rope 131 in the life-saving tube 130, carbon dioxide in the noncombustible gas 164 and halon gas 175 in the carbonic acid gas 174, and the initial evolution of the injection nozzle and the bed nozzle within the building within one second This is a dual structure block tank dust collector that adjusts the scale of fire and disaster prevention by providing flood control facilities to prevent many natural disasters such as forest fires, dust storms, heavy snow, extreme storms, typhoons, floods, droughts and landslides. phrase Disruption prevention Preventive control division that constitutes nuclear waste nuclear waste treatment unit (811a) of nuclear power hydroelectric power plant unit (811) constituting inside of distribution dispensing apparatus main body (1) of reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant Each piping system is provided with a piping system and a piping system.

(811) of the nuclear power plant (811) Operation structure showing the construction of the preventive control section of the nuclear hydroelectric power plant (811) Dual-structure block tank Discharge unit of the reactor facility for nuclear waste treatment of a hydro- Automatic pneumatic conveying device (916) connected to piping line of distribution input device. It has connection structures and landslide. It has marine control facility to prevent many natural disasters, and it is equipped with double structure block tank dust collector, (1) Dual structure block tank consisting of the inside of a nuclear reactor waste disposal reactor for nuclear power plant Nuclear power generation for the operation of nuclear power plant for nuclear waste disposal of a marine nuclear hydropower plant equipped with a dust collector The nuclear waste disposal unit 811a is made up of disaster prevention devices for disaster control facilities.

As shown in Figs. 43 to 45, in the past, the dams are not equipped with the same number of revolutions at the same level as that of the round water tank, causing landslides in the rainy season, thereby depriving people of their lives and property, However,

River water As a result of inundation of farmland and neighboring living areas, livestock and industrial complexes, which are equivalent to the above, living and livestock industry wastewater flows into rivers and flows into the sea. As a result, marine creatures move to rivers, Which can cause a great disruption in the national economic development, the four major river revitalization projects and the restoration of the world's four major fisheries, There is a need for a comprehensive measure to efficiently and drastically reduce the number of people in Korea,

 Therefore, the nuclear power generation nuclear waste treatment unit 811a of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector ), And disaster prevention control unit, which are connected to the switch and pipeline line by each instrument that adjusts the overcoming of flood damage. Each pump operation method is provided. (811a) of Nuclear Power Hydroelectric Power Plant (811) and the operation method showing the construction of preventive disruption control section of nuclear power plant Connection of the piping line automatic pneumatic conveying device (916) of the distribution apparatus of the reactor plant of the nuclear power plant It is structured to have a nuclear power plant equipped with flood control facilities to prevent natural disasters from landslides,

(1) Replacement of the water reservoir in the river that stores the inside of the nuclear reactor water treatment plant for the nuclear waste water treatment plant of the marine nuclear hydroelectric power plant with the double structure block tank dust collector. (672a) is installed in the underwater dam of the middle dam of the river, the marine creatures move to the river, so that they can freely scatter fish and shellfish in the river of the valley. It is possible to maximize ecosystem restoration activities by restoring the natural ecosystem order and balance by improving the level of geology by introducing Germanium lipid level into the ocean in large quantities. In addition,

The echo tunnel device 672a, which constitutes the ecosystem restoration activity,

Providing cooling water and loess mixture for nuclear waste disposal,

(916) In the drought period connected to the connecting structures, the stored water that can be used for 3 years is stored in the dam or storage tank Water supply to the drinking water from agricultural water, hydroelectric power generation water, industrial water, pollution control water and disaster prevention water,

As shown in Figs. 43 to 45, a continuous supply of high quality water resources is provided, and the water storage tank for the flood control and the distribution input device for the marine hydroelectric dam facility construction machine are separated into the control shaft and the distribution shaft, And the division of the sea water hydropower dam facilities in the same area,

In the nuclear hydropower plant 811 constituting the flood control,

It is equipped with the power transmission control part of the construction machine control part and the marine hydroelectric power production control part of the hull, and the prevention control part of disaster prevention and the control part of the fish dam control part of the harmful red tide prevention control part. (811a) of the nuclear power generation unit (811a) of the nuclear hydroelectric power plant (811) constituting the main body (1) of the nuclear reactor waste disposal unit of the marine nuclear hydroelectric power plant having the block tank dust collector, Control part dispensing devices.

As shown in FIGS. 43 to 45, the nuclear hydroelectric power plant (1) constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector 811) of the Hydro-Power Plant to provide restoration before and after the failure of the Nuclear Power Plant (943)

(943a) for a hydro-electric power plant, a Pelton aberration (943b) for a large hydro-electric power plant, and a Francis turbine (943c) for a large hydroelectric power plant. &Lt; / RTI &gt;

The offshore Siiso hydroelectric plant (943), which constitutes a hydroelectric plant,

A power transmission mechanism including a power transmission line 95, a transformer 96, a power line 71, an air compressor 80, a high pressure storage tank 145, a motor motor body 192, a compressor body 263, a turbine 267, 268), a water intake channel (269), a watertight channel (270) and a mouth-type multi-stage pump (8) as a connection shaft and a distribution shaft, and a nuclear water reactor dual structure block tank dust collector for nuclear power generation. (943) facility connection structure of a hydroelectric power plant that provides recovery before and after failure during the operation of the nuclear power plant constituting the inside of the facility main body (1).

As shown in FIGS. 43 to 45, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector ) Hydroelectric power plant,

The multi-purpose dam (680) and the multi-purpose dam (680), which store the water of the flood control facilities such as the dam and the water gate in the flood and drought in the high reservoir and the river which constitute the conventional hydroelectric power plant (943) Is connected to the through hole of the dam 680 and the rear end of the introduction pipe 191 is connected to the suction port 269 of the head tank 189 having pressure And a plurality of introduction pipes 191 are connected to the discharge port 270 located at the rear end of the head tank 189. The plurality of inlet pipes 191 are connected to a hydraulic power plant located at a lower end of the multipurpose dam 680, The hydrostatic generator is installed as a power generating unit by rotating several aberrations while the pressure flow with each internal pressure is moved inside the hydroelectric generator. And the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus of the nuclear power plant.

Hereinafter, the nuclear power plant (811) included in the nuclear hydropower generation facility unit (811) constituting the inside of the main body (1) of the distribution apparatus of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank- A detailed description of the range of the nuclear power plant equipment and the distribution input equipment construction machine according to the prior art level constituting the distribution dispenser of the waste processing unit 811a to the transportation unit 811c of the construction machine is as follows .

Referring to FIG. 46, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, Configuring the distribution chute of a nuclear power nuclear waste processing (811a) and the Northeast new Korea federal Maritime to raise power production in the Areas nuclear hydroelectric power generation control unit (811b) to a construction machine transportation portion (811c), including Nuclear power plant with dual structure of block waste tank disposal Nuclear power plant with nuclear power plant with reactor Nuclear power plant Nuclear power plant with elemental nuclear power plant Nuclear power plant Nuclear Power Plant Operation of Nuclear Power Plant Nuclear Hydroelectric Power Plant Equipment portion 811 is exploded side perspective road configuration,

Referring to FIG. 47, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, A nuclear hydro-nuclear power generation control unit 811b for generating a power production showing a configuration of a double-pipe-structure block pipeline control shaft 238 for nuclear waste treatment of a nuclear hydroelectric power plant, A nuclear power plant having a dual structure block tank dust collector constituting a distribution input device of a transportation transportation part 811c of a construction machine, and a nuclear power plant having a distribution input device for processing nuclear waste of a marine nuclear hydroelectric power plant. The construction of a nuclear power plant in the nuclear power plant of nuclear power plant The decomposition side, a construction machine for decomposition of the nuclear operation of the nuclear power element of a conventional nuclear power plant shown in cross section In operation of nuclear power plants hydraulic side perspective road configuration,

As shown in Figs. 46 to 47, the marine nuclear hydroelectric power plant nuclear reactor hydroelectric power plant (hereinafter, referred to as &quot; nuclear power plant &quot;) of the small-, medium- and large- And the nuclear power plant unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, In the construction machine of the distribution apparatus of the power generation nuclear waste processing unit 811a to the transportation transport unit 811c of the construction machine,

The construction machine constituting the construction machine dispensing and dispensing apparatus,

It is a soil construction machine that is equipped with a straight and angled type asphalt plate on the front part of the tractor and attaches an auxiliary device such as a ripper and a lute to the rear to cut soil and rock. A compound term of the same bull and a machine for resting the bull, is used as a transportation transportation part of a construction machine included in the nuclear power generation facility part 811, (811c).

In my application, the following table will be explained.

As shown in Figs. 46 to 47, a distribution input apparatus construction machine constituting the inside of the distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector, Of the marine power plant unit 811 of the marine power plant facility of the marine power plant facility of the marine power plant of the small-sized, medium-sized and large-scale marine nuclear power hydroelectric power plant of the floating type poison (593, 594, ), The construction machine dispensing apparatus, the doser,

As a general matter, the standard display of the standard is expressed by its own weight (ton or kg), that is, its own weight is displayed, but my economic working distance is 10100m, and the distance between two shovels is less than 100m. As shown in the table below,

The table below shows the power transmission sequence,

The following table explains the workload of my computer.

1) Workload per hour:

Where q is the capacity of the earth plate (m ³ ), f is the soil conversion factor

E : Working efficiency () C _m : 1 cycle time (min)

Blade (earth plate) Capacity:

here. Q : Blade capacity (m ³ )

B : Blade width (m)

H : Blade height (m)

 1 cycle time

(Min) L : working distance (m) V ₁ : forward speed (min) V ₂ : reverse speed (m / min) t :

A detailed description of the traction force is as follows.

Here, ((coefficient of friction)

( W : Vehicle weight (kg))

Traction horsepower (H)

only,

As shown in Figs. 46 to 47, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector And the bulldozer 855 constituting the construction machine dispensing apparatus included in the transportation transportation unit 811c of the construction machine,

The rollers 855a and 855b are of a wheel type and are straightened on the dies 855b and 855d and 855d on the dies 855d and 855e, (855g) and heavy draft (855h) construction equipment connection structure to provide the equipment of the bulldozer,

Straight rake constituting the construction machine dispensing device is,

It is used for excavation of rock. It is used for excavation of rock,

The backhoe (B a c k o e), which constitutes the construction machine dispensing device,

Piping of pipe wires. It is used for excavation of drainage,

The hydraulic reperforator, which constitutes the construction machine dispensing device,

In hard and hard ground, blades are used for crushing, roots, and rock scraping of grounds and pavement that are difficult to excavate,

The towing winch, which constitutes the construction machine dispensing device,

Used for traction of heavy wood,

The snowplow, which constitutes the construction machine dispensing device,

Used for snow removal work,

The skidders, which make up the construction machine dispensing device,

Wood, and pump round objects,

And loading of cranes or heavy objects. Used for loading and transportation,

The lock bucket, which constitutes the construction machine dispensing device,

Dedicated to the loading of rocks,

The shovel constituting the construction machine dispensing apparatus comprises:

The hull location of the nuclear power plant (811) of the offshore power plant of the marine power plant with the control of hull position of the floating type poison (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants, (1) of the reactor installation for nuclear waste treatment of a marine nuclear hydroelectric power plant equipped with a double structure block tank dust collector equipped with a mobile construction machine, and a nuclear power plant (811) of a nuclear hydroelectric power plant A power generation nuclear waste treatment unit 811a, and a construction machine dispatching and dispensing apparatus included in the transportation unit 811c of the construction machine.

As shown in Figs. 46 to 47, a distribution input apparatus construction machine constituting the inside of the distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector, (593,594,595) of small-sized, medium-sized and large-scale marine nuclear power plants consisting of a small-sized, large-sized and large-sized marine nuclear power plant The nuclear power generation nuclear waste treatment section 811a of the nuclear hydropower generation facility section 811 constituting the inside of the distribution dispensing apparatus main body 1 and the construction machine dispensing apparatus 811b included in the transportation transportation section 811c of the hull position moving construction machine In addition,

(811c) of a construction machine of a floating type poison ship hull equipped with the components of the power transmission device constituting the construction machine distribution dispensing apparatus, Replacement of the factory site, attaching the equipment to prepare the work,

In the power transmission device 855j of the dozer constituting the construction machine dispensing apparatus,

A provision clutch 855q is attached to the idler 855p of the driven wheel and the idler 855p of the driven wheel in the cooling system 855m and the final gear device 855n in the engine 855l, A construction machine, a power transmission device part of the construction machine, a hull locating structure of the nuclear hydroelectric power plant part 811, a construction machine included in the transportation transportation part 811c of the construction machine, a small, medium and large- (1) inside of the distribution system of nuclear reactor waste disposal facility of marine nuclear hydroelectric power plant equipped with double structure block tank dust collector at the upper part of ship hull deck (SDU) of floating type dock of nuclear hydroelectric power plant (593,594,595) And a construction machine included in a nuclear waste disposal unit 811a of the nuclear hydroelectric power plant 811 and a transportation transport unit 811c of the hull position moving construction machine.

As shown in Figs. 46 to 47, the nuclear waste nuclear waste disposal unit 811a of the nuclear reactor hydroelectric power generation facility 811 of the nuclear power plant of the nuclear power plant of the related art and the transportation transportation unit 811c ), The construction machine dispensing apparatus, the doser,

As shown in the table below, in order to classify the equipment of the construction equipment of the nuclear power plant, the nuclear power plant, Explain.

As shown in Figs. 46 to 47, a distributing and inputting apparatus construction machine for a reactor installation of a nuclear hydroelectric power plant,

The crawler type, planar type 855a, wheel type, and plunger 855b are used for the classification by the traveling device (= classification considering the grounding pressure) as shown in the following table.

As shown in Figs. 46 to 47, the nuclear power generation nuclear waste treatment unit 811a of the nuclear reactor hydroelectric power generation facility 811 of the nuclear power hydroelectric power plant and the transportation conveyance unit 811c of the hull position moving construction machine The distribution equipment of the included construction machine,

The infinite track system,

When the grounding area is wide and the grounding pressure is low, it has a strong excavation ability even on bad terrain, and the ability to climb is good.

It is very suitable for wetland work because of low grounding pressure by using traverse for wetland. It is suitable for wetland work, and it can be applied to the distribution facility of nuclear power plant of nuclear power plant (811) This is easy.

As shown in Figs. 46 to 47, the nuclear power generation nuclear waste treatment unit 811a of the nuclear hydropower generation facility unit 811 and the construction machine included in the transportation transportation unit 811c of the hull position moving construction machine At that facility,

Tire-type wheeled vehicles have a large grounding area and a large grounding pressure, which makes it impossible to work on wetlands and limbs. However, mobility and mobility are better than infinite tracked systems. To work on flat ground or pavement, the Nuclear Hydroelectric Power Plant 811) distribution dispenser.

46 to 47, the nuclear power generation nuclear waste treatment unit 811a of the reactor facility nuclear hydroelectric power plant 811 of the nuclear power plant and the transportation transport unit 811c of the hull position moving construction machine are distributed Equipment construction machinery,

In the sorting by the working device, the separator 855c is separated from the tilt reducer 855d by an angle and a screwdriver 855e,

As a result,

In general, the shovel can not be changed and the shovel can not be changed. The upper part of the bladder plate, which is a blades, is tilted by 10 degrees, and is used for straight cutting and transferring work. A hydraulic cylinder is used for the vertical operation of the blade, It is a machine to excavate by force. It adjusts the pitch of the dispenser input equipment, construction machine equipment of the nuclear power plant of nuclear power plant (811), and adjusts the oyster force by giving 10 change angles of front and back.

46 to 47, the nuclear power generation nuclear waste treatment section 811a of the nuclear hydropower generation facility 811 of the nuclear hydroelectric power plant and the transportation transport section 811c of the hull locomotion construction and construction machine, In construction machinery and dredging equipment,

The angle, the dent 855e,

It has long and low blades and adjusts the position of blades to the left and right by changing the required angle. It is used for tilting down (855d), straight, and dozer (855c) and,

In applications,

It is used for sloping soil work, cutting work, snow removal work, side burial work, trench reclamation work, pipe burial work, hard soil side cropping work.

The angle of the blades can be inclined about 15cm on both sides of the horizontal plane, and at the same time, it can be used for freezing, hard land, side ditch excavation, rock stone turning, V type drainage, (811c) of the nuclear hydroelectric power plant of the nuclear power plant, the transportation transport section (811c) of the hull position moving construction machine, and the distribution facility of the construction machine.

46 to 47, the nuclear power generation nuclear waste treatment unit 811a of the reactor facility nuclear hydroelectric power plant 811 of the nuclear power plant and the transportation transport unit 811c of the hull position moving construction machine are distributed Equipment construction machinery,

In the classification by the subsidiary apparatus,

(855f), Hidrick Ripper (855i), Fuji, Dodger and Tina, and U are also subdivided into two parts, The buzzer 855h,

Instead of a blade, a ratchet-type attachment device is attached,

For the purpose,

It is suitable for picking up rocks, removing roots, removing roots, removing large roots in dam construction, and carrying out large-scale stone transportation in the construction of farms and roads. Nuclear Power Plant's Nuclear Power Plant's Nuclear Power Plant (811) It is used as a machine and a drilling machine.

As shown in Figs. 46 to 47, the nuclear power generation nuclear waste treatment unit 811a of the nuclear hydroelectric power generation facility 811 of the nuclear hydroelectric power plant and the transportation transportation unit 811c tree of the hull position moving construction machine (855g)

It is suitable for opening and closing work,

The hinge, the doffer 855f,

It is suitable for jetting, snow removal,

In the droplet hopper 855i,

It is used when the ground is hard and solid and difficult to excavate. It is used when it is difficult to excavate with the bulldozing of the bulldozer, the removal of rocks or rocks that are difficult to blast, the distribution of the nuclear hydroelectric power plant 811 of the nuclear hydroelectric power plant to the destruction of the asphalt pavement It is used as the equipment of the construction equipment of the input device.

As shown in Figs. 46 to 47, nuclear power generation nuclear waste treatment section 811a of the reactor facility nuclear hydroelectric power generation facility section 811 of the nuclear hydroelectric power plant and the transportation transportation section 811c of the hull locating & City,

In order to give a traction force to the skipper, it acts to push the skipper from behind,

(811a) of the nuclear power plant (811) of the nuclear power plant and the transportation transportation section (811a) of the hull locating mobile construction machine (811a) of the nuclear power plant, 811c) Distribution dispenser It is advantageous that it is possible to increase the amount of transportation to the construction machine and the dispenser, and it is easy to move and does not harm the packaging.

As shown in Figs. 46 to 47, a distribution input apparatus construction machine constituting the inside of the distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector, (593, 594, 595) of a small, medium and large sized marine nuclear power hydroelectric plant consisting of a double structure block tank to provide a marine nuclear hydroelectric power plant facility to control the displacement of the hull. The nuclear power generation nuclear waste treatment unit 811a of the nuclear power generation facility unit 811 and the transportation transportation unit 811c of the hull locomotion construction and construction machine constituted by the main body 1 of the distribution reactor of the nuclear reactor installation,

Since the blades are U-shaped, there is little flooding sideways. Nuclear waste treatment for nuclear power generation Double structure block tank Nuclear power plant with nuclear reactor dust collector Nuclear power plant part (811 (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constructed at the upper part of the ship's deck (SDU) of the nuclear power plant of the nuclear power plant of the nuclear power plant (811) (811c) of distribution and dispatching equipment of construction machine, and nuclear plant operation equipment of nuclear power plant is composed.

As shown in Figs. 46 to 47, the distribution input device construction machine is installed in the marine structure into the distribution input device main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector A scraper device 861t and a weighing device 861u and a punching device 861v which are provided in the double structure block tank precipitator 861q, the clamper device 861r, the shovel device 861s, the shovel device 861s, (1) of a nuclear reactor plant for the treatment of nuclear waste of a marine nuclear hydroelectric power plant, and (2) a feed-in unit of a small-sized, medium-sized and large-scale marine nuclear power plant constituting the construction machinery in the ocean. (593, 594, 595) of the Nuclear Power Plant to provide marine power plant facilities to control the displacement of the hull; The nuclear power generation nuclear waste treatment unit 811a of the nuclear power generation facility 811 and the transportation transportation unit 811c of the hull locating construction and construction equipment constituting the inside of the mouth apparatus main body 1, In addition,

 The construction equipment cable cranes (861o) of the nuclear power plant of the nuclear power plant, the transportation transport part 811c of the hull position moving construction machine of the nuclear power generation equipment part 811, the distribution machine of the construction machine cable cranes 861o, ),

First, there are provided a Galois field device 861q,

Secondly, a clam (Clam heel) device 861r,

Third, there is a device for shoveling 861s,

Fourth, there is a device for scraping (D r a g l i n e; 861 t)

Fifthly, there is a device for the destruction (Ternate 861u)

Sixth, it is equipped with pillar (P i l d i r i v e r; 861v) devices,

The cable crane (861o) equipment constituting the distribution input equipment construction machine,

Moving control and disassembling and assembling of hull position of floating type poison (593, 594, 595) of small, medium and large sized marine nuclear power hydroelectric power plant are provided by the distribution input equipment construction machine,

(2) Distribution unit of nuclear reactor facility for nuclear waste disposal of marine nuclear hydroelectric power plant with dual structural block tank dust collector. (1) Distribution input unit consisting of inside of main body (1) Small, medium and large sized marine nuclear hydroelectric The nuclear power generation nuclear waste treatment unit 811a of the nuclear hydroelectric power plant unit 811 that provides marine power plant facilities for the hull position movement control of the lifting tanks 593, 594 and 595 of the power plant, (811c) Distribution input equipment Construction machinery Cable cranes (861o)

 The nuclear power generation nuclear waste treatment unit 811a of the nuclear hydroelectric power plant 811 of the nuclear hydroelectric power plant and the transportation transport unit 811c of the hull locomotion construction and construction machine are installed in the distribution and input device construction machine cable crane 861o,

All six units of the following crane 861p are provided.

First, there are provided a Galois field device 861q,

Secondly, a clam (Clam heel) device 861r,

Third, there is a device for shoveling 861s,

Fourth, there is a device for scraping (D r a g l i n e; 861 t)

Fifthly, there is a device for the destruction (Ternate 861u)

Sixth, it is equipped with pillar (P i l d i r i v e r; 861v) devices,

The cable cranes (861o) that make up the construction machinery,

The construction of the hull position of the floating type poison (593,594,595) of the small, medium and large sized marine nuclear hydroelectric power plant is provided by the construction machine and the nuclear waste disposal of marine nuclear hydroelectric power plant equipped with double structure block tank dust collector (811a) of the nuclear power generation facility (811) for controlling the flow of the nuclear power generation facility constituted inside the main body (1) of the distribution apparatus of the nuclear reactor facility and the transportation section of the marine power plant Body Dock The construction equipment of the hull locomotion of the floating dock (593, 594, 595) of a small, medium and large sized marine nuclear power plant located at the upper part of the deck of the ship (SDU) and connected with the facilities and reactor facilities of the marine nuclear power plant. Consists of.

Referring to FIG. 48, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear waste hydro- The hydro-nuclear power generation control unit 811b for generating the power production showing the configuration of the nuclear-waste-nuclear-waste treatment unit 811a including the nuclear-power generation nuclear power plant, A nuclear power plant having a dual structure block tank dust collector, a nuclear power plant operating a nuclear power plant to provide a distribution input device for a reactor facility for nuclear waste disposal of a nuclear power hydroelectric power plant, and an elementary nuclear power plant operating at a nuclear power plant, The construction machine that is put into the nuclear reactor facility of the facility is divided into the side view and the sectional view of the elemental conventional nuclear power plant Nuclear Power Plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant

48, as shown in Fig. 48, the nuclear power plant of the conventional nuclear power plant. During the operation of the nuclear power plant, the maximum capacity load is indicated by the tone (ton) Are shown in the table below.

In the six entire devices (working devices) constituting the crane,

First, the crane (galley) is used for general cargo handling, cargo loading and loading operations,

The crane shell (shell)

It is suitable for soil loading work, vertical excavation work, dirt removal work, underwater excavation, hopper work and deep hole digging work,

The shovel that constitutes the crane is a shovel.

It is suitable for the construction of the Tosa gullet, the slope of the slope, the loading of the earth and the foundation of the road,

The draft line (scraper), which constitutes the crane,

It is suitable for the embankment construction work, the drainage construction work, the flat excavation and the underwater work vehicle,

The trenches (ditch digging)

It is suitable for drainage work, burial work, excavation work, mining work, pipeline work,

The file driver (pillar) that constitutes the crane,

The six cranes are the main equipment constituting the transportation transportation part 811c of the hull position moving construction machine,

As shown in FIG. 48, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, The hydro-nuclear power generation control unit 811b, which provides power production showing the configuration of the nuclear waste nuclear waste treatment unit 811a and the double pipe structure piping line control shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant, And the distribution of the reactor facilities for the nuclear waste disposal of a marine nuclear hydroelectric power plant with the dual structure block tank dust collector providing marine power plant facilities for the control of hull position movement of the floating type poison (593,594,595) of medium and large sized marine nuclear hydroelectric power plants The nuclear power generation nuclear waste treatment section 811a included in the nuclear hydroelectric power plant section 811 constituting the inside of the charging apparatus main body 1, The operation angle of the boom (B om) showing the conventional construction constituted in the transportation unit 811c of the body position shifting construction machine is as follows.

The minimum limit angle is 20 (but the backhoe is not limited to the minimum limit angle), the maximum limit angle is 78 °, the maximum safety angle is 66 ° 30 'and the normal working angle is 45 ° to 65 °.

And, when the crane (crane) work, the longer the weight of the object, the shorter the length of the boom and the greater the angle.

Classification of crane is classified into two types of crane type and truck type.

As shown in FIG. 48, a construction machine distributing and inputting apparatus constituting the inside of the distributing and inputting apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector is constructed as a small And the hull position shifting construction machinery of the nuclear hydroelectric power plant (811) of the nuclear hydroelectric power plant, which provides marine nuclear hydroelectric power plant facilities for controlling the hull position movement of the floating type poison (593,594,595) of medium and large sized marine nuclear hydroelectric power plants In the type for each use application showing the conventional configuration of the transportation unit 811c,

The function of the drag cranes constituting the transportation section 811c is,

And is used for the assembly of a steel frame of a high-rise building, the loading and unloading of a material, the loading and unloading of a harbor, and the structure of a tower crane constituting the transportation section 811c And functions,

It is a crane with a short jib and a hammerhead truss on a high tower. It is used in high-rise buildings and construction sites that require high height,

The structure and function of the hydraulic cranes constituting the traffic transportation section 811c are,

It is a mobile crane operated by hydraulically operated equipment. The boom can be expanded and contracted up to 510m and the rollover load is usually 310t o n. The application is used for harbor loading and unloading work, civil works, electric pole work,

In the cable crane installation showing the conventional construction constituted in the traffic transportation portion 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811,

The structure and function of the cable cranes constituting the transportation section 811c are not limited to the above-

The trolley is installed by hitting thick cable at both ends of tower (Toe w e r). It is used for conveying concrete or material when dam (dam) construction,

The structure and function of the derrick crane constructed in the traffic transportation section 811c are,

It is a machine that moves the block and passes the weights to the winch with the rope, and it is used for the assembly of the steel frame, the foundation work, the construction of the bridge,

As the type of guiderek constructed in the traffic transportation section 811c,

It has the capability of hanging loads on the material beam, the working radius is large, the disassembly is easy, the unloading work, the movement of heavy objects,

The triangular digits constituting the traffic transportation section 811c are,

It is suitable for the roofing work of narrow places or buildings and does not have foundation. If it is installed on the wheel, it is easy to move, so it is used for pile hammer work, bridge construction, and harbor unloading. Therefore, small, medium and large sized marine nuclear power plants (593, 594, 595) with a dual structural block tank to provide displacement control and disassembly of the hull position of a nuclear power plant (1) (811) of the Nuclear Hydroelectric Power Plant (811) that regulates the flow of the equipment. (811c) The Nuclear Hydroelectric Power Plant Body Dock of the Marine Nuclear Hydroelectric Power Plant's Upper Dock (SDU) It is connected to the construction machines of the hull displacement control.

As shown in Fig. 48, in a tractor crane showing a conventional structure,

First, a crane is attached to the upper body of the shredder type excavator, and a wheel type and a crawler type are provided.

Outriggers, which are connected to construction machines,

It protects the safety and prevents the load from being applied to the tire to prevent wear and tear due to the tire and spring load,

A construction crane (= door crane), which is connected to construction machines,

The crane is equipped with a running rail on the ceiling. It is used for the production and processing of concrete beams. The fixed type is used for loading work at factories and warehouses. However, it is not used for construction works. use.

As shown in FIG. 48, a construction machine composed of a main body (1) of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector is divided into small and medium- (1) of the distribution reactor of the reactor facility for the nuclear waste disposal of the nuclear hydroelectric power plant, which provides marine nuclear hydroelectric power plant facilities to control the hull position movement of the floating marine nuclear power plant of the large marine nuclear hydroelectric power plant (593,594,595) The chain block 648, which shows the conventional construction constituting the transportation transportation part 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811,

It can be lifted up to 15t o n for unloading. The safeguard of hoisting and winding work of crane is brake and limit switch.

The marine crane showing the conventional construction constituted in the traffic transportation section 811c of the hull position moving construction machine of the nuclear power generation facility section 811,

The marine cranes constituting the transportation unit 811c are,

Transportation and hypothesis of large steel structures of bridges. It is used for transportation and installation of super-large facilities and for the transportation and installation of offshore structures, including hydraulic cranes (887) and hydraulic cranes (885) in tower cranes (886) and cranes (888) with cable cranes and clam shell attachments and,

The hydraulic cranes 885 and the tower cranes 886 and 908 have a denomination designation 886a which is a combination of a guidder 886b, a main side 886c, a boom 886d, a boom foil 886e, The triangle 886h, which is connected to the traffic transportation section 811c by the network 886f and the public network 886g,

The main side 886i, the boom 886j, the boom fosses 886k and the levers 886l,

In the structure 887a of the drag crane of the drag crane 887

The boom cable 887c and the dummy cable 887c and the bucket 887d and the lower boom 887e and the retro cable 887f and the cable roller 887g and the boom cable 887h, The boom hoist cable 887j and the cable drum 887k and the cable drum 887l and the parallel weights 887m are connected to the transportation transportation unit 811c,

In the structure of the crane 888 connected to the traffic transportation section 811c having the crane cell attachment,

The holding line 888a and the opening and closing line 888b and the clamp cell bucket 888c and the upper frame 888d and the lower frame 888e and the rack line 888f and the rope guide 888g and the boom tent 888h The boom hose strut 888j, the front drum 888k, the rear drum 888l, and the parallel weights 888m,

Distribution of reactor facilities for the nuclear waste disposal of nuclear hydroelectric power plants consisting of a construction machine that arranges movement control and disassembly assembly of marine small-sized and large-sized marine nuclear hydroelectric power plant lifting tanks (593, 594, 595) A nuclear power hydroelectric power plant 811 constituting the inside of the apparatus main body 1, and a transportation transportation part 811c of the hull position moving construction machine 811c constituting the inside of the apparatus main body 1, (811), which are installed at the marine nuclear hydroelectric power plant body and the upper part of the deck of the ship hull (SDU), are connected to the facilities of the nuclear hydroelectric power plant (1) of a reactor installation for nuclear waste treatment of a marine nuclear hydroelectric power plant having a double structure block tank dust collector provided with reactor facilities ).

Referring to FIG. 49, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. The hydro-nuclear power generation control unit 811b for generating the power production showing the configuration of the nuclear-waste-nuclear-waste treatment unit 811a including the nuclear-power generation nuclear power plant, A nuclear power plant having a dual structure block tank dust collector, a nuclear power plant operating a nuclear power plant to provide a distribution input device for a reactor facility for nuclear waste disposal of a nuclear power hydroelectric power plant, and an elementary nuclear power plant operating at a nuclear power plant, The construction machine that is put into the nuclear reactor facility of the facility is divided into the side view and the sectional view of the elemental conventional nuclear power plant Nuclear Power Plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant

As shown in FIG. 49, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The dredger 879 constituting the transportation conveying portion 811c of the hull locating and construction machine is provided in the nuclear waste disposal unit 811a of the nuclear power generation plant and the double shaft structure block piping line control shaft 238 of the nuclear waste disposal of the nuclear power plant, In addition,

The pump dredging line 879a and the bucket dredger 879b, which constitute the dredger 879,

The dredger 879 constituting the upper portion SDU of the marine power plant body, which is included in the transportation portion 811c of the construction machine of the construction machine connecting structure nuclear hydroelectric power plant 811, (879a) and a bucket dredging line (879b) to be mounted on a floating dock,

In the dredger (879) for mounting on the lifting dock,

And the return seats 879e and 879f and the blast tank 879g and the blast pumps 879h and 879h of the cab or control room 879d, 879i and an engine room 879j and is constituted by a dredger dredger 879k and a grab dredger 879l.

The dredger (879) constituting the lifting dock (879)

The bucket drive device 879m and the rear spots 879n and the spoiled winch 879o and the bucket 879p and the left and right front spots 879q and dipers 879r and 879s, A tanker 879t, a belt conveyor 879u and a gravure 879v, a plurality of construction machine connection structures, and a main body of the distribution apparatus of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector 1) Transport transportation part (811c) of the construction machine for controlling the hull position movement of the nuclear hydroelectric power plant part (811) constituting the internal part of the nuclear power hydroelectric power plant of the marine nuclear power plant. A wire rope chain 915 and a double structure piping 915 are connected to the periscope 913 and the rubber balloon 914 in the seabed mineral intake collecting machine 911 and the seabed mineral collection robot 912 to the seabed mineral deposits 908 and the seabed mineral deposit net 910, Line automatic pneumatic valve transport equipment (916) and Koa Drill (917) construction machinery It is composed of distribution machine and construction machinery connection structures and constructs the collection of seabed mineral manganese block (909).

The dredger provided in the conventional marine power plant equipment constituting the distribution dispatching apparatus of the transportation transport unit 811c of the hull position moving construction machine of the nuclear power generation facility unit 811,

It is the equipment that constitutes the work of digging the soil in the water. Thank you. River. In order to increase the depth of waterway and to maintain depth of water, we work on the landfill of the shared water surface and the foundation construction of the coastal work such as rock wall and breakwater. Classification of the dredger is classified by classification by type and ability.

The pump type is classified as non-self-excited by the rated output of the drive engine, and the bucket expression is classified as non-self-excited by the rated output of the main engine and non-self-excited by the depressed bucket capacity (m ³ )

The grab equation is provided in a non-self-contained manner with the flat capacity (m ³ ) of the grab bucket.

As shown in FIG. 49, the transportation transportation unit 811c of the hull position moving construction machine of the nuclear power generation facility unit 811, the distributing and inputting equipment, the construction machine hull position moving construction equipment, In the dredger provided for the hydroelectric plant,

The pump dredging line (879a), which is classified by capacity, electric and diesel type, steam turbine type and gas turbine type, and which constitutes the structure and use of the dredger,

The structure and purpose of the dredger is to use the low-head pump line to transport the soil to the towed line or to suck up the soil and water when the delivery pipe is difficult to install or the long distance is long. ,

The angle of movement range of the hull during operation is from 70 ° to 90 °. The standard mark is indicated by the rated output (P S) of the drive engine.

The dredger provided in the marine nuclear hydroelectric power plant equipment constituting the transportation transport section (811c) of the hull position moving construction machine of the nuclear hydroelectric power plant (811)

For the structure and use of the bucket dredger 879b,

The soil is dredged with dredged soil by using bucket conveyor and continuously pumped up the soil. The dredged soil is transported by the toe line and used for dredging of large-scale routes and anchorage.

The types are continuous and intermittent, and the continuous type is often used. The standard indication is indicated by the continuous rated output (PS) of the main engine. The characteristics of the dredger (879b) are shown in the table below.

49, the dredger provided in the marine nuclear hydroelectric power plant equipment constituting the distribution dispatching apparatus of the transportation transport unit 811c of the hull position moving construction machine of the nuclear hydroelectric power plant unit 811,

The structure and use of the dredger dredger (879c), which constitutes a marine nuclear hydroelectric power plant,

It is used for dredging strong and hard ground or broken rock. The standard indication is indicated by bucket capacity (m ³ ) and its characteristics are explained as below table.

As described above, in the collection of the seabed mineral manganese block (909) in the dredger provided in the marine nuclear hydroelectric power plant equipment,

With the double structure block tank dust collector providing a marine nuclear hydroelectric power plant facility of hull position movement control of a floating tank (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant, (811a) contained in the nuclear hydroelectric power plant (811) constituting the distribution input apparatus main body (1) of the nuclear reactor waste processing facility of the marine nuclear hydroelectric power plant and the nuclear waste treatment The crude oil boring drilling machine 908, which shows the construction machine position control arrangement of the hull position shifting control of the buoyant dock constructed on the double pipe structure line 238 of the double pipe structure,

The wire rope chain 915 and the double structure piping line automatic pneumatic pressurization line 911 to the periscope 913 and the rubber balloon 914 to the seabed mineral deposit collecting machine 911 and the seabed mineral picking robot 912 to the seabed mineral deposit net 910, (916) and Koa Drill (917) construction machines. It is equipped with construction machinery connection structures to collect seabed mineral manganese block (909).

As shown in Fig. 49, in order to provide a marine nuclear hydroelectric power plant facility for controlling the displacement of the hull of the floating type poison (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device construction machine in the ocean, A nuclear reactor nuclear waste treatment section 811a included in a nuclear hydropower generation facility section 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, And the crusher (874) connecting structure showing the construction machine position control structure of the floating movement control of the floating structure constructed in the double pipe structure block pipe line control shaft (238) of the nuclear waste disposal of the nuclear hydroelectric power plant,

The crusher (874)

The vibration of the vibrating grease replicator 874d and the crushing head 874e of the crushing head 874a and the second frame 874e of the crushing chamber 874a, The crusher 874 having the jaw crusher 874f, the vibrating screen 874g and the drum elevator 874h is used for compaction of aggregate layers in road and concrete construction.

It is used in all crushing works with the function of making and supplying crushed stone as a machine to crush stones by equipped with construction machines of transportation construction part (811c) It is used in the production of aggregate. In the future, it will go through the primary screening process of the mining ore of the submarine.

The types of crushers are separated into primary, secondary, and tertiary crushers. The description of each part of the primary crusher is as follows.

As shown in Fig. 49, in order to provide a marine nuclear hydroelectric power plant facility for controlling the displacement of the hull of the floating type poison (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device construction machine in the ocean, A nuclear reactor nuclear waste treatment section 811a included in a nuclear hydropower generation facility section 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, (238) of the double tube structure block piping line of the nuclear waste disposal of the nuclear hydroelectric power plant, and the jaw crusher is a machine which is crushed by the compressive force and is installed between the jaws on both sides When rocks are inserted and buried, one side is fixed and the other side is operated, and the stone is crushed by the price pressure at this time, (J a w) is made of a structure capable of crushing any hard rock pomegranate with strong force.

As shown in Fig. 49, in order to provide a marine nuclear hydroelectric power plant facility for controlling the displacement of the hull of the floating type poison (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device construction machine in the ocean, A nuclear reactor nuclear waste treatment section 811a included in a nuclear hydropower generation facility section 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, And a double-tube structure block pipe line control shaft (238) for the nuclear waste disposal of nuclear hydroelectric power plants,

It is made of cast iron or steel and consists of a lower frame eccentric shaft and a drive gear. The crusher has a crushing head of a hard steel on the pivot shaft, which is rotated and first crushed, and then discharged to the bottom of the crushing chamber. This crusher has the advantages of less vibration and continuous crushing as compared with the Jaw crusher. It has the upper part of the machine as the discharge port and the lower part as the discharge port. There is an advantage that it can be loaded as it is. The hammer crusher of Impact Crusher is equipped with a large number of discs on one rotary shaft and hung on a hinge of a rectangular shape around the rotary shaft to rapidly rotate the rotary hammer to strike the stones, .

As shown in Fig. 49, in order to provide a marine nuclear hydroelectric power plant facility for controlling the displacement of the hull of the floating type poison (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device construction machine in the ocean, A nuclear reactor nuclear waste treatment section 811a included in a nuclear hydropower generation facility section 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, And the double pipe structure of the nuclear waste disposal of the nuclear hydroelectric power plant,

The cone crusher of the second crusher has an umbrella-shaped cone-mantle head on a short vertical spindle. The stone is sandwiched between the cone-curve balls installed in the frame by its eccentric motion, This is because it is crushed by the impact action, its structure is somewhat complicated, there is no slip that the crushed stone flows down as it is, and the crushing ratio is relatively large,

Compared with the Zyeterotorizer, it has the advantage of producing a standard product with a short length, a small size of the supply port, and a largest size of outlet gap,

It is suitable for mass production of constant aged aggregate. The hammer mill crusher's double roll crusher is suitable for high-

Two lightweight rolls are fixed on separate horizontal axes, and the spacing is freely adjustable. At the same time, the rolls are arranged in parallel, but the rotation is made to rotate in opposite directions, The rolls are crushed while passing between the rolls, and these rolls have a main function of compression fracturing and discharging, and are often used in the production of packing aggregate.

As shown in Fig. 49, in order to provide a marine nuclear hydroelectric power plant facility for controlling the displacement of the hull of the floating type poison (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device construction machine in the ocean, A nuclear reactor nuclear waste treatment section 811a included in a nuclear hydropower generation facility section 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, And the double pipe structure of the nuclear waste disposal of the nuclear hydroelectric power plant,

The rod mill of the third crusher 874,

The production of fine aggregate of 5m or less,

The ball mill (B a l l m i l)

The rod mill and the ball mill are machines for producing crushed stones as fine aggregates. The rod of the short cycle sewing machine is put into the round drum of the forcing, the fine aggregate is continuously supplied with the water, and the drums are rotated, If the water is small, it is finely crushed. If the water is small, the roughness of the grain is large. If the water is wet, the wheat is dry and if there is no water, it is dry or generally wet many.

As shown in Fig. 49, in order to provide a marine nuclear hydroelectric power plant facility for controlling the displacement of the hull of the floating type poison (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device construction machine in the ocean, A nuclear reactor nuclear waste treatment section 811a included in a nuclear hydropower generation facility section 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, And the double pipe structure of the nuclear waste disposal of the nuclear hydroelectric power plant,

The ball mill differs from the rod mill in that a steel ball is rotated in a cylinder instead of a rod to obtain a new aggregate.

Its standard indication is to display the crushing capacity per hour in tonnes (TPH).

As mentioned above, it is a machine that makes crushed stones smaller and makes crushed stones. It is used in all crushing works and mainly used for the production of aggregates. The power source 46 of the engine generator 226 treats nuclear waste. The use of the device 941 is set for a period of time before the completion of the device 941,

A submarine mineral intake sampling machine 911 and a submarine mineral intake collecting machine 911 are connected to an oil drilling machine 908 and a submarine mineral deposit net 910 connected to an upper portion SDU of a body of a marine power plant dock, A wire rope chain 915 to the periscope 913 and the rubber balloon 914 to the mineral picking robot 912 and the distribution of the double structure pipeline automatic pneumatic valve transport device 916 and the coarrhee 917 construction machine The load mill of the crusher 874, as a machine for crushing and reducing the seawall minerals manganese monoliths (909) gemstone collected with the input device construction machine connection structures,

Since it produces fine aggregate of 5m or less,

The rod mill and the ball mill are machines for producing crushed stones as fine aggregate, and a new aggregate crush stone is installed in the transportation transport section 811c of the hull locating and construction machine of the nuclear power plant 811 and the hydro- And the harmful red tide prevention and control section is equipped with the disaster prevention preventive control section and the fishery and shell scattering control section as the connection structures of the hydrological control and control section of the dam, and the nuclear structure of the marine nuclear hydroelectric power plant having the double structure block tank dust collector And is configured to constitute a dispensing apparatus of a nuclear reactor facility for waste treatment.

As shown in FIG. 49, in the classification by the construction machine auxiliary apparatus provided in the transportation transport section 811c of the hull position moving construction machine of the nuclear power generation facility unit 811,

(855f), Hidrick Ripper (855i), Pusi, Dodger, and Tinado (U) are subdivided into the same,

The reflector 855h is formed of,

It is suitable for picking rocks during farmland clearing and road construction, drawing brushes and tree roots, and carrying large stones when constructing dams. It is used for hard land digging.

As shown in Fig. 49, in order to provide a marine nuclear hydroelectric power plant facility for controlling the displacement of the hull of the floating type poison (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device construction machine in the ocean, A nuclear reactor nuclear waste treatment section 811a included in a nuclear hydropower generation facility section 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, (855g), which consists of a double pipe structure block piping line control shaft (238) for the nuclear waste disposal of a nuclear power plant,

It is suitable for opening and closing work,

The hinge, the doffer 855f,

It is suitable for jetting, snow removal,

In the droplet hopper 855i,

It was used when the ground was hard and solid and difficult to excavate.

It is used to remove asphalt pavement and to remove rocks or rocks that are difficult to excavate, to be difficult to blast, and to destroy asphalt pavement.

As shown in FIG. 49, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, The hull of the small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant (593,594,595) equipped with the nuclear waste disposal unit (811a) of the nuclear power generation nuclear power plant and the control shaft (238) (811c) of the hull locating and construction machinery to construct the marine nuclear hydroelectric plant of the displacement control system,

In order to provide the traction force in the skipper operation, a role of pushing the skipper from behind is provided,

However,

It is faster than the infinite crawler type of low pressure rubber tire type, and it is possible to increase the carrying amount. Also, it is easy to move and does not harm packaging.

As shown in FIG. 49, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, In the hydro-nuclear power generation control unit 811b that provides the power production for the nuclear power generation nuclear waste treatment unit 811a and the dual-pipe structure block piping line control shaft 238 for the nuclear waste treatment of the nuclear hydroelectric power plant,

The U-shape of the U-shape of the marine power plant to regulate the displacement of the hull of the small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant that constitutes the control unit of the marine hydro- (811c) of construction machinery to construct a marine nuclear hydroelectric power plant facility, because there is little overflow on the side of the marine nuclear power plant. The hydrodynamic power plant is composed of a distributing input device for lifting seine hull displacement control.

Referring to FIG. 50, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, The hydro-nuclear power generation control unit 811b for generating the power production showing the configuration of the nuclear-waste-nuclear-waste treatment unit 811a including the nuclear-power generation nuclear power plant, (SDU) of an elementary marine power plant dock hull deck showing the configuration of one embodiment of the operation of a nuclear power plant providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector Constructing hydroelectric power plant of marine hydroelectric power plant lifting dock to control displacement of hull (811a) Movement control of the floating machinery structure of the floating machinery structure (1) inside the main body (1) of the reactor equipment for nuclear waste disposal of the nuclear waste hydroelectric power plant having the elementary double structure block tank dust collector Hydraulic power plant equipment including hydraulic tank facility showing the construction machine position adjustment configuration of the construction machine Straight configuration of the connection structure Road,

As shown in FIG. 50, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, (811a) of the nuclear power generation nuclear power generation plant (811a), a marine hydro-nuclear power generation production control section (811b) for providing power production constituting the double-pipe structure block piping line regulation shaft (238) In the construction machine constituting the transportation portion 811c of the hull position moving construction machine,

The hull position of the nuclear power plant (811), which provides marine power plant facilities to control the hull position movement of the floating type poison (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants, Construction machines constituting the transportation section 811c are,

An excavator 856 and a hydraulic tank 819 having a connection structure constituting the position adjustment of the construction machine of the hull position movement control are connected to the four-shaft plunger pump 148b of the plunger pump 148, In the runner pump 148c construction machine connection structure,

A tank 819d, a separator 819e, a sash strainer 819f, and a top plate 819b constituting the hydraulic tank 819, an oil level meter 819b, a drain 819c, a tank bottom plate 819d, A tank top plate 819j, an air bladder / gas inlet port 819k, a tank leg plate 819l, and a cleaning window packing 819m, so that the hydraulic motor 819g, the suction port packing 819h, the inlet lid 819i, (811) constituting the interior of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector connected to the nuclear power plant 820 and the hydraulic pump 821, (811c) Construction machinery to be equipped with Marine Nuclear Hydroelectric Power Plant Body Dock Marine Nuclear Hydroelectric Power Plant constructed at the upper part of the deck of the ship (SDU) .

As shown in Fig. 50, a four-axis plunger pump (not shown) of the plunger pump 148, which is composed of construction transportation machines 811c of the hull position moving construction machine of the nuclear power generation facility 811, (148b) and the radial plunger pump (148c)

The plunger pump 148, which is provided as pumps constituting the pumping action by the reciprocating motion of the plunger piston and is suitable for the high-pressure pump,

The rotary pump 337 is roughly divided into an axial type and a radial type according to the relative relationship between the reciprocating motion direction of the plunger and the driving rotation direction and is referred to as a rotary pump 337 constituting a type of pump or motor,

The crank-type piston pump, which constitutes the rotary pump 337,

It can be thought of as a kind of radial type when it is classified as the motion of the piston but it is classified into one independent type because there is a considerable difference from other pumps in structure.

As shown in Fig. 50, in the rotary pump 337 constituted by construction machines of the transportation section 811c of the hull position moving construction machine of the nuclear power generation facility section 811,

Since the mass of the reciprocating part is extremely small, or there is no reciprocating part at all, high-speed operation (usually 3000 to 4000 rpm, larger than 15,000 rpm) is possible.

Therefore, a relatively high-pressure, high-performance pump can be obtained.

Since the pump having a large number of plungers is operated at a high speed, pulsation of the discharge oil is extremely small and vibration is relatively small, so that relatively smooth operation is possible.

In addition, a variable-displacement type mechanism can be easily obtained.

As shown in FIG. 50, the hull position of the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector (811c) for the construction of a marine nuclear power plant (811c) for the construction and maintenance of marine power plants of a small, medium and large sized marine nuclear power plant (593,594,595) Since the plunger is relatively small in diameter, relatively small in stroke, and easy to obtain the machining accuracy, it is possible to obtain a pump of high volumetric efficiency because the plunger constituted by the construction transportation machines of the construction equipment of the power generation facility part (811) .

Therefore, the run-flat low pump delivery pressure 700~350k g _f / cm ^2, songchulryang 10~50ℓ / min, usually 80-90% of the efficiency on the market.

The crank-type piston pump, which is composed of the construction transportation machines of the hull position moving construction machine of the nuclear power plant 811,

In recent years, there have been many low-speed and large-sized machines. Recently, high-speed rotation, high-pressure and small feed rate have been developed and are widely used for general industrial and special purposes because of their small size, high efficiency and simple structure.

The structure and features of the liquid type plunger pump 148a include,

The plunger is inserted into the cylinder block arranged parallel to the axis on the circumference constituting the center of the shaft, and reciprocating motion is performed by the mechanism of the shaft and the drive shaft, As the pump, it is divided into four types and four types.

As shown in Fig. 50, the cylinder block constituting the cross section of the four-plate type axial piston pump, which is provided with the traffic transportation portions 811c of the hull position moving construction machine,

And the piston in the cylinder constitutes rotation with the swash plate as the drive shaft rotates,

In the quadratic equation constituting the section of the pump,

It is more compact and lightweight because it has a simple structure and fewer parts compared to the four-shaft type. It is inexpensive in price, and its structural rotation weight is concentrated around the shaft, so it is suitable for high-speed rotation and is widely used in construction vehicles and cargo handling machines.

As shown in FIG. 50, the hull position of the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector (811c) for the construction of a marine nuclear power plant (811c) for the construction and maintenance of marine power plants of a small, medium and large sized marine nuclear power plant (593,594,595) The hull position of the power generation equipment section 811 The transportation section 811c of the construction machine The extension cable 861b constituting the construction machine and the extender cable 861b constituted by the construction machine and the six all devices 861p of the crane, (887) Construction equipment connection structure to be installed on the upper part of ship's deck (SDU) of the marine power plant. A transportation transport unit 811c of a hull position shifting construction machine of a nuclear power generation facility 811 constituting a distribution dispatching apparatus main body 1 of a nuclear waste disposal reactor facility of a marine nuclear hydroelectric power plant having a crude block tank dust collector, .

As shown in FIG. 50, the hull position of the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector (811c) for the construction of a marine nuclear power plant (811c) for the construction and maintenance of marine power plants of a small, medium and large sized marine nuclear power plant (593,594,595) The shaft seal formed inside the cylinder 126 used as a construction vehicle or a conveying machine constituted by construction transportation machines 811c of the hull position moving construction machine of the power generation facility unit 811 is provided with a seal 156 A high pressure pump in front of the cylinder 126, a high pressure hose 190, a coupling 29, a crank 248 constituted by valve devices, and a crank 248 The upper part of the deck of the ship's hull deck of the marine nuclear hydroelectric power plant, which is assembled with the link stand (249) and equipped with the heavy equipment construction machine, and is equipped with the distributing and inputting apparatuses for the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector (SDU), which is connected to the upper part of the deck (SDU) of the dock of the ship (SDU) by heavy transport equipment (811c) of heavy construction equipment Consists of.

Referring to FIG. 51, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, The hydro-nuclear power generation control unit 811b for generating the power production showing the configuration of the nuclear-waste-nuclear-waste treatment unit 811a including the nuclear-power generation nuclear power plant, (SDU) of an elementary marine power plant dock hull deck showing the configuration of one embodiment of the operation of a nuclear power plant providing a distribution input device for a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector Hydraulic power plant construction equipment of small size, medium size, large scale marine hydroelectric power plant floating structure poison (593,594,595) A nuclear reactor nuclear waste treatment unit 811a showing the position regulation arrangement and a bulldozer 855 showing the construction machine position adjustment arrangement of the movement control, 855b, 855b, 855b, 855c, 905d, 855d, 905b, 905b, 905b, 905b, A double structure block tank dust collector consisting of a small, medium and large marine nuclear hydroelectric power plant floating support dock (593,594,595) equipped with a low level 85 (85h) and a heavy duty (855i) A suction pump 855k for a cam device including a connection structure of a construction machine connection structure and a power transmission device 855j of a nuclear reactor plant for nuclear waste disposal of a marine nuclear hydroelectric power plant, A cooling system 855m, a final gear device 855n, a sprocket 855o of a driven wheel, and an idler 855p) and a provision clutch (855q) connection structure, which are used for small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant lifting dock (593,594,595)

As shown in FIG. 51, a distribution input apparatus constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector is constructed as a small And the transportation unit 811c of the hull position moving construction machine of the nuclear power plant 811 constituting the marine power plant facility of the hull position movement control of the lifting type poison (593, 594, 595) of the middle and large sized marine nuclear hydroelectric power plant (855a) of the bulldozer (855) constituting the control of the position of the construction machine for adjusting the position of the hull of the marine hydroelectric power plant lifting dock constituting the upper part (SDU) And a hinge 855e is attached to the straight guide 855c and the angle adjuster 855e and the hinge 855d to the screwdriver 855d, (855i) to the hidrick reporter (855i) (1) of a reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector constituting a low power transmission system with a construction machine connection structure. The distribution input apparatus ,

In the attachment device of the bulldozer constituting the dispensing apparatus of the nuclear reactor facility for nuclear waste disposal,

Straight rakes constituting an attachment of a bulldozer are also used,

It is used for excavation of rock. It is used for excavation of rock,

The backhoe (B a c k h e e), which constitutes an accessory device of the bulldozer,

Piping of pipe wires. It is used for excavation of drainage,

The hydraulic ripper, which constitutes the attachment of the bulldozer,

In hard and hard ground, blades are used for crushing, roots, and rock scraping of grounds and pavement that are difficult to excavate,

The toying winch, which constitutes the attachment of the bulldozer,

Used for traction of heavy wood,

The snowflake, which constitutes the attachment of the bulldozer,

Used for snow removal work,

The skidders, which make up the accessories of the bulldozer,

Wood, and pump round objects,

And loading of cranes or heavy objects. Used for loading and transportation,

The rock buckets, which make up the accessories of the bulldozer,

Dedicated to the loading of rocks,

The shovel that constitutes the attachment of the bulldozer,

Moving hull position of nuclear power plant part (811) of marine power plant control of hull position movement of lifting type poison (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plant which constitutes marine for mountain or cliff excavation (1) of nuclear power plant nuclear waste water treatment plant nuclear waste water treatment plant equipped with a double structure block tank dust collector equipped with a construction machine, the hull position of a nuclear power plant part (811) And a transportation transport section (811c) of a construction construction machine.

As shown in FIG. 51, a distribution input apparatus constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector is constructed as a small And the transportation transport section 811c of the hull position moving construction machine of the nuclear hydropower generation facility section 811 constituting the offshore plant facility of the marine power plant facility for controlling the hull position movement of the floating type poison 593,594,595 of the medium and large sized marine nuclear hydroelectric power plant The bulldozers (855)

In the equipment of the transportation section 811c of the lifting construction machinery with the lifting-type poisoning hull constituted by the low-power transmission device parts of the construction machine,

The attachment device of the bulldozer constituting the equipment of the transportation section 811c can be replaced with the attachment device and the suction pump 855k for the cam other device constituting the power transmission device 855j A provisional clutch 855q is installed in the cooling system 855m in the engine 855l and in the idler 855p of the driven wheel and in the sprocket 855o of the driven wheel in the final gear device 855n. (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector equipped with components, a hull position moving construction machine of a nuclear hydroelectric power plant unit (811) (593,594,595) of the marine small-sized and medium-sized and large-scale marine nuclear hydroelectric power plants constructed at the upper part of the ship's deck (SDU) of the marine nuclear hydroelectric power plant constructed by the transportation transport section (811c) And a traffic transportation section 811c of the system.

Referring to FIG. 52, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for processing marine nuclear hydroelectric power plants. The hydro-nuclear power generation control unit 811b for generating the power production showing the configuration of the nuclear-waste-nuclear-waste treatment unit 811a including the nuclear-power generation nuclear power plant, A nuclear water hydroelectric power plant having a double structure block tank dust collector, a nuclear power plant having a distribution input device for a nuclear waste processing nuclear waste disposal facility of a marine nuclear hydroelectric power plant, (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constructed in the SDU Nuclear Hydropower Facility Elementary dual structure block showing the location of regulating the construction machinery Location of distribution facility of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector Small, (593,594,595) Marine structural design of a hydroelectric power plant (593,594,595) Construction control equipment of a hull (811a) Double structure block constituting a motor grader (862) showing a construction machine position control arrangement of a movement control Marine with a dust collector The inner connection structure of the construction machine connection structure grader which is mounted on the distribution dispenser of the nuclear waste disposal reactor facility of the nuclear hydroelectric power plant includes a muffler 862a, an engine flywheel 862b, a cooling fan 862c, A transmission gear 862e, a fixed gear type transmission 862f, a parking brake 862g, a differential gear 862h, a transmission gear neutralizer 862d, A small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant lifting dock (593, 594, 595) facility having a linkage structure of a dike reducer 862i, a disk brake 862j and an outer structure 862k of the radar,

As shown in FIG. 52, a distribution input apparatus constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, And a transportation transport section 811c of the hull position shifting construction machine of the nuclear hydroelectric power plant section 811 constituting the marine nuclear hydroelectric plant facility for controlling the hull position movement of the floating type poison (593, 594, 595) of the marine nuclear hydro- Shaped dodger (855a) showing the arrangement of the construction machine position control of the hull position movement control of the marine nuclear hydroelectric power plant lifting dock constructed at the upper part of the ship deck (SDU) of the marine nuclear hydroelectric power plant, The balls constituting the main constituent parts and roles of the file driver 882 and the scramper 859 in the excavator 856 and the skimmer 856f on the mold 855b form the soil 812, Arrange for a container carrying's Crested the buffer (859) to push the center of the ball to the operating device while advancing the blade attached to the lower surface of the traveling direction by its own weight to the excavator side excavator and loaded forms of.

As shown in Fig. 52, the power transmission device parts of the apparatus constituted by the transportation transportation parts 811c of the hull position moving construction machine of the nuclear power generation facility part 811,

(1) of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a double structure block tank dust collector, which is composed of the upper part of the ship hull deck upper part (SDU) (811c) of the hull position shifting construction machine of the power generation facility unit (811) to construct the upper part (SDU) of the hull deck of the marine power plant body. In the construction machine connection structure showing the position adjustment arrangement,

It is called "carol," which is called "carol", which is larger than the bulldozer. It is a machine for mass excavation work. It is possible to carry out 5 consecutive works such as digging, loading, Of the nuclear power plant (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector And power transmission device parts of the dozer provided with the traffic transportation parts 811c.

As shown in FIG. 52, a nuclear power plant having a double structure block tank dust collector, which is provided with power transmission device parts of a construction machine, is installed inside a main body 1 of a nuclear reactor waste disposal reactor In the facility of each name of the motor grader 862 constituted by the power transmission device parts of the donor provided with the transportation transportation parts 811c of the hull position moving construction machine of the nuclear power generation facility 811 constituting,

The cooling fan 862c is attached to the engine flywheel 862b and the transformer 862e and the fixed gear gear 862d are attached to the front and rear transmission ridges 862d and 862d, respectively, The parking brake 862g in the transmission 862f and the motor grader 862 provided with the gear reducer 862i in the differential gear 862h and the tangential drive 862k in the disc brake 862j are provided,

For the purpose of moving control and disassembling of hull position of floating type poison (593, 594, 595) of marine small, medium and large sized marine nuclear hydroelectric power plant, And the power transmission device parts of the apparatus provided in the transportation transport sections 811c of the hull position moving construction machine of the nuclear power generation facility section 811 constituting the inside of the distributing and dispensing apparatus main body 1 of the nuclear reactor facility.

The motor scrapper, which consists of the construction transport machinery of the hull position moving construction machine of the nuclear power plant 811,

Since it is different from the fact that it has power by combining the vehicle type tractor and the scraper frequently,

In applications,

It can transport a lot of soil to excavation and excavation, and it cuts thin ground surface of smooth terrain consisting of loamy soil and loam. Tossa (812). Cutting, loading, transporting and embankment work can be done,

Usage is not transported by pushing the soil (812).

As shown in FIG. 52, the standard capacity (capacity) of the balls is expressed by m ^{3 in the standard} , and the power transmission order is described as follows.

As shown in Fig. 52, the detailed description of the classification of the scrambler 859 will be described with reference to the following table.

[Comparison of pull type scraper (859a) and power type scraper (859b)

As shown in FIG. 52, a double structure block tank dust collector having a traction type scraper 859a and a power type scraper 859b, which are classified as a scraper 859, (811) of the nuclear power plant (811) constituting the distribution input device main body (1) of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant equipped with the construction transportation machines .

As shown in FIG. 52, a distribution input apparatus constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, And the transportation unit 811c of the hull position moving construction machine of the nuclear power plant 811 constituting the marine power plant facility of the hull position movement control of the lifting type poison (593, 594, 595) of the middle and large sized marine nuclear hydroelectric power plant In the air pruning facility 859c provided,

The air prong (859c)

It is installed on the front of the ball and plays a role to prevent the slip of the ball 820 from falling down. It moves up to the loading and the satosion. It controls the displacement of the hull of the floating hydroelectric power plant, And a disassembling assembly of the ball 859e and the cutting edge 859f to the air plunger 859c and the ejection 859d to constitute the flow control of the air flow (2) Distribution of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant equipped with the dual structure block tank dust collector The hull position of the nuclear power plant part (811) constituting the inside of the main body (1) 811c) construction machines.

As shown in Fig. 52,

In the ejector 859d facility,

It is located on the back of the ball, which is called a tailgate, and serves to push out the gravel in the ball,

In the yoke (Y o k e)

It is a member that combines the ball 859e with the tractor.

 The workload of the skipper (braking type skipper)

Here, Q : the ball carrying capacity

f : Conversion factor

E : Working efficiency of the scaler

C _m : Classify by cycle time.

As shown in Fig. 52, in the radar device 862l,

Used for civil engineering work, it is mainly used for stopping work. It is equipment to pick up ground by scraping the ground by installing blade (blade). It is equipment called a planter of earthwork machine. It is used when finishing the ground smoothly In terms of application and specifications, the indication of use and performance is indicated by the length of blade (blade) and explained as the following table.

As shown in Fig. 52, the power transmission procedure will be described as the following table.

As shown in Fig. 52, the parking brake of the motor grader 862 holds the lower shaft of the transmission and is externally contracted.

The power transmission procedure will be described in the following table.

As shown in Fig. 52, the propelling angle and the cutting angle of the blade are as shown in the following table,

The angle between the center line of the radar and the blade is small, and the work is performed in the range of about 70 ° to 90 ° in the stationary work,

The cutting angle,

The angle at which the cutting edge of the blade is tilted with respect to the cutting surface. During the stopping operation,

Adjust the angle between the radar and the clay plate to 45 ° and 60 ° when pushing the soil to the side and 90 ° to the finishing.

As shown in Fig. 52, the blade capacity will be described as the following table.

only. Q : Blade capacity (m ³ )

B : Blade width (m)

H : Blade height (m)

Minimum turning radius of the steering system

(단. L : 축 거리. : 킹 핀. : 외 측 바퀴 각 )

( L : Axis distance: King pin: Outer wheel angle)

Why there is no differential mechanism

As shown in FIG. 52, a distribution input apparatus constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, And the transportation unit 811c of the hull position moving construction machine of the nuclear power plant 811 constituting the marine power plant facility of the hull position movement control of the lifting type poison (593, 594, 595) of the middle and large sized marine nuclear hydroelectric power plant By improving the straightness of the work characteristics, it is possible to improve the finishing accuracy,

The motor grader 862, which constitutes the displacement control and disassembly assembly of the hull position of the marine hydroelectric power plant lifting dock,

A hull locating of a nuclear power plant 811 constituting a distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, ) Construction machinery,

The combined structure of the air plunger 859c and the disassembly assembly of the ejector 859d, the ball 859e, and the cutting edge 859f constituting the displacement control assembly and the disassembly assembly of the marine hydro- Respectively,

The nuclear power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector provided with the power transmission device parts of the construction machine, (811c) construction machinery of the construction machinery of the hull.

Referring to FIG. 53, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. The number of hull position movement control of small, medium and large marine hydroelectric lifting dock (593,594,595) in the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, Nuclear hydropower plant lifting dock (593,594,595) Hull locomotion Equipment for construction machinery control (811a) Construction machinery for locomotives Construction of crawler-type dumpers (855a) and bulldozers (855a) A power shovel 856b, a drag line 856c, an excavator 856d, a cram shell 856e, a skimmer 856f, a ripper and a lute 856g ) With a dual structural block tank. It is equipped with a connection structure of construction machine connection structure which is installed in the distribution input device of the nuclear waste treatment facility of a marine nuclear hydroelectric power plant equipped with a dust collector. It is suitable for small, medium and large sized marine nuclear hydroelectric Power plant float Dock configuration (593,594,595) The diagonal construction road,

As shown in FIG. 53, a construction machine including a main body (1) of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector is provided, and a small, medium and large Marine Nuclear Hydroelectric Power Plants, which make up the marine environment for the control of the hull position of the marine nuclear power plant's floating dock (593,594,595)

(2) Distribution of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant with dual structure block tank dust collector The hull position of the nuclear power hydroelectric plant part (811) consisting of the main body (1) 811c) It is the longest used loading machine with a shredder type excavator which is composed of construction machines. In addition to using it as an excavating machine, there is also a shovel which consists of a multi-purpose machine by installing a front attachment As a machine for preparing excavation work and crane work for constructing the replacement of a number of attachments with a crane, the upper rotatable body is capable of turning 360 degrees and the structure of the excavator 856 of the three major components is as follows Explain.

53, in the outer structure of the excavator 856 and the classification of the excavator 856,

The crawler type, which is constituted in the traveling device, and the crawler type, which is constituted by the wheel mounted type and the truck mounted type,

It is easy to operate in a place with large pulling force and narrow place, and it is easy to operate wetlands, limbs and slopes, has excellent stability, is difficult to travel on pavement, has a slow speed of 3.2 km / hr,

In the wheel type of the traveling device,

It has a good running speed of pavement, bridges, and easy to move the workplace. It has a running speed of 40 km / h r and its working efficiency is 30% ~ 35% higher than that of big roller type.

The truck mounted type constituting the traveling device,

The running speed is about 60 km / h r, but the maneuverability is good, but the work efficiency is low.

As shown in Fig. 53, in the classification according to the operating method provided by the construction machines,

It is divided into manual type and hydraulic type by air type and electric type. In classification by size,

Small and medium sized, while separated into large and small,

Rail, and trailer, which can be stacked roundly.

Shovels and medium-sized buckets with a capacity of 0.6 m ³ or less,

The bucket capacity is up to 3 m ³ crane anchorage capacity 10 t,

The large,

It is made up of those of medium or more gas weight.

As shown in Fig. 53, the performance display method of the excavator 856, which is composed of construction machines,

(M) of buckets of the buckets 856a, 856b, 896c and 856e,

The earth drill 856d,

Indicated by the excavation diameter,

The file driver 882,

The weight of the hammer,

The crane 861,

The maximum winding load is denoted by (t o n), and the workload calculation formula of the shovel 856b, backhoe 856a, drag line 856c, and clamp shell 856e is as follows.

As shown in FIG. 53, the backhoe 856a of the construction machine inside the main body 1 of the nuclear reactor reactor for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector is provided with ,

The backhoe 856a, which constitutes the dispensing device,

It is used for excavation lower than the working position and is used for foundation excavation of rivers and construction. It can be loaded on conveying equipment higher than the machine while excavating lower side than the trench digging machine, mainly excavating a narrow position, ) Is suitable for disaster prevention and prevention piping line installation for prevention of large forest fire,

The power shovel, which constitutes the dispensing device,

It is suitable for excavation higher than working position in circular shape. It is used for cliff drilling.

As shown in FIG. 53, the hydraulic shovel of the construction machine constituting the inside of the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector is characterized in that,

First, the structure is simple,

Second, the front is easy to exchange and travel,

Third, maintenance and driving operation is easy,

Finally, the machine rope was better on all sides.

53, the drag line 856c of the construction machine constituting the scraping into the main body 1 of the reactor installation for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, In addition,

First, the work radius was large and it was easy to underwater excavation.

The next is to use the ground lower than the ground to excavate broad,

Then, it is used for harvesting the rivers,

Finally, it was not suitable for hardened ground or gravel extraction.

As shown in FIG. 53, the construction machine constituting the earth drill 856d inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector,

The earth drill 856d constituting the construction machine is used for drilling a deep hole of a large diameter with no noise and is used for on-the-spot adjustment. The piercing hull 591 at the upper end of the holding tank, The hull of the barge 592,

The construction crane is used for the unloading of heavy objects and high construction work. The crane instead of the bucket is equipped with hooks,

It is a machine for lifting heavy objects,

The file driver (882) equipment, which constitutes the construction machine,

As an anti-tip tool, it is used to put concrete pile or sheet pile,

It is suitable for pier mounting by pillar,

The clam shell (856e) equipment constituting the construction machine,

It was a shell device suitable for excavation of a certain place such as underwater excavation and explosion work. It was used for deep vertical excavation in a narrow place under the ground,

It is suitable for re-use of manganese monolith (909) and it is widely used to load gravel, sand, and soil on a dump truck,

It is not suitable for hard ground excavation,

Trenchers, which make up construction machinery,

It is suitable as a construction machine equipped to dig ditches.

As shown in FIG. 53, a transportation transport section 811c of a construction machine constituting the inside of the distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, The working range of the excavator,

The maximum excavation depth is the length from the surface of the bucket to the tip of the bucket tip when the tip of the bucket tip is lowered to the lowest position. The maximum excavation radius (= maximum working radius) The maximum horizontal distance and the maximum dump height was the maximum ground height.

(2) Dispensing device of reactor equipment for nuclear waste disposal of a marine nuclear hydroelectric power plant with dual structure block tank dust collector (1) Transportation transportation part of construction machine inside (811c) Construction machine equipped skimmer (856f ),

It is a construction equipment that slides off the surface of a bucket, which is composed of a boom on a revolving stand and is moved by the force of a chain. It is suitable for thin excavation in a narrow place. It is used for a thin excavation in a narrow place where it is difficult to work with a large machine. Respectively,

Marine Nuclear Hydroelectric Power Plant Lifting docking of a marine small, medium and large sized marine nuclear hydroelectric power plant that regulates the construction machine position of the floating dock of the hull dock to the top of the body dock hull deck (SDU) 593,594,595), and the construction and distribution of the reactor equipment for the nuclear waste disposal of the marine nuclear hydroelectric power plant.

As shown in FIG. 53, a transportation transport section 811c of a construction machine constituting the inside of the distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, The structure and function of the repeater and the router 856g,

Ripper and Luther (856 g), which consist of construction machines,

It is used when the ground is hard and solid and difficult to excavate. It is attached to the back of large bulldozer and is suitable for digging hard ground with 23 foot saw blades by its own weight,

For its use, it shall be used for crushing of tree roots, asphalt and concrete pavement, and for the removal of rocks or cobbles.

As shown in FIG. 53, a crane (a crane, 861) constructed of construction machines constituting the interior of the main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector ) In facilities,

It is called a crane and it is used for lifting and lowering of heavy objects, crushing work by using other working devices, heavy use for collecting iron scrap and construction, moving and transporting of earth, stone, Hooks, clamshells, and drag lines. The structure used for multipurpose installation and the basic three-part names are described as follows.

As shown in FIG. 53, a distribution input apparatus constituting the inside of the distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector is constructed as a small (593,594,595) of marine nuclear hydroelectric power plants of medium size and large size, with the marine power plant facility of hull position shifting control, and to distribute nuclear power plant nuclear waste water treatment plant equipped with dual structure block tank dust collector The structure of the hoisting machine 861 constructed by the construction transportation machines 811c of the hull position moving construction machine of the nuclear power hydroelectric power plant 811 constituting the inside of the apparatus main body 1 and the name 861a are provided with the hook 18, Other parts are the same as those shown in the drawings.

A hull locating of a nuclear power plant 811 constituting a distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, ) The name of each part of the crane or crane structure constituting the construction machine,

The bridge 861d and the boom hoist rope 861g and the boom hoist rope 861f are connected to the extender cable 861b and the load system 861c constituting the crane structure, A hoist rope 861j is provided on the upper frame 861h and a lower frame 861i and a middle structure is provided with an intermediate drum 861l on the front drum 861k and a balance structure 861n on the rear drum 861m, A traffic transportation unit 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811 constituting the inside of the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the block tank dust collector, To construct reactor facilities for nuclear hydroelectric power plants.

Referring to FIG. 54, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear power plant, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydroelectric power station (593,594,595) Hull position shifting construction machine control unit (811a) Movement control construction machine Position control structure showing ripper and router (856g) Extend cable (861b) and crane (861p) and drag cranes (887) Straight configuration of construction machinery connection structures Roads,

46 to 54 are schematic diagrams illustrating an embodiment of a distribution input device of a nuclear reactor waste disposal facility for a marine nuclear hydroelectric power plant having a dual structure block tank dust collector of the present invention.

As shown in Fig. 54, a distribution input apparatus construction machine constituted inside the distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

Nuclear waste treatment of marine nuclear hydroelectric power plant with double structure block tank dust collector of marine power plant with adjustment of hull position movement of floating type poison (593,594,595) of small, medium and large sized marine nuclear power plant constituting construction machinery to marine The air pruning 859c equipment, which is composed of the transportation transportation unit 811c and the construction machines of the hull position moving construction machine of the nuclear power plant unit 811 constituted inside the distribution dispenser main body 1 of the nuclear reactor facility,

The air plunger 859c is installed on the front surface of the ball constituting the equipment, and the role of providing the soil gravel 812 of the ball not to flow down is performed to raise and to raise the saturation,

(1) of a nuclear reactor disposal unit for nuclear waste treatment of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector equipped with movement control and disassembly assembly of a marine nuclear hydroelectric power plant lifting dock To regulate the reactor facilities of nuclear hydroelectric power plants,

The combined structure of the air plenum 859c constituting the reactor facility of the nuclear hydroelectric power plant and the disassembly assembly of the project 859d, the ball 859e and the cutting edge 859f constitutes a power transmission device of the construction machine (1) of a reactor installation for nuclear waste treatment of a marine nuclear hydroelectric power plant equipped with a double structure block tank dust collector, And a transportation transport section 811c of construction machines.

As shown in Fig. 54, in the ejector 859d equipment constituted by the construction machines of the transportation transportation part 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811,

It is called a tailgate and is located on the back of the ball and serves to push out the gravel in the ball and to construct a space that is large enough to load the gravel.

In the yoke constituting the construction machine,

It is a member that combines the ball 859e with the tractor.

The workload of the skipper constituting the construction machine (braking type skipper)

Wherein, Q: In view once soil carrying load capacity, f: Sat amount conversion coefficient and E: is classified as cycle time: Crested's working efficiency and C _m of the buffer.

As shown in Fig. 54, in the radar 862l equipment constituting the construction machine,

Used for civil engineering work, it is mainly used for stopping work. It is equipment to pick up ground by scraping the ground by installing blade (blade). It is equipment called a planter of earthwork machine. It is used when finishing the ground smoothly In terms of application and specifications, the indication of use and performance is indicated by the length of blade (blade) and explained as the following table.

As shown in Fig. 54, the power transmission order constituting the construction machine will be described with reference to the following table.

As shown in Fig. 54, the parking brake of the motor grader 862 constituting the construction machine holds the lower shaft of the transmission and is externally contracted.

The power transmission procedure will be described in the following table.

As shown in Fig. 54, the propulsion angle and the cutting angle of the blade constituting the construction machine are as shown in the following table,

The cutting angle is the angle at which the blade cutting edge is inclined with respect to the cutting surface, and the cutting angle is small at the cutting work. . It is caught at the time of stopping work, and it is adjusted to about 45 ° and 60 ° when the soil is pushed to the side by adjusting the angle between the radar and the clayboard, and about 90 ° at the finishing.

As shown in Fig. 54, the capacity of the blades constituting the construction machine will be described with reference to the following table.

only. Q : Blade capacity (m ³ )

B : Blade width (m)

H : Blade height (m)

Minimum turning radius of the steering system

(단. L : 축 거리. : 킹 핀. : 외 측 바퀴 각 )

( L : Axis distance: King pin: Outer wheel angle)

Why there is no differential mechanism

As shown in FIG. 54, it is possible to improve the accuracy of finishing by improving the straightness of the construction machine and to improve the efficiency, and to improve the performance of the marine washing machine of the marine nuclear power plant, The motor grader 862 constituting the movement control and disassembling assembly of the hull of the marine nuclear power plant having the double structure block tank dust collector in the coupling structure is installed in the main body 1 of the nuclear reactor- And a transportation transport section 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811 constituting the inside.

(2) Distribution of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant with dual structure block tank dust collector The hull position of the nuclear power hydroelectric plant part (811) consisting of the main body (1) 811c and 859c of the construction machine and the disassembling assembly of the ball 859e and the cutting edge 859f to the ejection 859d of the construction machine, And a construction transport machine 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811. [

(811c) of the nuclear power hydroelectric power plant (811), 811c of the construction machine, the ripper and luther (856g) and extant cable (861b) constituting the construction machine, and all 6 units of the cranes (861p ) And Draeg Crane (887) Construction machinery linkage structure Dock of the marine power plant Dock The hull of the marine small-sized and large-scale marine nuclear hydroelectric power station constructed at the upper deck (SDU) of the marine nuclear power plant (593,594,595) And a nuclear hydroelectric power plant 811 for position control with a construction machine for controlling the movement of the position.

The shovel type excavator constituting the construction transportation machine of the hull position moving construction machine of the nuclear hydroelectric power plant 811,

It is the oldest used loading machine and it is a multipurpose machine that can be used as an excavating machine, and also can install a front attachment to do a lot of work.

(811c) of the nuclear power hydroelectric power plant (811) Transportation and transportation part of the construction machine (811c) The shovel and the crane that make up the construction machine are provided in basic form, and various kinds of attachments are exchanged. As the machine constituting the work, the upper rotating body is capable of turning 360 degrees and the structure of the excavator 856 of the three major components is described as follows.

In the classification of the external structure of the excavator 856 constituting the construction machine and the excavator 856 constituting the construction machine of the hull position moving construction machine of the nuclear hydroelectric power plant 811, , The bigger roller type and the wheel type are separated into the truck mounted type,

It is easy to operate in a place with large pulling force and narrow place, and it is easy to operate wetlands, limbs and slopes, has excellent stability, is difficult to travel on pavement, has a slow speed of 3.2 km / hr,

The wheel type constituting the construction machine,

It has a good running speed of pavement, bridges, and easy to move the workplace. It has a running speed of 40 km / h r and its working efficiency is 30% ~ 35% higher than that of big roller type.

The truck mounted type, which constitutes a construction machine,

The running speed is about 60 km / h r, but the maneuverability is good, but the work efficiency is low.

In the sorting according to the operation method of providing the construction machine of the transportation transportation part 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811,

It separates into manual type and hydraulic type by air type and electric type,

In classification by size,

While separating into small and medium size and large size,

Small is a limit of a limit that can be rounded for transportation of a railway or trailer. It means a gas weight of 20t or less, a shovel having a bucket capacity of 0.6 m ³ or less,

The medium size is up to 3 m ^{3 of} bucket capacity and 10 t of crane ancillary capacity,

The large size is of medium weight or more.

The performance display method of the excavator 856 for providing the construction machine of the transportation transportation part 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811,

(M) of buckets of the buckets 856a, 856b, 896c and 856e,

The earth drill 856d, which constitutes the construction machine,

Indicated by the excavation diameter,

The file driver 882, which constitutes the construction machine,

It is indicated by the weight of the hammer,

The crane 861 indicates the maximum turnover load (t o n)

The workload calculation formulas of the shovel 856b, backhoe 856a, drag line 856c and clam shell 856e constituting the construction machine are as follows.

(811c) of the nuclear hydroelectric power plant (811), and the backhoe (856a) distribution machine of the construction machine that provides the construction machine,

In the backhoe 856a constituting the construction machine,

It is used for excavation lower than the working position and can be used for foundation excavation of rivers and construction, can be loaded on conveying equipment higher than the machine while excavating the lower side of the trench digging machine, Is suitable for disaster prevention and prevention piping line installation for prevention of large forest fire,

The power shovel, which makes up the construction machine,

It is suitable for excavation higher than working position in circular shape. It is used for cliff drilling.

Compared with the mechanical rope type, which is a feature of the hydraulic shovel for constructing the construction transportation machine of the hull locating moving construction machine of the nuclear hydroelectric power plant 811,

First, the structure is simple,

Second, the front is easy to exchange and travel,

Third, it was easy to repair and operate the machine, and the end was better than the machine rope type on all sides.

As shown in FIG. 54, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector Transportation Transport Unit 811c of the Mobile Construction Machine In the drag line 856c constituting the construction machine,

The drag line 856c, which constitutes the scraping,

It was said that it had a large working radius and it was easy to underwater excavation. Next, it was used to excavate the ground lower than the ground, then it was used for harvesting the river and it was not suitable for hard soil or gravel picking at the end.

The earth drill 856d constituting the construction machine of the transportation transportation part 811c of the hull position moving construction machine of the nuclear hydropower generation facility 811,

And it is suitable for the installation of a pier hull 592 at the lower end of the holding tank at the piercing hull 591 at the upper end of the pillar tank,

The crane that makes up the construction machinery,

It is a machine for lifting heavy objects, installing heavy hooks instead of buckets for high construction work,

The file driver 882, which constitutes the construction machine,

It is used as an anti-tip device for putting concrete piles or sheet piles,

The clam shell 856e, which constitutes the construction machine,

It was used for vertical excavation in a narrow place beneath the ground. It is suitable for recycling of manganese molybdenite (909). It is used for excavation of gravel, sand and soil. It is widely used for cutting and loading on dump trucks. It is not suitable for hard ground excavation,

Trenchers, which make up construction machinery,

It is suitable as a machine used to break the ditch.

The operation range of the excavator for providing the construction machine of the transportation transport section (811c) of the hull position shifting construction machine of the nuclear hydroelectric power plant 811,

The maximum excavation depth is the length from the surface of the bucket to the tip of the bucket tip when the tip of the bucket tip is lowered to the lowest position. The maximum excavation radius (= maximum working radius) The maximum horizontal distance and the maximum dump height were the maximum ground clearance,

The structure and functions of the skimmer 856f constituting the construction machine include,

It is a construction equipment that slides off the surface of the bucket as the bucket is moved by the power of the chain along the boom on the swing platform. It is suitable for thin excavation in a narrow place. It is used for thin excavation in a narrow place where it is difficult to work with a large machine. (2) Distribution of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant with dual structure block tank dust collector The hull position of the nuclear power hydroelectric plant part (811) consisting of the main body (1) 811c) construction machines.

The structure and function of the Reaper and Luther (856g) constituting the construction machine of the transport transportation section (811c) of the hull position moving construction machine of the nuclear hydroelectric power plant (811)

It is used in the case where the ground is hard and rigid and it is difficult to excavate. It is attached to the back of large bulldozer and is suitable for digging hard ground using 23 foot saw blades by its own weight. In its use, It was used for the hardening of concrete pavement and the removal of rocks or rocks.

As shown in FIG. 54, the hull position shifting of the nuclear power plant 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The transportation section of the construction machine (811c) The crane (heavy machine, 861) constituting the construction machine,

Depending on the equipment, it is called a crane. It is used for lifting and lowering of heavy objects, crushing work by using other working devices, heavy use for collecting waste iron and building construction, moving and transporting of earth, stone and equipment used in civil engineering construction , The hook, the clam shell, and the drag line are mounted on the front of the vehicle body. The structure and basic three-part names are explained as follows.

As shown in FIG. 54, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector The construction and the name of the crane 861 constituting the construction machine include the hook 18 and the crane or crane structure constituting the construction machine as shown in the drawings, The name,

The bridge 861d is attached to the extension cable 861b and the load system 861c and the upper frame 861h is connected to the boom hoist rope 861g and the meloope 861f to the boomboxes 861e, A hoist rope 861j on the lower frame 861i and balance weights 861n on the rear drum 861l and the rear drum 861m on the front drum 861k to provide a coupling structure.

The cable crane 861o constituting the transportation transportation part 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811,

All six of the following crane devices (861q) and shell devices (861r) and shovel devices (861r) and shovels (861s) that constitute the device (861p) devices and scraping devices (861t) (61v) devices to provide a distribution input device for a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

For the treatment of nuclear waste at marine nuclear hydroelectric power plants equipped with a double structure block tank dust collector that provides movement control and disassembly and assembling of hull position of floating type poison (593, 594, 595) of marine small, medium and large sized marine nuclear hydroelectric power plants (811) of the nuclear power plant (811) consisting of the inside of the main body (1) of the nuclear power plant of the nuclear power plant, the transportation transport part of the construction machine (811c) Which is connected to the reactor equipment of the construction machine nuclear hydroelectric power plant of the marine nuclear hydroelectric power plant,

Moving hull position of nuclear hydroelectric power plant (811) Transportation transportation part of construction machine (811c) The standard method of displaying the performance of the construction machine is to display the maximum turnover load in tonnes. The basic operation is shown in the table below.

(811c) of the nuclear hydroelectric power plant (811), a transportation transport part (811c) of the construction machine,

First, the crane (kakuri: H ook)

It is used for general heavy work, cargo loading and loading work,

The clam shell (shell: C l a m s h e l l)

It is suitable for soil loading work, vertical excavation work, dirt removal work, underwater excavation, hopper work and deep hole digging work.

The shovel (Shovel)

It is suitable for the construction of roads, gravels on slopes,

The drag line (Scrape: D r a g l i n e)

It is suitable for embankment construction work, drainage construction work, flat gut and underwater work vehicle,

The trenches (trench digging: T rn n c h o e)

It is suitable for drainage work, burial work, excavation work, mining work,

The file driver (pillar)

The six cranes are the main equipment for assembling a nuclear power plant, which is used for pillar-laying work on the foundation work of the building, and for the bridge shedding work of bridges.

As shown in FIG. 54, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector The transportation operation part of the mobile construction machine (811c) The operating angle of the boom for the construction machine is as follows.

The minimum limit angle is 20 (but the backhoe is not limited to the minimum limit angle), the maximum limit angle is 78 °, the maximum safety angle is 66 ° 30 'and the normal working angle is 45 ° to 65 °.

And, when the weight of the object is heavy, the length of the boom is shortened and the angle is large when the crane is working.

Classification of crane is classified into two types of crane type and truck type.

The location of the hull of the hydroelectric power plant (811), the transportation section of the construction machine (811c)

The structure and function of the tower crane are as follows: It is used for the assembly of steel frame of high-rise buildings, the loading and unloading of materials, and the loading and unloading of harbors. It is a crane equipped with a hammer head type truss. It is widely used in high-rise buildings and construction sites where the height is required.

A transportation transportation portion 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811, and a boom, as a moving crane operating the apparatus with the hydraulic pressure for providing the construction machine,

It is possible to expand and contract up to 510m, and its rollover load is usually 310 ton. Its usage is used for harbor loading and unloading work, civil works,

As shown in FIG. 54, a distribution input apparatus constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector, And the derrick crane, which constitutes the displacement control and disassembly assembly of the hull position of the floating type poison (593,594,595) of medium and large sized marine nuclear hydroelectric power plant,

The derrick crane is used to put the trolley up by putting a heavy cable on the tower at both ends of the tower. The purpose of the derrick crane, which is made up of concrete or material for the dam construction,

The structure and function of the derrick crane are,

It is a machine that moves up and down the block from the lower part of the steel mast and rolls the hoist by hoist to the rope. It is used for assembly of the steel frame, foundation work, and construction of the bridge. Derek is capable of hanging loads on the material beam, has a large working radius and is easy to disassemble and unload. Movement of heavy objects. The three-angle derrick, which constitutes the steel assembly work,

It is suitable for the roof work of a narrow place or the building and does not have foundation. If it is installed on the wheel, it is easy to move, so it is used for pile hammer work, bridge construction and harbor unloading, so it can move the hull position of marine nuclear hydro- (2) A dual structure block consisting of a control tank and a disassembling / assembling tank. (2) A distributing device for the nuclear waste water treatment plant nuclear waste water treatment plant having a dust collector. (3) It is connected to the construction machines of the hull position movement control system which adjusts the hull position of the floating type poison (593, 594, 595) of the medium and large sized marine nuclear hydroelectric power plant and provides the disassembly and assembly.

As shown in FIG. 54, a distribution input apparatus constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector, And the tractor cranes constituting the displacement control and disassembly assembly of the floating type poison (593, 594, 595) of the large and large sized marine nuclear hydroelectric power plant,

The crane is mounted on the upper body of the shredder type excavator. It is wheel type and crawler type. The following outriggers maintain the safety and prevent the load on the tire to prevent wear and tear due to tire and spring load. The crane (= door crane), which constitutes the role,

The crane is equipped with a running rail on the ceiling. It is used for the production and processing of concrete beams. The fixed type is used for loading work in factories and warehouses. However, it is not used for construction works. I use it a lot.

As shown in FIG. 54, a distribution input apparatus constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector, And the chain block 648, which constitutes the displacement control and disassembly assembly of the lifting tanks (593, 594, 595) of the medium and large sized marine nuclear hydroelectric power plants,

Normally it can be lifted up to 15t o n for unloading. The safeguard of the hoisting and winding work of the crane is the brake and the limit switch.

As shown in FIG. 54, a distribution input apparatus constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector, (811c) of the construction machinery of the hull position moving construction machine of the nuclear hydroelectric power plant part (811) constituting the hull position movement control and disassembling assembly of the floating type poison (593,594,595) of the middle and large sized marine nuclear hydroelectric power plant (593,594,595) of marine small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constructed at the upper part of the SDU of the ship's body dock,

Transportation and hypothesis of large steel structures of bridges. It is used for the transportation and installation of super-large facilities, for the transportation and installation of offshore structures,

A hydraulic crane 885 and a tower crane 886 including a hydraulic crane 885 and a crane 888 having a cable crane and a clam shell attachment to a drag crane 887 and a tower crane 886, The name of each part 886a of the Giederik structure constituting the &quot;

Is connected to the boom 886d and the boom folio 886e by the turn buckle 886f and the public network 886g to the derek 886b and the main side 886c,

The triangle 886h, which constitutes the construction machines,

The main side 886i and the boom 886j comprise boom fosses 886k and lokes 886l,

In the structure 887a of the drag crane of the drag cranes 887 constituting the construction machines,

The boom cable 887h and the cable rollers 887i and 887d are connected to the hoist cable 887b and the dump cable 887c and the retro cable 887f and the cable roller 887g to the lower boom 887e, Connected to the cable drum 887k and the cable drum 887l by parallel weights 887m to the boom hoist cable 887j,

In the structure of a crane 888 having a crane cell attachment constituting construction machines,

The upper frame 888d is attached to the clamp cell bucket 888c at the holding line 888a and the opening and closing line 888b and the boom flange 888b at the rack line 888f and the rope guide 888g at the lower frame 888e. The boom hoist rope 888j and the rear drum 888l and the parallel weights 888m are connected to the front drum 888k and the bridges 888i and 888h,

For the treatment of nuclear waste at a marine nuclear hydroelectric power plant equipped with a double structure block tank dust collector which constitutes movement control and disassembly assembly of the hull position of the floating type poison (593, 594, 595) of the marine small, medium and large sized marine nuclear hydroelectric power plants (811c) of the nuclear power plant (811) consisting of the inside of the distributing and dispensing apparatus main body (1) of the nuclear reactor facility and the transportation transport section (811c) (593, 594, 595) of the marine small, medium and large sized marine nuclear hydroelectric power plants.

Referring to FIG. 55, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593, 594, 595) of a nuclear power plant, the hull position shifting construction machine equipment control unit (811a), the loader (857) showing the construction machine position control arrangement of the shift control, the forklift (858) and the dump truck (860) 860a) Straight configuration of construction machinery connection structure Road,

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector A loader 857 constituting a construction machine, a forklift 858 and a trailer 860a of a dump truck 860 are connected to the transportation transport unit 811c of the mobile construction machine, As a result,

It is a construction equipment which is called a loader and equipped with a shredding device on the front of the tractor to load gravel, sand and soil on the dump truck.

First, the standard bucket capacity is expressed in m ³ as the performance specification.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the sorting of the loader 857 constituting the construction machine in the transportation transportation part 811c of the mobile construction machine,

First, as a classification by the driving method, a crawler type loader 857a (long crawler = infinite crawler = crawler type = shovel blower) can bucket in front of the crawler tractor to perform work in a tough bog or sandy soil The wheeled loader 857b (wheel type = tire type = wheel type) is equipped with a bucket in front of a wheel-type tractor. It has excellent maneuverability in a flat work area, Easy and semi-infinite crawler type, the front and rear wheels are arranged on an infinite track,

It is equipped with tires on the other side and compensates for the disadvantages of infinite track and wheel type. The rail type loader (857c) is a device that can run on rails and loads in tunnels and underground mines.

The classification by the loading system constituting the construction machine in the transportation section 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811 is shown in the following table.

The following table shows the loading method of the loader 857 constituting the construction machine in the transportation section 811c of the hull position shifting construction machine of the nuclear hydroelectric power plant 811.

In the other furnace (857) equipment constituting the construction machine in the transportation transportation part (811c) of the hull position moving construction machine of the nuclear hydroelectric power plant (811)

As a maker of construction machinery,

It is widely used in tunnel construction, and is used to load demolished stone from the excavation works on a car.

The construction machinery consists of pagers, loaders,

The dump truck (860) is used to load the dirt, and should be operated as slowly as possible. The bucket should not be raised during no-load operation,

The rail-type slakers, which make up the construction machinery,

It is a dedicated intermediate stage to load the demolished slag in a car in the tunnel or tunnel excavation work,

In the continuous furnace constituting the construction machine,

Gathering Amroder,

It is used for various tunnels, residential land composition, limestone mining,

The screw X-cabinet constituting the construction machine,

It is used for underground excavation work of the city area, the earth and earth work in the factory or ship,

The following table shows the load calculations for the bucket wheel excavators, belts, loaders, and skid steer loaders, which are suitable for working in tunnels and tunnels.

And is connected to the transportation unit 811c of the hull position moving construction machine of the nuclear hydroelectric power plant 811 by distribution and input devices constituting the construction machine.

In the kind of the dump truck 860 constituting the construction machine,

The rear dump truck, which makes up the construction machinery,

It is the truck that loads the load by tilting the luggage compartment backward,

The side dump truck 860, which constitutes the construction machine,

It is a truck that tilts the luggage compartment to the side,

The bottom dump truck (860) constituting the construction machine can open the bottom of the jib and load down the load. It is widely used for the trailer dump truck,

The three-room open dump truck, which makes up the construction machine,

It is a truck that can load in three directions,

The calculation formula of the dump truck is shown in the table below.

Calculating the required number of trucks:

Calculate truck workload:

here,

표시하고,구 배 저항(W _g)은

상기와 같으며,구동력(W _s) 은

상기와 같았다.여기서,

In the running resistance of the dump truck 860, there is a calculation formula of the driving force for the rotational resistance and the spherical resistance, and the rotational resistance (W _r )

, And the sag resistance (W _g )

As described above, the driving force (W _s )

As described above,

Moving hull position of nuclear power plant (811) It is possible to work in narrow workplace by special dirt road truck for short-haul transportation by having a dump printer which constructs construction machine in transportation transportation part (811c) of construction machine, The locomotive is used when the transportation distance is more than 1 km as follows,

It was used for the construction of the tunnel constructions of the seawall, the size is expressed as the weight (t o n) indicating the pulling force,

The tractor and trailer 860a is a machine for transporting a tractor trailer 860a loaded with a heavy load or a bulldozer and a roller of a construction machine, and the traveling device of the tractor is a crawler type, a half crawler type, a wheel .

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector It is a machine that carries the cargo by constructing the construction machine in the traffic transportation part (811c) of the mobile construction machine, constructing the steel tower on both sides of the mountain, connecting the cable, arranging the carrier every 60 m, It is not restricted and has fewer faults and is relatively easy to carry over long distances. It is used to transport materials of aggregate and cement in dam construction,

The wagon, which makes up the construction machine,

It is a machine similar to a motor scraper, but which can not be ground by magnetic force and carries the soil from the loading machine. The tractor wagon is towed by the tractor. front. It is also called a full trailer (860a) with an axle and wheels attached to the rear end.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector (858) equipment constituting a construction machine in transportation transportation part (811c) of the mobile construction machine,

Equipment that is common to automobiles and widely used in warehouses and paddocks indoors and outdoors. This is effective for short-haul transportation and loading and unloading of hardened products. The standard display shows the capacity (in tonnes) that can be lifted (middle of 1 ton or more), and the characteristic feature is that the tilt lever installed in the cockpit The master can be tilted forward 56 ° (referred to as the front wrist), backward 10 ° 12 ° (referred to as the back wrist), with a maximum height of 4500 mm and a minimum of 3000 mm (maximum amount)

In the forklift (858) equipment constituting the construction machine,

The minimum radius (angle of inclination of 65 ° 75 ° inner wheel) is very small, the pressure of the hydraulic piston is 110130 kgf / cm ² ,

All-wheel drive,

Rear-wheel-side,

The steering apparatus of the fork lift truck 858 is provided with a rear wheel rotation type,

A master bundle installation operating with hydraulic pressure (hydraulic pressure of 70130 kgf / cm ² ) is provided,

In operation, the fork is raised 150 m from the ground,

The travel distance is less than 250m, and the front wheel is installed directly on the frame. The rear wheel does not have suspension spring, but the large one uses suspension spring.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector (858) which constitutes a construction machine in transportation transportation part (811c) of mobile construction machine, and efficient transportation distance is suitable for work within 250m. Height of fork during transportation is fork The height of 150200m m is to ride up,

The inclined land transportation means that the fork part (front part) is directed to the upper part and moves backward when the inclined point cargo is transported,

(858) installations that provide displacement control and disassembly and assembly of the hull position of the floating small, medium and large sized marine nuclear power hydroelectric power plants' lifting tanks (593, 594, 595).

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector It is mainly used for transportation of materials and concrete with conveyor (633) equipment constituting construction machine in transport transportation part (811c) of mobile construction machine. It is widely used because it is easy and economical to install,

Large conveyors, which make up construction machinery,

It is used for transportation of sand, soil, gravel, crushed stone, etc., but at the same time, it is used for conveying sand, cement and concrete. Belt conveyor is most widely used for soil, Size: tonm Potable conveyor is used for transportation and picking of sand gravel,

The special trucks that make up the construction machinery,

It is a wheel-type front-wheel drive vehicle capable of carrying out transportation in difficult conditions such as mud, sand, and unevenness. Unimodule is used for agriculture, civil engineering, snow removal, Distribution of nuclear reactor waste treatment facilities for marine nuclear hydroelectric power plants with dual structure block tank dust collectors consisting of vehicles widely used in various fields of road maintenance and hoisting consisting of construction machinery carrying heavy cargoes And connected to the reactor for treatment of nuclear waste.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector It is a compaction machine that wheels two or more smooth drum rollers with a voltage device and a roller device 863 that constitutes a construction machine in a traffic transportation section 811c of a mobile construction machine. It is the construction equipment that treads the road by the last work of the construction of the road, the bank, the airfield, and the runway.

The weight of the roller 863 is indicated by a tone in the specification of the roller 863. When the roller 863 is 815 ton in size, the weight of the roller 863 is 8t on and the additional load of the belt is 7 ton Prepare a load.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The type of the rollers 863 constituting the construction machine in the traffic transportation section 811c of the mobile construction machine is separated into a voltage type by an impact type and a pressing type vibration type.

As shown in the above table, the hull position moving construction machine of the nuclear hydroelectric power plant 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector The additional load (weight weight) of the yaw portion constituting the construction machine in the transportation transportation portion 811c is called an additional load in that when the voltage capability is small due to the weight of the roller itself, an additional load is loaded to increase the voltage capability, And more,

The additional load, which constitutes the construction machine,

Iron, water, and sand. The tire roller is provided with an injection as necessary for the water tank,

Mercadum, tandem, and tamping rollers,

Increase voltage capability by injecting additional load on wheels.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the sorting by the pressurizing system constituting the construction machine in the transportation transportation section 811c of the mobile construction machine,

Voltage type compaction machine, which constitutes a construction machine,

A load roller, a tire roller, and a tamping roller,

The impact type compaction machine which constitutes the construction machine,

Rammer, and tamper,

The vibration type compaction machine constituting the construction machine,

The vibrating roller 863a and the soil compactor 863b.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The static pressure of the rollers constituting the construction machine constituting the construction machine in the transportation transportation portion 811c of the mobile construction machine increases the road surface due to the static weight of the rollers and the application of the squirrel cage 863c It is suitable for the initial compaction of the rock (gravel) base layer, road surface, roadbed and asphalt pavement,

It is a differential gear that uses a differential gear to slow down the speed of the inner ring for smooth turning when turning a curve. It is mounted at the center of the rear axle and drives both wheels at different speeds when the curve is turned.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The use of the tandem roller 863d constituting the construction machine in the transportation transportation portion 811c of the mobile construction machine is not limited to the above-

It is suitable for compaction of clay and clay soils and is used for finishing of asphalt pavement and finishing work of asphalt pavement. The order of power transmission is in the order of engine main clutch transmission forward, reverse gear, differential gear type reduction gear rear wheel, And the two-axis tandem and the three-axis tandem are provided with a cylindrical cylinder of a flat steel cylinder and a three-axis tandem as the driving drum, and the compaction width can be widened separately from the operation of the front and rear wheels.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The use of the tamping roller 863e constituting the construction machine in the transportation transportation portion 811c of the mobile construction machine,

It is used to repair the weak soil. The tamping roller 863e is characterized in that the forced cylindrical wheel is provided with a plurality of protrusion-shaped protrusions Attach the structure and rotate to prepare the compaction.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the tire roller 863f equipment constituting the construction machine in the traffic transportation unit 811c of the mobile construction machine,

The tandem roller is equipped with a tire instead of the iron wheel, and the formula is that the traction and frequent,

For the purpose of constructing a construction machine,

The airway pressure of the tire is 1.510kg / cm ^2, and the feature is that the traveling speed is very high.

Thus, the roller by centrifugal force is used to concentrate the surface by centrifugal force on its own weight, and the vibrating roller is suitable for compaction of crushed stone, gravel, earth, asphalt and concrete by vibrating the compaction wheel by vibrating the vibrator. The weight of the equipment.

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The impact type compaction machine constituting the construction machine in the transport transportation part (811c) of the mobile construction machine is provided for chipping free fall impact, and the rammer is provided with a compaction foot on the two-stroke cycle engine body of the small internal combustion engine, After changing the explosive force of the gasoline engine to torque, it changes to the reciprocating motion of the crankshaft, and it is transmitted to the compaction board through the elastic body of the spring. It is suitable for confining the narrow space and the road,

The soil compactor 863b, which constitutes the construction machine,

A compaction machine comprising a small gasoline engine and a vibration generating device combined with a flat plate vibrator,

Compared to the weight, it has a large compaction effect, is suitable for sandy soil, and is unsuitable for viscous soil.

The equipments are the line pressure by the width (maximum butterfly) that can be made in one pass by the roller compaction width, the value of the ground weight of the wheel divided by the width of the wheel (k g / cm).

As shown in FIG. 55, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The distribution input apparatus construction machine of the nuclear reactor constituting the construction machine in the transportation transport section (811c) of the mobile construction machine,

The construction of a marine nuclear power plant with a double structure block tank dust collector equipped with a marine power plant with a control of the hull position movement of the floating type poison (593,594,595) of a small, medium and large sized marine nuclear power plant constituting the construction machinery, Dispense and Dispose of Reactor Facilities for Waste Disposal The hull position of the nuclear hydroelectric power plant (811) inside the main body (1) is transferred to the transportation section (811c) of the construction machine. It has a tavilaji (864) and solder the soil. road. It is an economical compaction stabilization method for airfield construction. It is a stable processing construction machine that can finish all kinds of work in real work at one time.

Accordingly, it is possible to precisely place the hearth and the bedrock material on the site,

(1) of a reactor installation for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, which is constructed by drilling and grinding itself by itself, (811) Construction Machinery Nuclear Power Plant Nuclear Waste Treatment Unit (811a) Movement of the hull Location of the construction equipment to the transportation section of the construction machine (811c) (593,594,595) of marine hydroelectric power plants constituting the upper tank barge hull (591) and the holding tank lower barge hull (592) of the floating tank (593,594,595) of medium and large sized marine nuclear hydroelectric power plants It is composed of distribution dispensers of the construction machine which arrange movement adjustment and disassembly assembly of hull position.

Referring to FIG. 56, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean Nuclear power plant Floating dock (593,594,595) Concrete placement plant (865) showing the construction machine position control arrangement of the hull locomotion construction machinery equipment control section (811a) movement control concrete mixer truck (868) to the concrete finisher ) Construction configuration of connecting structure of construction machine Road,

As shown in FIG. 56, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, (811a) of the construction equipment installation facility equipped with a double-tube structure block piping line control shaft (238) for the nuclear waste disposal of the nuclear hydroelectric power plant to control the production of hydro-nuclear power generation In the portion 811b,

Concrete Batching which constitutes the construction machine position control of the hull locomotion control of the marine small size, medium and large sized marine nuclear hydroelectric power station, which is composed of the marine power plant body dock, the hull deck upper part (593,594, 595) The plant 865,

The concrete hopper 865a constituting the concrete batching plant 865 and the symmetry hopper 865e and the scale frame 865f are connected to the adjusting plate 865c and the water meter 865d on the conveying apparatus charging chart 865b, 865m and 865m to the bucket elevator 865j and the transporting cam chute 865k to the overall belt conveyor 865h and the turn head 865i to the storage bin 865g and the storage bin 865g, It is equipped with a cement silo (865o) and a squeegee conveyor (865p) in a circular mixer (865n) to control the hull position of the floating type poison (593, 594,595) of small size, medium and large sized marine nuclear hydroelectric power plant And a mount for disassembling and assembling is provided,

Construction of a dual structure block tank with a construction machine mounted Marine nuclear power plant with dust collector Nuclear waste disposal facility for nuclear waste disposal The main unit (1) consists of an internal small, medium and large sized marine nuclear hydroelectric power plant (593, 594,595) Double structural block tank bridge (598) Dual structure block tank pipe bridge (928) and nuclear waste treatment double structure block tank bridge bridge (929) Double structure block tank bridge bridge (937) Waste Treatment Double Structure Block Tank Marine Tunnel Traffic System (941) Marine Nuclear Power Station with dual structure block tank dust collector with multiple distribution shafts and distribution input devices to distribute to disassembly connectable connection structure of connecting shaft Nuclear waste disposal facility of hydropower plant Nuclear waste disposal system of double reactor block tank collector.

As shown in FIG. 56, the distribution input apparatus construction machine constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

Concrete pump (869) equipment consisting of construction machinery,

It is convenient for conveying concrete in a limited space such as a bridge in a tunnel and inside of a building. The pump is a mechanical type and a liquid pressure type. It is easy to move and is not limited in installation place. Low vibration, easy to handle, easy to repair and economical, and to transport high-rise buildings and long-distance concrete.

As shown in Figure 56, a concrete pump (869) type is used for inde hydroformed expression truck loading type in a removable and mechanically is followed by program RAM expression rise building (more than 100m), and standard displays are hourly delivery capacity (m ³ / hr ), And the components of the piston type concrete pump consist of a concrete injection hopper, a suction and discharge valve, a piston, and a cylinder.

Concrete pump (869) composed of construction machine is movable and mechanically liquid pressure type and truck loading type. Diaframe type is used for high-rise building (more than 100m) and standard specification is delivery capacity per hour (m ³ / hr) The components of the displayed, piston-type concrete pump consist of a concrete injection hopper, a suction and discharge valve, a piston, and a cylinder.

As shown in Fig. 56, a concrete casting machine constituted by a construction machine is a concrete casting machine,

The concrete finishing machine (866) is a finishing machine for installing concrete in its facilities and then selecting and finishing it. The machine is first installed as an overhauling machine, and it is made by a vibrator. After finishing it moves in the transverse direction, .

As shown in Fig. 56, it is understood that the load on each part of the machine is small, the structure is simple, and the wear and noise of the machine is small, so that the concrete finisher finishes the surface of the pavement (1) of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, which is indicated by the standard width (m) In addition,

Construction of a small-sized, large-sized and large-scale offshore nuclear hydroelectric power plant consisting of the interior of the main body (1) of the nuclear reactor waste disposal facility for the nuclear waste water treatment plant of a marine nuclear power plant equipped with a dual structure block tank dust collector, (593, 594, 595) Double structural block tank bridge pier (928) of double structure block tank (598) Nuclear waste treatment dual structure block tank bridge bridge (929) and nuclear waste treatment dual structure block tank Marine tunnel transport device 941), a plurality of distribution shafts for distributing and discharging to a disconnection structure capable of disassembling and coupling the connection shafts, and a distributing and inputting device for the treatment of nuclear waste of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Nuclear waste disposal dual structure block tank dust collector is constructed to operate the nuclear power plant of the distribution facility of the reactor facility.

Referring to FIG. 57, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean Asphalt finisher 871 and asphalt spreader 872 are attached to a hearth safety device 864 showing the structure of the position control of the construction machine of the movement control device 811a of the construction machine of the hull position shifting construction machine of the nuclear power hydroelectric power plant (593,594,595) The boom 882a and the diesel pile hammer 883 in the pile driver 876 and the pile driver 882,

As shown in FIG. 57, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, (811a) of the construction machinery equipment for moving the float-type poison hull structure to the marine hydro-nuclear power generation production control section (811a) constituting the power production of the double pipe structure piping line control shaft (238) for the nuclear waste disposal of the nuclear hydroelectric power plant 811b) having a dual structure block tank dust collector, and constituting the operation of the nuclear power plant of the nuclear hydroelectric power plant which provides the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plant hydroelectric power plant Construction equipment Construction dispensing chute to configure the machine positioning machine,

A double structure of a marine nuclear hydroelectric power plant with a hull position shift control of a floating type poison (593,594,595) of a small, medium and large sized marine nuclear power plant constituting the construction machinery to the ocean. Nuclear power of marine nuclear hydroelectric power plant Dispensing Apparatus of Waste Treatment Reactor Facilities The equipment control section 811a of the floating displacement poisoning hull locating construction machine included in the nuclear hydropower generation facility section 811 constituting the inside of the main body 1 includes nuclear waste (Nuclear Waste Treatment Marine Tubular Transport System (941) as a Double Pipe Structure Block Piping Line Control Shaft (238)) and Discharging Apparatus Body of a Nuclear Waste Treatment Reactor for a Marine Nuclear Hydroelectric Power Plant Having a Double Structure Block Tank Dust Collector 1) Nuclear waste disposal reactor of Marine Nuclear Hydroelectric Power Plant having double structure block tank dust collector by distributing both sides of distribution shaft constituting inside The installation and dispensing device of the facility is provided with inserting into the double structure block tank dust collector,

In the nuclear power plant facilities of the small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants (593, 594, 595) constituting the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector,

(2) Distribution of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant with dual structure block tank dust collector The hull position of the nuclear power hydroelectric plant part (811) consisting of the main body (1) (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constructed on the upper part of the ship's deck (SDU) Which is composed of a safety device 864 and an asphalt finisher 871, an asphalt spreader 872, a perforator 876, a pile driver 882, a boom 882a and a diesel pile hammer 883, In the single plant 870 facility,

Asphalt Mixing Plant (870) An aggregate feeder consisting of a facility, a dry heating device and a mixer asphalt feeder. The movable type with a prime mover is used for airport pavilion as well as for airport and port construction. A machine for manufacturing an asphalt mixture and its equipment, and an exhaust dust collector is a device for constituting centrifugal separation by using water vapor, dust, combustion gas or dust generated from a vibration screen generated in a dryer drum,

The standard marking is expressed in terms of hourly production (ton / hr) of the asphalt mixture (ascon).

The equipment of the concrete spreader 867 constituted by the construction machine,

It is a packing machine that evenly distributes the raw concrete sprayed on the pavement board. It is used to transport concrete from a truck mixer or a dump truck while riding in front of a concrete finisher,

It is indicated by the standard width (m)

The types of asphalt pavers are classified into screw type and box type,

Distribution of reactor facilities for nuclear waste disposal of marine nuclear hydroelectric plants with asphalt mixing plant (870), asphalt finisher (871) and asphalt spreader (872), asphalt cover and asphalt spray, (SDU) of a marine power plant body dock hull deck upper part (SDU) to a nuclear power generation nuclear waste disposal unit (811a) of a nuclear hydroelectric power plant unit (811) and a transportation transportation unit (811c) (593,594,595) of the marine small, medium and large sized marine nuclear hydroelectric power plants, which are composed of the construction machinery of the hull locomotion control.

In this type, weighing and mixing method are formed by batch method and continuous method, and the installation method is a half type,

Electronically and semiautomatically, manual use is asphalt heating for aggregate drying and asphalt mixing. Composition is composed of feed hoist, aggregate drying device, exhaust dust collector, hot elevator, vibrating screen, mixer and asphalt casting weighing devices. .

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

In the asphalt finisher (871) equipment constructed by the construction machine,

Asphalt mixing plant is boiling more than 160 ° g of asphalt mixture to form aggregate of aggregate on road. It is used for asphalt pavement in airport runway and highway asphalt pavement, The standard marking is indicated by the maximum packing width (m) and the packing capacity (ton / hr), and the screed, which constitutes the mechanism of the asphalt finisher 871,

It is a plate that smoothens the mixed material sprayed on the road surface,

Ribbing hopper, which consists of construction machine,

It is a container for storing the mixed material (asphalt) carried by the dump truck with the hopper of 5 tons or more installed in front of the equipment,

The construction of the construction machine,

It is installed on the hopper floor and sends the mixing material to the spading screw,

The bumpers are installed on the front of the screed and work to increase the packing surface to the thickness required of the mixed material sprayed on the road surface.

In the asphalt firing equipment (872) consisting of construction machinery,

Equipment to boil asphalt and sprinkle it on the road surface for the first time. In other words, it is a sprayer that blows asphalt on the road surface. The type is self-contained, gear pump type, solution pressurized type and mounted type, and the specification mark is expressed by maximum spraying butterfly (m) and tank capacity (m ³ ).

The asphalt cover is a construction equipment for high speed road, which continuously mixes the asphalt mixture. The asphalt spray is the equipment to heat and dissolve the asphalt, asphalt emulsion and tar by the oil burner and pressurize the road surface.

It is a device that performs various work while gas is running on the hearth, and mixes and mixes the surface by adding and mixing water. It is a device to tighten and harden the surface. The standard display is expressed by the capacity (m ³ ) of the fluid tank. The efficiency of the sprayer was good, and it is easy to adjust the depth of digging the ground.

The diesel pile hammers (883), which classify the anti-tar and anti-aircraft (877)

The two-cycle diesel engine is equipped with an explosive force to constitute the anti-hammers, which is twice as fast as the vibration hammers and steam hammers of the same size. This method is a method of spraying when the ram is raised by the starter, When the device is actuated and fuel is injected into the concave surface of Annville, the explosive force of the ram and the striking force of the ram are transmitted to the pile, and the ram jumps back up by the repulsive force. Exhaustion and inhalation are also performed, and the falling, blowing, and explosion are repeated, so continuous operation is possible.

Its structure consists of a ram that moves up and down the cylinder in the cylinder, an anvil inserted in the lower part of the cylinder, a fuel pump and a fuel injector, and a cylinder-cooling water tank device.

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

A starter 903 is attached to a lead 896 on the left side of the diesel pile hammer 883 constructed by a construction machine and a ram 895 is fixed to a lower portion of the cylinder 126 at a right upper portion of the starter 903, A fuel pump 900 is disposed below the cam 901 in the fuel tank 902 and a helmet 899 is formed below the pump 900. A file 899 is attached to the lower surface of the helmet 899 The file operation proceeds.

Its standard marking is to indicate the weight of the ram (t o n), which is used for stamping wood, concrete and steel pipe files and its characteristics are shown in the table below

The outline of the column hammer (= column pile hammer) is a machine that sends steam or compressed air into the cylinder and continuously repeats the upward and downward movement of the piston to put the column by the ram at the bottom of the piston rod,

In the type of column hammer composed of construction machine,

The outline of the steam hammer is as follows: the machine is operated by using the expansion energy of the steam to turn the piston. The standard mark is expressed by the piston weight (ton)

It is characterized by its complicated structure, difficult maintenance and maintenance, and high maintenance cost. It is used for putting piles in hard and denser soil. It is guided to lead (lad) There is an expression.

The outline of the vibration hammer is subjected to anti-ratting or drawing by the vibration force, and the frequency is more than 500 times per minute. The specification mark is indicated by the output (k W) and the excitation force of the motor. It was suitable to reduce the equipment cost and operation cost when the same conditions were used for a small amount of installation in a remote place among the machines for basic use.

The advantages and disadvantages of the construction equipment of this construction machine are as follows.

The first advantage was that the operation of the hammer was simple, and the equipment was small in size, so that the cost was low, and the adjustment of the drop height made it possible to increase the striking energy.

Second, the disadvantage was that the piling of files was slow and there was a danger of damaging the files, and it was easy to damage the surrounding buildings due to vibration during work and it was impossible to work underwater.

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

The upper portion of the lead 896 of the file driver 882 body is constituted by an adapter 906 and a wire rope 19 on the front boom 904 and a crane boom 651 on the rear side of the crane. 905 was attached.

The file driver 882, constituted by the construction machine,

After loading on the upper deck deck of the barge hull (591), fix the equipment in deck deck working position and perform the file (898) operation.

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

Diesel hammer composed of construction machine, steam hammers and drop hammers on vibration hammers are collectively referred to as drop hammers or diesel hammers when laying files, and the equipment is installed on the crane boom. Refer to the table below .

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

The file 898, composed of the construction machine,

A separate carpile 898 for fixing is attached to the lower base post of the deep sea so that the concrete pier can be easily installed on the bottom of the seabed with the saddle formwork 617 for the pier.

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

The air compressor 875, which is composed of a construction machine,

Compressed air is sucked and compressed by atmospheric air to make high pressure, and it is used for various purposes in various construction work. It is composed of driving device, compression device and other accessories.

Here, the drive device is a gasoline or diesel engine that supplies the power for operating the compressor. In addition, the volume construction type compressors were mainly used for construction,

For this purpose, quarrying works are carried out using drill rigs,

Split operation,

The clay excavation is to excavate hard rocks on the hard clay obtained from the ground, and to destroy the concrete and asphalt with the brakes.

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

Painting work on concrete vibration and logging, tire inflation and equipment cleaning, and construction air compressors.

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

Compressors in this category are divided into two types: reciprocating type piston type vane type compressors and rotor type compressors. Screw type compressors and centrifugal type turbo type compressors are used. And the semi-system can be used while simply moving the compressor.

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

Air Cleaner Low Pressure Cylinder Intermediate Cooler High Pressure Cylinder Air Tank The standard indication is the amount of air discharged per minute (m ³ / min), expressed as the actual air volume, 210 cfm is the output of 210 cubic feet per minute compressed air (ft ³ / min), and the components of the air compressor are composed of a piston, a cylinder, and a pressure regulating valve for suction and exhaust valves.

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

The function (role) of the main part of it is explained as the following table.

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

A detailed description of the puncturer 876 equivalent to a rock drill is described as follows.

The perforator 876 constituted by the construction machine is a machine for punching a rock or a ground, and is operated by an air compressor or hydraulic pressure. The impact type is excavated by the impact energy of the blade, and the excavation speed is fast but its depth is low .

Mostly compressed air is used, and this shocked rod is operated by this compressed air, and the rock is crushed by the impact force. The structure is simple, easy to handle, and compressed air is easy to use, And the excavation speed is slow or deep.

In the standard specification, the big roller type shows the weight of the rock drill and the air consumption per minute (m ³ / min), and the jumbo type of crusher is expressed by the number of roll rolls and the number of rock drums (end) k W) and the tunnel excavator is indicated by the maximum excavation dimension (mm).

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

In its kind, sinker is the latest type of rock drill with soundproofing, suitable for hole drilling in rock, various swing cuts, and semi-downward operation of the tunnel. In other words, it is a small-sized machine that can be operated by manpower, operates by the force of air, and transmits the force to the rod by the up and down operation of the piston,

The drifter, which consists of a construction machine,

It is a powerful perforator that is suitable for punching large holes in excavation work, quarrying work and dam excavation.

By means of a manual or automatic conveying device, a suitable pressure is applied to the bit to drill,

In a feed device composed of a construction machine,

It is a chain type and a screw type, and the stopper is a machine that punches from the horizontal to the sky and is suitable for cutting vertical gang up.

Brakes, which consist of construction machinery,

It is used for the crushing of concrete roads, building and strong foundation, and has strong crushing power with low consumption of air.

It is mainly used by attaching to the hydraulic backhoe excavator,

Rock crackers, which consist of construction machinery,

It is a device that crushes rock and concrete with hydraulic pressure in places where gunpowder can not be used.

As such, the hand hammer is effective for narrowing and secondary crushing operations, and is easy to use because it is soundproofed. It is also called a jack hammer. It is a small type of rock drill that is movable and maneuverable by manpower. It is mainly used to drill holes downward.

As shown in FIG. 57, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

The main part of the distribution system of reactor equipment for nuclear waste disposal of marine nuclear hydroelectric power plant equipped with dual structural block tank dust collector with drill drill and crawler drill, 1) The hull position of the nuclear hydroelectric power plant part (811), which is composed of the internal structure control part of the construction machinery (811a), the body dock of the marine power plant The small, medium and large sized marine nuclear hydroelectric power plant A puncher 876 and a pile driver 882 on an asphalt finisher 871 and an asphalt spreader 872 on a hearth safety device 864 showing a construction machine position adjustment arrangement of a hull position shifting control of lifting tanks 593, 594, A boom 882a and a diesel pile hammer 883 A plurality of construction machine connection structures are installed in the distribution structure of a reactor plant for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector A hull position moving construction machine control unit 811a of a nuclear power hydroelectric power plant 811 constituting the inside of the apparatus main body 1 is provided with distribution dispensers of a construction machine connected to the upper part SDU of a marine power plant body dock Dispensing devices of nuclear reactor facilities for nuclear waste disposal are composed.

Referring to FIG. 58, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydroelectric power plant (593,594,595) Hull position moving construction equipment control unit (811a) Supporting system of small, medium and large scale marine nuclear power plant showing control structure of construction machinery for movement control (593,594,595) (879a) and bucket dredger (879b) of the dredger (879) showing the construction machine position adjustment arrangement of the hull locomotion of the hull,

As shown in FIG. 58, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, (811a) of the construction machinery and the double tube structure block piping line control shaft (238) of the nuclear waste disposal of the nuclear hydroelectric power plant, the marine nuclear hydroelectric power production control section 811b,

Marine Power Plant Dock The hydroelectric power plant of the small size, medium size, large size floating hydroelectric power plant floating structure (593,594,595) that constitute the upper part of the deck of the ship (SDU) ,

(593,594,595) of small size, medium and large sized marine nuclear hydroelectric power plants that make up the construction machinery to the marine. Distribution structure of the hull position movement of the marine nuclear power hydroelectric power plant with double structure block tank dust collector Of the nuclear power generation nuclear waste processing unit 811a included in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor of the present invention, ) Nuclear waste disposal Nuclear waste water treatment plant nuclear waste disposal facility connected to maritime tunnel transport device (941) Distribution distributing device Both sides of distributing shaft constituting inside of main body (1) are distributed and double structure block tank dust collector Equipped with the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant and do not insert into the dual structure block tank dust collector However,

In the nuclear hydroelectric plant facilities of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants (593, 594, 595) constituting the distribution input device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric plant equipped with dual structure block tank-

The dredger (879), which constitutes the nuclear hydroelectric plant facility,

The flow is returned to the blast tank 879g and the blast pump 879h to the return sheath 879e and the spade 879f in the spad shear 879c and the cab or control chamber 879d, 879i and an engine room 879j are provided in the bucket drive device 879m and the rear spots 879n constituting the dreder dredger 879k and the grab dredger 879l and the spoof winch 879o and the bucket driving device 879b, A plurality of construction machine connections 879b constituting the belt conveyor 879u and the gravure 879v to the winch 879s and the anchor storage 879t to the dipper 879r and the front spots 879q to the left and right spools 879p, Structure of a nuclear power plant with dual structure block tank dust collector for the nuclear waste disposal of a nuclear waste hydroelectric power plant Construction of a nuclear power hydroelectric power plant (811) consisting of the interior of the main body (1) 811a, the crude oil dredging drilling machine 908 connected to the upper portion SDU of the marine power plant dock hull deck, A wire rope chain 915 and a double structure pipeline line automatic pneumatic pressurization system 911 are installed on the percolating pipe 911 and the periscope 913 and the rubber balloon 914 to the submarine mineral intake and collecting machine 911 and the submarine mineral collection robot 912, Valve transport system (916) and Koa drill (917) Distribution machine of construction machine Construction machinery connection structure to construct the collection of submarine mineral manganese block (909).

As shown in Fig. 58, in the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

Conventional dredgers constituting a construction machine,

It is the equipment that works for digging the soil in the water. Thank you. In order to increase the water depth of rivers and waterways and to maintain water depth, we work on landfilling of shared water surface and basic construction of shaft construction such as rock wall and breakwater. Classification of dredger is divided into classification by type and ability, In this case,

The construction of the pump,

It is non-self-limiting to the rated output of the drive engine,

The construction of buckets for construction machinery,

It is non-self-limiting to the rated output of the main engine,

The construction of the construction machine,

It is non-self-limiting with bucket capacity (m ³ )

The grab system constituting the construction machine,

It is non-self-explanatory with the flat capacity (m ³ ) of the grab bucket.

As shown in FIG. 58, a distribution input apparatus construction machine constituted inside the distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

The pump dredging line (879a), which is divided into electric and diesel type steam turbine type and gas turbine type, which constitutes the structure and use of the dredger,

The construction and use of the dredgers that make up the construction machinery,

If it is difficult to install the delivery pipe or if the delivery distance is long, it is equipped with a low-head pump line to transport the soil to the tow line or to equip it with the soil and water,

The working range of the hull moving range is from 70 ° to 90 °, and the standard mark is indicated by the rated output (P S) of the drive engine.

As shown in Fig. 58, in the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

The construction and use of the bucket dredger 879b, which constitutes the construction machine,

The soil is dredged with dredged soil by using a bucket conveyor in continuous submersible sand dredging. The dredged soil is transported by a toe line and used for the dredging of large-scale passageways and anchorage. The types are continuous and intermittent. The standard marking is indicated by the continuous rated output (PS) of the main engine. The characteristics of the dredger (879b) are shown in the table below.

As shown in Fig. 58, in the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

The structure and use of the dredger dredger 879c, which constitutes the construction machine,

It is used for dredging strong and hard ground or broken rock. The standard indication is indicated by bucket capacity (m ³ ) and its characteristics are explained as below table.

The collection of the submarine mineral manganese unit (909)

A hull position moving construction machine control unit 811a of a nuclear hydropower generation facility 811 constituting a distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, (908) and submarine mineral deposit net (910) connected to the upper part (SDU) of the body of the offshore power plant dock hull by the transportation section (811c) A wire rope chain 915 and a dual structure pipeline automatic pneumatic valve transport device 916 and a core drill 917 are attached to the periscope 913 and the rubber balloon 914 in the submarine mineral extraction robot 911 and the submarine mineral collection robot 912, ) Distribution machine of construction machine It is equipped with connection structure of construction machinery and it is configured to collect submarine mineral manganese block (909).

Referring to FIG. 59, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for processing marine nuclear hydroelectric power plants. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydroelectric power plant lifting dock (593,594,595) Pump docking line 879a and bucket dredging line 879b of dredger 879, showing the arrangement of the construction machine position control of the mooring control equipment 811a, Dredger (879l) Construction of the connecting structure of construction machinery Road,

As shown in FIG. 59, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, (811a) of the construction machinery installation facility for moving the float-type poison hull is to provide the power production of the hydro-nuclear power generation plant (238), which shows the construction of the double pipe structure piping line control shaft (238) The control unit 811b includes an elementary marine power plant dock hull deck which shows the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor facility of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector. The hydro-hydraulic foot of the small-sized, medium-sized, and large-sized marine hydro-power plant lifting dock (593,594,595) constituting the upper part (SDU) All Equipment Construction Equipment Positioning and Distribution Equipment Construction Equipment,

59, as shown in FIG. 59, a distribution input device of a reactor facility for the treatment of nuclear waste composed of the inside of the main body 1 of the distribution input apparatus of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector The machine,

For the treatment of nuclear waste of a marine nuclear hydroelectric power plant equipped with double structure block tank dredger for controlling the displacement of hull of floating type poison (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constituting distribution equipment Double structure block tank constituting distributing device of nuclear reactor facility Nuclear power plant division (811) consisting of inside of main body (1) of nuclear reactor facility for nuclear waste disposal of marine nuclear hydroelectric power plant equipped with dust collector Nuclear power generation nuclear Disposal of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the nuclear waste disposal marine tunnel traffic apparatus (941) and the double structure block tank dust collector which is the control shaft of the nuclear plant facility of the waste disposal unit (811a) (1) Distribution of both sides of the distribution shaft constituting the inner part of the tank, The installation and disposal of the reactor installation for nuclear waste disposal of the firing plant is inserted into the double structure block tank dust collector,

As shown in FIG. 59, in the case of a small, medium and large sized marine nuclear hydroelectric power plant constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a double structure block tank dust collector In the nuclear hydroelectric plant facilities of the supportive poison (593, 594, 595)

The structure and use of the grab dredger 879d, which is constituted by the distribution dispensing apparatus of the nuclear reactor,

This equipment is used to dredge small ships or anchorage by using a special crane equipped with a clam shell on the ship. The standard marking is indicated by the grab bucket flat capacity (m ³ ) As shown in the table,

As shown in FIG. 59, a construction machine constructed inside the main body 1 of the nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

(593,594,595) of small size, medium and large sized marine nuclear hydroelectric power plants of the ocean composed of distributing and inputting equipment of the nuclear reactor facilities, and hull position transfer construction and construction unit 811c of nuclear power hydroelectric power plant 811 The structure and use of the grab dredger (879l), which constitutes the construction machine position control of the hull locomotion control of the marine power plant body dock top deck (SDU)

This equipment is used to dredge small ships or anchorage by using a special crane equipped with a clam shell on the ship. The standard marking is indicated by the grab bucket flat capacity (m ³ ) As shown in the table,

As shown in FIG. 59, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

The collection of the submarine mineral manganese unit (909)

A plurality of construction machine connection structures are installed in the main body (1) of the distributing device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, the small, medium and large sized marine nuclear hydroelectric power plants (593, 594,595) Location of the hull of the nuclear power plant (811) Construction machinery control section (811a) Marine power plant body dock The crude drilling machine (908) connected to the upper deck (SDU) And a wire rope chain 915 to a periscope 913 and a rubber balloon 914 to a submarine mineral collecting robot 912 and a submarine mineral collecting robot 911 to a submarine mineral deposit net 910 and a double structure pipeline line automatic ball (916) and the Koa Drill (917) construction machines. It is composed of the construction machinery connection structures to construct the seabed mineralized manganese block (909).

As shown in FIG. 59, in a distribution input apparatus construction machine constituted inside the distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

The structure and use of the grab dredger 879d, which is constituted by the distribution dispensing apparatus of the nuclear reactor,

This equipment is used to dredge small ships or anchorage by using a special crane equipped with a clam shell on the ship. The standard mark is expressed as grab bucket capacity (m ³ ) As shown in the table,

As shown in FIG. 59, in a distribution input apparatus construction machine constituted inside the distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

A nuclear power plant equipped with a double structure block tank dust collector constituted by a distribution input device of a nuclear reactor facility,

(2) Distribution of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant with dual structure block tank dust collector The hull position of the nuclear power hydroelectric plant part (811) consisting of the main body (1) (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's deck (SDU)

The structure and use of the grab dredger 879l constituting the construction machine of the hull position movement control,

This equipment is used to dredge small ships or anchorage by using a special crane equipped with a clam shell on the ship. The standard marking is indicated by the grab bucket flat capacity (m ³ ) As shown in the table,

As shown in FIG. 59, the distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

The collection of the submarine mineral manganese unit (909)

A hull position moving construction machine control unit 811a of a nuclear hydropower generation facility 811 constituting a distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, The submarine mineral intake sampling machine 911 and the submarine mineral collection robot 912 are connected to the periscope mining net 910 and the submarine mineral deposit net 910 connected to the crude oil dredging drilling machine 908 connected to the upper portion SDU of the marine power plant body dock hull deck (913) and rubber balloon (914) with wire rope chain (915) and dual structure piping line automatic pneumatic valve transport device (916) and coarrhee (917) distribution machine of construction machine. (909) of seabed mineralogy manganese monoliths.

Nuclear power plant (811) consisting of inside of main body (1) of distributing apparatus for nuclear waste treatment of marine nuclear hydroelectric plant equipped with a double structure block tank dust collector of plural construction machinery connection structure Nuclear waste Both sides of the distribution shaft constituted by the processing unit 811a and the transportation transportation unit 811c of the hull position moving construction machine are allocated to be inserted into the nuclear power plant facility and the reactor facility,

A hull position moving construction machine control unit 811a of a nuclear hydropower generation facility 811 constituting a distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, The submarine mineral intake sampling machine 911 and the submarine mineral collection robot 912 are connected to the periscope mining net 910 and the drilling machine 908 and the submarine mineral deposit net 910 connected to the upper part of the hull deck (SDU) 913) and a rubber balloon 914 with a wire rope chain 915 and a double structure pipeline automatic pneumatic valve transport device 916 and a coarrhee 917 construction machine dispensing device construction machine connection structures A double structure block of a hull locomotion control system for small-sized, medium-sized and large-scale offshore hydroelectric power plants (593,594,595) in the offshore area. Nuclear waste disposal reactor for marine nuclear hydroelectric power plants with tank- (811) Nuclear power plant (811) consisting of the inside of the main body (1) of the distribution system of nuclear reactor waste disposal facility for marine nuclear hydroelectric power plant equipped with double structure block tank dust collector constituting the distribution apparatus of nuclear power plant Moving the hull of the waste treatment unit (811a) Moving the hull Nuclear waste treatment, which is the control shaft of the nuclear power plant facility Double structure block connected to the marine tunnel transportation device (941) Distribution of nuclear reactor waste treatment equipment for marine nuclear power plant with dust collector Both sides of the distribution shaft constituting the inside of the apparatus main body 1 are distributed and the distribution input device of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector is inserted into the double structure block tank dust collector ,

(593,594,595) of nuclear, hydro and hydro power plants of small, medium and large sized marine nuclear power plants constituting the distribution input device of the nuclear waste disposal facility of the marine nuclear power hydroelectric power plant having dual structure block tank dust collector. (909) of the seabed mineralogy manganese block (909) with the distribution input device of the treatment reactor facility.

Referring to FIG. 60, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear hydroelectric power plant (593,594,595) Hull position shifting Construction machinery equipment control unit (811a) Movement control construction machine Position control structure crusher (874)

As shown in FIG. 60, in the nuclear hydropower generation facility unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (811a) of the construction equipment of the floating-type docking hull is connected to the control unit (811b) of the marine hydro-nuclear power generation control unit (238) constituting the double-pipe structure block pipe line control shaft 238 for the nuclear waste disposal of the nuclear hydroelectric power plant A small, medium and large sized nuclear power plant consisting of a nuclear power plant operating at the upper end of a ship's deck (SDU) of a marine power plant, which provides a distribution input device for a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank- Hydraulic power plant of hull position movement control of marine hydroelectric power plant lifting type poison (593, 594, 595)

(1) Inside of the distribution system of the nuclear reactor for the treatment of the nuclear waste constituting the control of hull position of the floating type poison (593,594,595) of the small, medium and large sized marine nuclear hydroelectric power plants constituting the distribution machinery, (811) Moving hull of nuclear power nuclear waste treatment unit (811a) Nuclear waste treatment, which is a control shaft of nuclear power plant facility Discharging input device of nuclear nuclear waste disposal facility (941) and nuclear waste treatment facility A distributing and inputting device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant provided with a double structure block tank dust collector is arranged to be inserted into a dual structure block tank dust collector by distributing both sides of a distribution shaft constituting the inside of the main body 1,

As shown in FIG. 60, in the nuclear hydropower generation facility unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, Nuclear power plant facilities composed of small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plants (593,594,595)

(2) Distribution of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector The transportation of the hull locating construction machine included in the nuclear hydroelectric power plant unit (811) (813c) to the upper part of the ship's body dock (SDU) of the offshore power plant. The construction equipment position control crusher (874) for controlling the hull position movement of the marine small, medium and large scale offshore nuclear power hydroelectric power plant (593,594,595) ) The crusher 874, which constitutes the connecting structure,

The primary drum crusher 874e of the crushing head 874a constituting the construction machine crusher 874 and the feeder hopper 874c and the vibration grease reporter 874d are attached to the chassis frame 874b, And a crushing machine 874 as a connection structure of a vibration screen 874g and a drum elevator 874h in a secondary tubular crusher 874f located at the rear of the crushing chamber and for crushing the aggregate base layer in road and concrete construction .

As shown in FIG. 60, in the nuclear hydropower generation facility unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, Distribution Apparatus for Nuclear Waste Treatment Dispensing Apparatus for the Construction of Dispensing Apparatus Main Unit (1)

It is used in all crushing works and it is used mainly for the production of aggregate. It is a future machine for mining ore mining, and the first stage is a screening process. do.

Thus, the types of crushers are separated into primary, secondary, and tertiary crushers. Explanations of the respective parts of the primary crusher will be described as follows.

As shown in FIG. 60, in the nuclear hydropower generation facility unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, A distribution dispenser construction machine constituted by the inside of the main body (1)

The jaw crusher, which consists of construction machinery,

As a machine to be crushed by compressive force, the rocks are inserted between the jaws on both sides, and one side is fixed and the other side is operated, and the stone is crushed by the price pressure at this time, In the discharge direction.

The construction (J a w) composed of such a construction machine is,

It is made of a structure that can crush any hard rock pomegranate with powerful force.

As shown in FIG. 60, in the nuclear hydropower generation facility unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, Distribution Apparatus for Nuclear Waste Treatment Dispensing Apparatus for the Construction of Dispensing Apparatus Main Unit (1)

The construction of Zaireritorushoru construction machine,

It is made of cast iron or steel and consists of a lower frame eccentric shaft and a drive gear.

In the crushing section,

The crusher is a crusher which has a crushing head part of a steel shaft on a pivoting mandrel axis and is first crushed while rotating and then discharged to the bottom of the crushing chamber.

The construction of the crusher,

Compared with the Jaw crusher, it has less vibration and continuous crushing. It has the upper part of the machine as the discharge port and the lower part as the discharge port, so that the grit input hopper can be installed and loaded in the dump truck There are advantages.

The hammer crusher of the impaction crusher is equipped with a large number of discs on one rotating shaft and hung on a hinge of a rectangular shape around the rotating hammer to rapidly rotate the hammer crusher. It is crushed by the striking force of.

As shown in FIG. 60, in the nuclear hydropower generation facility unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, Distribution Apparatus for Nuclear Waste Treatment Dispensing Apparatus for the Construction of Dispensing Apparatus Main Unit (1)

The concrete crusher of the second crusher, which consists of a construction machine,

An umbrella shape is placed on a short vertical spindle, and a mantle head is put on it. The eccentric motion of the spindle causes a stone to bounce between the curved ball and the falling stone.

This structure is somewhat complicated because it is crushed by the impact action, and there is almost no slip (S l i p) in which the crushed stone flows down as it is, and the crushing ratio is relatively large. Impact force and compressive force are used.

Compared to the Zyeterotorizer, the cone is short, the dimension of the supply port is small, and the size of the outlet gap is the largest, so that it is possible to produce the standard product with the crushed stone.

It is suitable for mass production of certain aged aggregate. In the hammer mill crusher's double roll crusher,

The two hard rolls are fixed on separate horizontal shafts and the spacing can be adjusted freely. The rolls are arranged in parallel, but the rolls are rotated in opposite directions so that the rocks are held between them, And is crushed. This roll has the main function of compression crushing and discharging and is widely used in the production of packing aggregate.

As shown in FIG. 60, in the nuclear hydropower generation facility unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, Distribution Apparatus for Nuclear Waste Treatment Dispensing Apparatus for the Construction of Dispensing Apparatus Main Unit (1)

The rod mill of the tertiary crusher 874 constituted by the construction machine,

It was to produce fine aggregate of 5m or less,

The ball mill, which consists of construction machinery,

As a machine for producing crushed stones as fine aggregates, a rod of a short circular rod is put into a forced round drum,

In this case, fine aggregate is continuously supplied with water, and the drum is rotated to be pulverized and then discharged. The granules are relatively homogeneous. When the water is small, it is finely crushed. When the water is small, Big. Wheat with water is wet, and dry without water is generally wet.

As shown in FIG. 60, in the nuclear hydropower generation facility unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, Distribution Apparatus for Nuclear Waste Treatment Dispensing Apparatus for the Construction of Dispensing Apparatus Main Unit (1)

The ball mill, which consists of construction machinery,

Instead of a rod mill rod, the steel balls are put in a cylinder and rotated to obtain a new aggregate.

Its standard indication is to display the crushing capacity per hour in tonnes (TPH).

As described above, a crusher is used as a machine for crushing and reducing crushed stones, and is used for all crushing operations. It is mainly used for aggregate production. The power source 46 of the engine generator 226 serves as a marine tunnel transport device 941 ) Of nuclear power plants with a double structure block tank dust collector, which can be used for a limited period of time before completion of the nuclear power plant (1) The crude oil locating drilling machine 908 connected to the upper portion SDU of the marine power plant body dock hull deck is connected to the transportation transport portion 811c of the hull locating and construction machine of the hydroelectric power plant 811 and the submarine mineral deposit net 910 The wire rope chain 915 is connected to the periscope 913 and the rubber balloon 914 in the seabed mineral intake sampling machine 911 and the submarine mineral collection robot 912 and the double structure pipeline automatic pneumatic And consists of a probe transport system (916) and co-ah Drills (917) Construction Machinery Construction Machinery Distribution chute connected to the structure of the seabed manganese minerals only to gather masses 909 to create smaller machines come to break the stones of

The rod mill of the crusher 874, constituted by the construction machine,

Since the ball mill produces less than 5m of aggregate, the ball mill and the ball mill are machines for producing recycled aggregate as aggregate. The new aggregate crushed stone is used as a connection structure of the nuclear waste for nuclear power generation (811) It is structured to form a nuclear reactor furnace facility of a nuclear power plant having a structural block tank reactor dust collector.

Its standard indication is to display the crushing capacity per hour in tonnes (TPH).

As shown in FIG. 60, in the nuclear hydropower generation facility unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, A marine tunnel transmission device 941 which is composed of power sources 46 of an engine generator 226 used for all crushing operations and has a function of generating and supplying crushed stone as a machine for crushing and reducing gemstones, , And is configured to be used for a limited period of time before completion of the process,

A hull position of a nuclear power plant 811 constituting the inside of the main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a plurality of construction machine connection structures and having a dual structural block tank dust collector, A submarine mineral intake sampling machine 911 and a submarine mineral intake collecting machine 911 are connected to an oil drilling machine 908 and a submarine mineral deposit net 910 connected to an upper portion SDU of a body of a marine power plant dock, A wire rope chain 915 and a dual structure pipeline automatic pneumatic valve transport device 916 and a coarrhee 917 construction machine on the periscope 913 and the rubber balloon 914 are installed on the undersea mining robot 912 (909) As a machine for crushing and reducing raw stones, rod mill of crusher (874) is a machine for producing fine aggregate of less than 5m,

As shown in FIG. 60, in the nuclear hydropower generation facility unit 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, Rod mill and ball mill are machines for producing crushed stones as fine aggregates and are composed of distributing units of reactor facilities for nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector to form a new aggregate crush stone have.

Referring to FIG. 61, a nuclear hydroelectric power plant 811 having a dual structural block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for processing marine nuclear hydroelectric power plants. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydroelectric power plant lifting dock (593,594,595) Hull position shifting construction machine equipment control unit (811a) Movement control construction machine Positioning control structure of the existing cylinder (126) and plunger pump (148) The runner pump (148b) and the radial planer pump (148c)

As shown in FIG. 61, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (811a) of the construction equipment of the buoyant type poison hull is connected to the control unit (811b) of the marine nuclear hydroelectric power generation control unit (238) constituting the double pipe structure piping line control shaft 238 for the nuclear waste disposal of the nuclear hydroelectric power plant Dual structural block An elemental marine nuclear hydroelectric power station constituting the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant with the dust collector. The small, medium and large sized marine nuclear power plant constructed at the upper part of the deck of the ship hull deck (SDU) For the control of hull position movement of hydroelectric power station lifting tanks (593,594,595) and the treatment of nuclear waste constituting control of position of construction machinery of nuclear hydroelectric power plant As is the distribution chute of the plant,

A double structure block tank dust collector constituting a reactor facility of a marine nuclear hydroelectric power plant with a hull position control of a floating type poison (593,594,595) of a small, medium and large sized marine nuclear hydroelectric power plant constituted by a distribution input apparatus of a nuclear reactor facility Nuclear Hydroelectric Power Plant (811) consisting of the inside of the main body (1) of the distribution apparatus for the nuclear waste disposal of marine nuclear hydroelectric power plants (811) Moving the hull position of the nuclear waste disposal section (811a) Waste Treatment Both sides of the distribution shaft constituting the distribution input apparatus main body (1) of the nuclear reactor waste disposal nuclear reactor plant equipped with the marine tunnel transportation apparatus (941) and the double structure block tank dust collector are distributed, The distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a tank dust collector is divided into a dual structure block Arrange inserted into the large dust collector, and

Cylinders used for construction vehicles or conveying machines of the state of the art, equipped with nuclear power plant facilities of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants (593,594,595) constituting the dispensing apparatus of nuclear reactor waste treatment facility (Not shown)

A high-pressure pump in front of the cylinder 126 constituting each seal 156, a crank 248 connected to the high-pressure hose 190, the coupling ring 29, and valve devices, and the crank 248, (1) of the reactor installation for the nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector assembled in a link stand (249) (811) to the transport unit (811c) of the construction machinery. The docking station of the marine small-sized and large-scale marine nuclear hydroelectric power station (593,594, 595 ) Of the hull,

The cylinder and the piston constituting the hydraulic cylinder 623 body, which includes the construction machine connecting structure of the disassembly coupling of the previous cylinder 126 as the heavy construction machines,

The load ring piston 822 constituting the hydraulic cylinder 623 and the slide ring 826 and the di bushing 827 to the bush seal 824 and the wed ring 825 to the piston seal 823 A backup seal 830 is provided on the O-ring 828 and the load seal 829 and a multistage seal 834 is formed on the multistage seal 832 and the multistage seal 833 on the load and back seal 831, And a piston ring 836 and a piston ring 837 are provided on the periphery of the piston 127 and the inside of the cylinder 126 so that the high pressure valve and the low pressure valves of the hydraulic pump, And the hydraulic hoses are connected to each other by electric motor, hydraulic tank and hydraulic hoses to provide water storage tanks for treating nuclear waste and marine tunnel traffic equipment, and construction equipment for marine hydroelectric dam facilities. The nuclear waste disposal system for nuclear power generation, the double structure block tank nuclear power plant equipped with the reactor dust collector, Configuring the hydraulic cylinder 623, the body constituting a cow cooling gas into the reactor equipment main body 1, and

The cylinder body includes a high pressure pipe 14, a reed 35, an elbow seat 44, and a flange 28, which are separated from each other by a hydraulic pump so as to be re- At the same time as configuring the coupling to the hydraulic safety valve 474 and the hydraulic hose 190, the coupling 29 constitutes male and female threads.

As shown in Fig. 61, in a hydraulic machine for distribution dispenser equipment constituted inside the dispensing apparatus main body 1 of a nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

With respect to the definition of hydraulic pressure, the hydraulic pressure is the mechanical energy that is converted into the pressure energy of the fluid by the hydraulic pump using the power and stored in the hydraulic oil. The pressure is controlled by the control valve, the flow rate The advantage of hydraulic pressure, which means an apparatus or a system for converting three basic control elements of switching (direction control) to mechanical energy again through a hydraulic cylinder or an actuator of a hydraulic motor,

(Force, direction, speed) and control by precise movement and quiet operation and reversal, which is possible to start with large load, Performance and excellent heat release performance.

As shown in FIG. 61, a distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

In the disadvantage of such a hydraulic pressure, the hydraulic system is constituted by low efficiency due to the danger due to the use of the high pressure and the change of the working condition due to the temperature change due to the foreign substance being sensitive to the contamination of the surrounding environment by the waste oil.

The hydraulic system constituting the hydraulic device includes:

First, the power supply and control and output sections can be divided, the power supply section supplies the system with the flow rate,

The most important components of the hydraulic system are:

The prime mover is provided with a prime mover and pumps, which provide the mechanical power required to drive the pump. In industrial systems, the prime mover is generally used as an electric motor,

In the case of a vehicle such as an excavator or a farm machinery, the prime mover is an automobile engine, and the pump obtains mechanical power from the prime mover and converts it into a flow of fluid with pressure.

The hydraulic system constituting the hydraulic device includes:

The power can be divided into power supply, control and output parts, and the power supply part supplies the system with the flow rate. The most important parts are the prime movers and pumps, which provide the mechanical power needed to drive the pump In the case of a vehicle such as an agricultural machine in an excavator, a prime mover is an automobile engine, and a pump obtains mechanical power from a prime mover and converts it into a flow of fluid with pressure .

As shown in FIG. 61, a distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

The output device of the hydraulic system includes an actuator (actuator) and a load, and the actuator serves to move the load by converting the power of the fluid into mechanical power, while the actuator is a cylinder (linear actuator) And a hydraulic system output device for the case of a hydraulic motor (rotary actuator) that generates the hydraulic pressure.

As shown in FIG. 61, a distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

The control unit is located in the middle of the hydraulic system, and the components include a directional control valve, a pressure control valve, and a flow control valve.

For example, the direction of motion of the actuator can be adjusted by directional control of fluid flow, such as when the cylinder advances or retracts.

As described above, controlling the pressure of the fluid is controlling the force of the output, while controlling the flow rate constitutes the control of the velocity of the actuator.

As shown in FIG. 61, a distribution input apparatus construction machine constituted inside the distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

The pressure source consists of a tank for collecting the required amount of oil, a hydraulic pump for pumping the oil from the tank to the inside of the circuit, and safety valves for protecting the power source. However, Pump to gear and vane Piston pump to motor and tank Relief valve (S hu to ff) Pressure gauge to valve (H ea te xchange) Pressure gauge to suction line with filter And the return line, and the control unit will be described as shown in the following table.

As shown in Fig. 61, there are constituted a pressure control valve for controlling the oil pressure, a direction switching valve for switching the direction of flow of the oil and switching the operating direction of the actuator, and a flow control valve for adjusting the operating speed The pressure control valve is a counterbalance valve for the relief valve and the relief valve and the non-load valve for the sequential valve. The directional control valves are 2/2 and 3/2 to 4/2 and 4/3 to the 5/2-way valve And the flow control valve consists of the orifice and the operating speed control,

The configuration of the hydraulic device is explained as shown in the following table.

As shown in FIG. 61, the construction machine of the distribution input apparatus hydraulic unit constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

A double structure block tank which constitutes a reactor facility of a marine power plant with a hull position shift of a floating type poison (593,594,595) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the construction machinery to the ocean. Marine Nuclear Hydroelectric (811) Nuclear power plant (811a) Moving hull position of the nuclear power plant (811a) Nuclear waste disposal facility that is the control shaft of the nuclear power plant facility The distribution shaft constituting the inside of the distributing and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the tunnel traffic apparatus 941 and the dual structure block tank dust collector is distributed and the double structure block tank dust collector The distribution device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant equipped with the double structure block tank inside the dust collector Providing the insert, and

In the nuclear power plant facilities of the small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants (593, 594, 595) constituting the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector,

The actuating part is a rocking motion in the linear motion and the rotation motion and is described as the following table.

First, the cylinder of linear motion is linearly pressed or pulled.

Secondly, the motor of the rotating motion profits the weight with the wire.

Third, the oscillating motors of the oscillating motion rotate at a certain angle. Table 1-2 describes the operation of the power and pressure oil in the hydraulic system as shown in the table below.

The units of mass and force and the pressure and power of the main physical quantity and the physical quantity of the unit are described in detail in the following table.

First, in physical quantities, physical quantities are properties of an object, that is, states or processes that can be measured. For example,

The velocity, speed, pressure, time, and temperature are the physical quantities, the colors are not physical quantities, the length is Me et (m), the mass is K i l o g r a m (k g)

The time is normalized to S econd (s) and the temperature is normalized to K elvin (K) or C elsius (° C). The major physical quantities in the hydraulic system, ie force, area, flow rate, can do.

S I defines k g as a unit of mass.

Second, in terms of mass, mass is generally used in terms of weight, and cubic steels with a mass of 1 kg on Earth have a mass of 1 k g.

Thirdly, in terms of force, mass describes the mass unit with its own properties, independent of gravitational acceleration, and the unit of force is determined in relation to gravitational acceleration (N ewton, 1643-1729) ㅧ acceleration ( F = m ㅧ α ), force = kg ㅧ m / s ² This is simply called [N], which is defined as 1N = 1k g m m / s ² .

In the pressure in fourth, pressure is the "pressure to be applied to the unit area of the object, the force" and the unit in the [kg _f / cm ^2] of metric engineering units so far or [kg _f / m ^2] is primarily used But in the future it will have to use the SI unit [N / m ² ], P a.

As described above, the hull position moving construction machine of the nuclear hydroelectric generating unit 811 constituting the inside of the distribution input apparatus main body 1 of the nuclear reactor waste disposal facility of the marine nuclear hydroelectric power plant having the double structure block tank dust collector (593,594,595) of the marine small-sized and medium-sized and large-scale marine nuclear hydroelectric power plants constituting the upper part of the ship's deck (SDU) of the marine power plant body by the traffic transportation part (811c) A conventional cylinder 126 showing a configuration and a four-shaft plunger pump 148b of a plunger pump 148 and a radial plain pump 148c construction machine connection structure dual structure block tank dust collector It consists of distributing units of nuclear reactor facilities for nuclear waste disposal at marine nuclear hydroelectric power plants.

Referring to FIG. 62, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector according to the present invention, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear power hydroelectric power plant (593,594,595) Control of the construction equipment of the hull (811a) A portable lug 607 and a portable lug pin 607 are attached to a vertical partition wall 605 for disassembling and assembling the floating type poison 593, 594, 595 connected to the satellite control parts for preventing radioactive contamination with nuclear radiation, (608) Large-diameter flange connection Connecting hole Processing hole (615) Hydraulic power plant Construction of the connecting structure of the marine power plant showing the connecting structure of the hull deck (593,594,595) Cylinder 126 showing the construction machine position adjustment arrangement of the adjustment and piston motor 885a of the hydraulic cranes 885. Straight configuration of the construction machine connection structure.

As shown in FIG. 62, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, (811a) of the construction machinery installation facility for moving the float-type poison hull is to provide the power production of the hydro-nuclear power generation plant (238), which shows the construction of the double pipe structure piping line control shaft (238) The control unit 811b is provided with a small-sized structural block tank dust collector, a small-sized, small-sized, and small-sized unit constructed at the upper part of the deck upper part (SDU) of the elemental marine nuclear hydroelectric power plant constituting the distribution input device of the nuclear waste- Hydraulic power generation equipment of hull locomotion control of medium size, large scale marine nuclear power plant floating type poison (593,594,595) The control of the hull position of the floating type dock (593,594,595) of small and medium sized and large sized marine nuclear hydroelectric power plants constituting the offshore, and the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant equipped with double structure block tank dust collector (811) of the nuclear waste disposal unit (811a) constituting the main body (1) of the nuclear waste disposal reactor constituting the nuclear waste disposal processing unit The nuclear waste disposal reactor of the Marine Nuclear Hydroelectric Power Plant having the double structure block tank dust collector by distributing the distribution shaft comprising the marine tunnel transportation device (941) and the distribution input device main body (1) of the nuclear reactor waste disposal reactor main body The installation and dispensing device of the facility is provided with inserting into the double structure block tank dust collector,

In the nuclear power plant facilities of the small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants (593, 594, 595) constituting the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector,

The cylinder and the piston constituting the body of the hydraulic cylinder 623, which are provided by the heavy equipment construction machine,

The load-and-piston seal 822 constituted by the construction machine and the seal ring 826 and the di-bush 827 are attached to the bush seal 824 and the seal ring 825 to the piston seal 823, respectively. A backup seal 830 is provided on the ring 828 and the load seal 829 and a multistage seal 834 is formed on the multistage seal 832 and the multistage seal 832 on the load seal & And a rubber ring made of a piston ring 836 and a dog ring 837 in the flange 835 and formed inside the cylinder 127 and the circumference of the piston 127 to be connected to the high pressure valve and the low pressure valves of the hydraulic pump It is composed of electric motor, hydraulic tank and hydraulic hoses, and it is equipped with water storage tank for nuclear waste disposal and marine tunnel transportation equipment, construction equipment for marine hydroelectric dam facility, and double structure block tank dust collector (1) of a nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant. Constitutes the body of the hydraulic cylinder 623,

The cylinder body includes a high pressure piping 14, a reed 35, an elbow leg 44 and a flange 28, which are separated from each other by a hydraulic pump so as to be re- The coupling ring 29, which constitutes a coupling to the hydraulic safety valve 474 and the hydraulic hose 190,

(593,594,595) Nuclear hydroelectric power plant with small and medium size and large scale marine nuclear hydroelectric power plant composed of main body (1) of nuclear reactor waste disposal unit equipped with connection system of male and female threads (SDL) of the marine power plant body dock hull deck upper part (SDU) and the hull deck center part (SDM) to the transportation transport part (811c) (126) constituting the construction machine position control of the hull locomotion control of the lifting tanks (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant with a double structure block And a distributing unit of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a tank dust collector.

Referring to FIG. 63, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) HYUNDAI HYDRAULIC POWER PLANT (593,594,595) HYUNDAI HYUNDAI CONSTRUCTION MACHINERY CONTROL DEVICE (811a) CYLINDER MACHINE CONNECTION CYLINDER (126) AND HYDRAULIC CRANE (885) PISTON MOTOR (885a) Straight configuration of the structure Road,

As shown in FIG. 63, the nuclear hydroelectric power plant unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector (811a) of the construction equipment of the floating type docking hull is provided with a hydroelectric power production control unit (811b) of the hydro-nuclear power generation control unit (811a) constituting the double pipe structure piping line control shaft (238) for the nuclear waste disposal of the nuclear hydroelectric power plant Dual structural block tank A small, medium and large marine hydroelectric power plant constructed on the upper deck (SDU) of the elemental marine power plant dock with the distribution input device of the reactor facility for the nuclear waste disposal of the nuclear power hydroelectric plant with the dust collector Hydroelectric power plant for control of hull position movement of the tanks (593, 594, 595) Distribution of the elemental nuclear waste treatment facility constituting the construction machinery location control The transportation unit 811c of the hull position shifting construction machine of the nuclear hydroelectric power plant 811 of the lifting tanks 593, 594, 595 of the marine small, medium and large sized marine nuclear hydroelectric power plants constituting the inside of the apparatus main body 1, (593,594,595) of marine small and medium sized and large sized marine nuclear hydroelectric power plants located at the upper part of the ship's deck (SDU) of the Marine Nuclear Hydroelectric Power Plant. 126 and the piston motor 885a of the hydraulic crane 885 are compared with the atmospheric pressure.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

Atmospheric pressure is the atmospheric pressure, which is called the atmospheric pressure.

1a tm = 760m m H g (water temperature main height) = 10332k g _f / m ² = 1.0332kg _f / cm ²

= 10.332m A q (height of water) = 101325N / m ² = 1.0 1325b ar

As shown in FIG. 63, the gauge pressure is a pressure measured by a gauge and a pressure measured based on the local atmospheric pressure.

As shown in Fig. 63, the absolute pressure is a pressure measured based on the complete vacuum.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

In the fifth power,

Work is defined as the amount of energy consumed and is calculated as the product of the distance traveled because of the applied force and force ( W = F S ). Suppose you need 300 N of force to move an object 40 m. In this case, the work is W = 300N ㅇ 40m = 1200N ㅇ m [J]. However, the idea of work alone can not tell how fast the object has moved. Was this done in 10 or 5 seconds? That is, power takes into account how fast energy is consumed. By dividing the work by the time it took, you get the expression for the power.

For example, if the work is N m m and the time is in seconds, the power will be N m m / s. In general, P is used for capital letters, while the lower case p is symbol of pressure , Where s / t is replaced by speed υ in the above equation.

For example, if the force is N, the velocity is m / s, a unit of power is the o N m / s. Power is also expressed by horsepower. The conversion relation between these two units is as follows.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

Since the change relation between the units is applied to the equation, the force is N and the velocity is m / s. Therefore, the equation should not be used as any other unit while limiting the use of the unit. In the international system, power is used as a unit of watt (W att; W). Since W is a small unit, it is usually expressed in kilowatt (k W) 1000W) into equation (1.2), the following equation used in the international system of units is obtained.

As shown in FIG. 63, the symbol kw is used to indicate that the unit of the value calculated in the above equation is kilowatt (kW). The unit applied in Eq. (1.3) is F (force) N, and υ (velocity) is m / s.

As shown in FIG. 63, the flow of the fluid and the flow of friction in the Bernoulli equation and the principle of Pascal and the principle of pressure transfer to the static statics of the fluid are described in detail in the following simple equations of a simple fluid mechanics used in a hydraulic machine.

In the continuity equation, the continuity equation applies the law of mass invariance to the flow of fluid, which means that the fluid in the closed path of the closed curve is not created or destroyed on the way.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

When the flow in the conduit I la steady flow, and the fluid does not take into account the compressibility, set the arbitrary cross section ① and ②, which is orthogonal to the tube, and each of the average flow velocity in the cross-sectional υ ₁ υ _2, a stage area A ₁ A ₂ , density is ρ ₁ ρ ₂ , and the amount of fluid flowing through each cross section per unit time must be the same according to the law of mass invariance. That is, if the mass is m ,

은 임의의 점에 있어서 관로를 지나는 질량 유량이다. And here,

Is the mass flow rate through the pipeline at any point.

As shown in Fig. 63,

( ₁₎ Since masses passing through a point in unit time are ρ ₁ , A ₁ , and υ ₁ , the above equation becomes

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

으로 되며 이 Q를 유량이라 하고 관로 속을 지나는 유체의 유량은 어느 단면에 있어서나 일 정하다는 것을 나타낸다. 즉 유압에서는 유량이란 "단위 시간에 이동하는 액체의 양"을 말하며 토 출 량으로 표현하고 있고,유량은 통상적으로 기호 Q로 표시하고 단위는 ℓ/m i n. c c/s e c 으 로 표시하며 유속은 "단위 시간에 이동하는 유체의 거리"를 말하는 것으로 위 식으로부터

When the fluid is uncompressed, ρ = C onst .

And this Q is called the flow rate, and the flow rate of the fluid passing through the pipe shows that it is fixed at a certain section. In hydraulic pressure, the term "amount of liquid moving in unit time" is expressed as the discharge amount, and the flow rate is usually expressed by the symbol Q , and the unit is expressed as l / mi n. cc / sec, and the flow rate refers to the "distance of fluid moving in unit time" from the above equation

And is expressed in units of m / s.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

In the Bernoulli equation,

The Bernoulli equation describes the relationship between the total energy of the noncompressible fluid and the hydraulic fluid is nearly noncompressible, so the Bernoulli equation can be used for hydraulic systems and the fluid energy can be expressed in three forms.

First, fluid energy (due to height and protagonist) = W h

The following pressure energy (due to pressure) = W ㅇ

Next kinetic energy (due to velocity) = W ㅇ

 As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

The above three energy units are Nm. If there is no energy coming in or out from a system in any system, the energy at any two points must be the same.

Since W is common to each term, the following equation is obtained by dividing it.

This is a Bernoulli equation that expresses all of the energy contained in a fluid per unit weight, so if one of the three energies increases, the energy of one or both of the other two energies decreases, so that the sum of the three energies is equal Balance.

As shown in Figure 63, the hydrostatics of the fluid is proportional to the head of the fluid, regardless of the shape of the vessel. Therefore, it can be expressed as the product of the specific weight of the fluid and the head.

p = rh (1.6)

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

Nuclear waste disposal facility of the nuclear waste disposal treatment facility of the hull position movement control of the floating type toxic (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plant constituting the construction machine in the sea nuclear reactor A nuclear power hydroelectric power plant 811 constituting the inside of the distribution dispensing apparatus main body 1 of the facility; a hull position shifter of the nuclear power nuclear waste processing unit 811a; a nuclear waste disposal marine tunnel transport apparatus 941 as a control shaft of the nuclear power plant facility; Dispensing device of nuclear reactor waste disposal device Both sides of distribution shaft constituting inside of main body (1) are distributed, and a distribution injecting device of a nuclear waste disposal reactor facility is inserted into a double structure block tank dust collector,

Nuclear power plant facilities of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants (593,594,595), which constitute the distribution input device of nuclear reactor waste treatment facility,

The principle of Pascal, which is constituted inside the main body (1) of the dispensing apparatus for nuclear waste disposal reactor equipment,

When a fluid is pressurized by a force (a force of a person, a force of a machine, or a force in a sealed container), the pressure applied to the fluid is transferred to another object of the same magnitude in all directions. Since the person who uncovered it is Pascal, it is called "Pascal's principle", and this principle is used for the electro-pneumatic device. The pressure on the surface where the stopped liquid is in contact with each other acts perpendicularly to the contact surface. The magnitude of the pressure acting at one point of the liquid is the same for all directions and thus the pressure applied to a portion of the liquid that is stationary in the closed container is transmitted to all parts simultaneously with the same intensity, .

As shown in Fig. 63, when a liquid is put in a sealed container and a force F is applied from above, the liquid has a property of not decreasing the volume even when compressed, so that the liquid has a force against the force pressing it from above. This is called the reaction, and the reaction force of this liquid is called the pressure ( p ).

The pressure in the vessel is the force F divided by the area A of the piston.

단, 실린더 내 액체의 높이 차에 의한 압력의 차이는 p값에 비해 매우 작으므로 무시할 수 있다.As shown in Fig. 63, the principle of pressure transfer is such that, when the liquid is filled in the cylinder and the forces F ₁ and F ₂ are applied to the piston cross-sectional areas A _{1 and} A ₂ , If there is no friction between the piston and the cylinder, there is no leakage from this part, and there is no energy loss due to the transfer, the pressure generated in the two cylinders can be expressed by the following equation.

However, the difference in pressure due to the height difference of the in-cylinder liquid is negligible as it is very small compared to the p value.

From the above equation

Is obtained. That is, the force is proportional to the cross-sectional area of the piston. Since A ₁ is smaller than A ₂ , a force F _{2 which} is sufficiently larger than F ₁ is obtained. Hydraulic presses and hydraulic presses use this principle.

Embodiment of the hydraulic intensifier, the surface area is in connection by the rod to the other two pistons when the action of the pressure p ₁ on the piston area A ₁ is transmitted to the small piston force F ₁ is via the load acting on the force the cross-sectional area A ₁ Therefore, the pressure p ₂ is increased and the friction loss is neglected.

The pressure in the pressure intensifier is inversely proportional to the area of the piston.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

The fluid flow is generally called the internal flow, where all interfaces of the fluid flow are solid surfaces, and this flow is largely divided into laminar flow and turbulent flow, while laminar flow is dominated by viscous force rather than inertia force In the case of viscous flow with a small flow velocity, that is, a small flow velocity, it is a flow satisfying the Newtonian viscous law. In contrast, the turbulent flow is inversely proportional to the inertial force, At large, the magnitude of the velocity is large, and in general, the flow in the hydraulic system is often a laminar flow.

 As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

As shown in the table above, friction and flow are lossy when hydraulic energy is transferred through piping. The friction is generated by the fluid itself and the inner wall of the pipe, and the hydraulic energy that generates heat is converted into thermal energy. At the same time, the loss of hydraulic energy refers to the pressure loss of the hydraulic fluid. Since the hydraulic fluid has pressure loss in all the structures in the hydraulic facility Since loss is due to friction of the flow medium and pressure loss in the structure that changes to thermal energy is sometimes deliberately generated, the pressure loss that generates heat in the structure is not desirable, As the fluid in the pipe runs in the direction of the arrow, the pressure in the direction of flow gradually decreases because it is heated by the structure.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

In this way, the hydraulic pump is divided into the hydraulic pump overview and the relationship between the discharge amount and the pressure, as shown in the table below.

The equipment that converts the mechanical energy supplied from the prime mover into hydraulic energy to increase the hydraulic energy level of the hydraulic oil and thereby energize the hydraulic system is called a hydraulic pump. The pump is classified as a cost-effective pump and a volumetric pump,

The non-condensing type pump is a pump in which the energy is switched without being clogged, and there is a centrifugal pump, a sludge pump, an axial flow pump, and a spray type pump. When there is a constant relationship between the discharge amount and the pressure, Lt; / RTI &gt;

The positive displacement pump is a pump that discharges a certain amount every time the axis of the pump rotates. Since the discharge amount is constant regardless of the load pressure and the discharge pressure is determined according to the load pressure, if the load becomes excessive, There is a risk that the pump will be destroyed. In the hydraulic system, the hydraulic pump pumps the low-energy hydraulic oil in the tank by applying the energy to the inside of the tank, and then sends the high- The work or energy that is applied to the hydraulic oil by the pump operation is given by the following equation: work = (force) ㅧ (displacement) = (work) (Pressure) ㅧ (width) ㅧ (displacement) = (pressure) ㅧ (exclusion volume).

과 같이 된다.The work done in unit time, ie, power or power,

.

 As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

Table 2-1 shows the relation between the discharge amount and the pressure according to the classification of the hydraulic pump as shown in the following table.

위 표와 같이, 유압 펌프의 토 출 량은 입력 축을 1회전 시킬 때 토 출구로부터 내보내진 작동 유의 체적으로 나타내며,예를 들어 32c c/r e v라면, 1회전당 토 출 량이 32c c라는 것이며,

As shown in the above table, the discharge amount of the hydraulic pump is represented by the volume of the operating oil discharged from the discharge port when the input shaft is rotated once. For example, in the case of 32 cc / rev, the discharge amount per one rotation is 32 cc,

When the hydraulic pump is driven below the speed, there is a "minimum rotation speed" at which a predetermined discharge amount can not be maintained. If the hydraulic pump is rotated above the speed, the life is shortened to the extreme end, And the hydraulic pump can be driven at an arbitrary speed within the range of the minimum and maximum rotation speeds. Since the flow rate of the working oil discharged from the discharge port increases in proportion to the rotation speed, a hydraulic pump of 32 cc / rev is operated at 1500 rpm (At a speed of 1,500 revolutions per minute), the flow rate at the discharge port is 48,000 cc / min (48 t / min) which means 1500 cc of 32 c, ie, '48,000 cc is flowed in 1 minute' and, that SAT Ex amount pressure in this case very low as 5k g _f / cm ² is obtained from the actually measured SAT output amount and the calculation SAT output amount of the hydraulic pump is placed on 1500r pm is displayed as 48ℓ / min and at the outlet opening ( this The amount of waste discharged) is a considerable approximation.

In the hydraulic pump, the "maximum operating pressure", which means that the internal leakage increases and the life span is significantly shortened when the pressure of the discharge port becomes higher than the numerical value, is determined. Therefore, a plurality of contact portions of the metal surface and the metal surface are provided in the hydraulic pump A working oil is required to lubricate that part and the internal leakage can not be removed because this purpose is used.

Therefore, this internal leakage increases as the pressure of the discharge port increases (almost proportionally), and at the maximum operating pressure, the leak amount is 5% to 10% of the theoretical discharge amount. It means 95% to 90% of the theoretical discharge amount. The numerical value indicating what percentage of the actual discharging amount at which pressure is actually available is the volume efficiency.

In general, when the volume efficiency is simply expressed as the volume efficiency at the maximum operating pressure, if the internal leakage is 5% of the theoretical discharge amount, in other words, if the actual discharge amount is 95% of the theoretical discharge amount marked in the pressure), volumetric efficiency was 95%, and in the pump power and efficiency, as the suction pressure of the hydraulic pump ^{_{p s [kg f / cm 2}} ], the SAT output pressure ^{_{p d [kg f / cm 2}} ] And the discharge flow rate is R [m ³ / s], the pump power generated by the pump (the horsepower that is effectively transmitted to the fluid) L _p can be obtained as follows.

( L _p = pQ [kg _f m / s]) (2.1)

Where p = p _d - p _s is the pressure difference between the outlet and inlet of the pump, but usually p _s is atmospheric pressure and p = p _d .

 If the output unit is expressed as k W or p s

to be. In addition and as a unit of p kg _f / cm ² when the units of Q ℓ / min pump is powered,

Theoretical power (liquid power) L _{th applied} to the hydraulic oil by the pump when it is assumed that there is no leakage loss in the pump,

( L _th = p Q _th [kg _f m / s]) (2.4)

Here, p kg _f / cm ² is the pump discharge pressure, Q _th [m ³ / s] is the theoretical discharge amount, and the power (axial power) transmitted from the prime mover to the pump shaft is L _s

Here, ω [l / s] is the angular _{velocity, T th [kg f / cm} 2] is the torque required to rotate the pump, N [rpm] is the rotation number of a pump is all of the energy received through the axis from the prime mover Is defined as a measure of the extent to which the pump converts the energy received through the shaft into useful energy because some of it is lost to loss and the remaining energy comes from hydraulic oil.

여기서 η는 펌프의 전 효율이다.

Where η is the total efficiency of the pump.

 As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

The hydraulic actuator constituting the construction machine of the reactor installation,

This is a generic term for a hydraulic device that performs mechanical work by generating reciprocating motion or rotational motion of the output shaft by compression. It is divided into three types: a hydraulic motor (rotational motion of a shaft), a hydraulic cylinder (linear motion of a shaft), and a pivoting actuator Table 4-1 shows the types of hydraulic actuators.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

Distribution equipment of the reactor installation In the hydraulic motor constituting the construction machine,

A hydraulic motor is a device that converts pressure energy into rotary motion. In principle, hydraulic oil is supplied to the suction side of the hydraulic pump, but since the efficiency is not good, there is a slight difference and the pump rotates only in a certain direction Although it is normal, the hydraulic motor can rotate in any direction. Therefore, the characteristics of the hydraulic motor are compared with the AC motor which performs the same rotational motion as follows.

It is very easy to change the speed of rotation and change of forward and reverse rotation, and it is very easy to start and stop. It has good inertia and good tracking ability. It responds quickly and is suitable for the elements of automatic control and control mechanism. However, since the hydraulic device itself is driven by a motor, its use is limited. In the type of the hydraulic motor, the flow rate required to make one rotation of the motor is changed and the flow rate is constant. Therefore, , And the latter is referred to as a variable displacement hydraulic motor.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

Distributing device of reactor plant The structure of the gear motor that constitutes the construction machine,

It is almost the same as the gear pump. The supplied oil works on the tooth surface to generate the torque to rotate the output shaft. The gear is generally used as a spur gear. The structure is simple compared to other motors, It is difficult to manufacture a gear motor and the torque output and the rotation speed of the motor become too large to be used at a low speed of 100 rpm or less. The overall efficiency of the gear motor is about 70 to 80% and the rotation speed is about 1000 to 3000 rpm.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

Distributing device of reactor plant The vane motor that constitutes the construction machine,

It is the same as the vane pump in structure. It has the advantage of constant output torque, reversible, continuously variable transmission, harsh operation and lighting when the supply pressure is constant, so the maximum working pressure is 70bar, the power is 5 ~ 30p s, 1 800rpm, and the speed limit of 200rpm at the lowest has little variation of the output torque and generally has a disadvantage in that torque fluctuation increases because the efficiency is poor at low pressure or low speed.

As shown in Fig. 63, in the piston motor,

Piston motors are often called plunger motors or rotary piston motors. They are almost the same in structure as piston pumps. They are of the axial type and the radial type. The axial piston motors have the four-axis type and the four-plate type.

As shown in FIG. 63, a distribution input device of a reactor facility for nuclear waste disposal constituted inside the main body (1) of a nuclear reactor waste disposal reactor apparatus for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

A radial piston motor is a type in which several or ten or more pistons are radially arranged in a radial direction and reciprocating in the radial direction to rotate the shaft. By using the eccentric or eccentric cam of the cylinder block, The piston motor is classified into a multi-stroke type in which a torque is generated by reciprocating motion of the piston several times for one revolution by using the eccentricity conversion and the multi-

Like the piston pump, there are a constant capacity type and a variable capacity type in each model.

As shown in Figure 63, in the output and efficiency of the hydraulic motor, the pressure oil to the pressure flowing into the motor ^{_{p 1 [kg f / cm 2}} ], the pressure oil to the pressure flowing out of ^{_{p 2 [kg f / cm 2}} ] And the flow rate of the supply pressure oil is Q [cm ³ / min], the power input to the hydraulic motor is calculated as follows.

The output is calculated by the torque and the angular velocity.

Where n is greater Torr [kg _f o m] in which the motor output-side rotational speed [rpm], T is delivered to the load on the motor output side. Therefore, calculating the efficiency of the motor in relation to input and output

The size of the hydraulic motor is expressed as q (cm ³ / revolution) pressure per revolution, Q = q ㅧ n _o , assuming no internal leakage of the motor , and λ = 100% When the pressure of oil is regarded as 0 ( p ₁ = p )

 From the above equation,

가 된다.Therefore,

.

Where n _o is the number of revolutions under the assumption that there is no internal leakage in the motor and T _o is the maximum torque or theoretical torque at which pressure pressure p can occur.

 As shown in Fig. 63, in terms of merits and demerits of the hydraulic motor,

It is able to stop quickly and easily compared with an electric motor, and it is able to obtain a wide range of continuously variable speed, and it is small, light and powerful, and it has good resistance to high speed due to excellent resistance to breakdown. It can be easily controlled by a type pump or metering (valve for improving the flow rate), easy to overload safety device or brakes, and convenient for torque control machines such as winders used in paper and wire Point,

As described above, the power production and production unit (or the nuclear power plant) of the nuclear hydroelectric power plant 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector (593,594,595) of small-scale and medium-sized and large-scale marine nuclear hydroelectric power plants at the upper end of the ship's deck (SDU) at the marine power plant dock, Generation Power Generation Control Section The construction linkage structure consists of facilities for distributing and dispensing hydraulic motors for the nuclear waste disposal of nuclear hydroelectric power plants.

Referring to FIG. 64, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593, 594, 595) of the hydroelectric power plant, a water turbine or pump aberration (264) of the hydroelectric power plant or marine hydroelectric power plant showing the construction machine position adjustment structure of the hull position shifting construction machine control unit (811a) ) Hydroelectric power plant Construction of a water hammer structure showing control structure of the construction machinery of the marine hydroelectric power plant lifting tanks (593, 594, 595) at the upper part (SDU) of the dock, Of the construction machinery connection structure of the marine hydroelectric power production control part construction machine connection structure of the strabismus road,

64, as shown in FIG. 64, a distribution input device of a reactor facility for the treatment of nuclear waste composed of the inside of the main body (1) of a nuclear reactor waste disposal reactor for a marine nuclear hydroelectric power plant having a double structure block tank dust collector The machine,

Nuclear waste disposal facility for nuclear waste disposal facility Nuclear waste disposal reactor constituting reactor facility for control of hull position movement of floating type poison (593,594,595) of small, medium and large sized marine nuclear power plant constituting construction machine in the ocean A nuclear power hydroelectric power plant 811 constituting the inside of the distribution dispensing apparatus main body 1 of the facility; a hull position shifter of the nuclear power nuclear waste processing unit 811a; a nuclear waste disposal marine tunnel transport apparatus 941 as a control shaft of the nuclear power plant facility; (1) The distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having dual structure block tank dust collector is divided into two parts The block tank is provided with an insertion into the dust collector,

64, as shown in FIG. 64, a distribution input device of a reactor facility for the treatment of nuclear waste composed of the inside of the main body (1) of a nuclear reactor waste disposal reactor for a marine nuclear hydroelectric power plant having a double structure block tank dust collector In the nuclear power plant facilities of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants (593,594,595)

(593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constructed inside the main body (1) of the nuclear reactor waste disposal facility for the nuclear waste water treatment plant of a marine nuclear hydroelectric power plant having a dual structural block tank- (811) of a nuclear power hydroelectric power plant (811) to a transport transportation part (811c) of a construction machine to a marine nuclear power plant Construction of a mill structure showing the construction machine position adjustment control of the ship's docking (593,594,595) Marine hydroelectric power production and manufacture of the connecting structure (811b) Construction of the double structure block tank dust collector with connection structure It is composed of distributing devices of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant.

As shown in FIG. 64, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, (811a) of the construction equipment of the floating-type docking hull is connected to the control unit (811b) of the marine hydro-nuclear power generation control unit (238) constituting the double-pipe structure block pipe line control shaft 238 for the nuclear waste disposal of the nuclear hydroelectric power plant Dual structure Block tank Marine elemental component of a nuclear power plant's nuclear waste disposal facility for marine nuclear power plants with a dust collector Component of marine power plant dock constituting the input device Small-sized, medium-sized, large-scale marine hydroelectric power plant fostering at the upper deck (SDU) Hydroelectric power plant for control of hull position movement of tidal poison (593, 594, 595) Constituent marine small, medium and large ocean (593, 594,595) of the marine power plant's body dock The marine nuclear hydroelectric power production and production division (811b) constituting the upper part of the deck of the ship hull (SDU) A head tank 189 having energy power and an introduction pipe 191, a cylinder 126, a piston or piston pump 127, a bulb body 660, a battery and a battery 671 ) Consists of a distributing unit for the reactor installation for the nuclear waste disposal of a marine nuclear hydroelectric power plant with a dual structural block tank dust collector.

As described above, in the conventional technology of hydroelectric power generation,

The waterproofing facilities and the power generating facilities (pumping water) are not very obstructive to the requirement of hydroelectric power generation, but the setting of the dam 680 or the intake dam 680 is very serious. The following are the problems to be solved.

First, in order to obtain adequate generation capacity, the installation cost due to the construction of the dam and the period of construction of the dam were much larger than the generation facilities compared to the generation facilities of the power generation facilities due to the construction of the dam.

Second, the environmental impact near the water intake dam site, the location of the dam installation, and the ground and crustal changes of the groundwater are checked thoroughly in advance. Taking into account that the waterfall is not taken into consideration, As a result of this prolonged period, there has been a case in which small and medium cities have been buried due to earthquakes or landslides due to algae or harmful red tide breeding,

In other areas, it is impossible to control the flood drought due to the damage of forests due to the installation of solar power generators due to solar power generation. Therefore,

In the case of nuclear power generation, the damage caused by the accident of the former Soviet Union Chernobyl nuclear power plant and the nuclear explosion in Japan caused radioactive contamination accident, which was significant. On the other hand, thermal power plants are built on shore or coastal areas where demand for electricity is usually high. As the global warming is accelerated by the waste gas emitted from coal stones, the pollution of the atmosphere and the emission of carbon dioxide Natural disasters have reached a serious level due to the global warming phenomenon.

The countermeasure against this is that the present inventor's hydroelectric power generator of the present invention is installed in the ocean to provide endless production of environmentally friendly energy to solve problems of mankind, (811) of the marine small-sized and large-scale marine nuclear hydroelectric power station (593,594,595) composed of the main body (1) of the nuclear reactor waste disposal facility for hydroelectric power plants, Nuclear Multi-Stage Pump showing Construction of Safety Control of Nuclear Power Plant Operation Control Unit (811e) Control Block Diagram and BF Model in Front View and Front View of Multi-Stage Pump System Concept Diagram; Speed control method, and 3-pump direct-injection start-up method. FIG.

Here, the marine hydroelectric generator, which is constructed in the same structure as the mouth-type multi-stage pump plant, is equipped with a multi-stage multi-stage hydroelectric generator facility and is equipped with a double structure block tank dust collector for generating large- Dispensing device of processing nuclear reactor facility The hull position of the nuclear hydroelectric power plant part (811) constituting the inside of the main body (1) To the transportation transport part (811c) of the construction machine, the marine power plant body dock, A marine hydroelectric power plant is constructed.

64, as shown in FIG. 64, a distribution input device of a reactor facility for the treatment of nuclear waste composed of the inside of the main body (1) of a nuclear reactor waste disposal reactor for a marine nuclear hydroelectric power plant having a double structure block tank dust collector In the nuclear power plant facilities of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants (593,594,595)

Generally, in the conventional domestic water facilities,

The total capacity of the multipurpose dam in Korea is about 12.6 billion ㎥, the capacity of power generation facility is about 1.05 million kw and the flood control capacity is about 2.2 billion ㎥. Therefore, Is about 10.9 billion cubic meters.

By the dam, the lowest capacity of Soyanggang Dam is 2.9 billion ㎥, but the annual water capacity is 1.2 billion ㎥, which is less than 3.4 billion ㎥ of Chungju Dam. The capacity of the power plant is the largest at Chungju Dam with a total capacity of 410,000 kilowatts. The background of the above-mentioned land hydroelectric power generation is divided into hydropower facilities and hydropower general hydraulics, so that those skilled in the art understand the present invention more easily The present invention will now be described in more detail with reference to the following table, which is a combination of the conventional technology and the conventional power generation facilities.

 As shown in Fig. 64, the hydraulic power plant constituting the hydraulic power plant of the conventional technology level is,

Since it is a facility that uses flow and fall, it should always be built so that the flow necessary for power generation can be safely taken, and loss of drop and flow can be minimized as much as possible.

Hydropower facilities in hydroelectric power plants can be categorized according to their functions, and there are four types of hydroelectric facilities (680n), which are classified into 4 types of water facilities (680o), power generation facilities (680p) and waterproof facilities (680q) Because it is necessary to plan properly and design each facility so that it can best utilize the hydraulic power of that point,

The structure of the power plant is classified according to how it is assembled, and here, the overview (679s) of the hydroelectric power plant will be briefly described as follows for the hydroelectric power plant .

Referring to FIG. 65, a nuclear hydroelectric power plant 811 having a dual structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for processing marine nuclear hydroelectric power plants. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydroelectric power station (593,594,595) Hydraulic power plant showing construction arrangement position adjustment structure of moving machinery of control facility of construction machine (811a) of hull position transfer Marine hydraulic power plant floating structure showing connection structure of construction machine (593,594,595) Hydraulic power plant showing the position adjustment structure of the construction machine of the hull locomotion regulation.

As shown in FIG. 65, the nuclear hydroelectric power plant unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector In the equipment control section 811a of the lifting construction machine,

The marine hydro-nuclear power generation control unit 811b, which constitutes the double-pipe structure block pipeline control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant,

Dual structural block tank A small, medium and large marine hydroelectric power plant constructed on the upper deck (SDU) of the elemental marine power plant dock with the distribution input device of the reactor facility for the nuclear waste disposal of the nuclear power hydroelectric plant with the dust collector (593, 594, 595) hydroelectric power plant for the control of hull position movement constitutes a distributing and inputting device for elemental nuclear waste treatment reactor constituting the position control of the construction machine,

(593,594,595) of a small, medium and large sized marine nuclear power plant constituting a distribution input device of a nuclear waste disposal facility to the ocean, and a distribution input device A nuclear power hydroelectric power plant 811 inside the main body 1 of the nuclear power generation nuclear waste processing unit 811a and a reactor for nuclear waste treatment 941, Both sides of the distribution shaft constituting the inside of the distributing and dispensing apparatus main body 1 of the facility are distributed, the dispensing apparatus of the nuclear waste disposal reactor apparatus is inserted into the double structure block tank dust collector,

Nuclear power plant facilities of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants (593,594,595), which constitute the distribution input device of nuclear reactor waste treatment facility,

As shown in Fig. 65, the hydropower installation of the nuclear power plant of the distribution and dispensing apparatus constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor facility,

The power generation and production section 811b of the nuclear hydropower generation facility section 811 and the transportation section 811c of the hull locating and construction machine constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility, (680b) - a facility that blocks water in a direction almost perpendicular to the flow of the river to take the water from the river. This is called the intake dam (680b) The water taken from the water intake port 678g is constructed to guide water to the water tank 680m at the upper part of the power plant 233 through a water channel to make a drop of water This is sent back to the aberration through the water pressure pipe, where the potential energy of water is converted into mechanical energy and used to generate electrical energy by the generator,

After use, the water is discharged to the river again through the watertight path (678b). In this process, sedimentation is made near the intake port to sediment the sediment in the water. In the water tank, the waterway is suddenly decreased and the water level suddenly decreases. And surplus water is discharged safely to the river when it is over.

Among them, from the water inlet (678g) to the entrance of the water tank (680m), the waterway is called a waterway, and there are two types of pressure waterway, (680m) is used for the natural fluid type,

Pressure water tank 680i is used instead of the constant water tank 680m, and when the water is taken from the reservoir 680a, these nails themselves also act as the action of the settling paper 680k The water reservoir 680a functions as a water reservoir 680m at the dam-type power plant without the needlestick 680k, so that no water reservoir is installed.

Referring to FIG. 66, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydroelectric power station (593,594,595) Location control of construction equipment of the hull (811a) Location of each power plant in the Han River system showing the position control structure of movement control Hydraulic power plant Construction machine connection structure (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's dock deck (SDU) Straight configuration of mechanical connection structure Road,

As shown in FIG. 66, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector, (811a) of the construction equipment of the floating-type docking hull is connected to the control unit (811b) of the marine hydro-nuclear power generation control unit (238) constituting the double-pipe structure block pipe line control shaft 238 for the nuclear waste disposal of the nuclear hydroelectric power plant ,

A constituent ocean showing the construction of one embodiment of the operation of a nuclear power plant having a distributing and inputting apparatus for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting a power production control section 811b Power plant dock Hydroelectric power plant for control of hull position movement of small, medium and large sized marine hydroelectric power plant lifting dock (593,594,595) in the upper part of the deck of the ship (SDU) Elementary nuclear waste treatment reactor facility And a control unit

Hydroelectric power generation facilities In the case of conventional power generation dams constituting construction machinery,

If the power generation dam is first classified according to its use,

A simple intake dam used for a hydroelectric power plant,

In a dam hydroelectric power plant, a slightly larger dam used to raise the water level on the upstream side,

There are huge reservoir dams (dam-type power plants) that make reservoirs or reservoirs (680a) by blocking valleys or rivers to store water for a certain period of time as well as taking water, and list the main points that should be taken into consideration when constructing dams The first thing to do is to design rationally to be safe even if you receive floods and other external forces first,

Hydropower Facilities Dam construction forms the construction machinery,

It should be selected as the most economical considering the topography and geology,

After the selection, the water level on the upstream side of the dam rises, which is called drainage - that the damage suffered should be minimized,

It was necessary to discharge the maximum flow rate safely in the event of a flood so as not to endanger the facilities such as power generation facilities and all the facilities downstream,

According to the classification according to the purpose of use of the power generation dam, a water intake dam and a water storage dam are formed. In the water intake dam constituting the hydraulic power generation equipment construction machine as shown in FIG. 66,

In general, the dam height and width are not so large. Next, in the case of the water-saving dam, the water level is raised by increasing the upstream water level by the dam, and the water quality is controlled through seasonal or annual As large quantities as possible are used, it is as described above that the distribution to the regulating area and the reservoir depending on the magnitude of the regulating ability.

Referring to FIG. 67, a nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydroelectric power station (593,594,595) Location control of construction equipment of the hull (811a) Location of each power plant in the Han River system showing the position control structure of movement control Hydraulic power plant Construction machine connection structure (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's dock deck (SDU) Straight configuration of mechanical connection structure Road,

As shown in FIG. 67, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, In the equipment control section 811a of the lifting construction machine,

The hydro-nuclear power generation control unit 811b, which constitutes the power production at the double-pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear power plant,

An elemental marine nuclear hydroelectric power station constituting the operation of a nuclear power plant that provides a distribution input device for the nuclear waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector. Hydraulic power generation facility of small size, medium size, large scale marine hydroelectric power plant lifting type poison (593,594,595) to adjust hull position movement. It constitutes the distribution input device of elemental nuclear waste treatment facility with position control of construction machine,

67, a hydropower installation of a nuclear power plant having a dual structure block tank dust collector and a nuclear power plant for nuclear waste disposal,

According to the classification of the existing power generation dam by the material used, the concrete dam and the earth dam form a rock dam. Firstly, in the concrete dam, the dam is made of concrete mixed with cement, sand and gravel. Therefore, in the case of soil dam, sand, gravel and clay are appropriately mixed and constructed, which is economical when the material is procured locally. This type of dam should be designed to maintain stability by gently sloping the upstream and downstream sides of the concrete dam.

67, a hydropower installation of a nuclear power plant having a dual structure block tank dust collector and a nuclear power plant for nuclear waste disposal,

The nuclear power plant 811 of the marine small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants (593, 594, 595) constituting the hydropower plant in the main body (1) Showing the construction machine position control arrangement of the hull position shifting control of the hydraulic equipment constituting the power generating and manufacturing section 811b of the hull and the transportation transport section 811c of the hull locating and construction machine to the marine power plant dock hull deck upper part (SDU) (678c) and concept diagram of reservoir power plant (678d) as well as conceptual diagram of power plant (678e) as hydropower generation facility construction machinery connection structure. The small, medium and large scale ocean The hydropower facilities of the nuclear-powered hydropower plant (593, 594, 595)

A hydraulic rotary cylinder 620 of a rack and pinion type (NRP) which is a rotary cylinder constituting a hydroelectric power plant, a butterfly valve 622 for controlling the buoyancy of the band guide 621, a hydraulic cylinder and a hydraulic actuator 623 A hydraulic cylinder door 624 is provided for the hydraulic cylinder and a large flange connection port 604 is formed in the vertical ridge 605 and the pin linking shaft 606 for engaging the portable lug 606 with the portable lug 607 and the portable lug pin 608, The joint part machining hole 615 is connected to the construction machine connection structure and the pipe bridge 928 and the pipe bridge 937 to the inside of the marine tunnel transportation device 941. The oil drilling machine 908 is connected to the bridge 928, A marine tunnel transmission device internal train 771 inside the marine tunnel traffic device 941 connected to the pipe bridge 937 and having a double structure block tank dust collector constituting disassembly coupling with the construction machine connection structure, Including a dispensing device for a reactor plant for the treatment of nuclear waste of a hydroelectric plant,

If the hydroelectric facilities in the existing hydroelectric power plants are classified according to their functions, the hydroelectric facilities divided into four types of water supply facilities (680n), water supply facilities (680o), power generation facilities (680p) and waterproof facilities (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants, which show the construction arrangement of the construction machinery, (943)

The hydrodynamic power plant 943 of the marine iso hydroelectric power plant 943 is provided with theoretical hydraulic powers for manipulating the flow rate of seaweeds and is constituted by an input to a water turbine to rotate a turbine and a generator. The same water intake facility 680n is provided with a water supply facility 680o, a power generation facility 680p and a waterproof facility 680q to the multi-tiered large hydroelectric power plant 944 of the Isai hydroelectric power plant 943 And a marine hydroelectric power plant of a marine tidal power plant in the form of a water hammer connected to the seisio form of the hydraulic device.

In the rock dam 680z constituting the existing hydroelectric power generation facility,

This dam is economical when the rock material is procured locally like the earth dam (680y) mainly made of rock. The dam can raise the dam higher than the earth dam (680y) Because of its size, it is necessary to strengthen the foundation. Like the soil dam 680y, the rock dam 680z is a kind of gravity dam, and the drainage layer 680v, the soil material 680w, and the base rock masses 680x are formed on the rock wall 680t and the upstream surface protection layer 680u. .

67, a hydropower installation of a nuclear power plant having a dual structure block tank dust collector and a nuclear power plant for nuclear waste disposal,

Production and distribution of nuclear power plants (811) of floating nuclear power plants (593,594,595) of small and medium sized and large sized marine nuclear power plants composed of the main body (1) (811b) and the transporting section (811c) of the hull position moving construction machine to the upper part (SDU) of the ship's body dock hull deck (SDU) 678c) and concept diagram (678d) of reservoir type power plant and the concept diagram (678e) of regulated knowledge power plant. A hydraulic rotary cylinder 620 of a rack and pinion type (NRP) which is a rotary cylinder constituting a hydraulic system for the hydraulic pumps 593, 594, 595, a butterfly valve 622 for controlling the buoyancy of the band guide 621, The portable lug 607 and the portable lug pin 608 are attached to the vertical partition wall 605 provided with the hydraulic cylinder door 624 and the pin linking shaft 606 for engaging the lug, (901) to the inside of the marine tunnel transport device (941) to the construction machine connection structure and the bridge bridge (928) and the pipe bridge (937) to the bridge drilling machine A double structure block tank dust collector 910 which constitutes disassembly and connection with the construction machinery connection structure is provided inside the marine tunnel communication device 941 connected to the pipe bridge 928 and the pipe bridge 937, And a distribution input device for a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant,

If the hydroelectric facilities in the existing hydroelectric power plants are classified according to their functions, the hydroelectric facilities divided into four types of water supply facilities (680n), water supply facilities (680o), power generation facilities (680p) and waterproof facilities (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants, which show the construction arrangement of the construction machinery, (943)

And the hydraulic power for manipulating the flow rate of the seaweed, and is constituted by an input to a water turbine to rotate the aberration and the generator, and the water intake equipment 680o and the power generation equipment (640p) and waterproofing facilities (680q), which are equipped with multistage large-scale hydroelectric generators (944) of the sea-island iso hydroelectric power plant (943) Marine tidal power plant The marine hydro power plant is composed.

According to the classification according to the mechanical structure of the existing power generation dam, the gravity dam is formed in the gravity dam, and the gravity dam is the most widely used type, and the stability of the dam is maintained by the own weight of the dam. The gravity dam is mainly made of concrete, but the soil dam (680y) using the soil and the rock dam (680z) using the rock are also a kind of gravity dam because the large pressure is caught on the foundation part. Some are being used.

67, a hydropower installation of a nuclear power plant having a dual structure block tank dust collector and a nuclear power plant for nuclear waste disposal,

The theoretical hydraulic power for operating the flow rate of the seaweed is provided as input to the aberration, and the water intake facility 680o and the power generation facility 680b are installed in the water intake facility 680n, which is the same as the arrangement of the mouth multi- (640p) and waterproofing facilities (680q), which are equipped with multi-stage large-scale hydroelectric generators (944) of the sea-island iso hydroelectric power plant (943) and have the same water- A marine tidal power plant 943 is constructed with a marine tidal power plant.

In the conventional negative wall dam 679e,

The kinetic energy of water 679m is applied to the surface acoustic wave plate 679f and the surface energy of the water 679l of the surface layer concrete 679k and the hollow 679i and the hollow 679i and the surrounding whole chamber 679j in the utilization water depth 679h, And mechanical energy 679n are provided with electrical energy 679o and theoretical hydraulic power 679p and aberration outputs 679q.

The theoretical hydropower, which provides the manipulation of the flow rate of seaweed,

(680n), power generation facilities (680p) and waterproof facilities (680q) are installed in the same water intake facility (680n) as that of the mouth type multi-stage pump (2) (944) of the hydroelectric power plant (943), and the marine tidal power plant in the form of a spinning mill type, which is the same as that of the hydraulic system, is equipped in the ocean, and small, medium and large sized marine nuclear hydroelectric (593, 594, 595) of nuclear power plants, the nuclear waste disposal facility of a marine nuclear hydroelectric power plant having dual structure block tank dust collectors. Dispensing devices.

Referring to FIG. 68, the nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydroelectric power station (593,594,595) Location control of construction equipment of the hull (811a) Location of each power plant in the Han River system showing the position control structure of movement control Hydraulic power plant Construction machine connection structure (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants (593,594,595) constructed at the upper part of the ship's dock deck (SDU) Straight configuration of the structure Road,

Referring to FIG. 69, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydroelectric power station (593,594,595) Location control of construction equipment of the hull (811a) Location of each power plant in the Han River system showing the position control structure of movement control Hydraulic power plant Construction machine connection structure (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's dock deck (SDU) Straight configuration of mechanical connection structure Road,

Referring to FIG. 70, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydroelectric power station (593,594,595) Hull position transfer Construction machinery equipment control unit (811a) Bernoulli clean-up hydroelectric power plant construction equipment showing displacement control structure Construction machinery Hydraulic power plant construction machinery showing connection structure Straight configuration of connecting structure Road,

Referring to FIG. 71, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear Hydroelectric Power Plant (593,594,595) Hull Location Moving Construction Machinery Control Section (811a) Hydraulic Power Plant Showing Construction Machinery Position Control Structure of the Moving Adjustment Straight Construction of Construction Machinery Connecting Structure Road,

72, a nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear Hydroelectric Power Plant (593,594,595) Hull Location Moving Construction Machinery Control Section (811a) Hydraulic Power Plant Showing Construction Machinery Position Control Structure of the Moving Adjustment Straight Construction of Construction Machinery Connecting Structure Road,

Referring to FIG. 73, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear power plant. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear Hydroelectric Power Plant (593,594,595) Hull Location Moving Construction Machinery Control Section (811a) Hydraulic Power Plant Showing Construction Machinery Position Control Structure of the Moving Adjustment Straight Construction of Construction Machinery Connecting Structure Road,

Referring to FIG. 74, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear Hydroelectric Power Plant (593,594,595) Hull Location Moving Construction Machinery Control Section (811a) Hydraulic Power Plant Showing Construction Machinery Position Control Structure of the Moving Adjustment Straight Construction of Construction Machinery Connecting Structure Road,

Referring to FIG. 75, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) HYUNDAI HYDRAULIC POWER PLANT (593,594,595) HORIZONTAL POSITION CONSTRUCTION MACHINERY CONTROL DEVICE (811a) MOVEMENT CONTROLLING MACHINE PUMPS FOR HYDROPOWER DEVICE SHOWING POSITIONING CONFIGURATION (943a) MAIN VALVE (265) Straight configuration of connecting structure Road,

Referring to FIG. 76, the nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) HYUNDAI HYDRAULIC POWER PLANT (593,594,595) HORIZONTAL MOVEMENT Construction machinery equipment control unit (811a) Movement control construction equipment Location control structure Tidal dam hydroelectric power plant construction machinery Straight-line construction of connecting structure Road,

Referring to FIG. 77, a nuclear hydroelectric power plant 811 having a dual structural block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing hydroelectric power plant construction machine position control arrangement Distribution device of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with dust collector Main body (1) Small, medium and large scale ocean (593,594,595) Nuclear hydropower plant (593,594,595) Ship's location Moving construction machinery control section (811a) Movement control construction machine Location control structure Dam hydroelectric power plant Construction machinery Straining structure of connecting structure Road,

Referring to FIG. 78, a nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811b) of the marine hydroelectric power production control unit which produces the power of the marine nuclear power plant, the hull position of the floating dock (593,594,595) of the small, medium and large sized marine nuclear power plant constituting the upper part of the ship deck (SDU) Incorporation of Toricelli's Theorem Relation (269), which shows the construction machine position control arrangement of the regulator. The theoretical hydraulic force, which provides the manipulation of the flow rate and the flow rate of the seaweed, consists of an input to the aberration, A water supply facility 680o, a power generation facility 680p and a waterproof facility 680q are installed in the water intake facility 680n which is the same as the arrangement of the multi-stage pump 2, Nuclear power plant consisting of single-flow type large-scale hydroelectric power plants (944) Nuclear power plant operating at nuclear power plant Elemental marine power plant showing the construction of one embodiment Small, medium and large marine hydroelectric power plants at the upper deck (593,594,595) hydroelectric power plant for control of hull position movement elementary dual structure block tank structure showing control structure of the construction machine Distribution tank of reactor facility for nuclear waste disposal of marine nuclear hydroelectric plant with dust collector (593,594,595) Hull Location Moving Construction Machinery Equipment Control Section (811a) Flow Control Hydraulic Generation Equipment Construction Machinery Showing Location Control Structure of Moving Controls Straight configuration of connecting structure Road,

Referring to FIG. 79, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor apparatus for processing nuclear waste. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear power hydroelectric power plant (593,594,595) Control of the construction equipment of the hull (811a) And a boom 882a and a diesel engine 882 are connected to a pile driver 876 and a pile driver 882 on an asphalt finishing machine 871 and an asphalt spreader 872 on a hearth safety device 864 connected to a satellite control section for preventing nuclear radiation pollution. Pile hammer (883) Double structural block of construction machinery connection structure Drilling machine for crude oil at the inside of tank pipe pier (928), double structure block tank pipe bridge (937) and nuclear waste disposal marine tunnel traffic facility (941) (908) Nuclear power generation equipment Construction machinery Straight-line configuration of connecting structures Roads,

Referring to FIG. 80, a nuclear hydroelectric power plant 811 having a dual structural block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for processing marine nuclear hydroelectric power plants. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear power hydroelectric power plant (593,594,595) Control of the construction equipment of the hull (811a) (811a) of the nuclear power generation nuclear waste treatment unit (811a) which is connected to the satellite control units for prevention of nuclear radioactive contamination. The upper tank barge hull (591) and the lower tank barge hull (592) The dual structural block tank (598) is a component-specific assembly process that depicts floating lift tank assembly and auxiliary lifting / lowering portable rocker coupling pin connection shaft (606) and portable lug (607) Nuclear power plant nuclear waste disposal unit (811a) of nuclear power generation facility division (811a) Hull position transfer Elementary nuclear power generation facility showing configuration of control section of construction machinery Expansion of main part of marine power plant with assembly method of poison hull assembly Straight-

Referring to FIG. 81, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear hydroelectric power plant. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear power hydroelectric power plant (593,594,595) Control of the construction equipment of the hull (811a) (879a) and a bucket dredger (879b) of the dredger (879) connected to the satellite control parts for prevention of nuclear radioactive contamination and the steel plate bending method for the piping block of the marine power plant lifting dock , Showing the partial side view of the front side of the steel structure inside the double pipe structure provided with the welding joint basic method, and the construction of the nuclear power plant lifting dock hull assembly method showing the construction of the steel pipe manufacturing process.

Figures 55 through 81 are schematic diagrams illustrating one embodiment of a dispensing apparatus for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector according to the present invention.

As shown in Figs. 68 to 77, in the conventional type of the dam water gate 293,

It is provided on the upper part of the fixed dam, and it is closed at the rising season to increase the water level on the upstream side,

In the flood season, the dam water gate 293 is opened and waterproofed to prevent the water level from rising excessively,

It has the function of constructing to discharge sediments deposited on the upstream side of the dam. There are several kinds of gates used in this,

The sloshed gate that constitutes the dam hydroelectric power plant is used,

This is the simplest water gate (293) used for a small-sized dam. The gate is usually constructed by vertically opening and closing a rectangular door. A roller gate is used. When the slug gate is enlarged, In order to reduce the frictional resistance, a roller is used here, and the up and down operation of the water gate 293 is usually performed using a wire rope and a tongue winch 137.

The water gate 293, which constitutes the dam hydroelectric power plant,

The water level 293d is regulated by the anchor portion fixing portion 293e and the fixing portion 293f while the design water level 293c is adjusted by the dental gate 293a and the rolling gate 293b.

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

The power generation and production unit 811b of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility and constructed in the SDU of the body of the marine power plant dock hull deck Adjusting the location of the construction machine for the tidal winch (137) and the water gate (293) for the adjustment of the water gate opening and closing with a rope or a chain wound on the fuselage of the hull position movement control of the floating type poison (593,594,595) of small size, medium and large sized hydro- The present invention provides a marine power plant installation condition including the hydrodynamics of the physical properties and hydrodynamics of the water in the hydrodynamics of the prior art based on the theoretical physics method of the Bernoulli theorem of the connection structure showing the structure .

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

In the physical properties of water, the density of water is maximum at 4 [℃] under atmospheric pressure and varies somewhat with temperature, but since the change is very small, it can be treated as having a constant weight in normal hydrological calculations. In other words, the weight of water is 1 [g / ㎤] or 1 [t / ㎡]. However, since the rate of change of the volume, that is, the compressibility of water, is only about 5 ㅧ 10-5 at a change of 1 atmospheric pressure at room temperature, water is usually considered to be incompressible.

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

If there is a difference in flow velocity within the working fluid, a force is generated that resists its relative motion. This property is called viscous or internal friction, and its degree is represented by the viscosity coefficient. In hydro hydrodynamics, the order of H [m] from the stationary water surface and the cross-sectional area A [㎡] think. The volume of this order is AH [㎥], and if the weight per unit volume of water is ω [kg / ㎤], the total weight of this order becomes ωA H [kg]. Therefore, the order is supported by the force of water ω [kg] acting upward from its base, and is in equilibrium.

로 된다.That is, since W = ωA H [kg], the average force p [kg / T m2]

.

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

를 압력 수두라고 하며 압력의 단위로서는 [k g/㎠]또는 [k g/㎡]를 사용한다.The p is referred to as the pressure or pressure at the depth H [m], and the water pressure P acting on the whole is called a voltage force or a total pressure.

And the unit of pressure is [kg / ㎠] or [kg / ㎡].

 As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

In hydrodynamics, the law of motion of fluid (water) is handled, and the motion of the fluid is largely divided into a flow, a wave, and a wave. When the flow is divided again, the stream becomes a square geometric line. The streamlines become tangled with each other and become turbulent. The flow of fluid used in hydroelectric power plants is generally turbulent, and the amount Q [m 3] of water flowing in pipelines and waterways is expressed as the product of the cross sectional area A [m 2] of the water flow and the average flow velocity υ [m / s].

( Q = A ㅇ υ [㎥]) Equation ②

 As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

로 부 터

가 된다. Speaking of the stage area, each _{A 1 [㎡], A 2} [㎡] The average flow velocity on the two points on the leading and surrounded by a solid of the channel, such as _{a, b υ 1 [m /} s], υ 2 [m / s] , The quantity of water flowing from point a in unit time is A ₁ B ₂ [m 3 / s], and the quantity of water flowing out of point b is A ₂ υ ₂ [m 3 / s].

from

.

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The construction machine of the dispensing device,

By water flowing at a rate υ is thought to have the head that corresponds to the height of the yisangron H bottom in a water bath with the ^{H (= υ 2/2 g} ) as the velocity head and the cross-sectional area relative to Torricelli's Law to the end ① A very small hole on the side of the side, says this relationship is Toricelli's theorem.

조의 단면적은 분출구의 단면적 보다 훨씬 크기 때문에 υ ₁ 는 무시된다.(≒0)또, h ₁ - h ₂ = h인 조건을 윗 식에 대입하면,

으 로 부 터

를 얻는다.Actually, due to the viscosity of water and the friction loss in the ejection hole, the actual ejection speed υ ₂ 'becomes slightly smaller than υ ₂ and is expressed by the following equation, that is, the velocity υ ₂ of the water ejected from the orifice ➁ is given by Bernoulli's theorem

Sets of cross-sectional area υ ₁ is ignored because much greater than the cross-sectional area of the air outlet (≒ 0) _{Also, h 1 -. H 2 =} h Substituting the above conditions in the formula,

From

.

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

(679m), mechanical energy (679n), electrical energy (679o), theoretical hydraulic power (679p), aberration output (679q), generator output (679r), hydroelectric power generation As shown in Fig.

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

_{(Η t), (η g} ) is aberration, respectively, in the form of a generator, the capacity, but differ slightly depending on the size of the load _{η t = 80 ~ 90 [%} ] at the time of rated _{operation, η g = 90 ~ 97 [} % ], And the product of these two factors, η = η _t η _g , is called total efficiency. As can be seen from the above equation, how to obtain a large free fall ( H ) and economically obtain the quantity of use ( Q ) to use hydraulics effectively is a problem. If the downstream part of the stream is used, the amount of water to be used can be increased, but the drop amount is reduced. On the other hand, in the upstream part of the stream, a large fall can be obtained.

 [Table 1] Approximate values of aberration and generator efficiency

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

For the types and facilities of hydroelectric power plants, hydroelectric power stations are divided into various categories according to the intake method and operation method.

The dam-type power plant and the watershed-type power generation plant are formed in the dam-type power generation plant and the hydroelectric power generation plant. The dam-type power generation plant forms a dam that crosses the river to block the runoff, It is not economical because it requires a considerably high dam and a large area of burial. However, in addition to an aptitude terrain, it is often used for irrigation or flood control reservoirs. This dam is most useful in Korea and it is very important to construct this dam in future.

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

A dam constructed for the purposes of power generation, irrigation, and flood control is called a multipurpose dam. In addition, it is often impossible to avoid considerable fluctuations due to the imbalance between the amount of rainfall and the amount of water used.

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

This is because the larger the amount of water stored in the dam is, the more economically advantageous and also the better in terms of operation. Therefore, in the lower part of the Han river system which is relatively sloping and abundant in Korea, this type of power plant is called Chuncheon, Power plants and so on.

The conventional hydraulic power generation outline 679s includes a concept diagram 679t of a dam type power plant of the construction machine connection structure and an inlet valve 679x to a water intake tower 679v and a ball tap valve 679w to a screen 679u, The main transformer 679z constitutes a hydroelectric power plant in the device 679y.

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

The conceptual diagram of the conventional dam-type power plant (679t)

River (678) A dam is built in the liquor to make a small river channel or a pressure channel. The river or the crest of the river (678) Water is used in the case where water is supplied from the water inlet 678g, the gypsum 680k, the water channel or pressure water channel, the water tank 680m or the coarse water tank 680j, the water gate 293, the water pipe 191, And the watertight path 678b, and the needle 680k is brought close to the intake port 678g to temporarily stop the water, thereby removing sediments such as soil, sand, and vegetation, thereby allowing only clear water to enter the water channel. On the surface of the silt paper (680k), it is used as a drainage path to discharge sediment and sand.

As shown in FIGS. 68 to 77, the nuclear reactor of the nuclear waste hydrothermal plant equipped with the dual structure block tank dust collector is installed in the main body 1 of the nuclear reactor waste disposal reactor, The hydropower installation of the dispensing device,

Double structure block tank which constitutes the hydropower installation of the distribution system of the nuclear waste disposal reactor of the hull position movement control of the floating type poison (593,594,595) of small and medium sized and large sized marine nuclear hydroelectric power plant constituting hydraulic facility to the ocean (811) Nuclear power plant (811a) in the nuclear power plant (811a) in the main body (1) of the nuclear power plant installed in the main body (1) of the nuclear reactor facility for processing nuclear waste of a marine nuclear hydroelectric power plant having a dust collector. The distribution shaft constituting the nuclear waste disposal marine tunnel transportation apparatus 941 and the distribution input apparatus main body 1 of the nuclear waste disposal reactor apparatus are distributed to the marine nuclear hydroelectric power plant having the double structure block tank dust collector The insertion device of the nuclear reactor waste disposal unit is inserted into the double structure block tank dust collector,

As shown in FIGS. 68 to 77, a small-sized, large-sized and large-scale marine nuclear hydroelectric power plant constituting a distributing and inputting device for a nuclear waste disposal facility of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector At nuclear power plant facilities of food poisoning (593, 594, 595)

(811b) of the atomic hydroelectric power plant (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor facility, And the hydropower plant which constitutes a hydropower station constituting the construction machine position control of the hull position movement control of the floating type poison (593,594,595) of medium and large sized marine nuclear hydroelectric power plant,

By making a remarkable difference from the conventional hydropower plant using the flow rate and dropping rate, it is possible to always take the flow rate necessary for power generation safely,

In addition, the hydraulic equipment should be constructed so as to minimize the loss of head and flow,

A circular prefabricated water tank 292 located at the top of a mountain formed in the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector and the inside of the circular dam 680 And the water tank 292 containing the disaster prevention water of the disaster prevention water and the circular dam 680 containing the disaster prevention water and the construction equipment of the nuclear power plant having the plurality of construction machines for overcoming the flood A non-powered pump 393 having a cooling water supply for regulating the position of the reactor installation of the nuclear power plant,

(184) equipment of a water tank, an electronic sensor valve, and a control system to constitute a plurality of nuclear reactor facilities of the nuclear power plant constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor.

Hereinafter, the water source and the water quality of the fire water (7) for the distribution input unit of the nuclear waste disposal facility of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector will be described in detail as follows.

The water that is exposed on the surface of the earth, such as river water or lake, is called surface water, and the water that is submerged in the ground like a well is called ground water. The average water temperature is 16 ° to 17 °, and water quality is good for cooling and industrial water because of the difference in water temperature due to seasonal changes. To use,

Since river water is abundant in quantity, it is purified and used widely as tap water in large cities. Water and water are 3 ° to 8 ° in winter, 25 ° to 28 ° in summer, and it is not suitable for photography,

The quality of water depends on the pests and germs contained in the water, and turbidity, color, taste, odor, etc. are different. Therefore, if it exceeds the allowable content, it is prohibited to use it. Germs are a cause of disease and pests are minerals that exceed the standard value, which adversely affect cooking and laundry. The hardness of water is expressed based on the content of minerals such as calcium carbonate in water. That is, when calcium carbonate is contained in water by a factor of a million, this is called 1 (p.p.m; p a r t p m r i l i o n).

Drinking water should be in the range of 90 to 110 (ppm) and should not exceed 300 (ppm). Water should be divided into soft water and soft water depending on the hardness. Water below 90 ppm is called soft water Lt; / RTI &

The water 654 includes a nuclear power plant 672 for providing explosion prevention of the nuclear reactor constituted by the reactor water facility waterproofing water 7 of the nuclear power plant with the hard water 654a and the heavy water 654b or the pressurized heavy water 654b. A double structure block tank dust collector having a double structure block tank dust collector provided with an artificial tunnel 672a of a double structure block tank dust collector constructed in the main body 1 of a reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant, The distribution system of the reactor facility for the nuclear waste disposal of hydroelectric power plants is composed.

In general, the pump body will be described as follows.

The positive number of the pump is performed by an operation of sucking up the suction pipe by suction and a function of pushing up and raising the pipe which blows water.

The sucking action is due to the vacuum, so atmospheric pressure head. In other words, it can not be raised more than 10.33m under standard atmospheric pressure. However, this 10.33m is the theoretical sump height. In fact, it can not be completely vacuumed by the evaporation of the air or the water contained in the water. Also, by the resistance loss in the sucking tube, about 2/3 of the theoretical sucking height In other words, it is only about 7m.

Therefore, the height of the pump should be less than 7m from the minimum water level (hereinafter, the explanation is omitted).

As shown in FIGS. 68 to 77, in a construction machine constituting a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

In general, the water storage tank of the nuclear power control facility, the marine tunnel transportation equipment, and the construction equipment for the marine hydroelectric power dam are installed inside the distribution input unit of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structural block tank dust collector It is equipped with a barge hull at the top of the holding tank and a barge hull at the bottom of the holding tank to provide the weather information to the nuclear power generation control facility, Meteorological large-scale offshore hydropower plant Meteorological observation equipment of connecting structure Meteorological information is received through the level, and water storage tank equipped with construction machine and circular dams are injected into pump and valve. Nozzle, non-powered pump and cable car It is also equipped with a connection structure and a tunnel distribution input device, Each water tank in circular shape located at the top of the mountain chooses stainless steel plate or plastic material that does not rust and constitutes the distribution equipment of the construction machine for the dam. Tanks that control the storage and flow of 30,000 cubic meters of water Respectively,

The water tank is composed of double structure block tanks, and water is stored in the inner block tanks. The water is protected from freezing in winter. The outer wall of the outer block tank is provided with a thermal insulating material. It is equipped with air conditioner of cooling device and heating fan and cooling fan for air heating, equipped with a device heater, and is installed inside the dispensing device of the reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a double structure block tank dust collector .

A water tank provided with tanks for controlling the flow of water and the storage of water constituting the inside of the distribution and dispensing apparatus main body of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

In the manufacturing method according to the portable coupling device which can be separated and separated from the crest, the steel plate with the high tension at the lower part of the bottom of the tank excluding the welding process and the lid stopper plates at the upper part of the tank are not attached. 60c &lt; / RTI &gt;

A large number of stainless steel plates set in accordance with the standard of inner block tank (width × length × thickness; 1.5m × 1m × 3m m) equivalent to the formwork mold were molded into a circular tank by bolts and nuts, The inner block tank and the outer block tank, in which each steel plate was joined in a cylindrical shape with gaskets before joining with a hand tool in the machining hole of each processed stainless steel plate, And gravel concrete are mixed with a concrete concrete batching plant, a concrete finishing and a concrete spreader, and then conveyed to a concrete mixer truck. Then, a double structure block Dispensing input device of reactor facility for nuclear waste disposal of marine nuclear hydroelectric power plant with tank dust collector Small, medium, and large (593, 594, 595) of a marine nuclear hydroelectric power plant of a marine nuclear hydroelectric power plant having a double structure block tank dust collector for controlling the hull position movement,

(811) consisting of the inside of the main body (1) of the nuclear reactor waste disposal facility for the nuclear waste water treatment plant of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector, the hull position of the nuclear waste disposal unit (811a) (941), which is a control shaft of a mobile nuclear power plant facility, and a distribution shaft constituting the inside of a distribution and dispensing apparatus main body (1) of a reactor facility for nuclear waste disposal, is divided into a double structure block tank dust collector The distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant is inserted into the dual structure block tank dust collector,

The mixed reservoir is composed of a mixed pumped hydroelectric power plant, which has a natural inflow from the river and a shortage of water from the lower reservoir. The upper reservoir has a natural inflow, (267). However, when the pump of the motor is pumped so as to generate electricity when the pump is pumped, the turbine aberration is provided to the electric motor generator attached to the rotary shaft. At this time, the valve next to the pump aberration is expanded, And the nozzle hole 20 is formed in the turbine 74. The reversible pump aberration shows 70 percent power generation at 100 percent positive power and the present domestic pumping power plant is located at Cheongpyeong 40 (600,000 KW), Suyuan (700,000 KW) and Yangyang (1 million KW), which are all in the order of the latter Unlike the above-described method, the perforated hole itself of the bottom hole becomes the injection nozzle, and the blade hole 20 of the turbine 17, which is the nozzle hole 20, And the rotational speed of the aberration is adjusted while balancing the pressure of the turbine blades.

(593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the distribution input unit of the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant with dual structure block tank dust collector .

It is often the case that the ships sink into the water due to the loss of equilibrium from the strong wind waves. After the ocean crane is installed on the upper part of the hull deck deck, the engine or water turbine generator is activated,

Considering that it is used as a ship for marine control after it is fixed and bound to a ballast as a wire rope or rope at the rear of a tugboat, the marine power plant mooring facility is equipped with a fixed double-pipe tank bridge construction bridge saddle formwork Piers within 0.1 km to 10 km depth of the sea floor should be connected in 0.5 km increments.

As described above, the marine power plant of the present invention is equipped with a double structure block tank dust collector according to the depth of the ocean so as not to sink even under a bad weather condition in an area having a depth of 10 km or more, The disengagement of the dispensing apparatus of the processing reactor installation is provided,

Examples of combining materials of mechanical seals are as follows.

In the contrast means according to the vibration of the pump according to the present invention,

The vibration of the pump is very much overlapped with one or several factors.

First,

First, vibration caused by cavitation: a period of about 600 to 25,000 cycles brings about rapid vibration and noise.

The second is vibration due to surging phenomenon: the cavitation occurs when the discharge amount is large, but the surging occurs not only when the discharge amount is small, but also the cycle has a long period of about 10 to 0.1 times.

Third, vibration due to waterhammer (water hammer)

Fourth, the vibration due to the unbalance of the flow in the pump,

The following is the result of mechanical vibration,

First, the vibration due to the unbalance of the rotating body,

Second, the vibration due to the dangerous speed causes a severe vibration caused when the rotational speed of the shaft resonates with the natural frequency of the rotating body, and the rotational speed at this time is referred to as a dangerous speed.

Third, vibration caused by solid friction occurs as a kind of self-excited vibration, when the lubricating oil is insufficient in the rotating shaft or when the active part such as a bearing, a bush or a ring contacts.

Fourth, the vibration caused by the hydraulic pressure of the bearing is vibration caused by the hydraulic pressure of the bearing part when the rotary shaft rotates at an angular speed about twice as high as the dangerous speed. It is not so common in the normal speed pump, can do

Fifth, the vibration due to the natural frequency of the pump is particularly problematic in a vertical axis pump,

Sixth, the vibration due to the centering failure is very important in the case of centering failure, and it is important that the vibration must be carefully considered.

The seventh is the vibration caused by the prime mover

It is the vibration that happens because the foundation is weak in the eighth

Output definitions for the use of the diesel engine 226

First, the term commercial refers to the generator Refers to the applied output (I S O 8528 P R P)

Secondly, the term "emergency" refers to an output (equivalent to ISO 8528 ESP) applied to an emergency generator used for a limited time during a main power failure, in which an engine model is formed, including a cooling fan 195, a cylinder 126, And the belt 252 and the flywheel 268 are assembled and attached.

As shown in the figure,

As shown in the above table, the output tolerance is ± 5%. The description of the specification of the engine 226 is the same as that of the engine specification specification of the right side.

<Engine specification>

Finally, the precautions for handling the compressor are described in detail as follows.

First, for general precautions,

First, the compressor is always kept clean and the surroundings are cleaned and arranged thoroughly.

Second, when the operation of the compressor is shut down and the compressor is shut down for a short period, the compressor is operated once a day for a while.

However, in case of long-term shutdown, disassemble and disassemble, replace worn or damaged parts or lubricant with new ones, remove all cooling water (drain) and do anti-corrosion measures.

Third, each axis is checked and adjusted whenever there is an opportunity.

Fourth, valves, pressure gauges, regulators, filters, etc. are regularly inspected and routinely inspected to prevent malfunctions.

Fifth, cool water uses clean water. Cooling tube is disassembled every June or year. It is cleaned with water vapor. If the weight is decreased by 10% or more, it is corroded or worn.

Sixth, always pay attention to the gas leakage of each part, and the toxic and flammability should be detected with a detector and take appropriate measures.

Seventh, oil is chosen with the help of a mker.

In the eighth, if there is an abnormality, stop driving immediately and notify the maker and ask for repair.

In the following notes on starting,

Be sure to check that bolts, nuts and other screws are tight.

Next, fill the crankcase with a specified amount of lubricating oil and check the lubrication condition.

Pass the third cooling water and check the circulation of the cooling water.

Next, open the pressure gauge, pressure regulating valve, drain valve, etc., and check the pressure indication for any abnormality.

Next, the small compressor is rotated by hand with no load. Check that the motor is connected to the cylinder by inserting the switch after checking it.

The sixth suction valve is closed and the switch is opened with the bypass valve or drain valve open.

Next, when the normal rotation is performed, the drain valve and the bypass valve are closed from the first stage to the next stage, and the suction valve is simultaneously opened.

Finally, pay attention to pressure, lubricating oil, temperature, noise, vibration leakage at each stage.

Then, in the notes during driving,

The pressure, leakage, vibration, temperature, abnormal noise of each stage, the quantity and temperature of the cooling water, the temperature and pressure of the lubricating oil and the load of the motor are checked.

In particular, pay attention to abnormal rise or drop in temperature or pressure, and never try to tighten or hammer the bolt during operation.

This is divided into the following.

First, regarding the handling of the reciprocating compressor,

First, the scale of the pressure gauge, the abnormality of intake / exhaust gas temperature at each end,

Second, the change of bearing temperature,

Third, watch for changes in the coolant temperature and adjust the quantity if necessary.

Fourth, keep an eye on the cylinder lubrication and control the flow rate, or supply oil to the lubricator.

Fifth, changes in external flow rate and hydraulic pressure,

Sixth, the leakage and temperature rise of piston rod packing,

Seventh, whether or not the color of the drain is rapidly blackened,

Eighth, whether there is any difference in sound or vibration of each part from normal,

Ninth, whether there is any leakage of gas from valves such as safety valve, drain valve, or flange, joint or other tight surface,

Next, whether there is any abnormality in power consumption,

Finally, the abnormality of the automatic device / monitoring instrument operation,

The following describes the handling of the turbo compressor,

First, the lubricating pressure of the bearing lubricating oil, the temperature of the returned oil,

Second, the oil pressure or return oil pressure for the shaft bar, or the differential pressure or leakage flow rate,

Third, the vibration of each part such as main body, bearing,

Fourth, the existence of abnormality of bearing water temperature,

Fifthly, the change of the cooling water temperature is monitored, and the quantity of water is adjusted when necessary.

Sixth, is there any leakage of gas on piping system valve or flange connection or other tight surface,

Next, whether there is any abnormality in power consumption,

Finally, the abnormality of the automatic device / monitoring instrument operation,

In the notes at the fourth stop,

First, switch off the electric motor and close the intake valve.

Second, check the pressure drop and close the discharge valve. Observe the abnormal sound or vibration until stop.

Next, close the chilled water valve to cut off the chilled water and drain all of the water in the water jacket or chiller.

Finally, discharge any other condensate or oil.

In the notes on the fifth disassembly and inspection,

Firstly, when disassembling and checking, make sure that the machine is disconnected from the power source so that it does not operate.

Secondly, if the gas inside is toxic or flammable, it should be completely insulated and replaced with inert gas.

The following should be done after confirming that there is no pressure at each end of the decomposition operation.

Finally, when the cylinder head is disassembled, the bolts alternate in the order of the opponent facing each other, and gradually release to the two relatively positioned positions (of course, confirming that there is no abnormality,

As shown in FIG. 68 to FIG. 77, in the fire fighting and disaster countermeasure apparatus constituting the dispensing apparatus of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

As described above, the distribution unit of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant equipped with the double structure block tank dust collector is divided into the prime mover constituting the inside of the body and the motor connected to the compressor. As the equipment for disaster prevention, according to the type of fire, according to the ignition material, the damage caused by the fire occurring in a moment of instant, which is one second as described above, can not be deduced. Therefore, Should be chosen most suitably.

As shown in FIG. 68 to FIG. 77, in the fire fighting and disaster countermeasure apparatus constituting the dispensing apparatus of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

A paraffin tape 177 and a paraffin nozzle cap 100 constituted inside the dispensing and dispensing apparatus main body 1 of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, A nozzle-type nozzle pipe for burning a candle with a paraffin liquid in a paraffin nozzle stopper (100), which is attached together with a spark-ignition sensing wire (41) which is also used as a fire heat detection sensor when the spray nozzle (10) Hose connecting socket joints and paraffin tape (177) are burned by fire, and fire hose (inside hose length 15m, divided into 1 type and 2 type, (Acid, alkali (alkaline), or alkaline earth) together with fire-fighting water (referred to as disaster prevention water or control water, 7), which has the water pressure (less than 10 kg per 1 cm 3) Fire extinguisher And a fire extinguisher includes a chlorinated carbon dioxide fire extinguisher and a carbonic acid gas fire extinguisher.) It is generally used as a powder fire extinguisher in a pump fire extinguisher. In the present invention, the fire extinguisher 124 including the loess 158 and the fire extinguisher 159 is included. ,

As shown in FIG. 68 to FIG. 77, in the fire fighting and disaster countermeasure apparatus constituting the dispensing apparatus of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

It is simultaneously discharged to the outside of the body of the fire extinguisher 124 in which the incombustible gas 164 stored in the plurality of fire extinguishers is stored and the number of round straight ejection nozzles 38 of 490 places and the number of the eight places A plurality of curtain water films 39 of a plurality of fire and flame pyrotechnic objects 166, fire type A fire and B fire and C fire type separation, And a cooling action for lowering the temperature of the ignition target (combustible material) 166 to a temperature lower than the ignition point, and the hose 9, The main method of extinguishing water is cooling.

In this case, the nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a double structure block tank dust collector is performed so that the initial evolution is performed within 1 second. The initial evolution scene is transmitted to the unmanned camera 184 installed on the upper part of the main body of the fire in the vicinity of the fire scene formed inside the distribution dispensing apparatus main body 1 of the nuclear reactor installation, And is formed into a sonar fish finder 907 of a sensor sensing function which provides a shape of a submarine object constituting a display of a fire scene situation on a monitor 52 through an information sensing function of a pump control server 51 Nuclear Hydroelectric Power Plant Consisting of Nuclear Power Plant's Nuclear Waste Treatment Nuclear Power Plant (1) Achieved.

Nuclear waste water treatment plant with double structure block tank dust collector for the control of hull position movement of floating type poison (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plant constituting nuclear hydroelectric power plant in the ocean (811) constituting the distribution input apparatus main body (1) of the nuclear reactor waste disposal apparatus constituting the distribution dispensing apparatus of the facility, and (811a) of the nuclear power generation nuclear waste disposal apparatus Nuclear waste disposal (control shaft) The marine tunnel transport system (941) and the distributing unit of the nuclear reactor waste disposal unit main body (1) are distributed to both sides of the distribution shaft, and a double structure block tank The dispensing apparatus of the nuclear reactor waste disposal facility is inserted into the double structure block tank dust collector,

As shown in FIGS. 68 to 77, a small-sized, large-sized and large-scale marine nuclear hydroelectric power plant constituting a distributing and inputting device for a nuclear waste disposal facility of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector (593, 594, 595) of nuclear power plants.

The pump aberration 37 and the turbine aberration 74 are supplied to the inlet multi-stage pump 8 and the high-performance submerged pump 36, which are a plurality of can pumps, inside the double pipe nozzle body B constituting the nuclear power plant facility, The turbine pump 140 and the diaphragm 144 and a plurality of compressors integral with the reciprocating air compressor 80 and the plunger pump 148 in the form of a plunger 253,

The guide vane 142, which is a guide vane 142 formed inside the spiral casing 141 as a compressor and a compressor body, is not attached to the ballast pump. The impeller 143 is installed inside the casing 141 pump The impeller 143 is rotated about the axis of rotation of the motor-driven electric motor as the motor body 192, which is the motor body 192, (198).

The impeller 143 or the diaphragm pump 144 and the propeller pump 146 constitute an axial rod device of the pump according to the respective pump names inside the squirrel pump 147 body As described above, the gland packing 155 and the mechanical seal 156 can be cooled and lubricated by quenching, cooling and flushing, cooling, and other functions. The dual structure block tank scrubber And the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus of the marine nuclear hydroelectric power plant having the above-mentioned nuclear reactor.

As shown in FIGS. 68 to 77, a small-sized, large-sized and large-scale marine nuclear hydroelectric power plant constituting a distributing and inputting device for a nuclear waste disposal facility of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector (593, 594, 595) of nuclear power plants.

Therefore, in accordance with the maritime sovereignty of the main unit (1) of the reactor installation for the nuclear waste disposal of the marine nuclear hydroelectric power plant equipped with the dual structure block tank dust collector, the blades of Russia, It connects the Pohang to the Dokdo and transports the energy resources. It connects Yeosu and Jeju Island with the double structure block tank, the marine tunnel transportation equipment, the land and the book connection, the Pyeongtaek and Baekryeongdo and the Shandong Peninsula, Block tanks, marine tunnels, and other illegal fishing vessels or military vessels of other countries that transit to the territory of the 5th degree (NLL) territory of the West Sea, Respectively,

In the fishery area, illegal fishing boats can not restrict the access of illegal fishing boats because the illegal fishing boats can not pull the net after throwing the net on the fishing ground, so that those skilled in the art can use the military defense Of nuclear power plants Alternative structure block tank to control the nuclear radiation leakage of reactor facilities of nuclear waste disposal screening equipment Distribution and input device of reactor dust collector is divided into double structure block tank Marine nuclear hydropower And the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus of the nuclear power plant.

In order to secure the safety of such existing nuclear reactors, it is necessary to construct nuclear reactor radiation leakage control of a safety reactor having a double tube structure and at the same time to solve the method of treating the radioactive waste. In the present invention, nuclear waste of a marine nuclear power plant equipped with a dual structure block tank dust collector (1) Nuclear Radiation Leakage Control of Dual Reactor Block Tank Dual Reactor Block Tank Dust Collector as Connected Structure for Marine Ship Replacement Traffic Equipment Consisting of Distribution Apparatus of Reactor Dust Collector Dual structure of land and sea constituting distribution dispenser of nuclear waste disposal facility of a marine nuclear hydroelectric power station Distribution of nuclear reactor waste disposal facility of marine nuclear hydroelectric power plant equipped with block tank collector Nuclear power plant operation of main body Nuclear Hydroelectric Power Plant Nuclear Power Plant A dual structure block tank that controls the nuclear radiation leakage of the reactor facilities of the alternative nuclear waste disposal shielding system. It is equipped with the devices that constitute a safety connection structure that minimizes the explosion of the distributor and dispenser of the dust collector and constitute the operation of the nuclear power plant. In addition,

As shown in FIG. 68 to FIG. 77, in the disaster apparatus facility constructed inside the dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

(1) In the case of a nuclear power plant, which is composed of a nuclear power plant and a nuclear power plant, The tankers, bombers, bombs, bullets, satellites, missiles, nuclear bombs, and rocket bombs, all of which are military materials and distributed to the land, are not safe from manufacturing experiments on land. In addition,

By moving military materials to the location where the blast furnace of the steelworks is located, it is necessary to prepare for conversion to construction machinery and to establish the international community codes and norms to overcome the punk world economic crisis and to foster the environmentally friendly pollution- It is urgently necessary to construct a distribution and input device for the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dual structure block tank dust collector for the best efforts to nurture the world economy.

The distribution facility of the nuclear waste disposal reactor of the small-sized, medium-sized and large-scale marine nuclear power plant (593,594,595) that controls the distribution of the nuclear reactor waste disposal facility to the ocean (811) Nuclear waste disposal unit (811a) Movement of hull position of the nuclear power plant facilities Nuclear waste disposal, which is the control shaft of the nuclear power plant facility, (941) and the distribution shaft constituting the inside of the distributing and dispensing apparatus main body (1) of the nuclear waste disposal reactor apparatus are distributed to insert the dispensing apparatus of the nuclear waste disposal reactor apparatus into the double structure block tank dust collector In addition,

(593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device of the nuclear waste disposal facility, and the distribution input device of the nuclear waste disposal facility It is urgently needed to construct.

In addition, the damage of typhoon is human, physical, and astronomical, and it has a great impact on the national economy. Therefore, it is necessary to exercise the national cooperative spirit promptly according to the weather forecast of the Meteorological Agency. If the weather forecast is announced, which prevents damages caused by fallout, the fruit of the orchard is harvested by the national volunteer before the typhoon arrives and stored in the frozen warehouse, thereby reducing flood damage. As a way of doing this, the same nuclear waste treatment as the ways to cope with this flood,

In order to overcome the above-mentioned various disadvantages, it is necessary to install a double structure block tank dust collector constituting equipments equipped with a construction machine. The distribution input device construction machine of the injecting nuclear plant,

Nuclear reactor of marine nuclear hydroelectric power plant with double structure block tanks dust collector of the hull position movement of floating type poison (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plant constituting construction equipment to the ocean A dual structure block tank constituting a dispensing apparatus of a nuclear reactor waste disposal facility; and a nuclear hydroelectric power facility section 811 constituting a distribution dispensing apparatus main body 1 of a nuclear waste disposal nuclear reactor facility of a marine nuclear hydroelectric power plant having a dust collector ) Nuclear waste disposal of nuclear power plant nuclear waste disposal unit (811a) Nuclear waste disposal control facility (941) which is a control shaft of nuclear power plant facilities Nuclear waste disposal facility for nuclear waste water treatment plant equipped with double structure block tank dust collector The distribution shaft constituting the inside of the dispensing and dispensing apparatus main body 1 is distributed to the both sides of the distribution shaft, The installation and disposal of the reactor installation for the nuclear waste disposal of both nuclear hydroelectric power plants is inserted into the double structure block tank dust collector,

78, as shown in FIG. 78, a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the inside of the main body (1) of the nuclear power plant nuclear waste hydro- Hull position shifting of the nuclear hydroelectric power plant (811) of the offshore power plant of the marine power plant with adjustable hull position movement of the floating plant dock (593,594,595) of the power plant In the installation of the marine nuclear hydropower plant,

The nuclear waste disposal unit 811a of the nuclear hydropower generation facility unit 811 and the transportation transportation unit 811c of the hull position moving construction machine constitute the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor facility The distribution center of the distribution facility of the nuclear reactor facility is allocated to both sides of the distribution shaft to construct hull locating and construction machinery to prepare a plurality of nuclear reactor facilities into the double structure block tank dust collector,

In the distribution apparatus of the reactor facility for nuclear waste processing constituting a plurality of reactor facilities,

Buoyancy control tanks between the inner block tank 596 with dual structure block tank 598 and the vents of the outer block tank 599 are located outside the buoyancy tanks of the marine small, medium and large sized marine nuclear hydroelectric power plants (593,594,595) A nuclear waste treatment double structure block tank marine tunnel transport apparatus 941 provided with a pin connecting shaft 606 and a lug pin 608 for engaging the lug 607 and a small-sized maritime transport apparatus Lifting tanks (593, 594, 595) of medium and large sized marine nuclear hydroelectric power plants are identical to those provided for folding tabletop legs and unfolding devices, and the barge hull, which constitutes a marine nuclear hydroelectric plant,

The barge hull constituting the same type of table table,

The same table-top equipment as the holding tank 590 of the barge hull,

It is possible to prevent the sinking of the barge hull by providing an operation mode in which the table table leg is freely folded and unfolded by the human force as barge hull assembling devices,

In the barge hull assembling apparatus constituting the sinking prevention type,

The holding tank 590, which constitutes the assembly device for the barge hull,

Hydraulic cylinders (624) and hydraulic cylinder doors (624) are installed in the hydraulic rotary cylinder (620) and the hydraulic cylinder (623) as barge hull assembling devices. (593,594,595) of marine nuclear, hydro, and nuclear power plants with small, medium and large sized marine reservoirs for water storage control. Drilling halls of the dam construction machinery (936) Holding tanks provided with connection distributors and buoyancy control tanks (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants equipped with 590 connection structures.

As shown in FIG. 78, in the nuclear hydroelectric plant equipment constituting the distribution input device of the nuclear waste disposal reactor facility,

The buoyancy adjusting butterfly valve 622 and the buoyancy adjusting butterfly valve 622 having a connection structure to the solenoid valve 76 provided in a connection structure with the buoyancy adjusting tank of the barge hull constituting the nuclear hydroelectric plant are provided,

The upper surface of the sea surface (SLU) where the barge hull assembly is provided in the ocean while providing the on-time main switch button 66 operation of the main switch button 66 for the solenoid valve start switch button constituting the butterfly valve 622 opening , The barge hull 591 at the upper end of the holding tank and the barge hull 592 at the lower end of the holding tank are coupled to each other through a connecting structure of the holding tank 590 to unroll and open the holding tank 590 of the barge hull, The installation operation is provided from the ocean,

A buoyancy control tank and a buoyancy control tank connected to the upper end of the sea surface (SLU) having a coupling structure at one side of both sides of the holding tank (590) with a block tank- A solenoid valve 76 constituting an opening of the buoyancy regulating butterfly valve 622 having a connection structure to the buoyancy regulating butterfly valve 622 and the solenoid valve 76 and a main switch button for the start switch button, Provide the operation of the main switch button (66)

The barrel hull assembling apparatuses for constructing the barge hull assemblies constituting the unfolding and closing by the hydraulic cylinder doors 624 by the operation of the hydraulic cylinder 623 between the empty spaces for controlling the submergence of the barge hull, Respectively.

As shown in FIG. 78, in the nuclear hydroelectric plant equipment constituting the distribution input device of the nuclear waste disposal reactor facility,

The barge hull, which consists of electrolytic water storage between vents for diving control,

While buoyancy is lost, diving slowly into the water first,

A holding tank (590) with a portable trolley (607) combined with a block tank of a hull of a barge hull, a single vertical runner (607) on both sides, and a single vertical work hole (615) The shaft 606 structure is coupled by the operation of the hydraulic rotary cylinder 620 and the hydraulic cylinder 623 while the hydraulic cylinder doors 624 are fully closed and the horizontal holding tank 590 pipe bridge 928 )silver,

The barge hull and the lug 607 are provided with a connection structure on one side of the vertical lug 607 in a state where the buoyancy hull of the barge hull constituting the pipe bridge pier 928 assembly is not lost, The bottom tanker hull 592 of the holding tank bottom barge hull 592 is mounted on the underside of the ship and assembled with the barge hull assembling apparatuses so that the bottom of the bottom surface of the sea water surface To form an assembly form of the nuclear hydroelectric plant.

As shown in FIG. 78, in the nuclear hydroelectric plant equipment constituting the distribution input device of the nuclear waste disposal reactor facility,

Each stowage tank (590), which is not connected to the barge hull,

The upper end of the strut tank upper barge hull 591 constitutes a stern portion of each connecting strut tank 590 which is not connected to the barge hull 590,

A positional shift control is provided in a vertical state on the upper surface of the sea surface in a state where the positional movement adjustment is completed in the vertical state,

The connection shaft position of the connecting shaft of each holding tank (590) and the supporting tank top barge hull (591) is connected to the submersible and semi-working submergence line (637), the barge line and the tug line (636) (877) equipped with marine cranes, anti-erosion and anti-nuclear weapons mounted on the anti-submarine rescue ships, and nuclear waste disposal marine tunnel traffic devices. The installation base for the installation of the anti-sinking dock with the automatic connection structure of the fixing and the termination is provided, and the distribution machine of the construction machine and the nuclear waste disposal marine tunnel transportation equipment is provided,

(593,594,595) of the marine small, medium and large sized marine nuclear hydroelectric power plants to be equipped with nuclear power hydroelectric power plant facilities, The control air holes are provided as hydraulic cylinder doors 624 by the operation of the hydraulic cylinder 623 and are provided with the expansion and full closing of the hydraulic cylinder doors 624 and are located on the sea surface composed of the barge hull assembling devices It is configured to form the assembly form of nuclear power plant.

As shown in FIG. 78, in the nuclear hydroelectric plant equipment constituting the distribution input device of the nuclear waste disposal reactor facility,

A holding tank 590 of a barge hull having a coupled connection structure on one side of both sides of a holding tank is provided on the body of the barge hull body with a block tank combined rudder 607 of a barge hull provided in the ocean constituting a nuclear hydroelectric plant, A holding tank (590) for providing a buoyancy regulating device is installed in a small, medium and large sized marine nuclear hydroelectric power plant, which is provided with a holding block tank capable of adjusting the positional movement of the hull at a constant angle from 0 ° to 350 ° vertically and horizontally (593,594,595) from the ocean to the interior of the main body of the distribution system of the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dual structural block tank dust collector. Barge ship to the offshore hydroelectric power plant provided 591 Hull deck center (SDM) inside the plurality of inner block tanks 596 The power transmitting portion 811d for transmitting hydraulic power to both the forward portion of the deep portion and the stern portion is provided separately,

To the position of the upper end portion (SDU) of the double deck barge hull (591) at the upper end of the holding tank (590) provided with inserting the adjustment shafts constituting the power transmitting portion (811d)

A guide rail 618 located on the upper end SDU of the ship's deck is installed on the left and right sides of the deck deck and a crane 861 of 5000 ton capacity is formed on the guide rail 618, While it is equipped with barge hull assembling devices so as to form an assembly form of the nuclear power plant facility at the sea level.

As shown in FIG. 78, in the nuclear hydroelectric plant equipment constituting the distribution input device of the nuclear waste disposal reactor facility,

In the safety place where the crane 861 provided with the renovations of the nuclear power plant is installed, a double structure or a triple structure of a double structure large sliding hatch cover 153 is installed, and a hydraulic cylinder 623 And a hydraulic cylinder (623) for adjusting the position of each of the adjustment shafts provided as a connection structure for adjusting the position of the hull. The barge hull 591 at the upper end of the dual structure holding tank and the barge hull 592 ) And the holding tank 590 to disassemble and disassemble the block tank position adjusting device. The connecting pin 606, the lug 607, the lug connecting shaft coupling bolt 603, A nuclear waste disposal unit 811a and a transportation unit 811c of the construction machine of the nuclear hydroelectric power plant 811 for adjusting the positions of the respective control shafts, Do renovation And

In the marine small-sized and medium-sized and large-scale marine nuclear hydroelectric power plant lifting tanks (593, 594, 595)

Double structure block tank 598 double structure block tank pipe bridge 928 and nuclear waste treatment dual structure block tank pipe bridge 929 and dual structure block tank pipe bridge 937 and nuclear waste treatment dual structure block tank marine tunnel A plurality of distributing shafts distributing and discharging the combined shafts to a connection structure capable of disassembling and coupling the connecting shafts of the transport apparatus 941 and a double structure barge hull 591 at the upper end of the holding tank of each shafts, And is connected to the inner block tank 596 as a connection structure,

In each of the distribution shafts constituting the inner block tank 596,

A nuclear power generation nuclear waste treatment unit 811a of the nuclear hydropower generation facility unit 811, a power generation and production unit 811b that generates power, a power transmission unit 811d that transmits power to the traffic transportation unit 811c of the construction machine, And a nuclear power hydroelectric power plant 811 is provided with a nuclear power plant safety control production production electric field part 811e, an electronic control adjusting device construction machine control part 811f and a screw control part 811g, It is constructed to make the renovation of the nuclear hydroelectric power plant in the assembly form of power plant facilities.

As shown in FIG. 78, in the nuclear hydroelectric plant equipment constituting the distribution input device of the nuclear waste disposal reactor facility,

It is possible to inject a large number of reactor facilities into the nuclear hydroelectric plant of the double structural barge hull (591) constituting the nuclear hydroelectric power plant facility, so that the consumer can adjust the production power of some of the hulls with ease and adjust the power consumption ,

From the perspective of the producer, it is the connection structure of the connection shaft of the nuclear waste disposal double structure block tank marine tunnel traffic device (941) to constitute the operation of the nuclear power plant of the nuclear power plant,

It is connected with the electronically controlled regulating device connection structure of the hydroelectric power plant which improves the nuclear power generation facility which regulates the flow of nuclear power plant nuclear power plant nuclear power plant to efficiently regulate the flow of production power, automatically checks the power to each distribution shaft, And a distributing shaft provided with pumps. The double structural barge hull (591) is equipped with a distributing and inputting device for adjusting the hull position which excludes natural disasters of the sea as a disaster prevention device, and assembles the nuclear hydroelectric power plant equipments And to make up the number of nuclear power generation facilities to be constructed.

As shown in FIG. 78, in the nuclear hydroelectric plant equipment constituting the distribution input device of the nuclear waste disposal reactor facility,

(1) Nuclear waste treatment dual structural block tank consisting of the inside of the main body (1) of the nuclear reactor of the marine nuclear power plant with the dual structural block tank dust collector, Lifting tanks (593, 594, 595) of small, medium and large marine nuclear hydroelectric power plants,

A large hydroelectric power generator 944 included in a control shaft of a hydroelectric power generator of a maritime iso hydroelectric power plant 943 as an eco-friendly non-pollutant energy of a marine power plant, and the kinetic energy of gravity due to a drop of gas energy and liquid energy is supplied to a propeller 146 ) And the turbine (267) apparatus,

Propeller 146 and turbine 267 devices of the large hydroelectric power plant 944 constituting the offshore iso hydroelectric power plant 943,

Due to the difference between water intake facilities and water supply facilities, it is also possible to provide power production at the bottom of the rotary hydroelectric power plant,

Double structure block tank (598) connecting the books Double structure block tank structure with bridge structure tank bridge pier (928) and nuclear waste treatment double structure block tank bridge (929) and nuclear waste treatment dual structure block tank Marine tunnel transport device The connection of the power cable 71 for operating the electric train 771 to the upper portion of the guide rail 618 provided in the inside of the nuclear waste disposal marine tunnel communication device 941,

And a power transmission unit 811d that is connected to the transmission line 775 and receives power from the power production and manufacture unit 811b of the nuclear hydroelectric power plant 811 to transmit power to the industrial site.

In the nuclear hydraulic power plant equipment constituting the power transmitting portion 811d,

And a large hydraulic power generator 944 included in the control shaft of the hydro-electric power generator of the off-shore hydroelectric power plant 943 constituting an alternative to the maintenance of the nuclear hydro-power plant facility, The double structure barge hull (591) is equipped with the distributing and inputting devices of the position of the barge hull (591) excluding the natural disasters of the sea, and it is constructed so as to renovate the nuclear hydroelectric power plant as the assembly form of the nuclear hydroelectric power plant facility.

As shown in FIG. 78, in the nuclear hydroelectric plant equipment constituting the distribution input device of the nuclear waste disposal reactor facility,

Holding tank top barge hull (591) Stack tank (590) located at the center of deck deck central position Switch in the middle of the center This valve, which opens when the valve is ON and closes when the valve is OFF, A buoyancy control butterfly valve 622 and a solenoid valve 76,

When the switch is turned on, the door is open and the switch cylinder-off closed hydraulic cylinder door (624)

Submarine ground excavation is provided by a coarrer 917 on the seabed where the holding tank lower barge hull 592 is located,

A drilling hole 936 is provided at the bottom of the drilling hole 936 to drill the borehole 936 while the drilling hole 936 is drilled in the drilling hole 936, ,

Natural loess 158 is kneaded with a mixing equipment mixer 649. After the crude oil 841 and natural gas 922 are collected, natural loess 158 of the dough mixed with the mixer 649 is excavated One borehole (936) crevice (15) Clogs the crevice of the void,

As shown in FIG. 78, in the nuclear hydroelectric plant equipment constituting the distribution input device of the nuclear waste disposal reactor facility,

The double-structure barge hull (591) is equipped with a dis- tribution shaft consisting of large hydroelectric generators (944) included in the regulating shaft of hydroelectric generators of the oceanic iso hydroelectric power plant (943) (591) of the barge hull without disasters are installed in the form of assembly of the nuclear hydroelectric power plants connected to the distributing and inputting devices of the position control, so as to make the renovation of the nuclear hydroelectric power plant.

As shown in FIG. 79, in the nuclear power plant equipment constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

The hatch cover 153, which consists of safety equipment at the time of equipment replacement,

(1) of the nuclear reactor waste disposal reactor facility while providing the equipment replacement with the hydraulic cylinder (623), while the nuclear power plant hull is located at the hull site where the natural disaster of the nuclear power plant is excluded The construction machine equipment which provided the flood control process with the distribution dispenser of the adjustment was provided with the double structure block tank pipe bridge pier 928,

(877), and the worm crank (846) is fixed to the sea floor. The small-sized, medium-sized and large-scale marine nuclear power It is equipped with lifting tanks (593, 594, 595) for hydroelectric power plants and arranges nuclear power plant facilities on the seabed with the distributing devices of hull position control.

As shown in FIG. 79, in the nuclear power plant equipment constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

(593,594,595) installations of small, medium and large sized marine nuclear hydroelectric power plants at the top of the sea surface (SLL) with connection structure to the distribution shaft constituting the inside of the main body (1) .

The steel plate (597) of the high-tension steel plate (597) was butted together with the nuclear hydro-power plant facility and reactor facility adjustment process, and the welding improvement surface of the various welded joint grooves was designed considering the tensile strength and thickness dimension specifications In the nuclear power plant facilities that constitute the design performance through manual work designed,

The design dimension of the nuclear power plant facility is connected to the laser underwater cutting computer control unit through the computer network input (68) which constitutes the memory (70), and the first auxiliary for the block tank machined by laser cutting and computer cutting A second auxiliary steel plate 601 for a block tank, a snap hole 602, a block steel tower 116, a vertical partition wall 605, a portable lug 607, a horizontal partition 609, The processing hole 615 of the manhole cover 152 of the partition wall manhole and the hatch cover 153 and the large flange 614 for the block tank and the long hole 616 of the portable lug 607 ) And a waterproof safety assembly tool band guide The same double tube structure tank bridge bridge construction bridge saddle mold 617 and a laser cutter 617 constituting the form of the band guide 621 and the reinforcing steel plate 165 As a result,

A double structure block tank 598 having a high-strength steel plate 597 and a roll forming machine constituting a welding improvement surface of a nuclear power plant and machined to have a standard length of 500M is installed on one side of both the inner tube and the outer tube, A plurality of large hydroelectric generators 944 for providing a combination with the nuclear waste treatment dual structure block tank marine tunnel traffic device 941 and the nuclear waste treatment dual tank block tank tank marine tunnel traffic device 941 are arranged inside the main body 1 of the distribution apparatus (593,594,595) of the marine small, medium and large marine nuclear hydroelectric power plants.

As shown in FIG. 79, in a nuclear hydroelectric plant including the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

(593,594,595) of a marine small, medium and large sized marine nuclear hydroelectric plant consisting of the main body (1) of the distribution apparatus of the nuclear reactor for nuclear waste disposal, The machine 908,

A bottom drilling 917 is provided which is coupled to and separated from a pipe rack 854 for providing a crude drill rod connection constituting the crude oil drilling machine 908,

The worm crank 846 constructed in place of the anchor bolt 133, which provides a safe anchoring operation, as a mooring device of the floating type poison (593, 594, 595) of the marine small, medium and large sized marine nuclear hydroelectric power plant, The shredder 185 has a connecting structure at the lower end of the holding tank 590 of the barge hull so that the hull constituting the hydraulic cylinder 623 located at the center of the key bed 616 is constituted by the actuator 848 Anchorage is provided with an anchor replacement crank 846 at the seabed,

A worm crank 846 attached to the lower part of the pier of the pier is disengaged from the hydraulic cylinder 623 when the hull anchor, which is composed of the wing crank 846, A fixture is provided with an actuator 848,

(593, 594, 595) of marine small, medium and large marine nuclear hydroelectric power plants that provide hull anchoring control by regulating the direction of the flywheel 185 with the hydraulic cylinder 623 actuator 848 (593,594,595) of small-sized, medium-sized and large-sized marine nuclear hydroelectric power plants in the main body (1) of the distributing input device of the nuclear reactor waste disposal nuclear reactor facility, (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants which are arranged to control the position of the nuclear reactor facility constituting the dispensing apparatus main body (1) And a distribution dispenser of the construction machine traffic transport section 811c for regulating the position of the hull of the nuclear hydroelectric power plant section 811.

As shown in FIG. 79, in the disaster apparatus facility constructed inside the main body 1 of the nuclear reactor waste disposal reactor apparatus of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

(593,594,595) barge hull (591) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants at the top of sea level (SLL) with a connection structure to the distribution shaft constituting the nuclear reactor plant main body (1) And the space between the satellite 611 and the space rocket 611 to the left and right sides of the inner center of each launching platform for mounting the satellite launching platform 643 and the space rocket launching platform 646 on the left side of the block pylon 116, (612), which is more robust than the atomic bombs that provide the war against the global humanitarian disasters and the destruction of the international instability that creates anxiety due to terrorism, nuclear tests and missile launches, Respectively,

The establishment of image photoshop in the surrounding area of the Korean Peninsula and the economic downturn will help to overcome the economic crisis that includes both the global economic crisis and the unemployment crisis and natural disaster,

In order to resolve the unemployment crisis, a reconciliation mood should be established between the great and weak countries,

In the land, all the weapons of commerce, without any reason and no excuse between the two countries, should establish a peace-keeping message shop (955), which is stronger than the nuclear bomb,

(2) The distribution system of the nuclear reactor waste disposal facility of the marine nuclear hydroelectric power plant with the dual structural block tank dust collector. (1) The maintenance ship of the marine small, medium and large scale marine nuclear hydroelectric power plants (593, 594, 595) to control and disassemble the nuclear facilities of the nuclear waste disposal facility. (1) The small, medium and large scale marine nuclear power plants And a distribution transporting unit 811c of the construction machine of the hull position control of the nuclear hydroelectric power plant 811 constituting the inside of the lifting plant 593,594,595 of the hydroelectric power plant.

As shown in FIG. 79, in the disaster apparatus facility constructed inside the main body 1 of the nuclear reactor waste disposal reactor apparatus of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

The development of space science and the creation of a peaceful global village without space for conflict between the two countries, regardless of whether they are powerful or weak, Nuclear waste treatment double structure block tank equipped with disaster prevention equipment The disaster prevention equipment that constitutes the connection with the marine tunnel traffic device (941)

Nuclear waste disposal in the global village Dual structure block tank Marine tunnel transport equipment (941) Nuclear power plant division (811) consisting of the main body (1) On the top deck of the deck top of the upper part of the sea surface (SLU) of the waste treatment section 811a, there is provided a construction machine for forming an orchard to provide exchange of cultural knowledge information, The dispersion is provided by the water pressure of the sea water of the ocean,

(1) of the nuclear power plant for the nuclear power plant for the nuclear power plant for the marine environment industry and the nuclear power plant for the offshore power plant by arranging the position of the hull where the refurbished water is provided, (593,594,595) of small-sized and large-scale offshore nuclear hydroelectric power plants that are configured to control the position of the nuclear reactor facilities. (593,594,595) Transportation of the construction machinery of the hull position control of the nuclear power plant (811) Device.

As shown in FIG. 79, in the disaster apparatus facility constructed inside the main body 1 of the nuclear reactor waste disposal reactor apparatus of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

Nuclear Hydroelectric Power Plant's Nuclear Power Plant's Nuclear Hydroelectric Power Plant (811) Nuclear Hydroelectric Power Plant (811) Nuclear Power Plant's 811e The double-tubular structure control nozzle 10 in the form of a net constituting the nuclear reactor facility,

A double tube structure control nozzle 10 for connecting the T-shaped elbow in the form of a cross in a cross shape constituting the nozzle structure 10 of the double tube structure is provided and a floating type nozzle 10 of a small-sized marine nuclear hydroelectric power plant (593) At the upper part of the deck deck, a 15M long fire hose (9) is provided with a crosshair type control nozzle (10), and spread to the side of the deck deck like a net on the bottom of the sea surface,

In the fire fighting vessel 40 constituting the connection with the control hose,

Controlling Pump Operation Machine When the internal air compressor (80) is operated, air is supplied to the receiver tank (145) through the hose (109) to provide a predetermined amount of the compressed and stored piping line,

In the control hose (9) spreading like a net to the side of the deck deck, a high-pressure air pressure ejection jet is provided in the connected cross-shaped control nozzle (10)

The location of the hull, which is designed to prevent damage from seabed marine products from harmful red tides and to renovate the nuclear hydroelectric plant facilities while preparing harmful red tide dispersal along with the sediments of the seabed, Hydroelectric Power Generator Installed Operation and Marine Environment Industrial Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant And a dispatching and dispensing device of the transporting part 811c of the construction machine of the hull position adjustment of the nuclear hydroelectric power plant 811 constituted by the lifting tanks (593, 594, 595) of the power plant.

As shown in FIG. 79, in the disaster apparatus facility constructed inside the main body 1 of the nuclear reactor waste disposal reactor apparatus of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

An emergency disaster facility consisting of equipment of marine cleaner function,

(593, 594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants in the offshore,

The control gate of the river mouth constituting the disaster prevention system facility,

It is equipped with a hydrologic control membrane to replace the water gate for up and down operation, so that the opening of the water control gate is always provided,

The ecosystem restoration is carried out, and the flood control facilities for controlling the flow rate of the distribution shaft constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor main body (1)

Along with the sediments of the seabed, the harmful red tide dispersion eradication is provided by flood control facilities,

The position of the hull, which is designed to repair the floating type dock (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants of the ocean, is arranged as a distribution input device, (593, 594, 595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constructed to control the position of the nuclear reactor facilities constituting the main unit (1) of the nuclear reactor waste disposal reactor for power generation, And a dispatching and dispensing device of the transportation section 811c of the construction machine of the hull position adjustment of the nuclear hydroelectric power plant 811.

As shown in FIG. 79, in the disaster apparatus facility constructed inside the main body 1 of the nuclear reactor waste disposal reactor apparatus of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

For the purpose of protection of marine products and seafood,

A series of measures for survival and survival of a living organism is provided with a dis- tribution and dispensing apparatus of a nuclear reactor facility equipped with disaster prevention equipment,

The harmful red tide breeding before the occurrence of the harmful red tide is preliminarily removed by the yard basket 842 for the harmful redeye suction dust collector at the lower end of the control line and the wire rope 19 and the tidal winch 137 ), It is constituted between land and land so that unspecified maritime pirates are provided with the above-ground basket 842, the net for securing the fishermen's resources and the net made of the wire rope, (593) of small-sized marine nuclear hydroelectric power plants in the street, and the three-dimensional operation by the cooperation of the peace keeping forces, the floating marine nuclear power plant's supporting pillars (593) are submerged in the water, The air is supplied from the air hose line of the seabed while the water inside the hull of the barge is passed through and the lifting tanks 593 of the small marine nuclear hydroelectric power plant Providing the performance to become the upper surface of the water (S U L) position, and

The position of the floating type poison hull constituting the repairing water is arranged by the distribution input device so as to be installed inside the main body (1) of the nuclear power plant for the operation of the marine power plant and the nuclear power plant for nuclear waste treatment for the marine environment industry. (593, 594, 595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constructed so as to control the position of the nuclear reactor facility, And a dispensing device.

As shown in FIG. 79, in the disaster apparatus facility constructed inside the main body 1 of the nuclear reactor waste disposal reactor apparatus of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

Pirates, such as fish caught in the net making up the disaster prevention facility,

(593, 594, 595) of small, medium and large marine nuclear hydroelectric power plants in the ocean. It is broadcasted worldwide through mass media reports on the capture of peacekeepers in the net by the unmanned camera (184). In the future, the pirates will be putting on the spacecraft and releasing them to the outside of the atmosphere as a result of the dispute elimination,

In order to trigger war, peaceful preservation of weapons (955), which is stronger than nuclear bombs, has been introduced to the world through the Internet, Nuclear waste treatment dual structure block tank prepared for internal war and war distribution Nuclear waste disposal facility within the main body (1) of the reactor facility for nuclear waste disposal with a marine tunnel traffic device (941) within one day (593,594,595) of marine small, medium and large sized marine nuclear hydroelectric power plants that are arranged to control the position of the reactor facilities to regulate the flow of nuclear power to the nuclear plant of the nuclear power plant. (811c) of the construction machinery in all parts of the country that provide the flow control process to the nuclear plant installation It is configured to end the war.

80, as shown in FIG. 80, the distribution system of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector is composed of the inside of the main body (1) (593,594,595) of the marine nuclear power plant of the marine nuclear power plant, the hull position transfer of the nuclear power plant unit (811) of the marine power plant facility of the marine power plant facility,

The nuclear waste disposal unit 811a of the nuclear hydropower generation facility unit 811 and the transportation transportation unit 811c of the hull position moving construction machine constitute the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor facility And the distribution shaft constituting the nuclear reactor facility is distributed to provide the hull locating and construction machinery to provide the nuclear reactor power plant with a plurality of reactor facilities into the dual structure block tank dust collector,

In the nuclear hydroelectric power plant equipment constituting the dual structure block tank dust collector,

The nuclear waste treatment dual structure block tank connected to the pipe bridge 928 constituting the construction machine position control of the hull locomotion control and the pipe bridge 937 is connected to the inside of the marine tunnel transport device 941 by a drilling machine (908) as construction machine connection structures,

Lifting tanks (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric plants, which make up the construction machine at sea,

A butterfly valve 622 for adjusting the buoyancy of the band guide 621 and a hydraulic cylinder 620 of a rack and pinion type (NRP) which is a rotary cylinder, a hydraulic cylinder and a hydraulic cylinder 623, And is provided with a door 624, a nuclear power plant facility, and a distributing and inputting apparatus of a nuclear reactor facility. The vertical partition wall 605 and the pin coupling shaft 606 for engaging the portable lug, the portable lug 607, (608) and the large flange connection joint joint hole (615), construction machine connection structure, pipe bridge (928), pipe bridge (937) and nuclear waste treatment double structure block tank marine tunnel traffic device It consists of hydropower generation facility construction machinery connection structure and disassembly coupling in the crude oil drilling machine (908) connected to the crude oil, and it is composed of the nuclear power hydroelectric power plant facility and distribution equipment of the reactor facility.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

(811) constituting the inside of the main body (1) of the nuclear reactor waste disposal facility of a marine nuclear power hydroelectric power plant having a dual structure block tank dust collector, And a transportation transport section (811c) of the locating and construction machine. The construction and operation of the hull locating and construction machinery are installed to construct the nuclear reactor power plant, Machine,

The facilities of the marine nuclear hydroelectric power plant constituting the distribution input device of the reactor facility for nuclear waste disposal include,

(811) Nuclear waste disposal Double structure block tank Marine tunnel construction Equipment manufacturing process (705) At the marine vessel manufacturing factory of the connecting shaft Nuclear Hydroelectric Power Plants of Small Diameter Electrical Resistance Welding Pipes (706) Manufactured by the Marine Shipbuilding Department, which controls the production with connection structure capable of disassembling and bonding,

The raw material 707 constituting the nuclear reactor facility is provided with the uncoil 708 to perform the molding process 712 with the ring level ring 709 and the side trimming 710 and the cutting and rough connection 711,

An ultrasonic wave and an eddy current test 714 constituting welding and inner / outer surface bead removal 713 are provided,

The welding portion heat treatment 715, which constitutes the reactor facility,

A cutter 719 and a flatness test 720 are provided while having a round shape forming unit 718 having an air cooling unit 716 and a water cooling unit 717,

The hot cut 726 and the chamfer 727 in the intermediate load 723 and the induction heating furnace 724 with the SRM 725 standard with the calibration 722 process of the structure tube 721 The water pressure test 728, the ultrasound and vortex test 729, and the weight and length measuring device 730,

The production control is provided in the cooling stand 738 having the screw 732, the oil 733, the general pipe 734, the galvanized steel pipe 735, the galvanized steel pipe 736 and the boiler tube 737,

(706), which is manufactured by a nuclear reactor manufacturing facility of a nuclear power plant,

Among the components constituting the reactor facility, the aperture-shaped electric resistance welding pipe (739)

An oil pipeline ultrasonic wave 743 and a test test 744 are provided by a die forming device 742 having a coil mugging iron plate raw material 740 and connected to the side trimming 741,

(739), which is manufactured by the nuclear power plant manufacturing department of the nuclear power plant that controls the centrifugal forming (745), is equipped with the distributing and inputting devices to constitute the reactor facility of the nuclear hydroelectric power plant In addition,

In the large-diameter steel pipe (747) equipment of the oil pipeline for the oil industry in the oil pipeline constituting the nuclear reactor facility,

The manufacturing facility of the reactor facility manufacturing department of the nuclear power plant having the edge milling machine (748), the three roll banding machine (749) and the post-banding machine (750)

Which is composed of dispensing apparatuses provided with welding 751, inner surface welding 752 and back surface finishing 753 to provide an outer surface welding 754 while providing a welding cutting performance, (756), X-ray (757), cold expansive (758), and marking and shipment (759)

The equipment for the non-coated piping 763 of the structural pipe of the uncoiling 761 and the steel pipe pile 762 with the spiral welded steel pipes 760,

(764), an inner surface blast cleaning (765) and an inner surface (766), and a coating (768) and an outer coating (768) 763) Facility process is prepared,

(769) equipment constituting a nuclear reactor facility,

The production of large diameter steel pipe 747 of the steel pipe for oil industry 746 of the oil pipeline is to be provided as a distributing and inputting device of the nuclear reactor facility through the ultrasonic wave and X-ray inspection (770) (1) of a nuclear reactor plant for the treatment of nuclear waste of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, and a support system for a marine nuclear power plant, (593, 594, 595) and the buoyancy control device of the mooring device and the buoyancy control device of the hydroelectric power plant of the Hwaseong Nuclear Hydroelectric Power Plant (705) The reactor is constructed so as to constitute a reactor facility of the power plant,

Nuclear waste treatment double structure block tank bridge (929) and nuclear waste treatment double structure block tank (901) connecting to the marine tunnel communication device (941) constituting the distribution device of the reactor plant of the nuclear hydroelectric power plant The pipe manufacturing process distribution side 705 of the connection shaft,

The body of the double structure block tank 598, which constitutes the distribution side 705 of the pipe manufacturing process,

The inner block tank 596 located at the center of the double structure block tank 598 and the outer block tank 599 located outside the inner block tank 596 are stacked in the form of a double structure, (598) manufactured and manufactured by cutting, welding, and connecting structure distributing and inputting equipment at the industrial site. The nuclear waste treatment double structure block tank is divided into the distribution input of the marine tunnel traffic device (941) A double structure block tank 598 having a first sub-type steel 600 for a block tank and a second sub-steel plate 601 for providing connection to the apparatus, And a large flange (614) body located at the connecting shaft connecting structure to the stern connecting position.

A large flange connection flange joint portion machining hole 615 connection portion of the large flange, a cutting tool, a drill lathe and a cutter constituting a large flange 614 positioned as a connection structure,

(625) of a certain size, it is prepared as a reactor facility of a nuclear hydroelectric power plant of a manufacturing process,

(811) consisting of the inside of the main body (1) of the nuclear reactor waste disposal facility for the nuclear waste water treatment plant of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector, the hull position of the nuclear waste disposal unit (811a) (811c) of the construction machine for inserting the nuclear power plant equipment and the nuclear power plant equipment that distributes both sides of the distribution shaft constituting the reactor facility of the mobile nuclear power plant, and the double structure A distribution input device for a nuclear waste disposal facility of a marine nuclear hydroelectric power plant having a block tank dust collector is constituted,

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

The double structure block tank (598) equipment of iron structure metal constituting the manufacturing and installation of the reactor installation of the nuclear reactor of the nuclear power plant with the manufacturing process according to the safe design of the nuclear power plant facility is installed in the steel plate of high strength stainless steel ) Material,

(597) of high-strength stainless steels to provide a cutting process for the pre-marking process, a cutting and transportation process sequence,

The double structure block tank 598 is provided with a crane crane 861 and a conveyor 633 constituting the inputting process in the conveying process and has the forming and roll forming sections constituting the thickness of the iron plate 597 of the high- (A), V-type (b), and round (c) types of breaking plates in the high-strength stainless steels steel plate (597) And to perform the cutting process,

Type bending type press brake type bending machine, a bending type roller bending machine and three bending roller bending machine, and the high tensile strength steel plate (597) The transporting operation is provided by using a crane crane and a conveyor (633) while preparing a cutting machine with a cutting machine, and welding is provided to the banding joint portion of the high-strength stainless steel (597) And the transportation operation is performed by the stationary crane and the conveyor (633).

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

(598), equipped with welders, cutting tools, drill lathes and cutters, which make up the facilities of the marine nuclear hydroelectric power plant, while performing the welding process to the banding joints of the steel plate (597) And a large flange 614 located at the connecting portion of the large flange 614 for providing a stern connection position is provided with a stopper steel plate 625 of a predetermined size to be connected to a reactor connection structure of a nuclear power plant In addition,

In the double structure block tank 598 of the inner block tank 596 and the outer block tank 599 constituting the position outside the inner block tank 596,

The inner block tank 596 constituting the prefabrication of the inner block tank 596 is moved to the inside position of the outer block tank 599 while the position of the inner block tank 596 is adjusted to the crane crane 861 and the conveyor 633, (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constructed as a double-structure cylindrical connection structure inside the distributing and inputting device of the reactor facility of the nuclear hydroelectric power plant, And then,

The double structure block tank bridge 928 constituted by the double structure block tank 598 and the nuclear waste processing double structure block tank bridge 929 and the double structure block tank bridge 937 and the nuclear waste processing dual structure block tank 928, A plurality of distribution shafts and a dual structure block tank 598 for distributing and discharging the connection shafts connected to the marine tunnel traffic devices 941 to the disassembly-connectable connection structure are connected to a marine nuclear hydro- (705) facility which is composed of the main body (1) of the dispensing apparatus main body of the reactor facility for nuclear waste disposal of the power plant.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

A plurality of outer block tanks 599, a first auxiliary type steel 600 for a block tank and a plurality of outer tank tanks 560 for a block tank are connected to the outside of an inner block tank 596 of a double structure block tank 598, The first auxiliary steel 600 for the block tank and the second auxiliary steel plate for the block tank 601 are provided with the vertical partition wall 605, the horizontal partition wall 609 and the steel beam 149 of the second auxiliary steel plate 601, 601, the vertical partition 605, the horizontal partition 609, the steel beam 149, the snap hole 602 and the partition wall manhole 610 are cut by a computer laser cutter, A double structure block tank 598,

In the equipments of the hydraulic system cylinder door 624 and the emergency stairs tap 631 constituting the vertical partition wall 605 and the horizontal partition wall 609 in which the partition wall manhole 610 is formed,

And the traffic devices provided by the welding process,

The plurality of stopper plates 625, which are provided as a connection structure for a traffic device at the time of renovation inside and outside with a double structure block tank facility,

Type bending machine with press brake type bending machine, bending type roller bending machine and three bending roller bending machine. High tensile steel plate (597) Banding In this paper,

A plurality of inner block tanks 596 and a plurality of outer block tanks 599 of a double structure block tank 598 constituted by a cap-tight fitting assembly of a double structure block tank 598, Each of which has an upper and a lower end of a double structure block tank and a large flange bolting connection assembly provided by a welding process, and which is provided with an egg-shaped bolting connection assembly and a cap assembly 625 of a plug- Welding process assemblies, and the like,

(593,594,595) Dual structure block tank (598) Double structure block tank tank (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power station constituting main body (1) The disassembly coupling of the connecting shaft connected to the bridge 928 and the nuclear waste treatment dual structure block tank bridge 929, the double structure block tank bridge 937 and the nuclear waste treatment dual structure block tank marine tunnel traffic apparatus 941 This system is composed of a number of distribution shafts and distribution input devices which distribute to the possible connection structure to discharge and construct the dual structural block tank dust collector for the nuclear waste disposal.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

(593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants consisting of a double structure block tank (598) composed of the main unit (1) Equipment and diving buoyancy control device and marine tunnel traffic device manufacturing process (705) Connection structure that can be disassembled and connected at the marine ship manufacturing factory of the connecting axis. It prevents sinking of the ship and barge hull and assembles buoyancy control device at 10 km depth. It is possible.

Marine hydroelectric generators, which consist of facilities of marine nuclear hydroelectric power plants,

It is equipped with a marine hydroelectric power plant with a capacity of 1000000k w / h and is installed within the main body (1) of a nuclear reactor waste disposal reactor. (811b) constituting nuclear hydroelectric plant facilities and reactor facilities to control the facilities of nuclear hydroelectric power plants and reactor facilities, and the power generating and producing power from the power generating and manufacturing unit (811b) of the marine nuclear hydroelectric power plant, The control unit 811d adjusts the power supplied to the nuclear power plant and the inside of the main body 1 of the nuclear power plant for nuclear waste disposal, A double structure block tank bridge bridge 928 connected to the docks 593, 594 and 595, a nuclear waste treatment dual structure block tank bridge 929 and a dual structure block tank A plurality of distribution shafts for distributing and discharging the connection shafts connected to the pipe bridge 937 and the nuclear waste disposal double structure block tank marine tunnel traffic devices 941 by disassembly and coupling, To construct a dual structural block tank dust collector for the treatment of nuclear waste, the operation of the nuclear power plant for the nuclear waste disposal unit of the nuclear waste disposal unit of the nuclear waste disposal facility of the nuclear nuclear hydroelectric power plant having the double structure block tank dust collector. Consists of.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

(685) produced by a marine hydroelectric power plant constituting the coupling with the power transmission unit 811d constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor, A dual structure block tank bridge 937 including a large plant 698 with the voltage 684 control to the transformer 96 via the substation 690 and the primary substation 691 and the small, The connection shaft for providing the power 685 to the marine tunnel traffic pipe manufacturing process 705 connected to the lifting tanks 593, 594, and 595 of the marine nuclear hydroelectric power plant of the marine nuclear power plant,

Raw material High-strength steel plate (597) Manufacturing Facility, double structure block tank pipe bridge (937) facility and double structure block, providing power (685) supply to steel beam (149) The tank pipe bridge (928) is provided in the form of a 5 meter reeducer (35) per 1 kilometer below sea level,

The diameter of the pipe pier was increased to 1M at 5M,

At nuclear power plant facilities that make up construction machinery,

A dual pipe structure tank bridge pier construction having the same form as the band guide pivot 621 provided with the semi-submerged operation line 637 and providing the coupling portion of the flange 614 of the large flange 614 provided at the upper part of the deck- A double structure block tank connected to a floating hydroelectric power plant docking station constructed in the main body (1) of the reactor installation for nuclear waste disposal with disassembly and coupling of one saddle-shaped saddle mold (617) The disassembly coupling of the connecting shaft connected to the bridge 928 and the nuclear waste treatment dual structure block tank bridge 929, the double structure block tank bridge 937 and the nuclear waste treatment dual structure block tank marine tunnel traffic apparatus 941 A distribution block of the nuclear waste water treatment plant of the marine nuclear hydroelectric power plant having a dual structure block tank dust collector with a plurality of distribution shafts and distributing input devices for distributing by the possible connection structure and providing the discharge, The nuclear power plant of the distribution input device of the nuclear waste disposal unit of the entry point is constituted of the double structure block tank dust collector for the nuclear waste disposal.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

The auxiliary saddle-shaped frame (617) joint, which is comprised in the facility of a marine nuclear hydroelectric plant,

It is also possible to prepare a disaster shelter by installing a gantry (22) in a symmetrical manner and attaching the gypsum (22) by welding while providing an alternative to the breakwater (400) in the territory of the territorial dispute,

A plurality of gimbal processing holes 615 and a plurality of guide spindles 185 are connected to the link stand 249 by connecting the gimbal processing holes 615 and the plurality of guide spindles 185 to the various types of gimbal bodies 22, A plurality of guide ribs 185 are provided with anchor replacement crankshaft 846 having a disassembly coupling at the same time and a piercing level foundation bottom support 851,

A plurality of wing crank crankshafts provided on the side and lower sides of the body of the saddle mold 617 are provided alternatively to the anchor bolts 133 constituting the inside of the dispensing and inputting apparatus main body 1 of the reactor facility for treating nuclear waste The guide rod 185 of the wrench crank 846 is positioned at the center of the key bed 616 which provides the connecting structure at the lower end of the holding tank 590 of the barge hull, In a nuclear power plant facility that constitutes an operation with an event 848,

The hull is provided with an anchor with an anchor replacement crank 846 at the seabed,

When the hull anchoring is canceled, the web cutter 185 fixed to the borehole of the undersurface of the wedge crank 846 attached to the lower part of the pier column is fixed to the hydraulic cylinder 623 actuating actuator 848 (593, 594, 595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the interior of the main body (1) of the reactor installation for nuclear waste treatment, Nuclear waste treatment dual structure block tank pipe bridge 929 and double structure block tank pipe bridge 937 and nuclear waste disposal dual structure block tank marine tunnel transport device 928 connected to dual structure block tank bridge bridge 928 941), a plurality of distribution shafts for distributing and discharging the water into a connection structure capable of disassembling and disassembling the connecting shafts of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The nuclear reactor operation of the reactor of the dispensing device of the material treatment reactor is composed of the dual structure block tank dust collector for the nuclear waste treatment.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

(593, 594, 595) of the small, medium and large sized marine nuclear hydroelectric power plants of each control shaft constituting the inside of the main body (1) of the dispensing apparatus of the nuclear waste disposal nuclear reactor facility, (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the nuclear hydroelectric power plant facilities to be constructed in the main body (1) of the dispensing apparatus main body The double structure block tank 598 is moved to a marine assembly site by a tug line 636 constituted by a distributing and inputting device for hull position adjustment to a traffic transportation section 811c of the hull position moving construction machine,

Double structure block tank (598) At the nuclear hydroelectric plant constituting the sea assembly,

Semi-submerged operation line (637), submerged operation by underwater operation with band guide (621), double structure block tank (598) with pipe bridge and pipe bridge and marine tunnel transport equipment and small, medium and large The tugboat 636, which together with the movement control and the disassembly and assembly of the hull position of the lifting tanks 593, 594, 595 of the marine nuclear hydroelectric power plant,

A double structure block tank 598 which submerges the flagpole rubber balloon 628 and the diving position confirmation rope 629 constituting the nuclear hydroelectric plant equipment to the hull with the rope knot claws 630 to bind to the hull, The air inlet port state, the electronic control device valve operation state, the air hose 109 and the pump hose state, which are attached to the outside of the double structure block tank 598 while forming the sub flagpole rubber balloon 628 as a medallion (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constructed inside the main body (1) of the nuclear reactor waste disposal facility, (928) and Nuclear Waste Treatment Double Structure Block Tank Pipeline Bridge (929), Double Structure Block Tank Pipe Bridge (937) and Nuclear Waste Treatment Double Structure Block Tank Marine Tunnel Traffic System A plurality of distribution shafts for distributing and distributing the connection shafts connected to the connection shafts 941 to the disassembly-coupling structure for discharging, and a nuclear waste disposal system for marine nuclear hydroelectric power plants having dual structure block tank dust collectors The reactor consists of a double structure block tank dust collector for nuclear waste disposal.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

The semi-submerged operation line (637), which consists of facilities of the marine nuclear hydroelectric power plant,

The double structure block tank 598 is secured by the band guide 621 and the hydraulic cylinder operating key 623 while the barge hull 591 at the upper end of the holding tank is exposed at the upper end of the sea level SLL, In the marine assembly composed of the block tank 598,

A buoyancy control butterfly valve 622, a hydraulic cylinder door 624 and a hatch cover 153 for a hydraulic cylinder, which constitute lifting tanks 593, 594 and 595 of a marine small, medium and large sized marine nuclear hydroelectric power plant, And a discharge pump connected to the tug line 636 for discharging the water inside the block unit tank to the outside of the tank while the cargo ship is provided with an anchorage on the ship sinking prevention stay line 634, The block pylon 116, the emergency stairs 631, and the elevator 632, which are made up of pipes and pipes,

The iron tower 116, the emergency stairs 631 and the elevator 632 of the nuclear power plant,

And a crane crane lifter 861 while being laid down at the upper end of the barge hull deck deck at the upper end of the holding tank,

In the holding tank lower barge hull 592 of the nuclear power plant constituting the marine assembly,

(631), elevator and block unit lugs to the inside of the block pylon (116) at the upper center of the deck deck at the top of the barge hull deck deck at the top of the holding tank of the upper part of the sea surface (SLU) (1) of the distribution apparatus of the reactor facility for nuclear waste disposal, while providing the block unit block tower (116) with the bolt and the lug connection shaft combination decomposition nut. Nuclear waste treatment double structural block tank bridge bridge (929), double structure block tank bridge bridge (937) and dual waste structure treatment bridge structure (928) connected to double structure block tank bridge pier (928) of floating type poison (593,594,595) Block tanks are provided with a plurality of distribution shafts for distributing to a disassembly-connectable connection structure for connecting shafts connected to marine tunnel traffic devices (941) The nuclear reactor nuclear plant operation of the distribution input unit of the nuclear reactor waste disposal facility of the marine nuclear hydroelectric power plant having the block tank dust collector is constituted by the dual structural block tank dust collector for the nuclear waste disposal.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

The emergency stairs 631, the elevator 632 and the mooring tower 644, which are composed of the facilities of the marine nuclear hydroelectric power plant,

At the top of the block tower (116), which consists of the facilities of the marine nuclear hydroelectric plant,

A lightning rod 500 is formed as a metal rod whose tip is sharp to prevent damage to a lightning bolt when a thunderstorm occurs, and a radio sonde 134 provided in an advent of an air conditioner 500 located at the upper end of the lightning rod 500 And provides diary information to the weather observation station by receiving the weather information transmitted from the satellite 611 of the communication system while controlling the flood control facilities in the natural environment such as wildfire, (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constructed in the main body (1) of the distribution input device of nuclear reactor waste disposal facility, (928), nuclear waste treatment double structure block tank bridge (929), dual structure block tank pipe bridge (937) and nuclear waste treatment dual structure block tank marine tunnel traffic device A plurality of distribution shafts for distributing and distributing the connection shafts connected to the connection shafts 941 to the disassembly-coupling structure for discharging, and a nuclear waste disposal system for marine nuclear hydroelectric power plants having dual structure block tank dust collectors The reactor consists of a double structure block tank dust collector for nuclear waste disposal.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

In the disaster prevention preventive control unit constituted inside the main body (1) of the dispensing apparatus of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

In the lower part of the meteorological observation equipment constituting the flood control process to the nuclear power plant facilities,

An unmanned landing camera 184 for unmanned landing and a burner boom 920 for adjusting the position of the adveiner 77 of the meteorological observation equipment are installed inside the basket 42 constituting the pallet boat, (9) equipment constituting a fuel gas supply to the fuel supply hose (694) to the fuel supply hose

The hose 694 of the gas transportation means which is lighter than air by the wire rope 19, the shackle 23 and the lug 21 is connected to the inside of the disaster prevention hose 9, Air storage is provided to each of the recirculation tank (145) and the air storage tank, and the air generated from the air compressor (80) at the tail of the water shutoff valve (8)

A water turbine boiler 920 positioned on the right side of the barge hull block tower 116 at the upper part of the holding tank, a water turbine generator constituted by the high pressure storage tank recirculation tank 145 and the large hydroelectric generator 944, Emissions of hazardous gases in the storage tank and in the storage tank and in the storage tank and in the separation tank for crude oil (922) and crude oil (841) when collecting non-iopisquid (918) And a dual structure block tank cleaner 794 that constitutes emergency recovery with a flexible high pressure hose 190 in the event of a situation,

Cultery 158 constituted to fill the drilling space with the loess 158 and the cement 931 after the crude oil 841 is collected and produced and a mixer 73 which is a device for mixing the loess 158 with the cement 931, In the nuclear power plant equipment constituting the nuclear power plant,

A helicopter station (619), a crew work room, a control room, and a crew cabin cabin cabin room are arranged to the left of the block tower (116)

At the left side of the safety control room of the nuclear power plant facilities, a satellite launch pad 643 and a space rocket launch pad 646, which provide satellite 611 and space rocket 612 launch,

The berth (638) located at the outer wall of deck deck is provided with berths,

(1) of the nuclear reactor waste disposal reactor apparatus for providing the satellite 611 and the space rocket 612 disposition into the satellite launch pad 643 and the space rocket launch pad 646 constituting the nuclear power plant facility (928) and nuclear waste treatment double structure block tank bridge (929) and double structure block tank pipe (928) of floating type tank (593,594,595) of marine nuclear power hydro power plant of small size, A plurality of distribution shafts and distribution input devices for distributing and discharging the connection shafts of the connecting shaft connected to the bridges 937 and the nuclear waste disposal double structure block tank marine tunnel traffic devices 941, Double Structure Block Tank Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

The air compressor (80) facility, which consists of the facilities of a marine nuclear hydroelectric plant,

The water hose 109 and the nozzle 923, which constitute an air compressor (80), are installed on the seabed,

The pipe rack (854) equipment of the crude oil drilling machine (908) located in the drilling machine room and the small toothed sawteeth of the crude oil drill rod is provided with a connecting rotation operation,

A shackle of the crane boom 651 of the wire rope 19 of the crane crane 861 which provides the positioning movement to the shelf of the drilling machine 908 is provided,

A pipe rack 854 facility of 15 meters in length, which provides a position at the upper end of the drilling machine 908 shelf to provide tie-fishing winch 137,

(854) facility, the crude oil drilling rod with the reservoir of crude oil drilling rods is provided, while at the center of the barge ship hull at the bottom of the holding tank (590) at the bottom of the sea floor 10 km below the sea bottom, crude oil drilling A mounting adjustment is provided by a coarse drill 917 which is joined to and separated from the rod,

(928) and the nuclear waste treatment double structure block tank bridge (929) of a marine hydro power plant floating tank (593,594,595) consisting of the inside of the distribution dispensing apparatus main body (1) And a plurality of distribution shafts and distributors for distributing to a disassemblyable connection structure of a connection shaft connected to a double structure block tank pipe bridge (937) and a nuclear waste disposal double structure block tank marine tunnel transportation device (941) And a dual structure block tank dust collector for nuclear waste disposal is installed in the reactor installation of the dispensing apparatus of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant equipped with the double structure block tank dust collector.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

(593,594,595) Construction of hull position transfer facility of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constituted to control nuclear power plant facilities constituting main body (1) of distribution dispensing apparatus for nuclear waste processing nuclear plant A band guide 621 provided with a hydraulic cylinder operation key 623 and a hydraulic rotary cylinder 620 equipped with a nuclear power station facility adjustment process constituted by a transportation device 811c of the machine, A tool hammer and a wrench are provided to provide operation of the exhaust pump and the air compressor (80) to provide a large flange-engaging bolting connection assembly,

(593, 594, 595) of the marine small, medium and large sized marine nuclear hydroelectric power plants constituting the air pressure regulator and the hydraulic regulator inside the block tank,

A coupling for the portable lug 607 processing hole 615 and the portable lug coupling pin coupling shaft 606 located at each block tank connection portion is provided while providing diving and repetitive repetition, (603) screw and rug coupling split nut (604) while providing a coupling to the machining hole at the tip end of the bolt thread,

The pin 608 is broken by a pin, and the nut is fixedly coupled to provide a subsea wiring on the double structure block tank line,

Supplying power to the land, the pump and air compressor (80) operate before and after the occurrence of the harmful red tide and the typhoon, and air supply is provided by the cross-shaped flexible high pressure hose (190) and,

Pump piping The line of water pressure disinfection inside the hose is equipped with a water mountain to provide discharge to the gap between the discharge nozzle and the radial type curtain water membrane to regulate the upward flow (925) and the downward flow (926) Device,

As the global warming is prevented and global warming is prevented, it is necessary to prepare the transition of the people of the nuclear bomb-producing Party, which is equivalent to harmful red tide, to the reconciliation mood,

The information provided to the unmanned camera 184 is provided to the wireless device radar of the satellite 611 of the computer system combined with the information exchange communication means of the Internet network 50 that peacefully resolves international disputes,

(593,594,595) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constructed in the main body (1) of a nuclear reactor waste disposal reactor facility, and a nuclear waste Treated double structure block tank bridge 929 and the double structure block tank bridge 937 and the nuclear waste disposal double structure block tank marine tunnel traffic apparatus 941. In this case, A nuclear power plant with a dual structure block tank dust collector equipped with a plurality of distribution shafts and distribution input devices for discharging the nuclear waste from the nuclear power plant, Structure block tank dust collector.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

(593,594,595) Construction of hull position transfer facility of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constituted to control nuclear power plant facilities constituting main body (1) of distribution dispensing apparatus for nuclear waste processing nuclear plant Friendly, non-polluting energy hydroelectric generators equipped with a nuclear power plant facility control system consisting of a distributing and inputting device for the hull position control by the transportation transport section (811c) of the machinery, while providing electric power to the earth- (909) is prepared in a furnace that dissolves iron ore immediately after collection,

Nuclear waste treatment dual structured block tanks that control supply of iron ore, crude oil (841) and pollution-free natural gas (922) to the countries of the world Marine trench transport equipment Internal train (771)

Double structure block tank of lifting type poison (593,594,595) of marine small, medium and large sized marine nuclear hydroelectric power station constituting inside of distribution dispensing apparatus main body (1) of nuclear reactor waste disposal facility equipped with maritime trade volume control device Disassembly of the connection shaft connected to the pipe bridge 928 and the nuclear waste treatment dual structure block tank bridge 929 and the dual structure block tank bridge 937 and the nuclear waste treatment dual structure block tank marine tunnel traffic apparatus 941 A plurality of distribution shafts for distributing to a joint structure capable of being combined and provided with a distribution input device and having a double structure block tank dust collector for nuclear waste disposal of a nuclear waste water nuclear power plant, The nuclear power plant is composed of a double structure block tank dust collector for nuclear waste disposal.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

In addition to the establishment of a cooperative apparatus for international economic and economic development,

All military materials and bomb manufacturing experiments are to be held at designated places on the sea,

Depending on the achievement of the seabed resource reserves, it may be equipped with lifting type docking equipment that displays the score on the conversion monitor 52 after confirming the winner of countries and individuals having a large acquisition score through the unmanned camera 184, (146) and squirrel (147) wing, while the engine is in operation, allowing the pirates to dive into the water with the pirate ship In addition,

Pyrogen and disaster prevention materials, which constitute the facilities of marine nuclear hydroelectric power plants,

In order to maintain the close relationship of the bridge, the communication equipment of the Internet control system before and after the fire, a large number of pumps and pumps, electronic control devices, high performance submersible pumps (36), air compressors (80) Rope, multiple frames and mobile transport equipment. The distribution system of the reactor installation for nuclear waste disposal, with the connection structure including the helicopter and the adventurous and the airship. (928), nuclear waste treatment double structure block tank bridge (929), dual structure block tank bridge (937) and nuclear waste treatment dual structure (929) connected to the floating tank tanks (593,594,595) Block tanks are connected to a plurality of distribution shafts and shafts which distribute to the disassemblyable connection structure of the connection shaft connected to the marine tunnel traffic devices (941) Is configured to fulfill the provided by the reactor plant nuclear operation of the dispensing chute of the reactor equipment, marine processing nuclear waste of a nuclear power hydroelectric power station having a dual structure block tank dust collector with input device with dual-structure block tank dust collector for a nuclear waste disposal.

81, as shown in FIG. 81, a small-sized, large-sized and large-scale marine nuclear hydroelectric power generating unit (1) constituting the inside of the distribution input apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector Hull position transfer of the nuclear hydroelectric power plant part (811) of the marine nuclear hydroelectric power plant equipment to control the hull position movement of the floating type poison (593,594,595) of the power plant The facilities of the marine nuclear hydroelectric power plant,

The fire-fighting and disaster control device that constitutes the flood control process to the nuclear hydroelectric power plant facilities,

When the fire forming the fire control system is changed to a liquid, the piping nozzle is provided with a nozzle-like gap 15 and a straight line-like gap 15 in the form of a radiation, and the fire water to the formed gap 15 pipe nozzle has a plurality of radiation forms A curtain water film 39 and a plurality of straight straight curtain water films 39, which are provided for the purpose of preventing fire from occurring when a fire occurs. (163) It is equipped with pump and valve connection structure of the electronic control device which is made up of tungsten water membranes to constitute the global village without any disaster. (685) as an electronic control pump fire-fighting and disinfection device consisting of fire-fighting and disaster control equipment in the global village. A dual structure block tank pipe bridge (928) connected to lifting tanks (593, 594, 595) of marine small, medium and large sized marine nuclear hydroelectric power plants constructed inside the main body (1) Structural Blocks Discharges to a disassemblyable connection structure of connection shafts connected to tank bridge bridge (929), double structure block tank bridge (937) and nuclear waste treatment double structure block tank marine tunnel traffic equipment (941) A nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, and a nuclear power plant. And a tank dust collector.

Referring to FIG. 82, a nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear power hydroelectric power plant (593,594,595) Control of the construction equipment of the hull (811a) And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tanks and the auxiliary support coupling split separation shaft (606) for coupling engagement and the portable lug (607) Detailed assembly process Nuclear power plant nuclear waste disposal unit (811a) of nuclear power plant division (811a) Elementary nuclear power plant showing constitution of construction machinery control section of hull position Steel pipes for piping blocks of marine power plant lifting docks of construction machinery connection structures, double pipes for welded joints, The pipe inside the steel structure in part section detail showing a front side configuration and also steel pipe manufacturing process Configuration of a nuclear power plant support formula dock hull assembly method showing the road,

As shown in FIG. 82, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear reactor waste disposal facility of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

The nuclear waste disposal unit 811a of the nuclear hydropower generation facility unit 811 and the transportation transportation unit 811c of the hull position moving construction machine constitute the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor facility Which is composed of a double structure block tank dust collector, by arranging both sides of the distribution shaft constituting the nuclear reactor facility,

Dual Structure Block for Nuclear Waste Disposal At the nuclear hydroelectric plant that constitutes a tank dust collector,

And a distributing and inputting device of a diving operation ready controllable control device located inside the distribution dispensing apparatus main body of the nuclear waste disposal nuclear reactor facility. The branching tank upper barge hull (591) and the holding tank lower barge hull (592) A plurality of lug processing holes 615 constituting a block tank hull disassembly and engaging portable lug 607 provided in a horizontal and vertical type coupling structure and an elongated hole 616 for a block tank block unit hull disassembly and movement regulating device And a vertical block tank hull disassembly-type portable lug pin connecting shaft 606, a machining hole 615 and a vertical block tank hull disassembling and dismounting portable lug pin connecting shaft 606, a processing hole 615, And a long hole 616 for the hull break unit displacement control unit of the tank block unit is provided so that the barge hull 591 at the upper end of each strut tank and the bar at the lower end of the holding tank A block tank hull disassembled into several rubbing holes 615 among a plurality of lug pin connecting shafts 606 bound to a plurality of processing holes 615 provided at respective portions in a vertical form of the ship hull 592, The connecting portable lug pin connecting shaft 606 is removed to form a portable lug pin connecting shaft 606 having a plurality of lug pin connecting shafts 606 coupled to form a double structure holding tank 598, The pre-sinking retention line 634 of the lifting line is preliminarily provided to the distribution dispensing apparatus,

Block unit block of the diving control unit consisting of connecting structure at the bottom of each part of the barge ship hull Body of the dock control system consisting of the butterfly valve 622 for controlling the buoyancy of the tank and the doctor ventilation 585 of the diving control device A hydraulic cylinder for a block tank hull traffic control device, a door (624) and a stopper plate (625), a dual structure piping line automatic pneumatic valve transport device (916), and an engine control power Motor control modules 106 are provided to prepare for the diving process, and a horizontal type holding tank 590 is provided to be converted into a vertical holding tank 590,

Dual Structure Block for Nuclear Waste Disposal At the nuclear hydroelectric plant that constitutes a tank dust collector,

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constructed in the main body (1) of the nuclear reactor disposal facility for nuclear waste disposal with preparation for diving into the lower sea level (SLD) (928), nuclear waste treatment double structure block tank bridge (929), dual structure block tank pipe bridge (937) and nuclear waste treatment dual structure block tank marine tunnel traffic equipment (941) The distribution shaft is divided into a connection structure capable of disassembling the connection shaft and a plurality of distribution shafts for distributing and discharging the same, and a distributing and inputting device for distributing the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a double structure block tank dust collector The reactor is operated to operate nuclear reactors and to treat nuclear waste with dual structure block tank dust collector for nuclear waste disposal.

As shown in FIG. 82, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear reactor waste disposal facility of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

A power motor motor body (192) constituting a distribution shaft of a regulating shaft constituted inside the main body (1) of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, A guide vane 142 is attached to both the impeller 148 and the outer surface of the impeller 143 at the central portion of the rotating shaft 198 formed on the horizontal center line MBCL of the motor body 192 A pump 127 attached to the rotary shaft 198 and a large hydroelectric power generator 944 installed inside the power plant are installed in the marine hydro-electric power plant A main valve 265 on the side of the pump aberration 943a located under the large hydroelectric generator 944 of the turbine 943 and a balance nozzle 265 in the Francis aberration 943c and the Pelton aberration 943b, 140 are connected to a plunger pump 148 and a high-pressure piston pump The propeller pump 146 and the viscous pump 343 in the pump body casing 127 are connected to a plurality of power motor electric motor bodies 192 detachably connected to the rotary shaft 198 inside each pump body casing 141, Stage multi-stage pump 8 of a microcomputer-controlled type, and is arranged inside the main body 1 of the dispensing apparatus main body of the nuclear waste disposal reactor facility,

In the reactor facilities of nuclear hydroelectric power plants, where the former crude oil drilling rig is designed to provide anchorage to anchor hulls and to be different from that of the continental shelf within 200m depth, the hull fixation is replaced with anchor replacement crankshaft (846 ), It is a remarkable difference from constructing the previous hull fixation with anchor.

Referring to FIG. 83, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed in the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear power hydroelectric power plant (593,594,595) Control of the construction equipment of the hull (811a) And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tanks and the auxiliary support coupling split separation shaft (606) for coupling engagement and the portable lug (607) Detailed Assembly Process Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) Nuclear Power Plant Nuclear Power Generation Facility to show the composition of the construction machinery control section of the ship. (771) of the marine tunnel traffic device consisting of the pipe bridge (928), the bridge bridge (937) and the inside of the marine tunnel traffic device (941) Strabismus construction of power generation facility construction machinery road connecting structure,

As shown in FIG. 83, the hull position of the nuclear hydraulic power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

The nuclear waste disposal unit 811a of the nuclear hydropower generation facility unit 811 and the transportation transportation unit 811c of the hull position moving construction machine constitute the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor facility And the distribution shaft constituting the nuclear reactor facility is distributed to provide the hull locating and construction machinery to provide the nuclear reactor power plant with a plurality of reactor facilities into the dual structure block tank dust collector,

Dual Structure Block for Nuclear Waste Disposal At the nuclear hydroelectric plant that constitutes a tank dust collector,

Dispense and Dispose of Nuclear Waste Treatment Equipment Dispensing Equipment of the Nuclear Power Plant Unit (811) Consisting of the Inside of the Body (1) Transferring the Ship to the Transportation Unit (811c) of the Construction Equipment Body of the Marine Power Plant Dock The upper part of the ship deck (SDU) (941) to the pipe bridge (928) and the pipe bridge (937), which show the construction machine position control arrangement of the hull displacement control of the floating type poison (593,594,595) of the small, medium and large sized marine nuclear power plant, (771) construction machinery connection structure of marine tunnel transportation device, and the facilities of nuclear hydroelectric power plant of floating type dock (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plant are prepared,

A hydraulic rotary cylinder 620 of a rack and pinion type (NRP) which is a rotary cylinder constituting a nuclear hydraulic power plant facility, a butterfly valve 622 for controlling the buoyancy of the band guide 621, a hydraulic cylinder 623, a hydraulic cylinder door 624 and a distributor / dispenser of a nuclear hydroelectric power plant adjustment device. The vertical partition wall 605, the pin coupling shaft 606 for connecting the portable lug and the portable lug 607, A portable lug pin 608 and a large flange connection connector joint portion processing hole 615,

Construction machine connection structure constituting the nuclear hydroelectric power plant The pipe bridge 928 is connected to the crude drilling machine 908 constituted by the pipe bridge 928, the pipe bridge 937 and the inside of the marine tunnel transportation device 941. ) And a nuclear waste treatment dual structure block tank in a pipe bridge (937) In a marine tunnel internal transport train (771) facility which consists of the interior of a marine tunnel traffic device (941)

(771) Construction machinery constituting the equipment of the marine tunnel Transport equipment of the nuclear waste disposal unit with connection structure and disassembly unit Small, medium and large marine oceans consisting of the inside of the main body (1) (928), double structure block tank bridge bridge (929), double structure block tank bridge bridge (937) and nuclear waste disposal bridge (928) of floating structure dock (593,594, 595) Structure block tank A marine tunnel equipped with a plurality of distribution shafts and distribution input devices for distributing and discharging to a disassembly-connectable connection structure of the connection shaft connected to the traffic devices (941) Nuclear power plant's nuclear waste disposal reactor The nuclear power plant's nuclear power plant is divided into a dual structure block tank dust collector for nuclear waste disposal.

Referring to FIG. 84, a nuclear hydroelectric power plant 811 having a dual structural block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for processing marine nuclear hydroelectric power plants. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear power hydroelectric power plant (593,594,595) Control of the construction equipment of the hull (811a) And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tanks and the auxiliary support coupling split separation shaft (606) for coupling engagement and the portable lug (607) Detailed Assembly Process Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) Nuclear Power Plant Nuclear Power Generation Facility to show the composition of the construction machinery control section of the ship. The overall composition of the marine nuclear hydroelectric power plant dependence dock consisting of the pipe bridge (928), the bridge bridge (937) and the inside of the marine tunnel traffic system (941) The structure of the marine nuclear hydroelectric power plant lifting type docking and distribution system is shown in Fig. 1, which shows the dual structure holding tank and lifting type docking system. , Which shows the disassembly and disassembly structure of the floating tank as a unit of the floating tank showing the disassembly and disassembly of the unit. The structure of the floating type dock hull assembling method of the floating nuclear power hydroelectric power plant of the marine nuclear hydroelectric power plant,

As shown in FIG. 84, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

A nuclear waste disposal unit 811a of a nuclear power generation facility 811 constituting a distribution dispensing apparatus main body 1 of a nuclear waste disposal facility and a transportation transportation unit 811c of a hull position moving construction machine It is necessary to allocate both sides of the distribution shaft constituting the nuclear reactor facility to provide hull locating and construction machinery and to install a plurality of nuclear reactor facilities into the double structure block tank dust collector,

Dual Structure Block for Nuclear Waste Disposal At the nuclear hydroelectric plant that constitutes a tank dust collector,

The holding tank (590) equipment, which consists of a buoyancy control tank and a connection structure,

(593, 594, 595) of the buoyancy control tank between the inner block tank 596 constituted by the double structure block tank 598 and the vacant space of the outer block tank 599, the small, medium and large sized marine nuclear hydroelectric power plants, And a pin connection shaft 606 and a lug pin 608 for coupling the lug 607 to the outer portion located outside the nuclear waste treatment double structure block tank marine tunnel transport device 941 and the marine small- (593,594,595) barge hull installations for medium-sized and large-scale marine nuclear hydroelectric power plants,

(593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants constructed by barge ship hull equipment. The barge hull holding tank (590) is connected freely to the holding tank (590) of the barge hull at sea level. A hydraulic cylinder 620, a hydraulic cylinder 623, and a hydraulic cylinder door 624 constituting an operation for spreading and spreading,

The buoyancy control butterfly valve 622 and the buoyancy control butterfly valve 622 having a connection structure with the solenoid valve 76 connected to the buoyancy control tank of the barge hull are connected to the main switch for the solenoid valve start switch button Providing an on-time main switch button 66 actuation of button 66,

(928) of the double structure block tank pipe of the floating tank (593, 594, 595) of the marine small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device main body Nuclear waste treatment Double structure block A connection structure capable of disassembling the connecting shaft connected to bridge pipe bridge (929), double structure block tank bridge bridge (937) and nuclear waste treatment double structure block tank marine tunnel traffic equipment (941) A nuclear power plant with a double structure block tank dust collector equipped with a plurality of distribution axes for distributing and discharging the nuclear waste, and a distributing and inputting device for nuclear waste disposal; And a dual structure block tank dust collector.

As shown in FIG. 84, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

The stern section of the holding tank upper barge hull (591), which is composed of the facilities of the marine nuclear hydroelectric power plant, is connected to the respective holding tanks (590) not connected to the barge hull.

(590) with vertical position control at the top of the sea level in the state where the vertical movement of the vessel is adjusted to the vertical position. The connecting shaft aft part and the holding tank upper barge hull (591) are connected to the distribution shaft. (637), barge, tugboat (636) and anti-sinking rescue lines to be installed on the submarine and semi-submerged submerged ship (637), and to distribute construction machinery and marine tunnel traffic equipment of sea crane and anti- (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants with sinking prevention type which provide automatic manufacturing connection structure of mooring device fixing and disconnection by putting device movement regulator and throttle control device, To provide a foundation for manufacturing installation,

Construction equipment of nuclear hydroelectric power plant and distribution equipment of the marine tunnel traffic equipment The position shift control device and the throttle control device are provided,

(593, 594, 595) for small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants in the offshore, and a double structure block tank for the treatment of nuclear waste. A holding tank 590 of a barge hull of a coupled connection structure is connected to one side of a holding tank having a block tank combined portable rug 607 of a barge hull provided in the ocean, A double structure block tank dust collector for nuclear waste treatment is provided with a holding tank 590 provided with a regulating device as a holding block tank capable of adjusting the positional movement of the hull at a constant angle from 0 ° to 350 ° vertically and horizontally The distribution and input devices of reactor facilities for the nuclear waste disposal of nuclear hydroelectric power plants are composed in the ocean,

(593,594, 595) of marine nuclear, hydro, and nuclear power plants in the middle of the ocean, and distributing the nuclear reactor waste disposal facility for the purpose of overcoming natural disasters in sequence. (928) and dual structure block tank bridge bridges (929) and dual structures (593, 594, and 595) of marine small, medium and large sized marine nuclear hydroelectric power plants, A plurality of distribution shafts and distribution shafts for distributing to the disassemblyable connection structure of the connection shaft connected to the block tank pipe bridge 937 and the nuclear waste treatment dual structure block tank marine tunnel traffic equipment 941, The nuclear reactor of nuclear marine nuclear power plant equipped with a double structure block tank dust collector is installed in the nuclear reactor facility for nuclear waste disposal. And a block tank dust collector.

As shown in FIG. 84, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

The power transmitting portion 811d constituting the hydraulics power transmission to both the forward and aft ends of the central portion of the plurality of inner block tanks 596 to the inside of the hull deck center portion SDM of the barge hull 591 of the marine nuclear hydroelectric power plant, A guide rail 618 located at the upper part of the hull deck (SDU) of the double structure barge hull 591 at the upper end of the holding tank 590 provided with the insertion of the adjustment shafts is provided at the left and right positions of the deck deck ,

A moving installation inside the barge hull is provided while a crane 861 having a capacity of 5000 tons is provided on the guide rail 618,

In the safety place where the crane 861 constituting the hydraulic equipment refinement passes,

The sliding hinge cover 153 of double structure is installed in a double or triple arrangement. The double hinge cover 153 is provided at one end of each of the control shafts and is provided with a hydraulic cylinder 623, (593, 594, 595) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus equipped with a hydraulic cylinder (623) (928), nuclear waste treatment double structure block tank bridge (929), dual structure block tank bridge (937) and nuclear waste treatment dual structure block tank marine tunnel traffic equipment (941). A plurality of distribution shafts for distributing to a connection structure capable of disassembling and coupling the connection axes to be connected, and a distributing and inputting device, and a nuclear structure of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector Vessels treatment consists achieve a nuclear reactor plant the operation of the distribution chute of a reactor plant for a dual structure block dust collector tank for the nuclear waste disposal.

As shown in FIG. 84, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

(591) at the upper end of the double structure holding tank and a holding tank (590) at the lower end of the double structure holding tank, which are composed of facilities of a marine nuclear hydroelectric power plant, The pin coupling shaft 606 for the portable lug coupling has a lug 607, a lug coupling shaft coupling bolt 603, a lug coupling shaft coupling and dismounting nut 604, (593,594,595) of the marine small, medium and large scale offshore nuclear hydroelectric power plants constructed by the transportation transport section (811c) of the construction machine of the poison hull, the double structure block tank bridge pier (928) and the double structure block A plurality of distribution shafts constituting the discharge by distributing the tank pipe bridge (937) and the nuclear waste disposal marine tunnel transportation device (941) connection shafts into disjointable connection structures,

(SDM) of the dual structure barge hull 591 at the upper end of the holding tank of the above-mentioned control shaft is connected to several inner block tanks 596 as a connection structure, 1) double structure block tank bridge pier (928), double structure block tank bridge bridge (937) and nuclear waste (593,594, 595) of marine small, medium and large scale offshore nuclear hydroelectric power plants, (591) of a small marine nuclear hydroelectric power plant that distributes and discharges to a connection structure that can be disassembled and connected to the connecting shaft, A double structure block tank 598 on the peripheral surface of a floating nuclear power plant of a marine nuclear hydroelectric power plant, and a portable crane pin connecting shaft 606 and a mid- A floating cylinder 594 of a hydroelectric power plant, a hydraulic cylinder 623 as a hull connecting and separating portable lug 607 and a portable lug pin connecting shaft 606 located at respective locations, (593) of a hydroelectric power plant and a supportive detoxification (594) of a medium-sized marine nuclear hydroelectric power plant,

At the side portion of the lifting tongue 594 of the middle type nuclear hydroelectric power plant, the hull-engaging and separating portable lug 607 and the portable lug pin connecting shaft 606,

The hydraulic cylinders 623 constituting the lifting tongues 594 are connected to the lifting tongues 595 side portions of the large-scale marine nuclear hydroelectric power plants, the hull-detachment portable rugs 607 located at the respective tanks, And the hydraulic cylinders 623 are provided with connection shafts 606, respectively.

(928) of the double structure block tank pipe of the floating tank (593, 594, 595) of the marine small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device main body Nuclear waste treatment Double structure block A connection structure capable of disassembling the connecting shaft connected to bridge pipe bridge (929), double structure block tank bridge bridge (937) and nuclear waste treatment double structure block tank marine tunnel traffic equipment (941) A nuclear power plant with a double structure block tank dust collector equipped with a plurality of distribution axes for distributing and discharging the nuclear waste, and a distributing and inputting device for nuclear waste disposal; And a dual structure block tank dust collector.

As shown in FIG. 84, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

The buoyancy control butterfly valve (622) and the solenoid valve (76), which constitute the suction and discharge of the disaster prevention water, are installed inside the floating type poison (593,594,595) of the small, medium and large sized nuclear hydroelectric power plants constituting the nuclear power plant, (76) which constitutes opening of the buoyancy control butterfly valve (622) with connection structure to the barge hull by providing the on-time main switch button (66) operation of the main switch button for the starter switch button The hydraulic cylinder doors 624 are opened by the operation of the hydraulic cylinder 623 between the adjusting vents and the electrolytic water is filled in the vacant spaces for diving control while the barge hull is slowly diving into the water while the buoyancy is lost,

A pair of holding tanks (590) constituting a portable trolley (607) for joining a block tank of a hull of a barge, a plurality of vertical lugs (607) on both sides of the trolley (607) (606) have a connection structure and provide a connection by the operation of the hydraulic rotary cylinder (620) and the hydraulic cylinder (623), while the hydraulic cylinder doors (624) In the oceanic hydroelectric power plant, it is necessary to prepare decomposition bonds in the ocean in units of floating tank block tanks,

And the lug hinge sockets (613) located at the respective portions of the holding tank (590) to provide the disassembly and coupling, while the inside of the dispensing apparatus main body (1) of the nuclear reactor for treating nuclear waste, (928), nuclear waste treatment double structure block tank bridge (929), double structure block tank bridge (937), and bridge structure tank tank bridge (593, 594, 595) of a large ocean nuclear hydroelectric power plant. Nuclear waste treatment dual structure block tank A plurality of distribution shafts for distributing to a disassembly-connectable connection structure connecting the connection shaft to the marine tunnel traffic devices 941, The nuclear reactor nuclear power plant nuclear waste power plant nuclear waste power plant nuclear waste treatment plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant

Referring to FIG. 85, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear power hydroelectric power plant (593,594,595) Control of the construction equipment of the hull (811a) And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tanks and the auxiliary support coupling split separation shaft (606) for coupling engagement and the portable lug (607) Detailed Assembly Process Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) Nuclear Power Plant Nuclear Power Generation Facility to show the composition of the construction machinery control section of the ship. The overall composition of the marine nuclear hydroelectric power plant floodplain composed of the pipe bridge (928), the bridge bridge (937) and the inside of the marine tunnel traffic system (941) The structure of the assembly system showing the construction of a marine nuclear hydroelectric power plant with a dual structure holding tank and a lifting type poisoning system for explaining the expression is shown in a marine nuclear hydroelectric power station floating type double block tank , Which shows the disassembly and disassembly structure of the floating tank as a unit of the floating tank showing the disassembly and disassembly of the unit. The structure of the floating type dock hull assembling method of the floating nuclear power hydroelectric power plant of the marine nuclear hydroelectric power plant,

As shown in FIG. 85, the hull position of the nuclear hydraulic power plant unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

The nuclear waste disposal unit 811a of the nuclear hydropower generation facility unit 811 and the transportation transportation unit 811c of the hull position moving construction machine constitute the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor facility And the distribution shaft constituting the nuclear reactor facility is distributed to provide the hull locating and construction machinery to provide the nuclear reactor power plant with a plurality of reactor facilities into the dual structure block tank dust collector,

Dual Structure Block for Nuclear Waste Disposal At the nuclear hydroelectric plant that constitutes a tank dust collector,

(593,594,595) Nuclear waste treatment Double structural block tank of small, medium and large scale hydroelectric power plant of nuclear hydroelectric power plant Double structural block tank (598) of marine tunnel traffic system (591) Individual welding (591, 594, 595) of the small, medium and large sized marine nuclear hydroelectric power plants, equipped with a marine safety gear tool band device (621) at the top of a sea half diving operation line Weld joint method and flange coupling method of process are prepared,

The double structure block tank 598 and the portable lug pin connecting shaft 606, which constitute the nuclear hydraulic power plant facility,

At the sea level, each of the pin connecting shafts 606 is connected to one place while the welding connecting lines are welded in a symmetrical manner. In the case of the double structure block tank 598, the tooth tool band guide 621 is connected to the semi- To provide a coupling operation of the large flange 614 at the connection position in units of the double structure block tank 598,

The partial coupling of the double structure block tank 598 constituting the connection flange 614 of the large flange 614 is connected to the band guide 621 and the half diving operation line 621 while providing the line coupling with the lever block 123 and the chain blocks 648. [ And a marine tunnel transport device 941 connected to the marine nuclear hydroelectric power plant lifting dock with welders and bolts and nuts and assembled tools as a welded joint and flange connection of the dual structure block tank 598, The double structure block tank 598 is provided with welding connection and flange coupling performance,

(928) of the double structure block tank pipe of the floating tank (593, 594, 595) of the marine small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution input device main body Nuclear waste treatment Double structure block A connection structure capable of disassembling the connecting shaft connected to bridge pipe bridge (929), double structure block tank bridge bridge (937) and nuclear waste treatment double structure block tank marine tunnel traffic equipment (941) A nuclear power plant with a double structure block tank dust collector equipped with a plurality of distribution axes for distributing and discharging the nuclear waste, and a distributing and inputting device for nuclear waste disposal; And a dual structure block tank dust collector.

As shown in FIG. 85, the hull position of the nuclear hydraulic power plant unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

(941), which is connected to the floating ocean tanks (593, 594, 595) of small-sized and medium-sized and large-scale marine nuclear hydroelectric power plants constituting the main body (1) of the distribution- The dual structure block tank (598)

Small, medium and large marine marine vessels (593,594, 595) at the top of the sea-level upper part (SLU) of the dual structural block tank (598) At the upper part of the center of the lifting tanks 593, 594 and 595 of the nuclear hydroelectric power plant, a tackle winch 137 inside the block pylon 116 accommodating several emergency stairs 631 is provided, ,

The double-structure block tank 598 is provided with a coupling shaft coupling bolt 603 for coupling the unit block steel tower coupling coupling hole 615 to the coupling shaft coupling nut 604, And an emergency stairway 631 is installed around the upper end of the block pylon 116,

The emergency stairs 631, which constitute the dual structure block tank 598 facility,

The upper portion of the mooring tower 644 and the mooring position of the airship 78. The crane 861 and the elevator 632 are installed at the bottom of the lower portion of the airship,

(598) Distribution of reactor facilities for nuclear waste disposal from storm surges constituting equipment (1) Distribution of reactor facilities for the treatment of nuclear waste that protects the safety of objects while distributing loads constituting the inside of the main body The maritime tunneling traffic device 941 for buoyancy control included in the main body 1 of the injector is installed at the position of the lower end 40M of the sea level SLL to adjust the installation position of the marine tunnel traffic device 941 to the distribution And then,

(593,594,595) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constructed in the main body (1) of a nuclear reactor waste disposal reactor facility, and a nuclear waste Treated double structure block tank bridge 929 and the double structure block tank bridge 937 and the nuclear waste disposal double structure block tank marine tunnel traffic apparatus 941. In this case, A nuclear power plant with a dual structure block tank dust collector equipped with a plurality of distribution shafts and distribution input devices for discharging the nuclear waste from the nuclear power plant, Structure block tank dust collector.

As shown in FIG. 85, the hull position of the nuclear hydraulic power plant unit 811 constituting the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

In the distributing and inputting device for operation of the construction machine composed of the connection structure of the reactor facility of the nuclear hydroelectric power plant,

A submarine mineral resource manganese block (909) for buoyancy control is provided as a diving buoyancy control buoy weight (107) having a diving position control mobile connection structure of a hull constituting a connection structure of a maritime tunnel traffic device (941) (593,594, 595) of marine small, medium and large sized maritime nuclear hydroelectric power plants equipped with manganese blocks (909) connected to the submersible displacement control device of the barge hull, (909) for seawater mineral resource manganese for buoyancy control,

(593,594, 595) of the small and medium sized and large sized marine nuclear hydroelectric power station of the upper part of the sea (SLU) equipped with buoyancy connection structure constituting the manganese monolith. Upper part of the hull deck upper part (SDU) It is equipped with crane boom to crane boom and level maintenance witness (107) for each crane boom of each crane located, and it is equipped with mooring device and power generation equipment to construct the marine hydroelectric power generation system continuously. (811b) for generating a power as a linking structure to be installed in the main body (1) of the nuclear reactor waste disposal reactor apparatus, and a floating type of a marine nuclear power hydroelectric power plant of a small size, (593, 594, 595) hull locomotion facility construction transportation machine transportation section (811c) to constitute to control power production of nuclear hydroelectric power plant,

The distribution input device of the submarine mineral manganese block (909) constituted by the connecting structure inside the distribution dispensing apparatus main body of the nuclear waste disposal reactor facility

A connection structure for providing a plurality of hatch covers 153 provided on the outer bulkheads of the respective portions of the body of the strut tank lower barge hull 592 constituting the distribution input device of the manganese block 909, A connecting structure having a connection structure to the pneumatic conveying device 916 is connected to the buoyancy control butterfly valve 622 of the diving control device of the pipeline and the connection structure solenoid valve 76 Solenoid valve Solenoid valve to pressure switch Main switch button for start switch button (66) Power line (71) to connection structure Dispensing device of reactor facility for nuclear waste disposal to provide connection structure Main body (1) Inside And a power transmission control unit 811d that controls the power generation of the nuclear hydroelectric power plant,

(593,594,595) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constructed in the main body (1) of a nuclear reactor waste disposal reactor facility, and a nuclear waste Treated double structure block tank bridge 929 and the double structure block tank bridge 937 and the nuclear waste disposal double structure block tank marine tunnel traffic apparatus 941. In this case, A plurality of distribution shafts for discharging, and a distributing and inputting device for distributing the nuclear reactor waste water treatment plant nuclear waste water reactor nuclear power plant having dual structure block tank dust collector, Of nuclear reactors are operated by a double structure block tank dust collector for nuclear waste disposal.

Referring to FIG. 86, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear power hydroelectric power plant (593,594,595) Control of the construction equipment of the hull (811a) And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tanks and the auxiliary support coupling split separation shaft (606) for coupling engagement and the portable lug (607) Detailed Assembly Process Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) Nuclear Power Plant Nuclear Power Generation Facility to show the composition of the construction machinery control section of the ship. The overall composition of the marine nuclear hydroelectric power plant floodplain composed of the pipe bridge (928), the bridge bridge (937) and the inside of the marine tunnel traffic system (941) The structure of the assembly system showing the construction of a marine nuclear hydroelectric power plant with a dual structure holding tank and a lifting type poisoning system for explaining the expression is shown in a marine nuclear hydroelectric power station floating type double block tank , Which shows the disassembly and disassembly structure of the floating tank as a unit of the floating tank showing the disassembly and disassembly of the unit. The structure of the floating type dock hull assembling method of the floating nuclear power hydroelectric power plant of the marine nuclear hydroelectric power plant,

86, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispenser main body 1 of the nuclear reactor waste disposal facility of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

The nuclear waste disposal unit 811a included in the nuclear hydropower generating unit 811 constituting the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor equipment or the transportation transportation unit 811c ) To distribute the both sides of the distribution shaft constituting the nuclear reactor facility and to construct hull locating and construction machinery to prepare the nuclear reactor hydrostatic power plant into the double structure block tank dust collector,

Dual Structure Block for Nuclear Waste Disposal At the nuclear hydroelectric plant that constitutes a tank dust collector,

Tubular bridges that constitute nuclear hydroelectric power plant facilities Multiple bridges for disassembly of raft line with tugboat installed at long distance transport Disassembly and transportation in area Installed block tank with 500 m unit block tanks Clamping method Crankshaft (593,594,595) hull assemblies of small, medium and large sized marine nuclear hydroelectric power plants connected with nuclear waste treatment double structure block tank bridge (929) for nuclear waste disposal (590) of the holding tank upper barge hull (591) and the holding tank lower barge hull (592) formed before and after the process of the water surface embedding process constituted inside the distribution dispensing apparatus main body (1) of the reactor installation A plurality of column block tanks 590 formed on the upper side of the holding tank upper barge hull 591, (607) for connecting the lug pin connecting shaft (606) and the lug connecting shaft coupling bolt and the screw thread and lug connecting shaft (606 And a portable crankshaft 608. In this way, a common water surface treatment process is provided so as to achieve disassembly and coupling of the reactor facilities of the nuclear hydroelectric power plant,

The processing hole 615 and the long hole 616, which are formed in the portable lug 607,

Horizontal to vertical building work in the form of dry,

In the nuclear hydroelectric plant including the portable crank pin connecting shaft 606 and the portable crank pins 608,

And the bottom of the center of each of the vertical holding tanks 590 on the outer circumferential side of the inner circumferential surface of the inner side of the pillar hull of the upper side of the holding tank 590 is excavated Equipment and mooring devices,

Borehole excavation is provided with a coarse drill 917 constituting several pipe racks 854 formed on the undersea surface G L D,

(970) connected to the barge at the upper end of the pillar portion of each of the pillar holding tanks with connection of the crankshaft replacement crank (846) to the hydraulic cylinder (620) and the hydraulic cylinder working key bed (623) Respectively,

The hydraulic cylinder 620 is operated by pushing the wrench crank 846 into the drill hole for drilling the corrugated wrench crank 846 connected to the construction machine 970 so that the wrench crank 846 And a plurality of pinch-tightening tools 185 having a sharp end, which are compressed and expanded inside the drilling hole, are fixed to the ground to fix the lower end of each strut tank to prevent the barge ship from drifting,

Lifting tanks (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants, which make up anchor crank crank (846)

The marine tunnel transport devices, which are composed of small-sized, medium-sized and large-scale marine nuclear power hydroelectric power plants (593, 594, 595)

(1) of the nuclear waste disposal reactor apparatus (1) in the shared landfill site (944) and the shared water surface landfill site (928), double structure block tank bridge bridge (929), dual structure block tank bridge bridge (937) and nuclear waste disposal (928) of floating tank of oceanic hydroelectric power plant (593,594, 595) A dual structure block tank having a plurality of distribution shafts for distributing and discharging the connection shaft connected to the marine tunnel traffic devices 941 to a disassemblable connection structure of the connection shaft and a distributing and inputting device, It consists of a dual structural block tank dust collector for the treatment of nuclear waste at nuclear power plant's reactor facility for nuclear waste disposal reactor.

Referring to FIG. 87, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, (811a) of the construction moving machinery including the lifting-type poisoning hull, which includes the floating tubular structure of the nuclear waste disposal system of the nuclear hydroelectric power plant The power production control unit 811b includes an elementary marine power plant dock 811b showing the configuration of one embodiment of the operation of a nuclear power plant for providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. Of the small, medium and large marine hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structure block showing the position control structure of the construction machine. (2) Distribution unit of the nuclear reactor waste treatment facility of the marine nuclear hydroelectric power plant having the tank dust collector. (1) The small, (593,594,595) Nuclear power hydroelectric power plant (593,594,595) Control of the construction equipment of the hull (811a) And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tanks and the auxiliary support coupling split separation shaft (606) for coupling engagement and the portable lug (607) Detailed Assembly Process Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) Nuclear Power Plant Nuclear Power Generation Facility to show the composition of the construction machinery control section of the ship. The overall composition of the marine nuclear hydroelectric power plant floodplain composed of the pipe bridge (928), the bridge bridge (937) and the inside of the marine tunnel traffic system (941) The structure of the assembly system showing the construction of a marine nuclear hydroelectric power plant with a dual structure holding tank and a lifting type poisoning system for explaining the expression is shown in a marine nuclear hydroelectric power station floating type double block tank , Which shows the disassembly and disassembly structure of the floating tank as a unit of the floating tank showing the disassembly and disassembly of the unit. The structure of the floating type dock hull assembling method of the floating nuclear power hydroelectric power plant of the marine nuclear hydroelectric power plant,

As shown in FIG. 87, the hull position of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector In the facilities of the marine nuclear hydroelectric power plant constituting the mobile construction machine input,

The nuclear waste disposal unit 811a included in the nuclear hydropower generating unit 811 constituting the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor equipment or the transportation transportation unit 811c ) To distribute the both sides of the distribution shaft constituting the nuclear reactor facility and to construct hull locating and construction machinery to prepare the nuclear reactor hydrostatic power plant into the double structure block tank dust collector,

Dual Structure Block for Nuclear Waste Disposal At the nuclear hydroelectric plant that constitutes a tank dust collector,

(811a) Nuclear power generation nuclear waste treatment unit (811a) of the nuclear power generation facility unit (811) constituting the main body (1) of the distribution apparatus of the nuclear waste treatment plant body Body dock of the marine power plant The small (593,594, 595) of marine small, medium and large sized marine nuclear hydroelectric power plants, which regulate the position of the construction machinery in the control of hull position of the floating type poison (593,594,595) of medium and large sized marine nuclear hydroelectric power plants, The vertical partition wall 605 for disassembling and assembling, the pin connecting shaft 606 for connecting the portable lug 606, the portable lug 607, the portable lug pin 608, the large flange connection connector joint portion machining hole 615, As a connection structure,

The upkeep poisons (593, 594, 595) of small, medium, and large marine nuclear hydroelectric power plants,

A hydraulic rotary cylinder 620 of a rack and pinion type (NRP), which is a rotary cylinder constituting lifting tanks 593, 594 and 595 of a marine nuclear hydroelectric power plant, and a buoyancy control butterfly valve 622 of the band guide 621 A vertical partition wall 605 constituted by distributing and introducing devices of a nuclear power plant adjustment machine provided with a hydraulic cylinder or a hydraulic cylinder key 623 as a hydraulic cylinder door 624, (606), a portable lug (607), a portable lug pin (608), a large flange connection connector joint portion machining hole (615) and a hydroelectric power plant construction machine connection structure,

(593,594,595) Dual structure block tank (598) Double structure block tank tank (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power station constituting main body (1) The disassembly coupling of the connecting shaft connected to the bridge 928 and the nuclear waste treatment dual structure block tank bridge 929, the double structure block tank bridge 937 and the nuclear waste treatment dual structure block tank marine tunnel traffic apparatus 941 This system is composed of a number of distribution shafts and distribution input devices which distribute to the possible connection structure to discharge and construct the dual structural block tank dust collector for the nuclear waste disposal.

Referring to FIG. 88, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, (802) Elemental Conventional Boiling Water Reactor Facility (802) showing the exterior aspect of a nuclear power plant (802)

As shown in FIG. 88, the boiling water reactor equipment 802 constituted from among various types of reactor facilities of the conventional nuclear power plant 672,

The reactor structure of a nuclear power plant according to the prior art has a structure in which the five-folded protective walls are formed in a closed structure, and explosion occurs in any one of the five-folded protective walls. If the number of neutrons is large, When the energy exceeds the danger level and then a boiler reactor that exploits the fission chain reaction in an ideal state explodes, it can be recognized that the boiling water reactor (BWR) It is a reactor that can use water as a moderator and coolant and boil it to directly drive the turbine of the generator. The steam booster in the moderator caused by the boiling produces a negative reaction effect. By this action, Positive response The output rise can be suppressed.

In addition to control by the control rod, the output of the reactor is also controlled by a recirculation flow control method by modifying the flow rate of the cooling water. The boiling water reactor (802) power plant is called a plant with simple system and easy control of operation.

In addition to the control by the control rod 798, the output of the boiling water reactor assembly 802 is also suppressed by modifying the flow rate of the cooling water 287 by the recirculation flow rate control system, Boiling water reactor plant (802) The power plant is composed of a power plant with simple system and easy control of operation.

Referring to FIG. 89, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, And a diesel generator building 688E in a control building 688C and an auxiliary building 688D in a reactor building 688A and a turbine building 688B which illustrate a conventional boiling water nuclear reactor arrangement 802, (688G) in the nuclear fuel building (688F)

89, a reactor building 688, which constitutes one embodiment of a conventional boiling water nuclear reactor nuclear power plant, includes a control building 688C and an auxiliary building 688B in a reactor building 688A and a turbine building 688B. 688D) and a waste building (688G) connection structure in a nuclear fuel building (688F) to provide an operation control easy operation structure in which a boiling water reactor facility (802) operation of a nuclear power plant (672) And a power plant.

Hereinafter, as shown in FIG. 89 to FIG. 92, the constituent elements of a conventional boiling water nuclear reactor nuclear power plant according to an embodiment will be described as follows.

Referring to FIG. 90, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, A conventional boiling water reactor arrangement (802) including an elementary side structure showing a nuclear operation of a nuclear power plant in a side view,

Referring to FIG. 91, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for a marine nuclear power plant, (802) elemental conventional boiling water reactor plant (802) showing the configuration of an embodiment formed from a nuclear power plant. The elemental side structure of the nuclear power plant is shown in side view,

Referring to FIG. 92, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention, A conventional boiling water reactor plant (802) including a conventional boiling water reactor plant (802) showing the essential constitution of an embodiment formed by the operation of a nuclear power plant. The elemental side structure of a conventional boiling water reactor plant nuclear power plant,

As shown in FIG. 90, a conventional boiling water nuclear reactor (802) nuclear power plant is formed by a conventional boiling water reactor (802) nuclear power plant, The main structure inside the 1100 MWe boiling water reactor pressure vessel 813 is described as follows.

The boiling water reactor apparatus 802 constituted inside the main body 1 of the conventional nuclear waste disposal reactor apparatus comprises:

The boiler water reactor (802) is the first commercial reactor developed and has a capacity of 1.2 million KW starting from the initial 200,000 KW power generation capacity. Unlike the booster water reactor facility (803) It is not necessary to use the control rod 810 in the reactor pressure vessel 813 because the steam 780 containing the radiation material circulates to the turbine 267, A steam separator 818 and a steam drier 786 are disposed on the core 791 and a control rod guide housing 798e and a control rod drive housing 768 are provided below the core 791. [ 798a, and the like. Around the core 791, a core shroud, a jet pump 325, and the like are formed.

The fuel assemblies 671 of the boiling water reactor assembly 802 are,

For example, a total of 64 fuel rod (689), one water retaining water rod and one water rod, are arranged in 88 positive mesh grids, which are surrounded by a channel box will be.

The fuel rods 689 constituting the fuel assemblies 671 of the boiling water reactor assembly 802 are,

Uranium dioxide fuel pellets 683, plenum springs and the like are loaded into the Zircaloy cladding tube 682, helium 176 is sealed, and both ends are welded and sealed with plugs. The plenum is a space that accommodates the fission product gas discharged from the fuel pellets in accordance with combustion and is set such that the internal pressure of the fuel rod 689 is not excessive.

The control rod 798, constituting the boiling water reactor assembly 802,

Since a cross section formed by four fuel assemblies 671 is moved, a cross-shaped blade is provided,

The control rod 798 is formed of boron carbide (B4C) or hafnium (Hf) as a neutron absorber 675 or a combination thereof.

Below the control rod 798, there is a falling speed limiter having an umbrella-type structure in order to limit the falling speed of the control rod 798 when it falls down.

In addition, there is a socket for coupling with the control rod drive mechanism.

As the control rod 798, there are a hydraulic licking type and an electric drive type. In the rapid insertion of the control rod 798,

When the nitrogen gas pressure stored in the accumulator is provided and an abnormality occurs in the reactor facility or there is a possibility of occurrence of the abnormality, the entire control rod 798 is simultaneously inserted into the core 791 from the lower part of the core 791 The reactor installation is shut down (hereinafter referred to as the reactor scram)

Since the boron-containing water injection system capable of stopping the reactor facility is provided even when the entire control rod 798 can not be inserted, the boron is a material that absorbs the neutrons 675 well, and the boric acid water is stored in the tank, ).

91, in the carbon steel reservoir container 808 equipment constituting the boiling water reactor equipment 802,

The pressure vessel 813, which has a steel thickness of 3 cm,

The thickness of the steel is 16 cm, and the concrete hangar (reinforced concrete) 225 is 200 cm thick, and the boiling water reactor facility 802 is constructed.

First, the boiling water reactor plant 802 in the control of the output of the boiling water reactor plant 802,

The steam 654a is used as the moderator 676 and the coolant 816 to boil the steam so that the steam is generated at a direct pressure of about 70 kg / And the light water (654a) refers to light water, that is, ordinary water.

Second, when the control rod 798 is drawn out, the reactivity of the reactor increases and the output increases.

When the boiling is accelerated by the third boiling, the density of the moderator 676 decreases and the deceleration efficiency of the neutrons 675 lowers and the negative reaction degree is added.

In the fourth case, the output of the reactor is stabilized when the response of the positive and the response of the negative caused by the withdrawal of the control rod 798 are balanced.

In the fifth case, when the control rod 798 is inserted, the opposite phenomenon occurs, so that the void decreases and the efficiency of decelerating the neutrons 675 increases as the density of the moderator 676 increases, .

The sixth is stabilized at the new output when balanced with the negative response applied by the control rod 798, and thus the boiling water reactor assembly 802 has self controllability by voids.

Next, the heat generated in the fuel rod 689 in the core 791 is transferred to the coolant 816.

Next, the boiling water reactor 802 uses heat transfer in the boiling region.

In the ninth, since the heat flow rate due to the temperature difference between the heat transfer surface and the coolant 816 is obtained in many experiments and the heat transfer is lowered in the heat transfer boiling region where boiling is intense, the fuel cover material 681 may be burned out. And the operation is restricted so that it does not reach the transition boiling region at the time of abnormal operation during operation and during operation.

The heat generated in the fuel rod 689 is transferred to the coolant 816 in the tenth.

Since the cooling water 287 is recirculated to increase the flow rate through the core 791 and more heat can be drawn out, the recirculation pump 239 or the flow control butterfly valve 305 is provided in the reactor, Is provided for the recirculation system.

The twelfth is that when the reactor installation is combined with the turbine generator 772, the reactor installation output can follow the turbine load.

In the thirteenth boiling water reactor installation 802, if there is a change in the load at the final stage, the adjustment of the reactor installation output is first made by increasing or decreasing the withdrawal insertion or recirculation flow rate of the control rod 798.

In this state, when the output of the reactor installation and the load are shifted, the pressure of the reactor installation increases or decreases.

Thus, the pressure of the reactor facility is controlled by adjusting the opening of the turbine add / drop valve.

This method is called "reactor facility priority method".

When the turbine 267 is abnormally stopped, the flow of the steam is interrupted to increase the pressure of the reactor installation, but the turbine 267 opens the pass valve to suppress the pressure of the reactor installation.

As shown in FIG. 92, the engineering safety system in the boiling water reactor installation 802 will be described as follows.

In the boiling water reactor facility 802,

If the cooling water 287 of the core 791 is lost due to a breakage accident in the piping of the reactor cooling system or the like, it is assumed that the cooling water is lost. In order to prevent the fuel from being damaged, the emergency core cooling system (ECCS), which is composed of a high-pressure core system, an automatic decompression system, a low-pressure core system and a low-pressure system, connected to engineering safety systems in a boiling water reactor facility (802).

In the case of fuel breakage, the reactor water container 808 is provided so that the radioactive material is contained in the high-temperature, high-pressure cooling water 287 discharged from the core 791, so that the radioactive material is not discharged outside.

Since the reactor containment vessel 808 in the boiling water reactor (BWR) 802 is all pressure-relieved, this system draws the outflowed steam 780 into the pressure control pool 240 of the pressure- The temperature of the container 808 is raised by the collapsing heat of the post-accident fuel, and at the same time, the temperature of the container 808 is raised, Cooling is provided,

A reservoir 808 sprinkler system installation is provided to allow cooling water 287 to be dispensed from the top of the reservoir vessel to remove radioactive material such as iodine floating in the reservoir vessel 808.

The emergency gas treatment system may be installed in the nuclear reactor building 688 in preparation for leakage of the radioactive material in the nuclear reactor container 808 in the boiling water reactor installation 802 to directly discharge the radioactive material to the atmosphere .

Also, there is a possibility that the temperature of the fuel covering material 681 increases with the loss of the coolant, hydrogen may be generated by the water-metal reaction, and if the hydrogen is burned rapidly, the integrity of the container 808 may be damaged In the boiling water reactor assembly 802, nitrogen is filled in the reactor vessel 808 during normal operation, but MARK-3, which is a design that does not require nitrogen injection, is not adopted in Japan.

The boiling water reactor facility (802) is equipped with a flammable gas concentration control system that prevents the rapid combustion by recombining the hydrogen and oxygen generated in the operation of the nuclear power plant. The boiling water reactor facility (802) Will be described as follows.

In the fuel handling at the nuclear power plant constituting the boiling water reactor assembly 802,

After a certain period of operation, the power plant will stop for periodic inspections, so the fuel should be replaced in parallel with the regular inspections,

The fuel replacement operation stops the operation of the reactor and lowers the temperature of the reactor coolant 287, then peels off the top cover pressure vessel 813a of the reactor pressure vessel 813 and pressurizes water in the reactor pressure vessel 813 and the reactor well Since the fuel is replenished in the water after the filling, the fuel replacement is provided with a fuel changer,

As described above, it describes the core of BWR, such as the control of BWR reactor, the composition of engineering safety, fuel handling,

At present, the mainstream of the foreign boiling water reactor facility (802) is the large reactors A B and R that pursue the cost advantage. The electric power companies using B and R are considering A B W R as the next unit.

However, it is also true that there is a problem to be taken into consideration, such as the operation of the power plant by enlarging the operation of the boiling water reactor (802) and the securing of human resources related to these power plants equipped with maintenance and maintenance,

Therefore, as a long-term task of nuclear power generation in the future, it is thought that the construction of nuclear power plant concept that is familiar to people is necessary for the next generation reactor considering the social acceptability due to the lack of workers' resources. Will be described.

In the following, the study of a simplified boiling water reactor (BWR, 802)

Based on the SBWR (Simplified BWR) (600MWe) facility concept proposed by a foreign company, the joint research of BWR electric power companies in foreign countries, including the expansion of the output scale to 1000 MW, (BWR, 802), which is a combination of a static safety system such as a gravity falling type E CCS and a natural circulation core,

First, the connection structure of the large natural circulation core and the static compartment cooling system and the gravity falling ECCS is provided, but the greatest concept of the simplified boiling water reactor system (BW R, 802) is the large natural circulation core If the current BW R recirculation system can be eliminated by the removal of the recycle pump 239 and the MG set and the power supply and auxiliary equipment connected to the recirculation pump 239 and the auxiliary equipment, (BW R, 802), there is a problem to cope with the output control according to the problem and necessity of the natural circulation establishability in order to realize the research of the simplified boiling water reactor system (BW R, 802).

Secondly, the static storage vessel cooling system of the simplified boiling water reactor plant (BW R, 802)

(791) After the accident, it was proposed to remove the heat of decay out of the system for a long period of time. Various designs have been proposed. However, the condensation heat transfer type I / C (Isolation Condenser ) Were selected and verification tests such as heat removal characteristics were carried out, confirming that they are constitutive.

Thirdly, the static safety system such as the ECCS of gravity falling type of the simplified boiling water nuclear reactor (BW R, 802) is characterized in that, in case of an accident, the urgent frequency to the core 791 is set as a system using gravity, Power is not strong because there is no power source.

However, with the continuous drive system, the complex networks of conventional pumps, motors, valves, piping, and auxiliary machinery systems are greatly simplified along with the above-mentioned static compartment cooling system, which reduces human factors related to operation.

(791) piping can be done by reflecting the interpretation result of the accident such as water pipe breakage etc. To the full capacity and the applicability of this method is suggested.

Hereinafter, the directional elemental technology of the simplified boiling water reactor plant 802 will be described as follows.

In the simplified BWR, since a large amount of water, such as the pressure control pool 240 as the source of the ECCS, is installed on the reservoir vessel, the center of the vessel is raised and the earthquake resistance of the reservoir vessel (808) becomes severe. I am checking.

As described above, since the elementary technology of the simplified BWR is a good step to confirm its conformity, the static simplification is starting from the existing concept that it is intimate to the person and it can be suitable for the social situation of the world in the future Potential technologies are provided.

Uranium 235 (812), plutonium 239 (801), and neutrons 675 in the boiling water nuclear reactor (802) operation are mixed to provide a mixing reaction with other atoms and energy of neutrons 675,

At this time, the generated neutrons 675,

It is the core of the prior art to control the neutrons 675, that is, to control the chain reaction, because it becomes a trigger to generate the above reaction again, which is also called a chain reaction.

In core 791 melting and core 791 nuclear meltdown at nuclear power plant constituting said boiling water reactor facility 802,

In the case of dissolving and destroying the fuel assembly 671 and the core 791 structure with the nuclear fuel overheating, the spent fuel rod 689, when there is no cooling water 287,

The exposed fuel rod (689) is overheated as the temperature rises, eventually releasing a large amount of radiation leakage as the fuel melts.

The above-mentioned conventional boiling water reactor (802) In the case of the Chernobyl accident in the nuclear operation in 1986, the radioactive water vapor rose to 30,000 feet (9144 m)

At this time, the worst-case scenario is that the reactor facility explodes and radioactive materials rise to about 500 meters above sea level,

Since the amount of uranium 235 in the spent fuel is less than 1%, it is possible to release radioactivity, but since there is no possibility of a nuclear explosion, it takes 6 months to cool the fuel rod (689)

Beyond 2000 degrees centigrade, radioactive materials such as cesium and iodine contained in the fuel rod (689)

Zirconium and water vapor are mixed to generate hydrogen generators, and the hydrogen generators are used to adjust the temperature of a conventional boiling water reactor (802) using a coolant (816)

Referring to FIG. 93, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant. (Fukushima boiling water reactor facility 802 including a conventional accident-occurred nuclear plant) 802 A nuclear power plant of the Fukushima boiling water reactor facility 802 before the occurrence of an accident showing the essential constitution of an embodiment formed by the nuclear power plant operation of the nuclear power plant, One elemental lateral strabismus configuration,

As shown in Fig. 93, the operation of the nuclear power plant constituting the conventional boiling water reactor installation 802 is as follows.

Fukushima nuclear power plant is a boiling light water reactor (BWR) system in which water vapor boiling from the core is sent directly to a power generation turbine. Half of the water vapor in the reactor facility is half-steamed.

 Deceleration of the neutrons 675 of the nuclear reactor reactor 802 of the boiling water reactor plant 802 is achieved by moderator 676 and boric acid H 3 BO 3 captures the neutrons 675 of the fuel rods 689 to generate fission 791b In the case of natural reactor installations,

We have prepared 15 discoveries that have operated for thousands of years with non-artificial reactors and naturally built reactor installations,

Depletion of uranium 235 (812) makes it difficult to extend the lifetime and evaporates all the water to create thermal neutrons, thereby stopping the activity and preventing the core 791 from melting.

However, in Fukushima nuclear power plant operated by the boiling water reactor (802), such a safety facility was inoperable in this situation.

Tokyo Electric Power officials and bureaucrats hid their details without disclosing details, refused to provide US technical support, poured seawater into the watershed, used fire engines, and used helicopters to put them into buildings.

Due to this method, various impurities mixed with seawater were converted into radioactive isotopes and contaminated, and the contaminated seawater evaporated, spreading to the surroundings, flowing into the sea, and radioactively contaminating vast areas.

Hiroshima and Nagasaki Japan, which had been devastated by the atomic bomb, ironically built many nuclear power plants and suffered the worst accident that the earthquake and tsunami Fukushima nuclear power plant, which had shook the northeastern part of Japan on March 11, 2011, .

Referring to FIG. 94, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention A conventional boiling water reactor arrangement (802) including a boiler water reactor (802), a boiler water reactor arrangement (802) showing an elemental configuration of an embodiment formed by the operation of a nuclear power plant, Configuration Road,

94, the nuclear power plant constituting the conventional boiling water nuclear reactor facility 802 is a nuclear power plant,

The spent fuel rods 689 and spent fuel rods 689 of the nuclear reactor reactor 802 of the boiling water reactor facility completed the fission reaction in the reactor. Concentrated plutonium, and enriched uranium.

Exposure to air causes a fission reaction and releases radioactive material. The zirconium coating on which the fuel rod is packed is oxidizing, causing a fire. Radioactive materials can spread to the atmosphere due to fire.

At the time of the Soviet Chernobyl Nuclear Power Plant explosion in 1986, when the nuclear reactor of the boiling water reactor facility (802) started to operate, a military helicopter was used to shield a huge amount of radiation from nuclear fuel and graphite moderator (676) 2,400 tons of lead, 1,800 tons of sand and mud. The boron compound was to absorb the neutrons that caused the chain reaction, while the lead and mud were to shield the radiation.

It is limited to the deceleration of the coolant 816 and the neutrons 675 to safely operate the reactor facility of the nuclear reactor of the boiling water reactor 802. However, all of the reactor air coolers of Deir Mile Island, Chernobyl and Fukushima The uranium fuel rod 689 is not cooled with water and is exposed to the air and melted. When the uranium fuel rod 689 is melted, the uranium fuel rod 689, The risk is increased.

In this situation, the Drill Mile Island nuclear power plant of the boiling water reactor facility 802 is sprayed with boric acid water by the emergency sprayer installed above the reactor building 688 and the emergency cooling water 287 is restored, .

Referring to FIG. 95, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, A conventional pressurized water reactor type nuclear reactor (803) including a conventional nuclear reactor type nuclear reactor plant (803), and a nuclear reactor type nuclear reactor (803) Pressurized water reactor type reactor facility (803)

As shown in Fig. 95, the operation of the nuclear power plant constituting the conventional pressurized water reactor type nuclear reactor 803 is as follows.

In the pressurized water reactor type nuclear reactor facility 803 constituting the nuclear power plant operation,

And is a pressurized water reactor type reactor in which heat is transferred from the core to the steam generator 810 through the water stored at high pressure to maintain a high temperature without boiling.

Steam generator 810 provides a turbine 267 operation to produce electricity,

The pressurized water reactor type reactor (803) is the most widely used reactor facility in the world. It is also known as a pressurized water reactor or a hard water decelerating water coolant pressure vessel type pressurized water reactor.

In the pressurized water reactor type nuclear reactor facility 803,

The hard water constituted by the seized type reactor has a primary use at P W R,

In the primary system, the primary flow is set at about 315 degrees Celsius. The primary flow pressure is usually 2000 psig, 15 MPa, and 654a at a pressure of 150 times the atmospheric pressure. In most forms of the system, the temperature is 275 degrees Celsius, the pressure is 900 psig, and the water flowing at a pressure of 6.2 M Pa is made of water vapor and sent to the steam turbine 267.

In the case of the commercial pressurized water reactor type reactor installation 803 of the pressurized water reactor type nuclear reactor 803, the amount of the coolant 816 is constant, but the reactor can adjust the flow of the coolant 816, Neutrons (675) are provided to the reactors for facility deceleration,

Many of the water molecules have the same size as the neutrons 675, so as to lower the velocity of the neutrons 675 due to the collision with the neutrons 675,

The neutron "deceleration" is better decelerated as the number of molecules of water molecules increases, and the pressurized cooling water 287 is structured such that the hydrogen atoms in the water molecules control the velocity of the neutrons 675,

The use of water is one of the main safeguards of light water reactors. It consists of a neutron decelerating structure that regulates the speed when the water temperature rises. The density of water molecules becomes lower and lower, and the neutron (675) deceleration structure becomes lower This effect is provided,

When the reactor is operated abnormally, the deceleration rate of the neutrons 675 is lowered and the deceleration structure of the neutrons 675 is lowered. This inherent stability is configured to be very stable in the pressurized water reactor type reactor 803.

The pressurized water reactor (PWR) facility is a water reactor,

The pressurized light water reactor pressure is a nuclear reactor facility that uses water as a coolant and moderator. The name of this reactor facility is derived from the internal circulation system, which prevents the water from freezing by applying pressure to the water. The seized reactor system is the most universal As a reactor facility, about 230 reactor facilities are used for power consumption, and several hundred reactors are used for propulsion.

In the case of foreign countries, the operation of the reactor from 1954 to 1974 was established at the pressurized water reactor facility (803), and the first two seized nuclear reactor facilities (803) were operated with T MI-1 and T MI-2 At that time, the construction of the new power plant was suspended due to the partial core melting in 1979 at T MI-2,

The pressurized water reactor (803) has a core and a fuel assembly, a control rod, a pressure vessel (813), a heat exchanger (658), a primary system, a secondary system, a condenser, a turbine and a generator connection structure. Thereby preparing a reaction operation.

In the conventional pressurized water reactor (P W R, 803) facility,

Fuel to the heat exchanger 658. Heat is transferred to the heat secondary system, which is referred to as the primary steam hot steam generator 810. As a result, A rotation is provided,

In contrast to nuclear power, nuclear power plants provide electricity,

The secondary system is lowered in the condenser 790 and is allowed to enter the steam generator 810 again,

The turbine 267 of the secondary system provides electric power in connection with the turbine generator 772, and the operation of the nuclear power plant provides other work in the greenhouse fish farms and the like.

In the conventional pressurized water reactor (P W R, 803) facility,

Compared with two pressurized light water reactors and other reactors, two pressurized water primary and secondary system turbines (267) are connected to the turbine generator (772) to produce electricity, Hard water) flows.

On the other hand, in a boiling water reactor (BWR), there is no system.

Referring to FIG. 96, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, A conventional pressurized water reactor type nuclear reactor (803), a conventional pressurized water reactor type nuclear reactor (803) showing the essential constitution of an embodiment formed by the operation of a nuclear reactor nuclear power plant, and an element As a result,

As shown in Fig. 96, in the operation of the nuclear power plant of the conventional pressurized water reactor type nuclear reactor (803)

In the pressurized water reactor type nuclear reactor facility 803 constituting the nuclear power plant operation,

And is a pressurized water reactor type reactor in which heat is transferred from the core to the steam generator 810 through the water stored at high pressure to maintain a high temperature without boiling.

Steam generator 810 provides a turbine 267 operation to produce electricity,

The pressurized water reactor type reactor (803) is the most widely used reactor facility in the world. It is also known as a pressurized water reactor or a hard water decelerating water coolant pressure vessel type pressurized water reactor.

In the pressurized water reactor type nuclear reactor facility 803,

The hard water constituted by the seized type reactor has a primary use at P W R,

In the primary system, the primary flow is set at about 315 degrees Celsius. The primary flow pressure is usually 2000 psig, 15 MPa, and 654a at a pressure of 150 times the atmospheric pressure. In most forms of the system, the temperature is 275 degrees Celsius, the pressure is 900 psig, and the water flowing at a pressure of 6.2 M Pa is made of water vapor and sent to the steam turbine 267.

In the case of the commercial pressurized water reactor type reactor installation 803 of the pressurized water reactor type nuclear reactor 803, the amount of the coolant 816 is constant, but the reactor can adjust the flow of the coolant 816, Neutrons 675 are provided for reactor deceleration and are similar in thermal response design and many of the water molecules are the same size as neutrons 675 so that neutrons 675 due to collisions with neutrons 675 The neutron "deceleration" slows down more as the number of molecules of water molecules increases, and the pressurized cooling water 287 has a structure in which the hydrogen atoms in the water molecule control the velocity of the neutrons 675 , The use of water is one of the main safeguards of light water reactors, consisting of a neutron reduction structure that regulates the velocity as the water temperature rises, the density of water molecules becomes lower, The neutron 675 deceleration structure is lowered, and when the reactor is operated abnormally, the deceleration rate of the neutrons 675 is lowered, the deceleration structure of the neutrons 675 is lowered, Is configured to be very stable in the pressurized water reactor type nuclear reactor facility (803).

The pressurized water reactor (PWR) facility is a water reactor,

The pressurized light water reactor pressure is a nuclear reactor facility that uses water as a coolant and moderator. The name of this reactor facility is derived from the internal circulation system, which prevents the water from freezing by applying pressure to the water. The seized reactor system is the most universal As a reactor facility, about 230 reactor facilities are used for power consumption, and several hundred reactors are used for propulsion.

In the foreign country, the operation of the nuclear reactor from 1954 to 1974 was established at the seized nuclear reactor facility (803), and the first two seized nuclear reactor facilities (803) were designated T MI-1 and T MI-2 At that time, the construction of the new power plant was stopped at the result of the partial core melting at the T MI-2 in 1979, and the heat exchange between the core and the fuel assembly of the seized nuclear reactor facility 803, the control rod and the pressure vessel 813, And a pressurized light-water reactor (658), which has a primary system, a secondary system, a condenser, a turbine-generator connection structure, and a reactor chain reaction operation.

In a seized-water reactor (P WR, 803) installation,

Fuel to the heat exchanger 658. Heat is transferred to the heat secondary system, which is referred to as the primary steam hot steam generator 810. As a result, A rotation is provided,

The secondary system is lowered in the condenser 790 and re-enters the steam generator 810, while the secondary system is provided in the condenser 790,

The turbine 267 of the secondary system provides electric power in connection with the turbine generator 772, and the operation of the nuclear power plant provides other work in the greenhouse fish farms and the like.

In the conventional pressurized water reactor (P W R, 803) facility,

Compared with two pressurized light water reactors and other reactors, two pressurized water primary and secondary system turbines (267) are connected to the turbine generator (772) to produce electricity, In contrast, in a boiling water reactor (BWR), there is no system.

In the pressurized water reactor (803) nuclear power plant,

The hard water of a pressurized water reactor provides primary use at P W R,

In the primary system,

315 degrees Celsius,

The primary flow pressure is usually 2000 psig and 15 MPa and the hard water (654a) at a pressure of 150 times the atmospheric pressure does not boil, while in the primary system the water is in the majority of the secondary system, the temperature is 275 degrees Celsius and the pressure is 900 The water flowing at a pressure of about 6.2 M Pa and psig is made into steam and sent to the steam turbine 267.

The stability of such a pressurized water reactor (803)

However, the stability of the pressurized water reactor type reactor (803) deteriorates when the graphite deceleration boiling water reactor pressure vessel type reactor (RB MK), which is an accident type, rises very steadily and the graphite deceleration boiling water pressure Tubular reactors are considered to be one of the Chernobyl boiling water pressure tubular reactors.

This fuel assembly of the fuel pressurized light-water reactor is used in a pressurized light-water reactor of the nuclear power passenger car Ns Söbner, and 235U of the fuel in the pressurized light-water reactor uses a certain concentrated fuel.

(U02) powders are melted, the heat and sintering of the phenomenon to be used are provided, and at the same time, the production of ceramic pellets made of uranium dioxide is provided,

This cylindrical pellet is then eroded into a zirconium alloy (Zirconia), and helium is injected into the Zirconia bar to assist heat transfer, or the finished fuel rod is joined with a bundle of fuel fuel assemblies, It is called collective bundle fuel, which is loaded into the reactor core.

It is very important to prevent a chain reaction from occurring in the core of a nuclear reactor plant determined to not allow a rapid chain reaction in a pressurized water reactor 803 of the nuclear power plant,

When a chain reaction takes place, it quickly damages the reactor installation to generate extra energy, or causes reactor core melt, and 200 to 300 fuel rods of the pressurized light-water reactor enter 150 to 250 fuel assemblies At the same time, the amount of uranium is kept in the range of 80 to 100 tons of 14X14,17X17.

The fuel bundle 803 of the pressurized water reactor of the nuclear power plant is provided at about 4 meters,

The control of the pressure vessel of the pressurized light-water reactor and the control of the pressure vessel of the primary pressurized light-water reactor for military use are adjusted in a large amount.

In the pressurized water reactor type nuclear reactor facility 803 for operating the nuclear power plant,

Because it absorbs neutrons instantly, it controls the reactor installation by reducing the chain reaction by the pressurized light water reactor, so it includes the control pump of the entire pressure relaxation system. This pump is equipped with high pressure primary system water, However, there are cases where a high concentration of neutrons is put into many emergency stop cooling water, and CAN DU is also provided as an auxiliary means by which boric acid can turn off the chain reaction.

In addition, the control rod enters the fuel assembly from the pressure vessel and is usually used when the first nuclear power plant is started or when the nuclear power plant is shut down. In the nuclear power plant,

The fuel assembly is trapped inside the radioactive material produced by the fuel rod as a fuel body that burns stable uranium dioxide of the pellet of the pentane barrier and the first barrier wall and the cover material of the second barrier wall surrounds the nuclear fuel pellet and serves as a fuel rod A small amount of gas put into the metal tube of the special alloy provides a seal on the second barrier wall,

The third barrier, the reactor vessel, is a nuclear reactor vessel with 20 c m of steel containing fuel assemblies.

In the shielded concrete wall, which is the fourth barrier wall,

The concrete wall surrounding the nuclear reactor facility prevents the leakage of radioactive materials. In the case of the fifth barrier wall, the reactor vessel and the system are covered with the safety system and the whole of the gathered space. In addition,

The installation of the biological shielding wall, which is the 5-1 barrier wall, is to construct a final biological shielding wall with a thick building of 70 to 100 cm outside the steel,

It is a container and a dome form,

It is a safe nuclear building that provides a barrier to the outside if there is an accident.

However, the Chernobyl model, a graphite-retarded boiling water reactor,

The higher the thermal response, the higher the stability becomes, and the choice of this graphite slowing boiling water pressure tube reactor is considered to be one of the factors of the accident.

Referring to FIG. 97, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention A conventional pressurized water reactor type nuclear reactor (803) including a conventional nuclear reactor type nuclear reactor plant (803), and a nuclear reactor type nuclear reactor (803) Pressurized water reactor type reactor facility (803)

97, the operation of the nuclear reactor of the water reactor (803) during the pressurization is such that, in the water reactor reactor (803) during the pressurization, the amount of exposure that the general CT photographer and the airplane crew .

Uranium fission and reactor facilities As mentioned above, 99.3% of stable uranium 238 is contained in natural uranium, 0.7% of unstable uranium 235 which can cause fission, and at the same time, domestic nuclear reactor types are mainly PWR ) And a pressurized water reactor (PHWR).

The water reactor is a type of conventional nuclear reactor facility (803) operated by Kori, Yeonggwang and Uljin, mainly supplied from abroad. As a characteristic, the nuclear reactor is vertical and the fuel is enriched uranium (U-235, 4-5% (H ₂ 0) as a moderator 676, a material promoting the fission reaction, and replace the fuel after stopping the reactor once a year or once a year and six months.

In the meantime, the heavy water type reactor is a type supplied from abroad. Currently, it is in the form of a reactor operating in Wolong City. As a characteristic, the reactor is horizontal and uses natural uranium (U-235, 0.72% D ₂ O) and part of the fuel can be replaced daily.

Referring to FIG. 98, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, A conventional pressurized water reactor type nuclear reactor (803) including a conventional nuclear reactor type nuclear reactor plant (803), and a nuclear reactor type nuclear reactor (803) Pressurized water reactor type reactor facility (803)

As shown in Fig. 98, the operation of the nuclear power plant of the water reactor (803)

Pressurized water reactor type reactor facility and For comparison of water reactor installations during pressurization,

In the distinction between pressurized light water reactor and pressurized heavy water reactor (PHWR), the rated power of 1 million kW and 700,000 kW is of the vertical type, and the pressure vessel is a horizontal pressure tube, operating temperature is 296 to 327267-310, The operating pressure of 158.2 kg to 110 kg and the fuel used are fuel for the use of low enriched uranium (U-235, 4 to 5%) and natural uranium (U-235, 0.72%) and coolant 816 and moderator 676 The use of heavy water (D ₂ O), fuel replacement timing, and preventive maintenance period are scheduled to run from 1.5 to 1.5 years. At the same time, Wolsong nuclear power plant in Korea is a Canadian two- , Which uses expensive natural uranium (about 0.7% U-235) as fuel and moderately heavy water (D ₂ O) as moderator 676 and coolant 816.

When the heavy water of the water reactor installation 803 is boiled during the pressurization, the reactor installation system is pressurized to about 110 times because the moderator 676 and the coolant fail to function properly,

Water heated to 300 degrees Celsius is sent to the steam generator 810, and the steam 780 for driving the turbine generator is generated by heating the water on the secondary side through heat exchange,

Like the pressurized light water reactor, the reactor installation side and the turbine installation side are completely separated so that the secondary side is the same as the pressurized light-water reactor type, and the primary side has a slightly different shape, and the primary side has a coolant 816, Heating is provided by heat generated by fission through the interior of a horizontal cylindrical reactor called Cal and r ia while the pressurized water reactor reactor facility 803 is heated by heat generated by fission through the interior of a vertical cylindrical barrel The coolant 816 is circulated from the lower portion of the core 791 to the upper portion.

Referring to FIG. 99, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. A conventional pressurized water reactor type nuclear reactor facility 803 including a conventional pressurized water reactor type nuclear reactor 803 and a pressurized water reactor type nuclear reactor 803 of a conventional nuclear power plant, Inside decomposed lateral strainer configuration of the pressure vessel 813 of the elementary pressurized water reactor type nuclear reactor 803 shown,

As shown in FIG. 99, the nuclear power plant of the nuclear reactor plant (803)

Using natural uranium as a nuclear fuel will reduce the probability of causing fission. Therefore, it is necessary to separately install a moderator (676) system composed of heavy water which can sufficiently absorb neutrons and effectively contribute to the fission of the thermal neutrons while effectively decelerating the high-speed neutrons generated during the nuclear fission,

Three basic features of pressurized heavy water reactors are natural uranium, heavy water, and fuel substitution during operation.

Referring to FIG. 100, there is shown a nuclear hydroelectric power plant of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, The nuclear fission of the nuclear fuel uranium 235 showing the structure of the nuclear fuel fission uranium 235 showing the essential constitution of an embodiment formed by the operation of the nuclear power plant of the conventional nuclear power plant included in the nuclear fuel assembly 811,

Hereinafter, the structure of the fuel pellet 683 of a nuclear power plant constituting a reactor facility of a nuclear power plant having a double structure block tank dust collector for treating nuclear power nuclear waste will be described in detail as follows.

As shown in Fig. 100, in the structure of the nuclear fuel pellets 683 constituting the nuclear reactor facility,

The electrons are composed of the nucleus 815 and the surrounding electrons so that the nucleus 815 is a nucleus which collectively refers to the proton 674 and the neutron 675 in the strong nucleus of the proton 674 and the neutron 675 And 815a, respectively, as shown in FIG.

]쯤 이나 그 질량은 원자(784) 질량의 대부분을 차지한다.The radius of the nucleus 815 is about 10 ^-14 m and the neutron 675 of the nucleus 815 is electrically neutral and the mass is almost the same as the proton 674 and the diameter of the nucleus 815 is atomic 784)

], The mass occupies most of the atom (784) mass.

The structure of nuclear power generation is the same as that of thermal power generation. Nuclear power generation also generates steam by rotating a steam turbine. Nuclear power generation and thermal power generation have different ways of generating steam. The thermal power plant rotates the steam turbine 267 by burning coal, oil and natural gas in the boiler 778 , The nuclear power generation generates nuclear fission in the reactor, and steam is generated from the heat to rotate the steam turbine (267).

The structure of an atom or a helium atom is an atomic nucleus 815 in which a proton 674 and a neutron 675 are combined with each other. The atomic nucleus 815 refers to the amount of static electricity carried by the object of the electron 785, The charge is plus (+), the charge of the same sign repulses each other, and the charge of the other sign attracts each other.

The number of protons (674) in the nucleus (815) is equal to the number of neutrons (675). The number of protons in the hydrogen and isotopes of triple hydrogen is all one Because the number of neutrons is the same, trihydrogen is called isotropic in hydrogen and heavy hydrogen,

Assuming that the number of protons 674 plus the number of neutrons 675 is the mass number, the half life of uranium 238 is 4.51 × 10 ⁸ years, which is shorter than that of uranium 238.

The nucleus of uranium (815) is a model of red beads, which are neutrons (675). The blue beads are proton (674), the isotopes of uranium 238, uranium 235 (812) and uranium 234 are weighted by the number of neutrons (675) It is different.

First, uranium 238 (653a) is the most abundant uranium, but unfortunately it can not fission. The following are uranium 235 (812) and uranium 234, which are only slightly contained in natural uranium, so it is uranium 235 (812) that is capable of fission.

The atomic nucleus 815 formed by the collapse of the radiation nucleus 815 contains a property that it is unstable and stabilizes even a little bit. It is a natural collapse, that is, it becomes a stable atom by self-emission of gamma rays to alpha particles or beta particles. 235 (812) has the greatest property.

So the main role of nuclear power is uranium 235 (812).

This is because fission occurs in the form of collapse of radioactive materials.

However, even if the uranium 235 (812) naturally collapses, it can not take out the energy, so the uranium 235 (812) artificially collides with the well-fractured uranium 235 (812) What does it collide with? If the question is solved, the charge of the nucleus 815 of uranium 235 (812) is +. Again, when a proton having a charge of + is collided, it repels each other by the law of charge and turns off the proton (820).

Since neutron 675 is electrically neutral, it is easy to access the nucleus 815, and of course colliding is also simple.

The uranium 235, which constitutes the collision of the neutrons 675,

The pale yellow barium or silver white barium is oxidized well in the air, while the krypton is split into a colorless odorless gas which is slightly mixed in the air, and two or three neutrons 675 are protruded.

Referring to FIG. 101, there is shown a nuclear hydroelectric power plant of a marine nuclear power plant having a double structure block tank dust collector according to the present invention. 8 is a side view partially showing a method of using a control rod to control a chain reaction of a nuclear fuel fission in a nuclear reactor of a conventional nuclear power plant included in the reactor core 811. The middle side view is a side view showing a difference between an atomic bomb and a reactor, The figure shows reactor fuel production and reactor steam generation systems 1073 of steam generator 810, pressurizer 814 and coolant 816, which illustrate the process of producing plutonium in uranium 238, ,

As shown in FIG. 101, the number of protons 820 in the nucleus 815 is equal to the number of neutrons 675. The isotopes of hydrogen, for example, are hydrogen atoms in water and deuterium. The number of protons (820) is the same as the number of neutrons (675). The number of neutrons (675) is different from that of hydrogen and heavy hydrogen. The number of neutrons (675) Speaking of the half-life of uranium-238 (679) is shorter than 4.51 × 10 ⁸ years of uranium 238 (679) in.

The atomic nucleus of uranium (815) is a model of a red bead that is a neutron (675), which is a proton, isotope uranium 238 (679), uranium 235 (812), and uranium 234 is a neutron (675) The uranium 238 (679)

It is uranium 235 (812) and uranium 234 because it is the most abundant uranium, but unfortunately it can not do nuclear fission. Uranium 235 (812) is the only one capable of nuclear fission because it is contained only in natural uranium.

The atomic nucleus formed by the collapse of the radiation nucleus 815 contains a property that it becomes unstable to become even a little stable. It is a natural collapse, that is, it emits gamma rays to alpha particles or beta particles and becomes a naturally stable atom 784. Uranium 235 (812) has the greatest property, so the mainstay of nuclear power is uranium 235 (812).

Because nuclear fission now occurs in the form of the collapse of radiation.

However, even if the uranium 235 (812) naturally collapses, it can not take out the energy, so the uranium 235 (812) artificially collides with the well-fractured uranium 235 (812) What does it collide with? If the question is solved, the charge of the atomic nucleus (815) of uranium 235 is +. When the protons 674 having a charge of + are collided with each other, they repulse each other by the law of charge and turn off the protons 674.

Since neutron 675 is electrically neutral, it is easy to access the nucleus 815, and of course colliding is also simple.

When the neutrons 675 collide, uranium 235 (812) is split into a colorless odorless gas that is barely oxidized in air or krypton is slightly mixed in the air, provided that the barium is either pale yellow or silver white barium, There are three bounces, which generate a large amount of energy.

Originally, uranium 235 (812) absorbs slow neutrons (675), but the neutrons (675) that are fresh from nuclear fission can not catch the neutrons (675) because of their high velocity. In order to slow down the velocity of fresh neutrons from nuclear fission Or a heavy water or graphite moderator 676 having a larger molecular weight than ordinary water is used.

If the particles collide with heavy objects, the neutrons 675 are splashed out. However, if the particles are of similar size, the neutrons 675 will eventually fall into thermal neutrons 675 because they are splashed. The thermal neutrons 675 are not hot, (675) with energy less than 1 eV (electron volts) is called a heat neutrality, and its neutrons (675) collide with other uranium 235 (812) and break up, Reaction occurred. 1e V to 1k e V are called low-speed neutrons (812), and 100k e V to 10M e V are high-speed neutrons (675).

Since there are two or three neutrons (675) in a single fission, I think that the number of neutrons is probably increased when the chain reaction is finished, but that is not it.

If the number of neutrons (675) is high, the chain reaction becomes excessive, and the energy generated when the nuclear fission breaks out exceeds the danger level, and then the reactor of the nuclear reactor in which the fission chain reaction proceeds in an ideal state is exploded.

In order to prevent such an explosion, a control rod 798 made of cadmium is inserted and removed to control a chain reaction of the fission in the reactor. However, since the control rod 798 eats the neutrons 675 generated from the fission, Which slows down the neutron 675.

In nuclear fission, the speed and number of neutrons (675) are controlled by the end of the running horse.

When 1 k g of uranium 235 (812) is cleaved, neutrons (812) protrude from barium and krypton, and their mass is lighter than 1 k g of original uranium 235 (812).

After a series of fission, two or three neutrons (675) are formed, and it is thought that the number of neutrons (675) may be increased when the chain reaction is finished.

If the number of neutrons (675) is too high, the chain reaction will be excessive, and the energy generated when the nuclear explosion occurs will exceed the danger level. If this happens, a nuclear reactor will be exploded that will progress the fission chain reaction in an ideal state. In order to prevent such an explosion, In order to control the chain reaction, the control rod 798 made of cadmium is inserted and removed, but the control rod 798 sucks the neutron 675 generated from the fission, so that the moderator 676 lowers the speed of the neutron. In nuclear fission, the velocity and number of the neutrons (675) are controlled by the endothelium, and when one kilogram of uranium 235 (812) breaks down, neutrons (675) protrude from barium and krypton, 812) It is lighter than 1kg compared with 1kg.

According to the equation of E = mc ² of Einstein,

This lighter mass is transformed into the kinetic energy of barium and krypton and neutrons (675). Theoretically, a mass of 1 g is the same heat as when about 2150 tons of oil are burned together. In fact, the energy of 1k g of uranium 235 (812) is calculated as 20 billion kcal of energy. If it is gasoline, it is enough to make 500 rounds of cars by car, 300 tons for coal, and 2 million liters for oil One neutron (675) divides one uranium nucleus into two or three neutrons (675).

Referring to FIG. 102, there is shown a nuclear hydroelectric power plant of a marine nuclear power plant having a double structure block tank dust collector according to the present invention, (804) of a conventional nuclear power plant showing the essential constitution of an embodiment formed by the operation of the nuclear power plant of the conventional gas cooling furnace reactor (804) included in the nuclear power plant reactor (811) The illustrated elementary gas cooling furnace reactor facility 804 has a lateral strap configuration,

As shown in Fig. 102, in the structure of the gas cooling furnace reactor facility 804,

The gas cooling furnace is provided with a reactor facility 804 formed by providing graphite as a moderator 676 and carbon dioxide as a coolant 816,

Using natural uranium and enriched uranium 235 as fuel and carbon dioxide as a coolant 816,

The high temperature and high pressure steam of the steam condition has the thermal efficiency equal to the thermal power and the nuclear power furnace 804 structure is constructed for the nuclear power generation.

In the gas cooling furnace reactor facility 804,

As the coolant 816, there is a reactor facility including a gas, a calderhole type graphite-reduced natural uranium fuel type, and an improved type thereof, carbon dioxide gas (CO ₂ )

In addition, in the hot gas-

A reactor vessel having a gas as a coolant 816 and provided with the use of helium (H e, 176), a calderhole type reactor of a decelerated natural uranium fuel type reactor,

Carbon dioxide gas (CO ₂ ) is a generic name of reactors having a coolant 816 and is provided with natural uranium as fuel, graphite as a moderator 676, carbon dioxide as a coolant 816, Is a structure of a typical gas-cooled reactor installation 804 of the prior art.

Referring to FIG. 103, there is shown a nuclear hydroelectric power plant of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention. (804) nuclear power plant, which illustrates the construction of one embodiment formed from a conventional gas-cooled furnace reactor plant (804) nuclear power plant included in a conventional gas-cooled furnace reactor plant (811) Elemental aspect construction Road,

As shown in Fig. 103, in the gas cooling furnace reactor facility 804 formed by the nuclear power plant operation of the nuclear power plant,

A carbon dioxide gas is provided as a carbon dioxide 164 of a noncombustible gas and a coolant 816 having a gas as a coolant 816 inside a reactor pressure vessel 813 of the gas cooling furnace reactor facility 804,

(812) fueled type, and the reactor core

And the helium 176 is provided as a coolant 816.

The connection structure inside the reactor pressure vessel 813 formed by the operation of the nuclear power plant of the nuclear power plant,

The circulation water pump 242, the cooling water 287, the turbine 267, the generator 772, the fuel rod 689, the steam pipe 779 and the steam pipe 779 A condenser 790 serving as a cooling device of the apparatus for cooling the steam 780 and water vapor into water and a control rod provided inside the core 791 and the reheater 793 and the control rod 798 And is configured to perform nuclear power generation by a gas cooling furnace reactor facility 804 including a furnace 798a, a control rod drive shaft 798b, and enriched uranium 812 and being operated by a nuclear power plant.

Referring to FIG. 104, there is shown a nuclear hydroelectric power plant of a marine nuclear power plant having a double structure block tank dust collector according to the present invention, (810) of a conventional nuclear power plant reactor included in the nuclear power plant (811) of the nuclear power plant. The elementary conventional nuclear power plant showing the configuration of one embodiment formed as a connection structure of the steam generator (810) of the reactor plant,

As shown in FIG. 104, in the structure of the steam generator 810 formed by the connection structure of the steam generator 810 of the reactor plant of the nuclear power plant,

A steam pipe 810a connected to the turbine generator, a water supply nozzle 810b, a secondary cooling water 810c, a vibration suppression rod 810d, a tubular support steel pipe 810e, a tubular lid 810f, a tubule bundle 810g, The steam generator 810n and the steam generator internal pipe 810n are connected to the steel plate 810h, the separation steel plate 810i, the primary side outlet 810j, the primary side inlet 810k, the heat exchange tubule 810l, (810o), and is formed as a connection structure of the steam generator (810) of the reactor installation of the nuclear power plant.

The plant structures constituting the steam generator 810,

The circulation water pump 242, the cooling water 287, the turbine 267, the generator 772, the fuel rod 689, the steam pipe 779 and the steam pipe 779 A condenser 790 serving as a cooling device of the apparatus for cooling the steam 780 and water vapor to water therein, and a control rod drive means 798 for driving the control rod provided inside the core 791, the reheater 793, and the control rod 798 A control rod drive shaft 798b and enriched uranium 812 to constitute a nuclear reactor power plant 804 for nuclear power generation.

105, there is shown a nuclear hydroelectric power plant of a marine nuclear power plant having a double structure block tank dust collector according to the present invention, (805) of a conventional nuclear power plant showing the essential constitution of an embodiment of the present invention formed by the operation of the nuclear power plant of the nuclear power plant of the conventional multi-purpose high temperature gas included in the conventional multi-purpose high- The side view of the elemental gas cooling furnace reactor arrangement (804)

As shown in FIG. 105, in the structure for constructing the nuclear reactor facility 805 by multipurpose hot gas,

The multi-purpose high-temperature gas reactor assembly 805 provides graphite with a moderator 676,

As the coolant 816, a helium gas 176 is provided,

As fuel,

The enriched uranium 235 and thorium are provided, and the heat of the helium gas 176 is transferred to the water to generate nuclear power by steam generation.

Referring to FIG. 106, there is shown a nuclear hydroelectric power plant of a marine nuclear power plant having a double structure block tank dust collector according to the present invention. Purpose general-purpose high temperature gas furnace 805 showing the construction of a conventional multi-purpose hot gas furnace 805 nuclear power plant included in a conventional multi-purpose high temperature gas reactor 811 in view of the nuclear operation of the nuclear power plant As shown in the side view of the reactor facility 805 as an essential multi-purpose hot gas,

As shown in Fig. 106, in the structure of the multi-purpose high-temperature gas furnace reactor 805 constituting the nuclear power plant 672,

The use of graphite as a moderator 676 is provided,

Helium gas 176 may be used as the coolant 816,

As fuel,

The concentrated uranium 235 (812) and thorium, and the heat of the helium gas (176) is transferred to the water to constitute the nuclear power generation by steam generation,

Nuclear power plant operation consists of the following:

A water pump 241, a turbine 267, a generator 772, an intermediate heat exchanger 657, a fuel rod 689 and a steam 780, and a condenser 790, a control rod 798 and a coolant 816 are provided as connection structures of a nuclear power plant 672 as a multi-purpose high-temperature gas as a reactor facility 805, thereby achieving nuclear power generation.

Referring to FIG. 107, there is shown a nuclear hydroelectric power plant of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, Purpose general-purpose high temperature gas furnace 805 showing the construction of a conventional multi-purpose hot gas furnace 805 nuclear power plant included in a conventional multi-purpose high temperature gas reactor 811 in view of the nuclear operation of the nuclear power plant As shown in the side view of the reactor facility 805 as an essential multi-purpose hot gas,

As shown in Fig. 107, in the structure of the multi-purpose high-temperature gas furnace reactor 805 constituting the nuclear power plant 672,

The use of graphite as the moderator 676, the use of helium gas 176 as the coolant 816,

As fuel,

The concentrated uranium 235 (812) and thorium are used, and the heat of the helium gas 176 is transmitted to the water to generate nuclear power by generating steam.

Nuclear power plant operation consists of the following:

In the internal structure 805a constituting the high-temperature gas furnace of the pipe-bed type in which the primary cooling system is housed,

The control rod holding cylinder 805e and the hold down plate 805f and the control rod drive unit 805g and the auxiliary circulation unit 805h and the auxiliary shaft 805d and the auxiliary circulation unit 805d, The heat exchanger 805i and the core support structure 805j, the prestressed concrete reactor vessel 805k, the P CRV safety valve 805l, the fuel inlet 805m, the helium circulation unit 805n, Structures 805o,

In the cross-sectional structure (805p) constituting the pebble-bed type H TR-module reactor,

A spherical fuel injection pipe 805q, a main fuel injection pipe 805v, a gas circulation pipe 805w, a high temperature gas injection pipe 805d, a spherical fuel injection pipe 805q, a boron refining system 805r, a reflector region control rod 805s, A pipe 805x, a surface cooler 805y, and a heat insulating material 805z,

As fuel,

The concentrated uranium 235 (812) and thorium are used, and the heat of the helium gas 176 is transmitted to the water to generate nuclear power by generating steam.

Nuclear power plant operation consists of the following:

A water pump 241, a turbine 267, a generator 772, an intermediate heat exchanger 657, a fuel rod 689 and a steam 780, and a condenser 790 The control rod 798, the coolant 816, and the nuclear power plant 672 as the multi-purpose high-temperature gas and the nuclear reactor 805 connection structures,

In the nuclear reactor power plant (672), there is a new reactor conversion facility (806)

The new reactor 806 uses the hard water 654a as the coolant 816 that increases the utilization of the fuel more than the existing reactor and the steam 780 as the temperature rises between the fuels to generate the steam 780, And the steam is separated to send the steam to the steam turbine 267 to form energy nuclear power. The heavy water 654b is used as the moderator 676 and the heavy water 654b absorbs the neutrons 675 more than the hard water 654a. The use efficiency of uranium is increasing

As fuel,

Plutonium (801) is provided with a mixture of natural uranium (812)

In the case of the MOX fuel of the "FUJEN" as the round type (AT R: Advanced Thermal Reactor), the technology for the characteristics and specification of the fuel for the A TR and the manufacturing method thereof was prepared. , And the fuel assembly is circular in cross section because of the pressure tube type. The fuel is produced in a similar manner to that of M OX fuel for light water reactor, but the fuel is produced in the same manner. P u O 2 and UO 2 powder are 2 The single mixing method is adopted to prevent the generation of plutonium spatter and scattering of plutonium hatching degree.

Referring to FIG. 108, there is shown a nuclear hydroelectric power plant of a marine nuclear power plant having a double structure block tank dust collector according to the present invention, (806) of a conventional new type reactor included in the nuclear reactor (811) of the nuclear power plant. The nuclear reactor of the conventional nuclear power plant, which shows an essential constitution of an embodiment formed by the operation of the nuclear power plant, Equipment (806) Lateral strap configuration Road,

As shown in FIG. 108, in the characteristics of the new conversion furnace reactor 806 and the fuel in the nuclear power plant 672,

The new conversion reactor (A TR) was developed as a national project together with a fast breeder reactor as a proprietary nuclear reactor of foreign countries. It uses heavy water as a moderator and thus it is possible to efficiently control the combustion of fuel with lower enrichment degree than the light water reactor. to be.

Since there is a relatively small influence on the reactor due to the type of fuel, it is possible to freely load the fuel with M OX fuel or unconcentrated uranium fuel. Considering the arrangement and control rod as in the case of using M OX fuel in the light water reactor You do not have to.

The new conversion furnace reactor facility 806,

As the heavy water reduction cooling water boiler is a water cooled cooling water tank, it has a round cross-sectional shape because of the pressure tube type. In addition, there are SGHWR in the UK and CAN DU-B LW in Canada. There is no example that many use.

The fuel of the new conversion furnace reactor 806 is slightly lower in plutonium incubation temperature than the M OX fuel for light-water reactor, but the fuel production method is almost the same, and the plutonium of the inner fuel rod whose neutron density is lowered Hatching degree is raised.

In the structure and specification of the fuel of the new "FUJEN" fuel of the nuclear reactor facility 806, "FUJEN" M OX fuel is composed of 28 inner fuel rods arranged in four concentric inner layers, 8 intermediate layers and 16 outer layers The upper tie plate and the lower tie plate are placed on the upper and lower sides, respectively, and the fuel rods are maintained at proper intervals with 12 speacers in the middle. The main assembly of the fuel assembly is shown and a schematic view of the fuel rods and the assembly is shown.

Also, the plan has been discontinued, but the main specifications of the 36-cell fuel assemblies developed as fuel for the reactor facility (806) demonstration after the new "Fugen" were also presented.

The method of manufacturing fuel for the " fugen "fuel of the new conversion furnace reactor facility 806,

P u O 2 powder and U 2 O 2 powder were mixed and press-formed, and then sintered to produce pellets. The pellets were filled in a cover tube to form fuel rods,

In this fuel processing method,

The shape of the pellet is similar to that of the fuel for the fast breeder reactor and the light-water reactor. The shape of the pellet is formed by adopting the shape of the corner cutter used for the BWR and the shape of the dish used for the PWR. .

In the new conversion furnace reactor facility 806 fuel,

The mixed oxide powder is mixed with a lubricant to a particle size suitable for molding and then molded into a green pellet by press molding,

This was preliminarily sintered at 800 degrees Celsius to evaporate the lubricant, then sintered at 1,650 degrees Celsius for 2 hours,

The sintered pellets were sintered,

It is judged whether or not the whole water is passed through the diameter separator. The larger diameter is obtained by grinding the side of the cylinder with high precision by the centerless grinding machine,

Unlike the case of high-speed fuel, plutonium hatching is low, so noncorrosive grinding using ordinary water such as uranium fuel is provided.

The pellets constituted by the new-type conversion furnace facility (806)

The inspection of the government office is passed and passed to the fuel rod processing process which is the following manufacturing process.

The pellet of the new conversion furnace reactor facility 806,

In order to prevent contamination of the end of the coated pipe due to contact with the pellet and fixed contamination with the welding, a thin plate called a pipe mask is attached to the end of the pipe And measures are provided for mounting.

After the pellet of the reactor installation 806 is inserted by the new type conversion, a plug is attached to the other end of the pipe and is sealed and welded by T I G welding,

Thereafter, the surface of the sealed fuel rod was carefully decontaminated, and then drawn out from the glove box, followed by inspection of the blanks with various non-destructive tests of surface contamination, appearance, dimensions, bending, and X- To the fuel assembly assembly process, the next manufacturing process.

The assembly of fuel assemblies constituting the new reactor furnace facility 806,

When the upper and lower tie plates and the twelve spayers are fixed in advance at predetermined positions of the automatic assembling apparatus, the fuel rod is automatically inserted including the arrangement of the fuel rods according to the degree of hatching to complete the fuel assembly.

The aggregate is inspected and cleaned by bending and twisting, passed the pre-use inspection of the government office, and shipped to the nuclear installation site.

Referring to FIG. 109, there is shown a nuclear hydroelectric power plant of a marine nuclear power plant having a double structure block tank dust collector according to the present invention, Showing a configuration of an embodiment of the present invention, in which a nuclear reactor facility 806 of a conventional nuclear power plant 672 included in a nuclear power plant 811 included in a reactor facility of a nuclear power plant having a dual structure block tank dust collector for nuclear waste treatment, The present invention relates to a dual structure block for the treatment of nuclear waste according to the present invention, and a new conversion furnace facility (806) provided in a reactor facility of a nuclear power plant having a tank dust collector. Structure block Reactor facility of a nuclear power plant having a tank dust collector The new conversion furnace reactor facility (806) Side configuration Road,

As shown in FIG. 109, a nuclear explosion preventive double structure block tank 598 in the form of a cylindrical egg constituting the nuclear power plant 627, a radioactive nuclear waste treatment system, a dual structure block tank 598 among a plurality of nuclear reactor facilities, The new type conversion furnace facility 806 of the structure of the new conversion furnace reactor facility 806,

The coolant 816 is used as the coolant 816 which increases the utilization of the fuel more than the existing reactor, and the coolant 654a is used to generate steam at a high temperature during the rising of the fuel, so that water and steam are separated from the steam drum, ) To form energy nuclear power generation. Heavy water (654b) is used as a moderator. Neutrons are absorbed more neutrons than hard water, and the efficiency of utilization of uranium is reduced. As a result, the use of plutonium and natural uranium A new type conversion reactor furnace 806 of the nuclear power plant 627 constituting the inside of the distributing and inputting apparatus main body of the nuclear waste disposal reactor is formed as a double egg block type tank dust collector having a cylindrical egg shape, A new conversion furnace reactor facility (806) is installed in the distribution reactor of the reactor facility for nuclear waste disposal of the carrier construction machine In consists of.

Referring to FIG. 110, there is shown a nuclear hydroelectric power plant of a marine nuclear power plant having a double structure block tank dust collector according to the present invention. Sectional view of an elemental conventional nuclear power plant reactor building 688 showing the configuration of one embodiment formed of a conventional nuclear power plant included in the reactor core 811 of the reactor core 688 and a cross section of the elementary nuclear reactor building 688, Section and fuel rod (689) Detailed side configuration Road,

As shown in Fig. 110, in the section of the reactor building 688 constituting the nuclear power plant and the fuel rod 689 facility,

The facilities of the reactor building 688 constituting the nuclear power plant are,

The reactor building (688A), the turbine building (688B), the control building (688C), the auxiliary building (688D), the diesel generator building (688E), the nuclear fuel building (688F) and the waste building (688G) (688) are provided,

In the equipment constituting the fuel rod 689,

The fuel bundle adjustment 689a and the upper nozzle 689b and the fuel rod adjustment 689c and the fuel rod 689d and the spring clip assembly 689e and the lower end nozzle 689f and the fuel rod rear end cap 689g, 689h), hold-down spring uranium (689i), diesel fuel pellets (689j), gas caps (689k) and zircaloy crowding (689l) have.

Referring to FIG. 111, there is shown a nuclear hydroelectric power plant of a marine nuclear power plant having a dual structural block tank dust collector according to the present invention. (838) of a conventional nuclear power plant showing the essential constitution of one embodiment formed by the operation of a nuclear power plant of a conventional high speed propagation furnace reactor (838) included in the nuclear power plant (811) As shown in the figure,

As shown in Fig. 111, in the structure of the fast-breeder reactor facility 838 constituting the nuclear power plant,

The high-speed power generating reactor facility 838 constituting the nuclear power plant is formed of a mixture of uranium enriched to about 20% of enriched uranium 235 and natural uranium and plutonium in the center of the fuel rod 689,

The fuel rod 689 is surrounded by natural uranium and plutonium 801 generated from uranium 238 (653a) is used. The plutonium 801 is taken out to be used as the next fuel, and the coolant 816 is made of liquid metal sodium The neutralizer 675 does not need to be decelerated so that the moderator 676 is not contained and the intermediate heat exchanger 657 transfers heat generated in the reactor to the other liquid metal sodium in the intermediate heat exchanger 657,

The heat exchanger 658 is configured to turn water into steam by the heat of the liquid sodium so that the steam turbine 267 rotates to produce nuclear power.

Referring to FIG. 112, a nuclear hydroelectric power plant 811 having a dual structural block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (838) of a nuclear power station of a conventional nuclear power plant showing the essential constitution of an embodiment formed by the operation of the nuclear power plant of the nuclear power plant. Decomposition side strap configuration Road,

Referring to FIG. 113, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (838) an elementary, fast breeder reactor facility (838) showing the configuration of an embodiment formed from a nuclear power plant, the elementary fast breeder reactor The reactor installation (838) side construction road,

As shown in Figs. 112 to 113, the fast-breeder reactor facility 838 constituting the nuclear power plant is constructed as follows.

In addition to producing nuclear energy through the use of fast neutrons, Uranium 238 (653a), which is a non-fissionable material that accounts for 99% of natural uranium, is converted into uranium 239 (653)

Because it is a fast breeder reactor facility 838, liquid metal sodium is used as the coolant 816,

Since the conventional reactor is focused on the division of uranium 235 (812), the neutron (675) speed is low, whereas the fast breeder nuclear reactor (838) has a high neutron (675) speed.

In the fast breeder reactor facility 838,

In particular, the amount of the fissile material decreases when the nuclear fuel is burnt in the nuclear reactor 838. Since the proliferation furnace can produce more plutonium 801 than the amount of the plutonium 801 for the first time, The uranium is converted into plutonium through the reaction, resulting in the production of more plutonium (801) than the plutonium (801) consumed. As a result, , And 238 grams of uranium at a rate of 1.17 grams of plutonium-239 in the reactor will be used as a fuel. If such a liquid metal is put into practical use, the utilization efficiency of uranium can be increased about 60 times However, when the liquid sodium used as the coolant (816) combines with the water air, an explosion occurs and the pipe is easily It is very difficult to secure the technology to handle it by corrosion and it has problems in practical use.

The Super Phosphorus in France and the Monju fast breeder reactor in Japan to the fast breeder reactor facility (838) can still use the nuclear fuel already used.

It is called a "dream reactor" that fuels the fuel as it fires, producing the plutonium (801) while splitting the plutonium (801).

The existing light water reactor and heavy water reactor to the high-speed breeder reactor facility 838 use the hard water (H 2 O) and the heavy water (D 2O) as the moderator 676 and the coolant 816, respectively, (Na) as a coolant without using a moderator 676 in a sodium-cooled high-speed furnace to produce a fission reaction using a high-speed neutron having a higher energy than a light-water reactor and a heavy-water reactor, In the high-energy region, the cross-sectional area of the neutron (675) is remarkably reduced. Therefore, in order to generate the required amount of nuclear fission, a highly-enriched nuclear fuel is provided and the power density is high. .

In order to overcome the disadvantages of the sodium coolant, there is a closed 'sodium intermediate system', which is designed to heat the water in the steam generator without direct contact between sodium and water. At the same time, all piping and walls through which sodium flows are double A system in which the sodium of sodium DHX (sodium-sodium heat exchanger), which seals the leak or is warmed by hot sodium, rises up the piping and cools it through an AHX (sodium-air heat exchanger) There are more important stories that omit one thing, that is safer and more economical, without worrying about waste and accident risk,

When a high-speed multiproduct reactor facility (838) is installed, there is no need for the spent fuel rods to come out as it is now. Instead, spent fuel that has been stored in the basement can be taken out and reused.

Hereinafter, the conventional nuclear waste disposal method and the cause of the nuclear explosion accident will be described as follows.

Referring to FIG. 114, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear waste hydrocarbons Showing the difference in the structure of the nuclear waste disposal method according to the previous design of the plutonium disposal process 1040 from the disassembling facility 1030 of the nuclear reactor base 1029 of the conventional nuclear power plant nuclear waste disposal method, The method of elementary nuclear waste disposal of roads,

As shown in FIG. 114, in the conventional constituent method of nuclear waste disposal, uranium used as nuclear fuel for a nuclear power plant is obtained by refining this natural uranium to provide enrichment of about 3 to 4% of uranium 235 and used as a nuclear weapon Uranium is about 95% enriched uranium. In the 1990s, as a result of negotiations to reduce nuclear weapons between the great powers, many nuclear weapons have been dismantled. Even with the remaining nuclear weapons, humanity has been wiped out several times. We also made uranium for power generation by mixing an appropriate amount of uranium 235 extracted from natural uranium. Such a fuel rod is called M OX and how does nuclear fission occur in the reactor? It begins by striking the nucleus of uranium 235 with a neutron, which when hit with a neutron causes unstable uranium 235 to fission and turn into another stable element.

In the above-mentioned conventional elementary nuclear waste disposal method, while releasing three neutrons with energy as much as their mass difference, the neutrons beat the other uranium 235 to generate fission,

So, when the nuclear fission happens in a chain, if one squeezes one, he breaks the heat and splits the neutrons with the neutrons (675) and squeezes them next to the fan, (675).

In the above-mentioned conventional elementary nuclear waste disposal method, the uranium 235 inside the nuclear reactor facility is squeezed by the neutrons 675, the dislodged and disintegrated mess occurs, and at the same time, the neutrons 675 are not cracked and cracked. At the same time, Uranium 238 glorifies neutrons (675), accepts neutrons (675), turns them into mine, and then turns into plutonium (801), leaving the neutrons (675) Therefore, the cadmium rod is inserted between the fuel rods to absorb and reduce the neutrons (675), and the boron acid is added to the reactor coolant to slow down and calm the neutrons (675).

As shown in Fig. 1z, in the conventional elemental nuclear waste disposal method,

In the plutonium disposal process 1040 in the dismantling of the nuclear weapon, the nuclear waste 1029, the dismantlement facility 1030 and the provisional storage 1031 of the pits, the M OX processing 1032, the M OX combustion furnace 1033, In the vitrified solid 1034, the high-level waste 1035, the final repository 1036 and the long-term storage 1037,

A deep underground cave 1038 is provided with a path 1039 for selecting the disposal of plutonium 801 and the fuel rod 683 facility structure is provided with an upper nozzle 683b and a fuel rod adjustment The fuel rod 683d and the spring clip assembly 683e are provided with a lower end nozzle 683f and a fuel rod rear end cap 683g, a plunger 683h, a hold down spring 683i, (683j), a gas cap (683k), and a Zircaloy crowning (683l), and consists of nuclear waste disposal methods of the nuclear fuel (683) of the reactor facility.

As shown in FIG. 1 (z), in the above-described conventional elementary nuclear waste disposal method,

First, the difference between atomic bombs and nuclear reactors is that nuclear fission by fission neutrons is less likely to occur in fuels of nuclear reactors that contain a small amount of uranium-235, so there is no violent chain reaction like atomic bombs, Nuclear power generation is performed by controlling the fuel 683 in which the diluted uranium 235 (812) is mixed and slowly burning the fuel so that the fuel made by baking and hardening the low enriched uranium 812 is called a pellet 683 and the pellet 683 is covered with a cover tube 682 of the nuclear fuel rod 689 is a nuclear fuel rod 689 filled with the fuel rod 689 and the nuclear fuel bundle 671 is collected as a bundle of squares. If the number of neutrons (821) increases due to the occurrence of fine grain, the chain reaction becomes excessive, and the energy generated when the nuclear fission occurs exceeds the danger level, Tong plurality of reactor facility to proceed in an ideal state there is the explosive as the atomic bomb can be recognized as a key source of fuel (683) identified the explosion of the nuclear reactor facility that features a chain-like explosives shape.

Secondly, a number of existing nuclear reactors are equipped with a cooling system due to the tsunami on March 13, 2011, in that there is no dust collector (794) and exhaust (171) outlet and entrance of exhaust gas (171) The explosion accident at Fukushima Dai-ichi Nuclear Power Station caused by the failure of the reactor is a reactor that can not cope with the high-temperature high-pressure inflation gas and the expansion liquid inside the reactor. Therefore, the direct accident cause is the expansion of the high- The liquid water turns into steam, and the steam of high temperature and high pressure merges with the inflation gas of high temperature and high pressure at the moment when the chemical decomposition of oxygen and hydrogen occurs again, and at the same time, the electron flame generated by the air friction due to the earthquake occurs, Is ignited by high-temperature high-pressure oxygen and hydrogen, causing a hydrogen explosion, so that the first explosion in the space outside the pressure vessel and inside the reactor building, The phosphorus explosion was recognized by the fact that the nuclear explosion in the core of the fuel vessel inside the pressure vessel had progressed and that the reactor had an explosive explosive form of explosive explosion like a transition from an atomic bomb to a hydrogen bomb, Nuclear fuel explosion can be recognized as a key cause.

Thirdly, in the existing nuclear submarines and nuclear-powered aircraft carriers, the explosion of the reactor engine can continue to carry out the safe operation continuously without any explosion until today. Therefore, the inside of the barge hull deck deck body The reason for canceling the installation of the existing reactor building 688, which is the fifth protection wall formed of concrete among the plurality of installed reactor facilities, is the barge hull 591 formed of the double structure block tanks 598, Since it is contained in the fifth protection wall, the reactor building 688 made of concrete in the past is a structure in which the reinforced concrete mat 225 and the nuclear waste ([<<<, >>>], 224) Explosion caused by the change of atomic bombs to hydrogen bombs due to the cause of environmental pollution caused by abrupt change of explosives. Of the explosion of the first reactor due to the fact that it has the shape of a continuous explosive explosive.

Finally, in the past several kinds of reactors, there was no dust collector and exhaust gas outlet of the exhaust gas facility as in the case of thermal power generation facilities, and on March 13, 2011, the Fukushima Daiichi Nuclear Power Plant The reason for the direct accident is that after the failure of the cooling system, water, which is a high-temperature and high-pressure expansion liquid, turns into steam, and the high-temperature high-pressure The vapor of the oxygen is combined with the inflation gas of high temperature and high pressure at the moment of the chemical decomposition of oxygen and hydrogen, and the electron flame generated by the air friction due to the instantaneous earthquake occurs, A second explosion after a primary explosion on the outside of the pressure vessel and inside the reactor building caused ignition and hydrogen explosion As the reactor explosion progresses in the reactor core loaded with nuclear fuel inside the reactor vessel, the nuclear waste disposal concept of the deep defense concept of the previous reactor is very weak and it is in a defenseless state. Therefore, unlike previous reactors In the present invention, the double structure block tank with the concept of deep defense is reinforced. The nuclear reactor of the nuclear power hydroelectric plant of the land and ocean having the reactor dust collector is operated. The nuclear radiation leakage control of the reactor facility of the nuclear waste disposal system It is equipped with double tube structure block piping which uses water potential energy composed of distribution dispenser and equipped with safety pressure sensor and water supply pumps as temperature pressure sensor, and is used for mixing cooling water and soot foam of mixed tooth paste type By choosing a dual-structure fire-fighting nozzle, the nuclear waste disposal unit and nuclear fuel explosion control station Nuclear waste shielding system is used with the distributing device of the tooth.

Figures 88 to 114 are schematic diagrams illustrating an embodiment of a dispensing apparatus for a nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector according to the present invention.

115, a nuclear hydroelectric power plant (hereinafter, referred to as &quot; nuclear power plant &quot;) 1 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector according to the present invention The operation of the thermal power generator 772 of the conventional thermal power plant 626 showing the essential constitution of an embodiment formed by the thermal power generation operation of the conventional thermal power plant 626 having the same power plant connection structure as that of the thermal power plant The thermal power generator (772) of the thermal power plant (626), which is shown in the external view,

As shown in FIG. 115, in the operation mode of the thermal power generator 772 of the thermal power generation plant 626 formed by the thermal power generation operation constituted in the conventional thermal power generation plant 626,

However, in order to understand the structure of atomic power generation, it is necessary to understand the structure of atomic power generation in order to understand the structure of atomic power generation. It is necessary to be able to understand the structure of the nuclear power plant 778 and the melting furnace 984 for melting the metal, and the conventional nuclear power plant and the nuclear power plant of the nuclear power plant of the newly installed nuclear power plant 811) is the same as that of the central control room 781, which controls the operation of the nuclear power plant.

On the other hand, coal-fired power plants are usually constructed near the metropolitan areas where demand for power is high or on the shore, and the ecosystem order is destroyed due to the waste gas emitted from the coal stones. In the meantime, And natural disasters have reached serious levels due to the global warming phenomenon due to the increase of carbon dioxide emissions. The countermeasure against this is that the reactor of nuclear waste water treatment plant equipped with dual structure block tank dust collector It is a means of eliminating human anxieties with infinite production of environmentally friendly energy by forming the distribution dispenser in the ocean.

In the thermal power generation device of the post-thermal power plant 626 before and after the failure of the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the conventional nuclear waste treatment reactor installation,

The nuclear thermal power generation apparatus of the nuclear power plant, which is formed before and after the operation of the nuclear power plant of the nuclear power plant, includes a steam turbine that generates steam by burning fuel in the boiler, generates steam by the heat, rotates the steam turbine 267, A thermal power generator 772 for converting the power generated from the steam turbine 267 and a thermal power generator 772 installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the thermal power generator 772, Rotating armature coil 773 for a thermal power generator provided on the circumference of the rotating electromagnet coil 774 for rotating the thermal power generator and a rotor 773 for rotating the rotating electromagnet coil 774 for the thermal power generator are connected to the steam turbine 267 A power generation facility 811 including a frame 775 for integrally fixing the thermal power generator 772 and the rotary shaft 198 is installed in the vicinity of the front and rear of the nuclear reactor safety operation, It is constituted to perform thermal power generation by substituting into reactor facilities.

Referring to FIG. 116, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear waste water nuclear power plant, (838) an elemental conventional fast breeder reactor facility (838) showing the configuration of an embodiment formed from a nuclear power plant; an elemental high speed reactor (838) that decomposes nuclear operation of the nuclear power plant into a side view; Propagation reactor facility (838) Decomposition side strabismus configuration Road,

As shown in FIG. 116, the fast-breeder reactor facility 838 constituting the nuclear power plant is constructed,

It is equipped with a high-speed neutron to generate energy by generating a nuclear fission reaction. At the same time, uranium 238 (653a), which is a non-fissile material that accounts for 99% of natural uranium, is converted into uranium 239 (653)

A fast breeder reactor facility 838 to provide liquid metal sodium as a coolant 816,

Since the conventional reactor is focused on the division of uranium 235 (812), the neutron (675) speed is low, whereas the fast breeder nuclear reactor (838) has a high neutron (675) speed.

Referring to FIG. 117, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear hydroelectric power plant. The present invention provides a nuclear waste disposal apparatus for a nuclear power plant that provides a nuclear waste disposal apparatus for recovering a nuclear power plant before and after a failure of a nuclear power plant including a conventional nuclear power plant, Nuclear waste treatment system for operation of nuclear power plants of elemental conventional nuclear hydroelectric power plants showing side of nuclear waste treatment device for nuclear power plant operation of hydropower plant.

As shown in FIG. 117, in the conventional method of treating nuclear waste generated in a nuclear power plant for operating a nuclear power plant of a nuclear power plant,

When the ventilation inside the building and the air contained in the water inside the reactor are gas, the activated membrane type gas hold-up device 213 which provides weak radioactivity when the seized type reactor facility is operated, And the ventilation of the power plant is provided with a plurality of symmetrical filters 214 for discharging and discharging all of the ventilated air from the exhaust tower 215 so as to prevent contamination of nuclear fuel radiation from inside and outside the nuclear power plant Consists of.

In addition, when the inside of the nuclear power plant is solid and the paper, cloth, work clothes, shoes or the like are in solid form in the building of the nuclear power plant (672), the filter sludge and the used resin liquid are stored The drum 220 is filled with the paper, the paper is compressed and the volume is reduced and attenuated so as to be filled with the concrete in the drum 220. The drum 220 is filled with a nuclear fuel The nuclear waste storage building 332 and the monitoring post 219 for monitoring are provided with a monitoring post for monitoring the nuclear waste so that the nuclear waste storage building 332 and the monitoring monitoring post 219 are provided with a monitoring monitoring post, To prevent contamination.

When the regenerated liquid of the ion exchange resin is liquid in the water leaking from the valve of the nuclear power plant 672 constituting the inside of the nuclear power plant and in the building water in the building, the washing water is collected in the storage tank 216, ), And the radioactivity is measured by a radioactivity measuring device (218) to confirm that there is no harm. Then, the water flows to the sea together with the seawater for cooling. The water other than the washing water is purified by the filter (217) And the like are provided for use as a reactor coolant and equipped with monitoring posts 219 for monitoring to prevent nuclear radiation pollution both inside and outside the nuclear power plant.

118, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Nuclear power plants operating a nuclear power plant to provide a nuclear waste disposal apparatus for recovering before and after a failure during operation of a nuclear power plant including a conventional nuclear power plant Deep safety 5th barrier A nuclear power plant nuclear power plant showing a constitution of one embodiment Depth safety for operation As shown in side view and cross-sectional view of the fifth fire wall, the operation of the nuclear power plant of the conventional nuclear power plant, the in-depth safety fifth firewall side-

As shown in FIG. 118, in the above-described deep safety fifth barrier wall for nuclear power plant operation of the conventional nuclear power plant,

The control rod 798 enters the fuel assembly 671 from the pressure vessel 813 and usually provides for use when the first nuclear power station is in operation or when the nuclear power station is shut down and adjusts the fuel assembly 671 to a height, The fuel rods 671 are made to be trapped in the radioactive material generated by the fuel rods as the burned fuel body of the stabilized uranium dioxide of the pentane and the first barrier wall 681. The coating material 681, A small amount of gas surrounding the pellet 683 and poured into the metal tube of the special alloy as the fuel rod 689 provides a seal to the second barrier wall. At the same time, the nuclear reactor pressure vessel 813, which is the third barrier wall, And a reactor pressure vessel 813 provided with a 20 cm thick steel containing aggregates 671.

In the shielded concrete wall, which is the fourth barrier wall,

The concrete wall surrounding the nuclear reactor facility prevents the leakage of the radioactive material, and in the case of the fifth barrier wall 808, even if an emergency occurs in which the safety system and the entire space are accommodated in the nuclear reactor system and system And the facilities of the biological shielding wall of the 5-1 barrier are provided with a final biological shielding wall as a thick building of 70 to 100 cm outside the steel, or at the same time, a sealed container 808 and a dome- It is a safe nuclear building that prevents material from leaking, but at the same time provides emergency shutdown of radioactive material in case of an accident.

However, since the conventional nuclear reactor power plant is constructed so that the deep-safety nuclear reactor facility can not cope with a stronger earthquake than 5, it is urgently necessary to take measures against it.

119, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector according to the present invention, The operation of the reactor of the nuclear power plant having the nuclear reactor power plant 811 and the steam generator 810 and the intermediate heat exchanger 657 of the evaporator structure 1005 of the steam generator during operation of the nuclear power plant including the conventional nuclear power plant The steam generator 810 and the intermediate heat exchanger 657 of the atomic power generation facility unit 811 steam generator 1005, the intermediate heat exchanger 657 and the elemental conventional nuclear power plant, Nuclear Power Plant Nuclear Power Plant of Conventional Nuclear Power Plant (811) Evaporator structure (1005) of steam generator, steam generator (810) and intermediate heat exchanger (657)

119, in the facility structure of the nuclear reactor nuclear power plant 811, the vapor generator structure 1005 of the steam generator, the steam generator 810 and the intermediate heat exchanger 657 constituting the nuclear power plant,

First, the intermediate heat exchanger (657)

The secondary cooling system outlet 657a, the low temperature head 657b, the secondary cooling material inlet 657c, the support plate 657d, the central pipe 657e, the outer annular portion 657f, the pressure vessel 657g, 657h and the high temperature gas tank 657i and the mixer 657j, the primary system gas inlet 657k and the primary system gas outlet 657l, the single pipe 657m, the pressure pipe 657n, 657q, 657r, 657r, 657s, 657t, 657u, 657v, 657w, and 657w, respectively, And heat insulating layers 657x,

In the facility structure of the steam generator 810 constituting the nuclear power plant,

The steam turbine 810a and the water supply nozzle 810b, the secondary cooling water 810c and the vibration suppression rods 810d, the tubular support pipe 810e, the tubular lid 810f, the tubular bundle 810g, The cooling water flow path 810m and the steam generator tubulation pipe 810n and the steam generator internal fuselage 810i are connected to the steam generator 810i, the primary side outlet 810j, the primary side inlet 810k, the heat exchange tubule 810l, 810o,

In the evaporator structure (1005) equipment of the steam generator constituting the nuclear power plant,

The steam outlet pipe 1006 and the steam outlet body 1007 are connected to the hygrometer pipe 1008 and the steam outlet pipe 1009 through the liquid level pipe 1010 and the sodium cooling pipe inlet pipe 1011 and the upper plate 1012, A cooling water leakage detection pipe 1014, a secondary argon gas pipe 1015, a skirt 1016, a spiral heat exchange tubule 1017, a sodium coolant outlet pipe 1018, a hemispherical lower body 1019, Water reaction product discharge pipe 1024, an inner pipe 1025, a monitoring inlet pipe 1026, and a water inlet 1023, A pipe plate 1027, a water inlet pipe 1028, and a water inlet chamber outer pipe 1028a, so as to prevent radioactive contamination of nuclear fuel inside and outside the nuclear power plant.

Referring to FIG. 120, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector according to the present invention And a pressure water reactor (803) comprising a boiling water reactor unit (802) and a pressurized water reactor unit (803) comprising an elementary structure of a conventional nuclear power plant, The boiler water reactor unit 802 and the pressurized water reactor unit 803 of the nuclear power plant unit 811 constituting the inside of the reactor facility body 1 and the nuclear power plant of the pressurized water reactor unit 803,

As shown in FIG. 120, the operation of the nuclear reactor of the boiling water reactor assembly 802 constituting the nuclear power plant is carried out,

Fukushima nuclear power plant is a boiling light water reactor (BWR) system in which water vapor boiling from the core is sent directly to a power generation turbine. Half of the water vapor in the reactor facility is half-steamed.

Deceleration of the neutrons 675 of the nuclear reactor reactor 802 of the boiling water reactor plant 802 is achieved by moderator 676 and boric acid H 3 BO 3 captures the neutrons 675 of the fuel rods 689 to generate fission 791b There are 15 discoveries that have operated for thousands of years with non-artificial reactors and naturally-built reactor installations, and the depletion of uranium 235 (812) Difficult to evaporate all the water to create thermal neutrons, thus stopping the activity and at the same time preventing core (791) melting.

However, the Fukushima nuclear power plant operated by the boiling water nuclear reactor (802) operated in such a situation that the safety facility was inoperable.

I put the seawater into the sky, I used fire trucks, I used a helicopter to put them into the building,

In the pressurized water reactor (P W R, 803) equipment constituting the nuclear power plant,

Providing a first order system delivery circulating between fuel and heat exchanger 658,

Heat is transferred to the secondary system of heat, referred to as the primary system hot steam generator 810,

As a result, steam will provide turbine generator rotation,

In contrast to nuclear power, which supplies power for propulsion,

In the nuclear power plant,

The secondary system is lowered at the condenser 790 and simultaneously enters the steam generator 810 again,

The secondary system turbine 267 provides power generation in connection with the turbine generator 772,

The operation of the nuclear power plant can provide other things in greenhouse fish farms.

In the pressurized water reactor (P W R, 803) equipment constituting the nuclear power plant,

Compared with two pressurized light water reactors and other reactors, two pressurized water primary and secondary system turbines (267) are connected to the turbine generator (772) to produce electricity, In contrast, there is no system in the boiling water reactor (BWR).

In operation of the nuclear power plant constituting the pressurized water reactor type nuclear reactor facility 803,

For PWR design, the coolant water should be used in PWR for the first time, but in the first system, it should be set at 315 degrees Celsius. At the same time, the primary pressure is usually 2000 psig, 15 Mpa, 150 The water (654a) at the outlet pressure does not boil, while at the same time the water in the primary system is water in the design of most of the secondary systems, the temperature is 275 degrees Celsius, the pressure is 900 psig and the pressure is 6.2 Mpa Steam is generated and sent to the steam turbine 267.

The stability of such a pressurized water reactor (803)

The pressurized light-water reactor can be produced in a very stable manner,

However, the accidental model of graphite-retarded boiling water pressure tube reactor (RB MK)

, The stability of the pressurized water reactor type reactor (803) deteriorates, and such a specification of R B MK is considered to be one of the Chernobyl boiling water pressure tube reactor facilities.

This fuel assembly of the fuel pressurized light-water reactor is used in a pressurized light-water reactor of the nuclear power passenger car Ns Söbner, and 235U of the fuel in the pressurized light-water reactor uses a certain concentrated fuel.

(U 0 2) powder after melting the concentrated uranium (U 0 2) powder is melted and the phenomenon to be used is heated and sintered,

The production of ceramic pellets formed of uranium dioxide is provided,

In this way, the cylindrical pellets are placed in a zirconium alloy (Zirconia), and helium is injected into the Zirconia bar to aid heat transfer,

The completed fuel rod,

Fuel bundle, which is called a fuel bundle bundle, which is loaded into the reactor core.

Referring to FIG. 121, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, The nuclear power plant of the nuclear power plant 811 constituting the inside of the nuclear reactor main body 1 of the conventional nuclear power plant showing the operation method of the nuclear power plant of the conventional nuclear power plant including the conventional nuclear power plant,

As shown in FIG. 121, in the nuclear power plant of the nuclear power plant 811,

A safety valve 472, a fork spring safety valve 475 for steam, an air vent valve 481, an air exhaust valve 482 for an autothermal type steam, a nichrome wire 659 which does not flow well, Steam generator 810,

In the equipment constituting the reactor pressure vessel 813,

A pressure vessel cylindrical upper end portion 813d and a pressure vessel cylindrical upper end portion 813e that provide a position in the pressure vessel housing 813a and the pressure vessel upper housing bottom portion 813b and the pressure vessel cylindrical housing 813c, The inlet nozzle 813f, the dipole iron plate 813h, the air chamber 813i, the buffer plate 813j, the water 813k, the splash pool 813l, the bast pipe 813m, The pressure vessel cylindrical upper and lower assembly 813p for positioning the fuel assembly 813n includes a dry wall 813q and a pressure vessel cylindrical lower end assembly 813s and a pressure vessel cylindrical upper assembly (813t), a fuel rod iron plate (813v), an outlet nozzle (813w), and a core support tube assembly assembly (813z) of a core support assembly (813y) facility. The reactor structure of the nuclear power plant (811) It is structured to prevent nuclear radiation pollution both inside and outside the movable equipment.

Referring to FIG. 122, a nuclear hydroelectric power plant 811 having a dual structural block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear hydroelectric power plant. And an evaporator structure 1005 of the steam generator and a steam generator 810. The nuclear power plant of the elementary conventional nuclear power plant showing the configuration of one embodiment of the nuclear power plant (811) The intermediate heat exchanger 657 and the evaporator structure 1005 of the steam generator 1005 and the steam generator 810 are separated from each other in the side view of the nuclear power plant of the elementary conventional nuclear power plant 811) an intermediate heat exchanger 657 and an evaporator structure 1005 of the steam generator and a steam generator 810,

122, the nuclear power plant 811, the intermediate heat exchanger 657, the evaporator structure 1005 of the steam generator, and the steam (not shown) are installed in the main body 1 of the nuclear reactor waste disposal reactor, At the operation of the nuclear power plant for providing the generator 810 connection structure,

And the intermediate heat exchanger 657,

The secondary cooling system outlet 657a, the low temperature head 657b, the secondary cooling material inlet 657c, the support plate 657d, the central pipe 657e, the outer annular portion 657f, the pressure vessel 657g, 657h and the high temperature gas passage 657i and the mixer 657j and the primary system gas inlet 657k and the primary system gas outlet 657l and the single pipe 657m pressure vessel 657n, (657p), liner (657q), double pipe (657r), pressure pipe (657s), cold gas pipe (657t), inner pipe (657u) and hot gas pipe (657v) Insulating layers 657x,

The steam generator 810 includes an equipment structure,

The steam turbine 810a and the water supply nozzle 810b, the secondary cooling water 810c and the vibration suppression rods 810d, the tubular support pipe 810e, the tubular lid 810f, the tubular bundle 810g, The cooling water flow path 810m and the steam generator tubulation pipe 810n and the steam generator internal fuselage 810i are connected to the steam generator 810i, the primary side outlet 810j, the primary side inlet 810k, the heat exchange tubule 810l, 810o,

In an evaporator structure 1005 facility comprising a steam generator,

The steam outlet pipe 1006, the steam outlet body 1007, the hygrometer pipe 1008, the steam outlet pipe 1009, the liquid surface tube 1010, the sodium cooling system inlet pipe 1011, the upper plate 1012, The connection pipe 1013 and the cooling water leakage detecting pipe 1014, the secondary argon gas pipe 1015, the skirt 1016, the spiral heat exchange tubule 1017, the sodium coolant outlet pipe 1018, the hemispherical lower body 1019, Water reaction product discharge pipe 1024, an inner pipe 1025, a monitoring inlet pipe 1026, a water inlet pipe 1023, a sodium- A plate 1027, a water supply inlet pipe 1028, and a water inlet chamber outer pipe 1028a to provide a nuclear power plant operation,

(811) The intermediate heat exchanger (657) and the evaporator structure of the steam generator (811) constitute the distribution input apparatus main body (1) of the nuclear waste water treatment plant of the marine nuclear hydroelectric power plant having the double structural block tank dust collector. The nuclear power plant having the connection structure of the steam generator 1005 and the steam generator 810 is structured to prevent nuclear radiation pollution both inside and outside the nuclear power plant.

Referring to FIG. 123, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, The steam generator 810 of the nuclear power plant 811 of the elementary conventional nuclear power plant showing the configuration of one embodiment of the operation of the nuclear power plant including the steam generator 810 including the steam generator 810, In a nuclear power plant of a conventional nuclear power plant, the nuclear power generation facility 811, the side of the steam generator 810,

As shown in FIG. 123, in the equipment constituting the steam generator 810 of the nuclear power generating plant 811 during operation of the nuclear power plant,

The steam turbine 810a and the water supply nozzle 810b, the secondary cooling water 810c and the vibration suppression rods 810d, the tubular support pipe 810e, the tubular lid 810f, the tubular bundle 810g, The cooling water flow path 810m and the steam generator tubulation pipe 810n and the steam generator internal fuselage 810i are connected to the steam generator 810i, the primary side outlet 810j, the primary side inlet 810k, the heat exchange tubule 810l, 810o,

The secondary cooling system outlet 657a, the low temperature head 657b, the secondary cooling material inlet 657c, the support plate 657d, and the middle plate 657d constituting the structure of the relief valve 474 and the intermediate heat exchanger 657, The pressure gauge 657g and the heat insulating material 657h and the high temperature head 657i and the mixer 657j and the primary system gas inlet 657k and the primary system gas outlet 657e, (657m), 657m (657m), 657m (657m), 657n, 657n, 657p, 657q, 657r, 657s, 657s, and 657s, respectively. An inner pipe 657u and a hot gas passage 657v, a liner 657w, a heat insulating layer 657x and a reheater 793,

(811) The intermediate heat exchanger (657) and the evaporator structure of the steam generator (811) constitute the distribution input apparatus main body (1) of the nuclear waste water treatment plant of the marine nuclear hydroelectric power plant having the double structural block tank dust collector. And the steam generator 810 is connected to the steam generator 1005 and the steam generator 810.

Referring to FIG. 124, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed in the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. Operation of Nuclear Power Plants Having a Cutter and a Robot 912 by Remote Control of a Nuclear Waste Treatment Device Provided in the Central Control Room 781 Including a Production Electric Power Element The operation of a nuclear power plant of an elementary conventional nuclear power plant showing the construction of one embodiment A nuclear waste disposal method of a nuclear power plant having a cutter and a robot 912 by a remote control of a nuclear waste disposal apparatus built in a production control central control room 781 of a nuclear power generation facility unit 811, The nuclear waste disposal site (781) constituting the inside of the production power central control room (781) of the nuclear power generation facility unit (811) Cutters, and the robot 912 nuclear power plants operating nuclear waste processing method of decomposing side perspective configuration by the remote control device road,

As shown in Fig. 124, in the repair facility in the event of failure in the reactor facility constituting the nuclear power plant 672,

The piping line of the reactor installation is shut off by the safety valve 472 in preparation for a period when the inspection work period is longer than three months,

The boiler 783 of the thermal power plant is operated to supply power to the reactor power generation facility 811 to supply the steam of high temperature and high pressure to further operate the emergency power generation system. The supply of nuclear power plants will be replaced by thermal power generation facilities to ensure the safety of nuclear power generation facilities through safe and continuous operation of nuclear power plants,

At the time of renovation of reactor facilities,

A nuclear waste disposal device remote control cutter and a robot 912 device are provided inside the production power central control room 781 of the nuclear power generation facility unit 811 during the operation of the nuclear power plant. Nuclear Power Plant's Nuclear Power Plant Nuclear waste treatment system is constructed to guarantee the repair of reactor facilities.

125, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, The nuclear fuel cycle 1077 of the nuclear power plant unit 811 during the operation of the nuclear power plant of the nuclear power plant showing the configuration of the nuclear power plant in which the nuclear fuel industry cycle 1077 including the nuclear fuel industry cycle 1077 is included, Revision Checking Scene Disassembly Schematic side view and section view Nuclear power plant operation of nuclear power plant Nuclear power plant (811) Nuclear fuel cycle (1077) ,

As shown in FIG. 125, the nuclear power plant 811 constructed inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, During the cycle 1077,

The spent nuclear fuel 683 and the remaining uranium 812 constituting the nuclear fuel industry cycle 1077 in the nuclear power plant 672 are processed in the reprocessing plant 228 and then converted into uranium fluoride 812 to transfer the fuel 683 to the concentration plant 230 and convert the uranium fluoride 812 to uranium dioxide at the conversion plant 229 to form a pellet 683, Plutonium 801 that is manufactured and processed in the reprocessing plant makes fuel rods 689 in the conversion and processing plant 231 such that the reprocessing fuel rods 689 are moved back to the nuclear power plant 672 The concentration plant 230, the conversion plant 229 and the conversion processing plant 231 in the nuclear power plant 672 and the reprocessing plant 228 are installed on the upper side of the sinking type barge deck deck surface Do not process nuclear waste (224) as nuclear fuel cycle of nuclear fuel industry And

Marine nuclear power plant (672) is equipped with nuclear fuel cycle of the nuclear fuel industry to prevent nuclear radiation pollution inside and outside the nuclear reactor facility which constitutes inside the main body (1) of nuclear reactor waste disposal reactor facility.

Further, in the nuclear power plant 672 constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the nuclear waste treatment,

The long half-life nuclear waste 224 from the reprocessing process has a long half-life, so it can be stored for thousands of years,

(877) and excavators (845) that provide inputs to the permanent disposal of long-lived nuclear wastes to permanently dispose of nuclear wastes (224) with long-half-life nuclear wastes buried in polar glaciers Disposing the nuclear waste disposal apparatuses to form a nuclear waste disposal having a long half life,

The nuclear waste treatment includes the steps of fissioning in the nuclear reactor facility to construct a conversion into another material,

The nuclear waste disposal includes the steps of constructing a deep burial site by providing a construction machine heavy equipment stock 877 and an excavator 845 in a ground or sea,

The nuclear waste disposal includes the steps of constructing a double tubular drum (220) containing nuclear waste by carrying a sinking prevention vessel to the buried area,

In the nuclear waste treatment, the double-tubular drum 220 containing the nuclear waste at the upper end of the barge deck deck 591 provided with the space rocket 612 and the space rocket launching rods 646 is inserted into the space rocket 612, (224) comprising a step of constructing a nuclear waste (224) process comprising the steps of constructing a nuclear waste disposal facility The present invention can be implemented in a stepwise manner so as to provide nuclear waste treatment with a long half-life by providing devices for permanent disposal of nuclear waste having a long half-life constituting pollution prevention.

Referring to FIG. 126, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention A hydropower generator and an engine side elementary diagonal configuration showing the structure and engine side showing an elemental configuration of an embodiment formed for nuclear power plant operation of a TVA's Paradise power plant steam turbine generator in the vicinity of a conventional Kentucky paradise,

As shown in Figure 126, the capacity of T V A's Paradise Power Plant Steam Turbine Generator near Paradise, Kentucky is 1,150 MW. When it first started operation in February 1970, it was the largest power plant in the world.

The turbine, produced by the utility company, first enters the high-pressure turbine under the right-angle pipe on the left, and then flows through the rectangular pipe in turn to the intermediate-pressure turbine (the rear lid) and the low-pressure turbine (the front lid).

The high-pressure turbine is connected to one generator (gray box on the left) and the other two turbines are connected to a second generator (front box) with the same capacity. The entire plant is run by 3.6 million kg of water vapor per hour, which enters the high pressure turbine at a pressure of 1,650 kg per square inch and 427 ° C.

The coal consumption per day is 10,572 tons, enough to fill 210 coal cargoes. The net heat efficiency of this facility is 39.3%. Two small turbine generators with 704 MW each are visible at the rear.

The efficiency of converting the energy contained in a fuel into a useful form varies depending on the conversion method and the desired end use.

When burning wood or coal in an open fireplace, less than 20% of that energy is emitted into the room.

To determine the overall efficiency of a steam turbine plant, this value must be multiplied by the efficiency of other energy converters in the chain from fuel to power.

A nuclear power plant with an output of 1,000 MW is 10% more expensive than a fossil fuel power plant ($ 280 million compared to $ 250 million), but nuclear fuel is already cheaper than fossil fuel.

However, in the future when more new facilities will emerge, the facilities that currently cover the basic load are too large to easily operate and can not easily be downgraded to accommodate intermittent use because it is difficult to stop.

According to a comparatively reasonable estimate, it is thought to be about 100 GW. But I have just seen that the electrical industry has to increase this output by 10 times to meet the demand in 1990. We can conclude that tidal energy is not qualified to be a major innovative energy source.

[Figure 8-15] Three incremental curves were compared. Curve A is an exponential increase curve. Curve B is an extension of the doubling period by 20%. In curve C, the amount of increase during this doubling period is always constant.

It is estimated that it will be possible to build a solar power plant with a power output of 1,000 MW, or about $ 1.1 billion, which is about four times the current cost of nuclear power plants.

As they pointed out, the solar power includes economic problems of purchasing by facility funds rather than operating expenses.

It is estimated that these 40-year-old solar power plants will be able to produce power at an average of 1/2 cents per kW / h.

The 8 × 8 km light receiving plate will accept about 8.5 × 10 ⁷ kW of solar radiation. A solar cell that operates at about 18% efficiency converts it to a power of 1.5 x 10 ⁷ kW, which is converted to microwaves and sent to Earth.

On Earth, this translates back to 10 ⁷ net kW, or enough power in New York City. The coverage area of the receiving antenna will be about 6 times as wide as required for coal-fired power plants with the same output, or about 20 times as wide as required for nuclear power plants.

The great benefits of energy planning based on solar energy collected from the wind or the earth's surface may sound like an overpower today, but they do not add heat to the earth's ecosystem, It can be said that the system.

The solar energy collected in the orbit is not a constant energy system in strict sense because most of the radiant energy blocked at 3,500 km altitude is a radiant energy that otherwise would not reach the earth.

Only the energy collected when the solar light plate is in line with the sun and the center of the earth does not increase the earth's heat load.

On the other hand, light plates in outer space will emit much less waste heat into the environment than fossil fuel or nuclear power plants.

All but 20% or less of the total energy of the microwave wave going to Earth is converted to useful power.

Of course, when this power is consumed, it is released into heat.

Recognizing the macroscopic nature of the development of invariant energy systems, one has to be aware of what a certain amount of exponential growth means.

The process of doubling is a dreadful phenomenon.

The amount of increase during any one doubling period - whether it is energy consumption, population, or land area occupied by the highway - is the same amount of increase over its past past.

For example, the next batch of fossil fuels will be mined for all the fossil fuels that have been mined on Earth.

As described above, the present invention provides a nuclear waste treatment dual structure block tank marine tunnel traffic apparatus (941) including a marine biotope, which constitutes the demand for electric power with an invariable energy system, To provide environment-friendly means of producing green energy and extend resources to be depleted,

All those who have made the best efforts should be accompanied by cooperation and efforts to join in the construction of a zero-accident global village for their descendants.

According to the present invention, even in a 10-meter-deep sea area, the sinking raft or a marine vessel depending on a typhoon and a wavy wave, and a deep sea region having a depth of about 10 km, In the submarine, the aquifer generators are combined with the dam hydroelectric generators,

(1) of a nuclear reactor plant for the treatment of nuclear waste of a marine nuclear hydroelectric power plant having a double structure block tank dust collector formed by combining power generation facilities of all other power plants of a thermal power generation medium turbine Nuclear Hydroelectric Power Plant (811) It has a half-life long nuclear waste treatment system consisting of a control shaft, a distribution shaft and connection shafts, and a device for permanent disposal of nuclear waste having a long half- And a distributing and introducing apparatus of the processing reactor facility.

Referring to FIG. 127, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant. The nuclear power plant of the conventional thermal power plant is operated. The nuclear power plant of the conventional nuclear power plant showing the construction of the embodiment is shown. The nuclear power plant 811 of the conventional thermal power plant is operated. In view of the decomposition aspect of the operation method of the thermal power generation operation of the thermal power plant during operation of the nuclear power plant of the conventional nuclear power plant,

Referring to FIG. 128, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. The nuclear power plant of the conventional thermal power plant is operated. The nuclear power plant of the conventional nuclear power plant showing the construction of the embodiment is shown. The nuclear power plant 811 of the conventional thermal power plant is operated. The thermal power plant of the nuclear power plant 811 constituting the inside of the main body 1 of the nuclear power plant for nuclear waste disposal shown in the side view of the operation mode of the steam locomotive, Elemental aspect of power generation operation method Road,

Referring to FIG. 129, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear hydroelectric power plant. Operation of Nuclear Power Plant to Provide Operation of Thermal Power Plant Including Thermal Power Plant A nuclear power plant of a conventional nuclear power plant showing the essential constitution of an embodiment of the present invention includes a nuclear power plant portion 811, a steam pipe 779, and a steam or strong gas (780) of the high-temperature high-pressure steam inlet (780) and the boiler operating rods (783) inside the boiler are disassembled side and in section, the nuclear power plant of the conventional nuclear power plant is operated while the nuclear power plant The elemental aspect of the operating system.

Referring to FIG. 130, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear hydroelectric power plant. The operation of the nuclear power plant which provides the recovery of the failure of the nuclear power plant during the operation of the conventional nuclear power plant including the nuclear power plant of the elementary conventional nuclear power plant showing the configuration of the embodiment, 781) and Transmission Measuring Room Transformer Room (782) Thermal power generation of the thermal power plant showing the operation methods of the thermal power generation and the operation of the nuclear power plant,

As shown in FIGS. 127 to 128, the nuclear power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, (626) facilities for nuclear power plants operating nuclear power plants that provide recovery before and after a failure during the operation of a conventional nuclear power plant,

A power transmission line 775, a power transmission pylon 776, an opening and closing facility 777, a piston pump 127, a regulator 136, and an exhaust gas Ignition material wire 178, spark 236, rotating blades 267, crank 248, link rod 249, cooling water outlet 350 and cooling water inlet 352 A steam pipe 779, a steam 780, and a turbine generator 772, which are provided with a centrifugal fuguil pump 308, an exhaust manifold 465 and an electric power 685, A non-rotating armature coil 773 for a nuclear power generator, a rotating rotor electromagnet coil 774 for a nuclear power generator, a condenser 790 serving as a cooling device for cooling the water vapor to constitute water, a core 791, 792 and a reheater 793 and a dust collector 794 and a heavy oil tank 795 and a heavy oil 796 and a kettle 778 and a steam pipe 779 and a steam 780 in a thermal power plant, Providing a Merced room 782 and produces boiler operating in the electronic control device in the power central control room (781), the core (783) inside the check-up states and,

(1) of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, the nuclear power generation facility (811) inside the main body (1) (626) for the operation of the nuclear power plant of the nuclear power plant, which is equipped with the thermal power generation operation of the thermal power plant,

129 and 130, the nuclear power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, (626) facilities for nuclear power plants operating nuclear power plants that provide recovery before and after a failure during the operation of a conventional nuclear power plant,

A power transmission line 775, a power transmission pylon 776, an opening and closing facility 777, a piston pump 127, a regulator 136, and an exhaust gas Ignition material wire 178, spark 236, rotating blades 267, crank 248, link rod 249, cooling water outlet 350 and cooling water inlet 352 A steam pipe 779, a steam 780, and a turbine generator 772, which are provided with a centrifugal fuguil pump 308, an exhaust manifold 465 and an electric power 685, A non-rotating armature coil 773 for a nuclear power generator, a rotating rotor electromagnet coil 774 for a nuclear power generator, a condenser 790 serving as a cooling device for cooling the water vapor to constitute water, a core 791, 792 and the reheater 793, the dust collector 794 of the thermal power plant, the heavy oil tank 795, the heavy oil 796, the kettle 778, the steam pipe 779 and the steam 780, The boiler operating core 783 internal operating status check is provided to the electronic control units in the room 782 and the production power central control room 781,

(1) of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, the nuclear power generation facility (811) inside the main body (1) (626) for the operation of the nuclear power plant of the nuclear power plant, which is equipped with the thermal power generation operation of the thermal power plant,

Referring to FIG. 131, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for a marine nuclear power plant, (Nuclear Power Plant) in which nuclear power plants including nuclear power plants including a nuclear power plant are provided. FIG. 8 is a schematic view showing a nuclear power plant of a nuclear power plant, Decomposition of the nuclear power plant 811 during the operation of the nuclear power plant,

As shown in FIG. 131, in the reactor facility of the nuclear power station 811 constituting the nuclear power station,

A dual structure block tank 596 having a double structure inner block tank 596 for treating nuclear waste and a double structure outer block tank 599 as an iron plate 597 of a high strength stainless steel, Since the steam 780 containing the radioactive material constituting the distribution dispensing apparatus main body 1 of the reactor facility for treating nuclear waste of a marine nuclear hydroelectric power plant having a dust collector is circulated to the turbine 267, And a steam separator 818 and steam driers 786 are disposed on the reactor core 791 around a core 791 composed of a fuel assembly 671 and a control rod 798 in the reactor pressure vessel 813 And a control rod guide housing 798e and a control rod drive housing 798a are disposed below the core 791. A core shroud and a jet pump 325 are installed around the reactor core 791, There are many facilities In the machine carrier it is composed of a nuclear power plant unit 811 connected to the structure of the nuclear reactor facility.

Referring to FIG. 132, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed in the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. (Nuclear Power Plant) in which nuclear power plants including nuclear power plants including a nuclear power plant are provided. FIG. 8 is a schematic view showing a nuclear power plant of a nuclear power plant, Decomposition of the nuclear power plant 811 during the operation of the nuclear power plant,

As shown in FIG. 132, in the nuclear power station of the nuclear power station 811 constituting the conventional nuclear power station,

If the cooling water 287 of the core 791 is lost due to a breakage accident in the piping of the reactor cooling system, In order to prevent damage to the fuel, emergency core cooling system (E CCS) is installed. This system consists of high pressure core water system, automatic decompression system, low pressure core water system and low pressure water system. 802) to the engineering safety systems.

If the fuel breakage occurs, since the radioactive material is contained in the high-temperature high-pressure cooling water 287 flowing out of the core 791, provision of a nuclear reactor container 808 preventing the radioactive material from flowing out to the outside is provided have.

Since the nuclear reactor vessel 808 in the boiling water reactor apparatus 802 is all pressure-controlled, this system guides the outflowed steam 780 to the pressure control pool 240 of the pressure control chamber, Since the cooling and condensing function has a function of suppressing the pressure rise of the container 808, the temperature rise in the container 808 is provided by the collapse heat of the post-accident fuel, and the cooling of the container 808 is provided And a reservoir 808 sprinkler system is provided to allow the cooling water 287 to be dispensed at the top of the reservoir to remove radioactive material such as floating sludge in the reservoir 808.

The emergency gas treatment system may be installed in the nuclear reactor building 688 in preparation for leakage of the radioactive material in the nuclear reactor container 808 in the boiling water reactor installation 802 to directly discharge the radioactive material to the atmosphere .

Also, there is a possibility that the temperature of the fuel covering material 681 increases with the loss of the coolant, hydrogen may be generated by the water-metal reaction, and if the hydrogen is burned rapidly, the integrity of the container 808 may be damaged In the boiling water reactor installation 802, nitrogen is sealed in the reactor vessel 808 during normal operation, but M ARK-3, which is a design that does not require nitrogen sealing, is not adopted in Japan.

The boiling water reactor facility (802) is equipped with a flammable gas concentration control system which prevents the rapid combustion by recombining the hydrogen and oxygen generated in the operation of the nuclear power plant. Therefore, the boiling water reactor facility (802) The following description will be given.

In the boiling water nuclear reactor (802), during the operation of the nuclear power plant, the power station is stopped for regular inspection after a certain period of operation. Therefore, the fuel exchange is performed in parallel with the regular inspection, The temperature of the reactor coolant 287 is lowered, the upper cover pressure vessel 813a of the reactor pressure vessel 813 is peeled off, the water in the reactor pressure vessel 813 and the reactor well is filled with water, A fuel changer is provided,

(BWR, 802), which is the core of the BWR, including the control of the BWR reactor, the construction of the engineering safety, and the fuel handling properties. The mainstream of the boiling water reactor (BWR, 802) is the ABWR The power company using each BWR is considering ABWR as the next unit.

Referring to FIG. 133, there is shown a conventional nuclear hydroelectric power plant unit 811 constructed inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention. Showing an arrangement of an embodiment of a bulldozer 855 and an excavator 866 of a construction machine constituting the construction site 1083a of the North Korean construction ceremony connected to the north and north roads of the electronic control adjusting apparatus construction machine control unit 811f The bulldozer 855 of the construction machine constituting the construction site 1083a connected to the North and South of the electronic control regulator construction machine controller 811f included in the nuclear power generation facility 811 during the nuclear power plant operation of the conventional nuclear power plant, And exploded side view configuration of the elemental conventional nuclear power plant 811 shown in cross section,

133, in the bulldozer 855 and the excavator 866 of the construction machine constituting the construction site 1083a,

(1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector is connected to a North and South Korean road through a bulldozer 855 and an excavator 866 of a construction machine And a plurality of construction machine carriers are connected to the reactor structure of the nuclear power plant 811,

Referring to FIG. 134, there is shown a conventional nuclear hydroelectric power plant unit 811 constituted inside the main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention. The hydraulic cylinder or the hydraulic cylinder key 623 and the hydraulic cylinder door 623 are connected to the construction machine 108 and the hydraulic rotary cylinder 620 constituting the construction site 1083a of the electronic control regulating device construction machine control unit 811f, A construction site 1083a of the North Korean construction site connected to the North and South of the electronic control equipment construction machine control unit 811f included in the nuclear power generation facility unit 811 during the operation of the nuclear power plant of the conventional nuclear power plant constituting the excavator 856 The construction machine of the elementary conventional nuclear power plant unit 811 shown in cross section and the hydraulic cylinder or hydraulically operated hydraulic cylinder of the hydraulic rotary cylinder 620 are connected to the dismantling side of the bulldozer 855 and the excavator 866 of the construction machine, A disassembled side perspective configuration of the key 623 and the door excavator 856 for the hydraulic cylinder,

As shown in FIG. 134, generally, a hydraulic cylinder or hydraulic pressure key 623 and a door for a hydraulic cylinder (such as a submarine tail or an automobile-mounted ship hull aft middle portion of the construction machine and the hydraulic rotary cylinder 620) A hydraulic cylinder 623 is often used as a joint of a robot and the cylinder 620 is used for rotation and the hydraulic cylinder 623 is used for pushing and pulling an object Suitable.

The hydraulic cylinder body is disassembled and coupled with the piston 127 and the piston seal 823 and the baffle seal 824 are inserted into the rod-and-piston seal 822 so as to exert a compression function on the body of the piston 127 and the cylinder. (DU Bush, 827), O-rings (828), and load seals (829) to the seal ring (825) and the slide ring (826) seal 830 and a piston seal 832 to the rod seal & back up seal 831 and a piston seal 832 to the piston seal 834 and the baffle 835 to the pin seal seal 833, 836 and a piston ring 837 to constitute the circumference of the piston 127 and the inside of the cylinder 126.

The cylinder body is provided with a flange 28 on a high pressure pipe 14, a reed 35 and an elbow or thigh bolt 44, Screw coupling of the coupling valve 29 coupled to the hydraulic safety valve 474 and the hydraulic hose 190,

The outline of the hydraulic pressure and the application of the hydraulic pressure are separated by the characteristics of the hydraulic pressure and are explained as follows.

First, regarding the definition of hydraulic pressure,

What is hydraulics?

The mechanical energy is changed into the pressure energy of the fluid by the hydraulic pump using the power and it is stored in the hydraulic oil. It is controlled by the control valve to control pressure (force control), flow rate (control of speed) Means an apparatus or a system that combines basic control elements in accordance with the purpose and converts them back to mechanical energy through an actuator such as a hydraulic cylinder or a hydraulic motor.

The following is the historical background of hydraulics,

Development of the fluid power technology for effective utilization of the power and economical use of the natural energy as the science advances was started in 1653 (Pascal). By the time of the Industrial Revolution in England in 1850, there was a fluid power company in England. The company has a 7000 horsepower pump and supplied hydraulic power to each user. The supply line is about 120 km and the power is used to operate the machine, for example, the rotating stage of Coliseum Theater, the Tower Bridge ), And the opening and closing of the front door of the British Society of Mechanical Engineers.

In the 1900s, the use of fluid power was declining due to the construction of electric power harnesses. Electric power was superior to fluid power in long-distance power transmission, but in power transmission within a single body without long-distance transportation, The use of electricity increased rapidly from the late 1900s because it was better than electricity.

In such applications of hydraulic pressure,

Although the application range will be greatly expanded in the future, the hydraulic pressure is mainly used for linear motion, rotational motion and the case where a large force is required or a speed is changed. Hydraulic equipment can be roughly divided into movable type and fixed type.

First of all, in mobile hydraulics,

Portable hydraulic equipment is a movable equipment using wheels or chains. In portable hydraulic equipment, valves are mainly operated manually.

Firstly construction machines are excavators and trucks, cranes and loaders in bulldozers and so on. Next, the conveying machine is used for the power handle of the car, the torque converter, the concrete mixer truck and the forklift in the sweeping car, the next ship decking machine is used for the winch and the steering, the fourth is for the airplane, Wheel drive, etc. The following cargo handling machines are used for agricultural machinery such as conveyor devices for elevator crane and elevator.

The following stationary hydraulics are described as follows.

The fixed hydraulic equipment refers to a rigidly installed and operated equipment, which is mainly operated by an electric signal, i.e., a solenoid valve 76

The above machine tools were multiaxial drills and transpermersin for automatic adjustment lathes, steel machines were used for shearing and winding machines, then metal machines were used as casting machines, and synthetic resin machines were used for injection molding and extruding Use,

It was also used as a hot-press and wood-conveying vehicle for woodworking machines and as a rotary machine for offset printing and offset printing on bookbinding and printing machines. It was also used for rockets and robots in incinerators and leisure facilities.

As shown in Fig. 134, Fig. 134A is a constitution for the automotive printer, Fig. 134B is a constitution for the excavator 856, Fig. 134C is a constitution for the press mold, Fig. 134d is a description for the dump cylinder.

In the above-mentioned characteristic of the hydraulic pressure,

First of all,

It generates a force that is greater than the size of the system and allows precise position control. It is possible to start in a large load condition, so that excellent control (force, direction, speed ) And controllability and excellent heat release.

In the disadvantage of this hydraulic pressure,

It is susceptible to contamination of surrounding environment caused by waste oil, so it is dangerous to use high pressure and low efficiency due to change of working condition due to temperature change.

As described above, in the configuration of the hydraulic device

The hydraulic system may first be divided into power supply, control and output sections. The power supply section supplies the flow to the system, and the most important components are the prime mover and the pump. A prime mover is a device that provides the mechanical power necessary to drive the pump. In industrial systems, motor is generally used as the device, and in the case of a vehicle such as an excavator or farm machinery, the prime mover is an automobile engine. The pump takes the mechanical power from the prime mover and converts it into a flow of fluid with pressure.

An output device of the hydraulic system includes an actuator and a load. The actuator converts the fluid power into mechanical power to move the load. The actuator may be a cylinder (linear actuator) that performs linear motion, or a hydraulic motor (rotary actuator) that generates rotational motion.

The control unit is located in the middle of the hydraulic system, and the components include a directional control valve, a pressure control valve, and a flow control valve. For example, the direction of motion of the actuator can be controlled by the direction control of the fluid flow, such as the cylinder advancing or retracting. As described in (Pascal), controlling the pressure of the fluid regulates the force of the output . Controlling the flow rate also regulates the speed of motion of the actuator.

First, in the formation of the pressure source

It consists of a tank that collects the required amount of oil, a hydraulic pump that pumps oil out of the tank and into the circuit, and a safety valve that protects the power source, but this part is also a pump that uses a variety of devices to meet the unique needs of the device. Gear and vane piston pump, motor and tank, relief valve, pressure-gauge valve on the shut-off valve, and pressure-line and return line on the suction line to the heater on the heat-exchange thermometer.

Referring to FIG. 135, a nuclear hydroelectric power plant 811 having a dual structure block tank dust collector according to the present invention includes a main body 1 of a nuclear reactor waste disposal reactor, (214) of a construction machine control unit (811f) and a distributor device of a weighted load accumulator, a spring loaded accumulator, a breather type accumulator, and a nuclear reactor waste treatment facility The filter 214 of the electronic control regulating device construction machine control section 811f included in the nuclear power generation facility section 811 during the operation of the nuclear power plant of the conventional nuclear power plant constituting the embodiment and the load- Pressure type, bridder type, decomposition side configuration of accumulator,

As shown in FIG. 135, in the filter 214 constituting the dispensing apparatus of the nuclear reactor facility for nuclear waste disposal,

Filtration of hydraulic fluid in hydraulic installations is very important for the operational and service life of hydraulic equipment.

Like airborne dust, metal and seal particles contaminate the hydraulic fluid during operation.

These particles of various sizes must be removed continuously.

Otherwise, the contaminated particles clog the ports and piping of the system. Therefore, the function will deteriorate. Pollution is the main cause of wear due to sliding parts of hydraulic equipment.

The hydraulic filter is a full line type and a line type, depending on the flow state of the line. Also, there is a high pressure line filter as a pressure side line type, and a low pressure line filter as a return line or suction side.

The tank filter is the simplest structure filter installed at the suction end of the pump. Since the pressure drop is directly related to the cavitation characteristics of the pump, it is recommended that the tank filter be 80 mmHg or less.

In addition, the filtration rate of 149, 105, 74, and 44 μ is commercially available, and usually about 74 to 105 μ is used.

The strainer consists of a metal mesh and ceramic magnets.

While the pressure is passing through a strong magnetic field, it is structured to flow at a low speed. As much as 1 μ of iron is sucked into the magnet, and non-ferrous metal is also removed.

Line filters typically have a safety element that incorporates a filter element in a pressure vessel and operates when elemental pores are clogged and above a specified pressure drop.

In the line filter,

In addition to filtering the whole amount by installing it in the main pipeline, there is also a case where a filtration filter of a suitable filtration size is installed only in a necessary circuit.

The nominal pressure is 35, 70, 140, 210 kg f / cm 2 filter particle size of 5, 10, 20, it has been marketed in 44 μ.

The distinction according to the filtration method is as follows.

In the first option line (Suction filtration)

The filter is installed on the Suction line.

This is to prevent damage to the pump by foreign matter.

There is a risk of causing cavitation due to clogging of the filter.

In the pressure line (L i ne) filtration,

The filter is installed on the pressure line to protect the hydraulic equipment by external foreign matter.

In return line filtration,

The filter is installed in the return line to filter the return oil.

And the pressure filtration

With the increase in the high-pressure of the hydraulic equipment, the degree of each part of the equipment is required, and thus the improvement of the cleanliness level is also highly desired.

In the repair of hydraulic equipment,

75% of the failures are due to the contamination of the hydraulic oil, so the hydraulic cleanliness is extremely important throughout the hydraulic system.

If the filter is classified on the filtration side, it can be roughly classified into surface type, lamination type, porous type, adsorption type, and magnetic type.

As shown in Fig. 135, in the accumulator,

The accumulator is designed to push high-pressure oil into the container, and it is designed to send a high-pressure oil to the high-pressure oil instantaneously when it is needed in the driving device, much higher than the amount of oil supplied from the pump.

When the accumulator is used, there is an advantage that the size of the pump is smaller than that in the case of not using the accumulator, and the size of the entire apparatus is small, so that the facility cost is advantageous.

First of all, in order to classify compressed energy into liquid transport for scaling and pulsation,

First, in terms of the scale of the compression energy,

It can be used to compensate for flow rate and pressure changes due to leakage or temperature changes in power source, hydraulic circuit, etc. in case of interruption or failure of pump in intermittent operation.

The following are used to absorb the pulsation generated by the hydraulic pump due to the elimination of pulsation and impact, and to suppress the peak pressure to prevent vibration and noise.

Also, it is used to prevent the oil hammering or surge pressure that occurs when the valve is opened and closed, and to prevent the breakage or leakage of valves and piping instruments due to impact pressure. do.

For this reason, it is also called a surge absorber or shock absorber.

For the next liquid transport

When the gas of the gasifier of the accumulator acts like a piston, the accumulator acts as a pump, so that toxic, harmful and corrosive liquids can be transported.

In the second type, the load-bearing type axial accumulator and the spring loaded type axial accumulator are described as follows.

First, in the weighted load accumulator,

The accumulator consists of a piston and a cylinder, and is configured to energize the oil with the weight of the weight used in the piston.

The pressurized oil in the hydraulic circuit is pushed into the chamber of the oil below the piston to lift the piston and the weight,

When the pressure in the hydraulic circuit lowers or when more oil is needed, the piston is further lowered by gravity to send the oil to the hydraulic circuit.

This accumulator can maintain a constant pressure, but it has a disadvantage that it is restricted to the installation because it is not suitable for the absorption of pulsation because the inertia of the moving part is large, the response is not good, and the structure is large and expensive.

As shown in Fig. 135, in the spring loaded accumulator,

The operation of the accumulator, in which the force generated by the displacement due to the spring load and the hydraulic pressure are parallel, causes the spring to push the oil to the hydraulic circuit when the pressurized oil is lowered at the time of loading.

This accumulator has the advantage of not requiring pre-charging or recharging, but it has a disadvantage in that the volume of the accumulator becomes too large when the capacity of the hydraulic circuit is large or high, and when the capacity of the circuit is small or low, Is used.

As shown in FIG. 135, a method of injecting an inert gas into the breather and accumulating pressure according to the degree of compression and expansion of the bleeder is disadvantageous in that the gas may intrude into the oil chamber. However, , It is easy to manufacture, absorbs pulsation pressure easily, and has quick response.

As shown in Fig. 135, in the hydraulic operating oil,

Hydraulic fluid plays a very important role in transferring fluid energy, and various methods are used depending on the type of machine and operating conditions. In order to design, manufacture, and operate the hydraulic equipment, you should also know the hydraulic oil as well as the hydraulic equipment.

First, in terms of properties required for hydraulic oil

Hydraulic devices and hydraulic fluids must be well-suited for long-term performance of the hydraulic system. BACKGROUND ART [0002] Recently, as the performance of a hydraulic device has been improved, a high-quality operating oil has been required. The following lists the performance requirements for the working fluid.

First,

It should be non-compressible and responsive to ensure reliable transmission of power.

Secondly,

Low viscosity change due to temperature and pressure, low temperature fluidity and good shear stability.

Thirdly,

Be able to maintain sufficient lubrication at the operating part of the machine and to prevent solid friction.

Fourth,

Chemical stability should be ensured even after prolonged use.

Fifth, toxicity and volatility are few.

In the following, the low viscosity hydraulic oil and the high viscosity hydraulic oil are classified into the low viscosity hydraulic oil and the high viscosity hydraulic oil.

The reason is that the internal leakage is small, the lubrication effect is small, the lubrication characteristics are good, the pumping is easy, the pipe resistance is high, the reaction time is fast, the response time is slow and the switching time is great. And it is difficult to remove air bubbles.

As shown in Figure 135, in the method of using hydraulic oil,

Even if the hydraulic oil is used with a good performance, the performance of the hydraulic oil hydraulic pump can not be exhibited unless it is used correctly.

First, in the contamination of hydraulic oil,

Most of the hydraulic machine malfunctions are caused by dust, and there are soft dust which is caused by hard dust made of metal particles such as chip, rust, oil degradation and sealing material, The dirt on the machine causes grooves on the percussion part of the machine, which causes oil leakage and deteriorates the performance of the machine. The soft dust blocks the pipeline of the circuit (such as the pilot line) and affects the malfunction and the flow rate of the flow.

The following is dust from the beginning of the circuit

Welding slag and chips that come in during machining or assembly are the most dangerous, as it is hard dirt and grooves in the moving parts.

It is usually caused by a mistake in selection of melted material in the circuit or storage error before assembly, and it may happen that the water vapor in the air coagulates (condensation phenomenon) as temperature changes.

However, in the dust generated in the circuit during operation

There is a chemical which is caused by the abrasion of the friction part by the friction of the machine and the chemical which is caused by the oxidation of working oil. The oxidation product of oil may become sludge together with solid dust and moisture.

And dust that came in from outside during use

In many cases, the oil comes out of the oil feed port due to poor filter or bad filter of the vent hole, and may also come in through the piston rod.

The dust in the supplementary oil

Especially water is the most foreign matter.

When the water enters, it collects on the bottom of the tank because it is heavy, and it is finely disassembled by the operation of the hydraulic pump and generates rust on each part of the machine.

In this way,

There are two ways to check the condition of the working oil: by visual inspection and testing, but when used for 5,000 ~ 20,000 hours, the working oil tends to change and solidify.

Therefore, it is recommended to exchange 100 ~ 1000 hours for the first time and 2000 hours for the second time. If it is dark brown, exchange it immediately and check the specific gravity and viscosity.

FIGS. 109 to 135 are diagrams showing an embodiment of a distribution input device for a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector according to the present invention constitution of the present invention, respectively. Fig.

Referring to FIG. 136, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention, A selenium rectification type DC arc welder and an AC arc welder to be added to a plurality of types of welding methods including a nuclear power plant of a conventional nuclear power plant constituting one embodiment of a nuclear waste disposal reactor installation, A selenium rectification type DC arc welding machine and an AC arc welding machine to be installed in a plurality of kinds of welding methods of the electronic control adjusting device construction machine control part 811f included in the nuclear power generating equipment part 811 during operation, A side strainer configuration of a conventional welder and an alternating-arc arc welder,

As shown in FIG. 136, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plants having the double structure block tank dust collector according to the present invention ) For the offshore and offshore marine power plants of the Nuclear Power Plant,

The material is KS D 3515 with a thickness of 24mm and the steel plate (597) with a high strength is welded to the welding area in the same manner as welding (713) welding with a certain dimension. Weld joint for butt joint welding Type, K-type, J-type, V-type, H-type, X-type and V-type, The welding 713 of the grooved form of the forming groove 727 is provided with an underwater cutter and a computer laser cutter,

The dual structure block tank 598 is installed in the area of the internal piping 14 and the area of the external piping 14 in such a manner that the memory 70 designed by hand and designed by taking the tensile strength and the thickness of the metal plate dimension into consideration is connected to the computer network input 68 ) Underwater laser cutter operating in computerized control panel Underwater cutter and computer laser cutter allowed to error below 2/100 according to selected dimension specification in computer control section High-strength steel plate cut by cutting machine (597) Welding improvement surface Each of which is constructed at a manufacturing plant,

The unmanned camera 184 of the control system configured to check the status of the worksite transmits the cutter and the cutoff status to the monitor 52 through the operation of the computer control server 51, And a computer laser cutting device,

The cutting grooves are welded to the shapes of various welded joint grooves which are the welding improvement surfaces constituted by the cutting apparatus.

The following table is a table showing the relationship between land and water contained in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a conventional double structure block tank dust collector The efficiency of the Japanese boiler standard welding in the structure of the conventional thermal power generator constituted in the floating type nuclear power hydroelectric power plant of the marine nuclear power hydroelectric power plant will be described as the following table.

<Table 1-18 Welding Efficiency of Japanese Boiler Standards>

As shown in FIG. 136, the types of welding methods and the selection of welding machines will be described as the following table.

First, in the type of welding method,

Welding is a method of locally bonding two or more metals, and about 40 kinds are currently being used. Of these, the most important ones are those that are considered to be particularly important for those engaged in welding jobs As shown in Table 2-1, these can be roughly divided into three types of tangential contact and soldering.

<Table 2-1 Welding method of metal>

Welding is also known as melting welding, in which the molten metal is supplied or melted and welded, in which case the welded material melts and no pressure is applied.

The pressure is applied to the lead portion and is heated as heat by the combustion flame or current of the gas or is heated only by heating but as a function of the surface tension in the gap where the other molten metal is connected, The work force acts to bond.

As shown in Figure 136, in welding,

Several types of cutting methods are used for cutting materials, jointing joints, and gouging.

As shown in Fig. 136,

In addition to mechanical cutting, there is a method of using gas flame and arc. Other methods than machine cutting are particularly related to welding.

Of these, oxygen and acetylene welding are particularly popular among coated metal arc welding and gas welding methods.

Submerged arc arc welding and inert gas arc welding are also the main welding methods, so we will put more weight than other welding methods.

Secondly, in opening according to coated arc welding,

Coated arc welding is currently the most commonly used welding technique and is often referred to as electrical welding.

In this welding method, the arc is formed by welding between the welding electrode 853e coated with a coating agent and the welding object to be welded, thereby constituting the welding.

As shown in Figure 853a, when this welding method is displayed, an alternating current or a direct current electric voltage is applied between a covered electrode welded to a holder and a parent material to be welded, and electric arc is generated in the gap.

The welding rod 853e and the base material 853g are melted at a temperature of about 6,000 ° C which is the strong heat of the electric arc and the metal vapor or the volume of the welding rod 853e is melted by the molten metal, And combined with the mother material (853g) melted there to produce weld metal (853h).

When the two materials are welded, when the material (material) is thick, a groove is formed in the following portion, and the groove is filled as welding metal 853h and joined.

The bead surface of the weld line at this time shows a ripple shape due to the solidification of the weld.

The electrode 853e is coated with a coating agent 853f on the surface of the metal core wire 853i.

The covering agent (853f)

It is decomposed by the arc heat and stabilized so that the arc does not go out well by the role of the decomposed gas, and the generated gas or slag,

By covering the molten metal, molten metal is protected from the atmosphere to prevent oxidation and nitrification. The molten metal improves by proper chemical reaction and sometimes adds other elements required for the weld metal.

Since the gas generated by the covering agent does not protect the molten metal by protecting it from being adversely affected by the air, the welded portion weakens and weakens, so that the welding electrode is almost useless in Korea at present. Do not.

As shown in FIG. 136, an AC or DC welding power source is used as the welding machine. Other welding devices include welding cables, welding rod holders, handles or helmets, and other tools that other welders require.

Third, in terms of the properties of the arc (853k)

A voltage is applied between the electrode and the mother material, and once it is contacted, a little blue light is emitted which produces a bright, intense light.

A large current (about 50 to 400A) flows through this arc (853k), which is divided into electrostatic cathodes and negative electrons by dissociation of the metal vapor and its surrounding gas molecules, Ions flow toward the cathode and the anode, respectively, so that the arc current flows.

First of all, in case of polar arc welding, when DC welding power is used, it is called DC welding and when AC welding is used, it is called AC welding.

In direct current welding, it is divided into two polarities depending on whether a welding rod is connected to the anode of the welding machine.

Straight polarity When the welding rod is connected to the cathode of the welding machine (weak DCSP), the positive polarity of the welding machine and the reverse polarity When the welding rod is connected to the anode of the welding machine (DCRP) Polarity polarity.

In the early days of electric arc welding, the coating of the electrode was not well developed, so a DC welding machine was widely used. After that, a good coated arc welding rod was produced, so a low-cost AC welding machine was widely used. It is one of the remarkable advances.

As shown in Fig. 136,

There is a phenomenon in which the arc does not turn in the right direction during the welding, but sits on the side. This is particularly so in the end or at the beginning of the weld that the arc is pushed into the weld as the wind is blowing, thereby preventing the weld from going to the desired spot without welding.

This phenomenon is called arc blow or self-deflection.

The phenomenon of this arc spotting does not occur at the center of the weld.

As a preventive measure against arcing,

The first is to use AC welding instead of DC welding

The second method is to use a method of welding a plate of the same material as the backing plate (15 cm ² ) to extend the welding line at the beginning and the end. The first method is most effective .

As shown in Figure 136, in the case of coated arc welding,

First, with respect to the welder, an arc welder (welder) 853,

DC arc welding machine and AC arc welding machine are designed to allow large current to flow as low voltage suitable for welding. There is also a single welder for one welder and a multi-welder for more than two people.

First, in the DC arc welder 853,

There are two types of DC arc welding machine. 2.2 degree DC arc welding machine (853n) is an alternating current motor (engine) that rotates DC generator to generate DC for welding.

In arc welding,

It is very important to adjust the welding current according to the welding object. In this type of welding machine, there is a control dial on the instrument panel to adjust the current.

In addition, since there is a changeover switch to match the positive polarity and the reverse polarity because it is a direct current, and the sign of the positive (+) (-) or the positive (+) and negative And the cathode are marked.

In addition,

Generally, a three-phase induction motor (commonly referred to as a three-phase motor) is used in many cases. When the welding machine is connected to a power source, the direction of rotation of the motor may be reversed if the power line 3 is incorrectly connected.

In this case, if only one line of 3 lines is exchanged with another line, whether the direction of rotation is right or wrong is indicated by the direction of rotation in the welding machine.

As shown in Fig. 136, a selenium rectification type DC arc welding machine (853o) is used, and the inside of this welding machine is rectified to DC by a rectifier rectifier by an external AC. This serene rectification type DC welding machine has developed recently and has no rotating parts, little no load loss (power consumption when not welding), quiet, cheap and easy to repair, It is becoming popular in developed countries recently. However, compared to an AC welder, it is still expensive and inefficient.

Second, in the AC arc welder 853p,

Due to the development of welding electrodes, the use of AC welding machines has been greatly increased since the stability of the arc has been achieved by AC. AC welding machines are widely used because they are relatively simple, cheap, and easy to repair.

In addition, it is effective for prevention of subarcting.

In the AC welding machine 853p, the following three methods are mainly used according to the current adjusting method.

First, a movable linear AC arc welder 853r and a gypsum-type AC arc arc arc welder 853 are used for a movable iron core arc arc welder 853q

The current adjustment of the moving iron-core alternating-arc arc welder 853q,

As shown in FIG. 136, the third iron core M ₃ is provided in addition to the iron cores M ₁ and M ₂ of the transformer, and the third iron core M ₃ is made movable so that the degree of easy passage of the leakage current is changed to adjust the magnitude of the welding current.

In this case, the taps of the secondary windings n ₂₁ and n ₂₂ are usually changed to adjust the large range of the current, and the detailed adjustment is often made as the movable iron piece.

As shown in Fig. 136, in the current steering of the movable raceway type,

As shown in the diagram 853q of the movable iron core AC arc welder, the primary coil is moved relative to the secondary coil to adjust the value of the leakage reactance.

Since the distance between the primary winding and the secondary winding is different in the secondary winding even if the same current flows in the primary winding, the welding current flowing through the secondary winding The magnitude of the current changes.

In the false-reactive-AC arc arc welder 853t,

As shown in Fig. 136, there is adopted a method of changing the saturation degree of the magnetic circuit by changing the effective lossance by inserting the reac- tor into the secondary circuit as rectilinearly and exciting it as another power source (rectifier C) have.

This method is not only easy to adjust the current, but also,

And adjusting the current using a variable resistor (C) in an AC arc welder 853p to remotely control the welding current remotely controlled welder).

As shown in FIG. 136, regarding the attention on the use of the welding machine,

First of all,

At the welder, the ratio of the time the arc is splashed on the secondary side of the welder, that is, between the welding rod and the mother material, is typically about 40%, so the remaining 60% is the time that the arc is resting without splashing.

The reason why I can not continue to use an unlimited number of welding machines is the temperature rise of the welding machine. When I think about 1 to 1.5 hours related to the temperature rise, the time for splashing of the arc is about 60%.

Next, let's think about whether or not a welder will be able to use a certain amount of welding machine when it is working with some welding machine.

This use efficiency is called the allowable use efficiency. The allowable use efficiency is expressed as follows. In other words

Here, the rated secondary current is shown on the name plate of the welder, and the rated duty rate is also indicated as a percentage of the duty cycle.

For example, assuming that a welder with a rated current of 300A is actually welded with a current of 200A,

However, the rated use efficiency of this welder is 50%.

Therefore, it can be seen that continuous use at this time does not interfere.

In the following,

It is necessary to investigate whether or not the welder has been thoroughly cleaned at least once a year, by measuring the insulation resistance or the first no-load current.

Also, when using the welding machine in the following places, it is not good to specify the welding machine in advance and do not use the specially manufactured one.

First of all, it should be applied to places that are exposed to windy weather from outdoors, places where harmful corrosive gas is present at a place where the ambient temperature is below -10 ℃, places where there is a lot of steam, There is usually a lot of places in the area, so the welder should not be used in such a place for a long time.

As shown in FIG. 136, in the specification of the welding current and the voltage,

When a need arises to measure the arc current, it should be measured by inserting an ammeter in the secondary circuit.

There is an ammeter for portable ac voltage measurement on the market. It should be noted that the capacity of the current is several hundred amperes, so you must purchase a large capacity.

In general, if you have a maximum 300A scale and a 600A scale, you will not be able to use it.

The following explains the following in inert gas arc welding (welding of this nut gas arc and arc welding of carbon dioxide gas)

First, in the opening,

In its principles and advantages,

First of all about principle

Inert-gas arc welding is an inert gas welding process,

It is a major welding method widely used for welding various kinds of metals which are difficult to be welded by gas welding in the conventional coated arc welding.

In this welding method, as shown in Fig. 2, welding with a tongue stain rod or a metal electrode in a nude body of an inert gas (Inert-Gas) which does not react with a metal even at a high temperature such as argon or helium The arc is generated between the objects to be welded and welded with the heat.

There are two methods for this, as shown in Figure 136, Teak Welding (TIG) 853u and MIG Welding (MIG) 853v.

(T IG) welding is a welding method using a tungsten rod as an electrode. This gas welding is called as inert gas tungsten-arc welding (T IG) Welding rod of welding consumable is melted and arc welded

(T IG) welding method (853v) of the bottom of an aluminum aluminum small motor runway (Runabout)

It is welding the bottom (T IG) of a small aluminum runner made of aluminum. It holds a torch in the right hand and a rod rod in the left hand.

However, in the thin plate, it is welded only with the arc heat without using the naked electrode.

Tungusuten,

Because it is not nearly consumed (mon consumable), this is also referred to as nut gas welding.

The product names are He li arc, He li weld, Argon arc, Argon weld, and so on.

(MIG, 853w) welding,

This metal gas arc arc welding (MIG after the head of the inert gas metal-arc welding) or the method of generating the arc by continuously (continuously) sending the electrode wire of the consumable material instead of the tungsten electrode Consumable (consumable) is also called nut gas arc welding.

In the MIG welding method diagram (853w) of the aluminum alloy tank,

It is MIG welding of aluminum alloy tank and Torch is in the right hand.

Carbon dioxide arc arc welding (C 0 ₂ arc welding)

It is known as a promising welding method which is recently used for testing carbon steel welding by using Co ₂ gas instead of this nut gas of MIG welding.

In the following advantages,

This nut gas arc welding,

The excellent welding method has the following advantages.

There is no need for first coat and flax.

In general arc welding or gas welding, it is necessary to use a coating agent or a flux to prevent the oxidation and nitriding of the molten metal. In this nut gas arc welding, however,

This is unnecessary because it is welded in the nut gas, or the work is very simple because no mechanical or chemical treatment is required to remove the slag or residual (used and remained) flux after welding.

In addition, there is no fear that the welded portion will be corroded by residual fluxes in aluminum, magnesium and stainless steel as in conventional welding.

This is because the nut gas arc welding is mainly used for light alloy or stainless steel.

The following is easy to weld in all positions and is efficient

In general, this nut arc arc welding arc is very safe, has little spatter and is relatively easy to operate.

Because it is welded in all posture and heat concentration and welding efficiency are good, when used in thin plate, welding speed is fast and there is a possibility that deformation after welding is small.

In addition, it is very advantageous for welding copper alloy or light alloy having good thermal conductivity (heat transfer efficiency).

Unlike submerged-arc welding, it can be seen directly on the arcane melting sheet and is advantageous in many ways.

The quality of the third welded item is excellent.

This nut gas arc welded part has ductility (strength), strength (strength), airtightness (dense metal corrosion), and corrosion resistance (corrosion resistance) compared to other arc welding or gas welding welding parts. This is generally excellent,

If this nut gas arc welding is a drawback, the facility cost is rather high and the nut gas is rather expensive. However, since welding work cost is rather low, it is widely used nowadays and is widely used for aluminum alloy, magnesium alloy, , Nickel alloy, copper alloy, carbon steel and low alloy steel. Especially titanium alloy, zirconium alloy, etc. In welding of metal which is likely to come into contact with oxygen or nitrogen in the atmosphere at high temperature and to be harmful, Only arc welding is used.

(T IG) welding is generally applied to a thin plate with a thickness of 0.6 to 3 mm , and to a thick plate with a thickness of about 3 mm or more.

That is, (MIG) welding is more efficient than (TIG) welding.

In his kind

This nut gas arc welding and the related welding method are roughly divided into the following kinds.

For TIG welding,

Manual operation in which the welder manually manipulates the electrode parts to generate the arc, namely torch and welding rod, automatic machining to automatically operate using a machine, supply of welding rod (Semiautomatic), in which the motor is operated by a motor and the torch is operated by hand

In addition, there is an arc spot welding that welds as a spot instead of a continuous long weld, and a special (T IG) toroid is also used for cutting the arc, do.

The twin ar c method of generating arc arcs between two tungsten rods, such as atomic hydrogen arc welding, by using a twin arc method (T IG) welding, Is also being used.

On the other hand, in the feature of the inert gas tungsten arc arc (T I G) welding, alternating current or direct current is used,

The influence of the polarity on the welding result is very large, and this will be described below.

In direct current welding (D.C. Welding)

The flow of electrons and ions flowing through the arc in DC welding is as shown in FIG.

In the positive polarity, the metal vapor and the ions of this nut gas are directed to the electrodes, and the electrons strongly impact the substrate, so that the ions are concentrated deeply.

Since the electrode does not generate excessive heat as a collision of the gas ions having a slow velocity, the electrode can flow at least a large current (not described below).

Referring to FIG. 137, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. The superconducting power generator 1060 and the superconductor 1062 constituted by the superconducting power generator 1060 and the power transmission portion 811d transmitting the power including the electromagnetic force The magnetic force 1064, the magnetic levitation highway 1065, the magnetic levitation train 1066, the semiconductor 1067, and the new material 1068 A superconducting superconducting generator 1060 composed of a power transmitting portion 811d for transmitting power included in a nuclear power generating plant 811 during the operation of a nuclear power plant of a conventional nuclear power plant constituting an embodiment, ), A superconductor 1062, an electromagnetic propeller A magnetic susceptibility highway 1065, a magnetic levitation train 1066, a semiconductor 1067 and a side strap configuration 1068 of the new material 1068 constituting the schematic diagram 1079, the magnetic force 1063, the magnetic force 1064, the magnetic levitation highway 1065, road,

As shown in FIG. 137, in a conventional nuclear hydroelectric power plant 811 constituted inside the main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a dual structure block tank dust collector The superconducting power generator 1060 and the superconductor 1062 constituted by the superconducting power generator 1060 and the power transmission portion 811d transmitting the power including the electromagnetic force A large-sized domestic company including a magnetic force 1063, a magnetic force 1064, a magnetic levitation highway 1065, a magnetic levitation train 1066, a semiconductor 1067 and a new material 1068, (1066), which was a part of the national project.

However, the maglev train, which has been so painstakingly made, has a painful memory that has just fallen into disposable expo exhibits.

At that time, of course, in France, the parent company actively engaged in lobbying for high-speed trains, and after the expo, research on magnetic levitation trains was sluggish,

Assuming that the study of the maglev train (1066) has continued since the Daejeon Expo on the continuation of the national project, it would have resulted in more job creation and more job creation,

And even though the speed is slow, even if it is 10 years ago, if you have developed a nationally developed maglev train, you may not have been aware that the magnetic levitation trains with a speed of 200 km or more could have been made visible to the Gyeongbu Line or Honam Line. Day.

Domestic conglomerates are now concentrating on semiconductors (1067), but the next unexplored area in the next 22nd century will be the superconductor (1062) industry, not the semiconductor (1067) industry.

In the case of the maglev train 1066, if the pollution and noise problem is solved by using the magnetic force as the basis of the magnetic levitation train 106 and the development of the maglev train is spurred in earnest, various related new materials using the superconductor 1062 (1068) Industrial, magnetic (1064), and electromagnetic (1063) applications will be developed and applied to the semiconductor (1067) industry, it is natural that it will bring about an unlimited third synergy effect.

In addition, investment and research will be carried out on various related new industries using superconductor 1062, electromagnetic force 1063 and magnetic force 1064,

Maybe a magnetic levitation highway (1065) or a magnetically wounded car may be developed.

And a third super-high-speed moving means combining the magnetic force 1064 and the electromagnetic force 1063 may come out.

If we continue to study superconductors and magnetic forces for more than one-third of the energy substitution effects of nuclear and hydro-hydro-nuclear power, we can develop a third generation of energy using superconductors and magnetic force. .

Referring to FIG. 138, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, And a power transmission portion 811d for transmitting power including the power of the submarine mineral collecting robot 912 to the submarine mineral collection robots 912. The submarine mineral collection robots 912 are constructed of partial new materials 1068 ) Lateral strabismus configuration Road,

As shown in FIG. 138, in the nuclear hydroelectric power plant 811 constituting the interior of the distribution apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, And a power transmitting portion 811d for transmitting power to the bottom mineral collecting robots 912. The undersea mining collecting robots 912 are constructed by the bottom raw material collecting robots 912 and the bottom raw material collecting robots 912, When Derry saves the electric power (685) to the Baderri when the lightning strikes, the energy bank of the global village is prepared.

Referring to FIG. 139, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, And a superabsorbent resin (1081) of a partial new material (1068) composed of new materials (1068) including the new material (1068) (1080) of a partial new material (1068) composed of new materials (1068) included in a nuclear power generation facility part (811) during operation of a nuclear power plant constituting an embodiment of the apparatus, Side lateral strap configuration of the absorbent resin 1081,

As shown in FIG. 139, in the nuclear hydropower generation facility unit 811 constituting the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, A crushing pressure crusher 1080 of a partial new material 1068 made up of new materials 1068 and a superabsorbent resin 1081 are installed in a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant The crushing pressure crusher 1080 of the partial new material 1068 constituted by the new materials 1068 included in the nuclear power generation facility part 811 during operation of the nuclear power plant constituting the embodiment, The new material 1068 included in the nuclear hydropower generation facility unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor facility of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, By Consists of.

Referring to FIG. 140, there is shown a conventional nuclear hydroelectric power plant unit 811 constructed in the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention. (IC) circuit (1082) consisting of an electronic control regulating device construction machine control unit (811f) included in the control system of the nuclear power plant (IC) circuit 1082 of the partial new material 1068 constituted by the new materials 1068 included in the nuclear power generation facility part 811 during the operation of the nuclear power plant constituting the example. ,

As shown in FIG. 140, in a conventional nuclear hydroelectric power plant 811 constituted inside the main body 1 of the nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, (IC) circuit 1082 consisting of an electronic control regulating device construction machine control unit 811f which includes an electronic control unit (IC) circuit 1082 of the partial new material 1068 made up of the new materials 1068 included in the atomic power generation facility unit 811 during the operation of the nuclear power plant constituting the nuclear power plant, And a new material 1068 included in the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the block tank dust collector have.

Referring to FIG. 141, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, (612) for launching satellites and spacecraft that were built by the former nations of the former Navy, including the floating dock of the Nuclear Hydroelectric Power Plant (SDU) 593,594,595) Nuclear Hydroelectric Power Plant Body Dock as Electronically Controlled Equipment Construction Control Section (811f) of Nuclear Hydroelectric Power Plant (811) Launching satellites and spacecraft made by each country on the upper deck (SDU) The apparatus side strap configuration of the rocket 612,

Referring to FIG. 142, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, (612) for launching satellites and spacecraft that were built by the former nations of the former Navy, including the floating dock of the Nuclear Hydroelectric Power Plant (SDU) 593,594,595) Nuclear Hydroelectric Power Plant Body Dock as Electronically Controlled Equipment Construction Control Section (811f) of Nuclear Hydroelectric Power Plant (811) Launching satellites and spacecraft made by each country on the upper deck (SDU) The apparatus side strap configuration of the rocket 612,

As shown in FIGS. 141 to 142, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants at the top of the deck (SDU) of the body of the Nuclear Hydroelectric Power Plant with rockets (612) for launching satellites and spacecraft, A rocket for launching satellites and spacecraft made by the respective countries constituting the SDU of the marine nuclear hydroelectric power plant body dock equipped with the electronic control regulating device construction machine control unit 811f of the nuclear hydroelectric power plant 811, (612) is configured at the top of the body dock hull deck (SDU) of the Nuclear Hydroelectric Power Plant.

Referring to FIG. 143, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, The structure 1106 including the jet engine and the operation mode 1107 in which the jet engine carries the air intake port 1106a, the fuel supply port 1106b, the pipe 1106c, the compressor 1106d, the combustion chamber 1106e The turbine 1106f and the nozzles 1106g constitute the facility side diagonal construction of the structure 1109 of the reciprocating engine and the airplane inspection 1110 constituting the airplane 1108,

And a plurality of nozzles 1106g.

As shown in FIG. 143, in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, In the structure 1106 of the jet engine and the manner of operation 1107 that the jet engine carries,

A fuel supply port 1106b, a pipe 1106c, a compressor 1106d, a combustion chamber 1106e, a turbine 1106f, and a nozzle 1106g. The air inlet 1106a,

Equipment of the reciprocating engine structure 1109 and the airplane inspection structure 1110 constituting the airplane 1108 facility,

(593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's deck (SDU) of the Nuclear Hydroelectric Power Plant, Electronic Control Equipment of the Nuclear Hydroelectric Power Plant (811) And an airplane 1108 constituting the upper part of the body deck hull deck (SDU) of the marine nuclear hydroelectric power plant provided with the air conditioner 811f.

Referring to FIG. 144, a conventional nuclear hydroelectric power plant unit 811 constituted inside the main body 1 of a nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (1109) constituting the engine-type rock drilling machine (847) equipment and the aircraft 1108 equipment included in the plan view (1110)

As shown in Fig. 144, in the engine-type rock drilling machine 847,

It can be used as a rock drill when drilling a concrete structure in a simple manner by engine-type drilling at the site of collapse of various concrete structures, and it can be used for brakes by replacing bits such as novies and kata when crushing concrete structures. Lt;

The first is the engine type, the second cylinder is 75 c,

The capacity of the fuel tank is 1.1 L and the weight is 15 Kg. The power source is volatile and the oil is 12: 1.

14.3J,

The crushing ability constituting the electronic control adjusting apparatus construction machine controlling section 811f is,

2.200 / min., It is an air compressor type reciprocating piston type, and it is preferable that several striking bits 940 are formed in the rock drill 847 in the construction,

A striking bit is formed in the jack body feature.

1) Maximum working diameter: ¢ 51m m

2) Working depth: 2.54m

3) Adjustable rotation speed

4) Underwater blast hole operation, no noise, non-vibration, shatter hole operation

In the specification of the rocker arm 847,

1) S t e l t y p e: 41/4 "× 1" h e x

2) Number of rotations: 0 to 300 RPM

3) Weight: 30kg

4) Length: 66c m

5) Width: 46c m

6) Pressure: 105-140 b a r

7) Flow rate: 26 ~ 34 L P M

As shown in FIG. 144, in the structure of the structure 1109 of the reciprocating engine constituting the equipment of the airplane 1108 and the equipment of the airplane inspection form 1110,

The structure 1109 of the reciprocating engine,

A cylinder or piston reciprocates and rotates the crankshaft to engage the structures 1109 of the reciprocating engine to rotate the propeller and constitute an airplane 1108 facility and constitute the upper part of the body dock hull deck (SDU) (593,594,595) of small-sized and medium-sized and large-scale marine nuclear hydroelectric power plants, an electronic control unit of the nuclear hydroelectric power plant unit (811), a marine nuclear hydroelectric power plant body dock equipped with the construction machine control unit (811f) SDU) of the aircraft 1108.

(593,594, 595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant with dual structure block tank dust collector In order to make it easy for those skilled in the art to understand the present invention, there is a need in the art to construct a distributing and inputting device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector. The prior art of the invention will be described as follows.

(Patent Document 1) Patent 0546221 2006.01.19. Reference, (Patent Document 2) Patent No. 10-0650936 November 20, 2006, (Patent Document 3) Patent No. 10-1167145 Jul. 13, 2012, (Patent Document 4) Published Patent No. (10-2005-000053552) (Patent Document 5) Published Patent No. (10-2005-0117496) December 14, 2005, (Patent Document 6) Published Patent No. (10-2017-0031947) 2007.03.20. (Patent Document 7) Published Patent Application (10-2007-0106398) November 11, 2007, (Patent Document 8) Published Patent No. (10-2007-0106596) November 22, 2007, (Patent Document 9) Published Patent No. (10-2010-0027087) 2010.03.10. (Patent Document 10) Published Patent No. (10-2012-0066690) Jun. 22, (Patent Document 11) Published Patent No. (10-2012-0064663) Jun. 19, (Patent Document 12) Published Patent No. (10-2012-0095337) Aug. 28, (Patent Document 13) Published Patent No. (10-2012-0112315)

MESSAGE ( 동북아 평화공존 협정조약 문서 내용 :Content a document a treaty an agreement coexistence peace Asia northeast) from: Lee Woo Sung Internet Digital the Republic of South Korea 18th President =>I m sorry, I'm not good at English. will I want world beauty big peace? to : URL => http://www.whitehouse.gov/ The White House 1600 Pennsylvania Avenue, N W Washington, DC 20500 USA President. B A R A K .O B A M A : 러시아 국가 원수 (미검색; 주한러시아 대사관 송출) : 중화인민공화국 국가 주석 (미검색; 주중 대사관 송출) : 일본 내각 수반 (검색 이 메일 주소가 없음) : 자유중국 내각 수반 (검색 이 메일 주소가 없음) : 평양정권 (검색 이 메일 주소가 없음) : UN사무국 반 기문 총장 (메시지전달) you' e s are requested to a n sewer in written form Will agree you e s big peace of my mind? You e s will help me, For world peace Only One there of with it's dt e n t e ( 동북아 평화공존 협정조약 문서 내용 :Content a document a treaty an agreement coexistence peace Asia northeast) To : 브 락 오 바 마 미합중국 대통령각하. 안녕하십니까. 존경하는 대통령각하 재취임을 다시 한번 더 축하 드립니다. 인터넷상의 디지털 제18대 대한민국 대통령은 조촐하게 저의 사저 앞에서 제18대 대통령 취임선서를 마쳤습니다. ( President : take officer & inaugurated as president finished ) You will help me, 이러한 사실을 미국정부 C N N 방송사에서 또는 미국의 소리방송, The Times 신문사, 전 세계 언론매체를 이용하여 대한민국 내부의 방송사, 신문사에서 공개발표 하도록 협조를 요청합니다. ( from in the Korea dual l i t y a n a l log system working load to simply apolitical system Nothing No problem ) 전 세계 실업난, 경제 불황을 신속하게 극복할 수 있는 방안들을 미국 대통령뿐만 아니라, 전 세계 각국 국가 원수에게 ( Free of Charge, suddenly Rule ) 이런 상황을 전달하여 동북아지역과 전 지구촌의 평화를 위하여, 30일 이내로 세계 불황을 극복할 수 있도록 지혜를 전달하도록 전 세계 의 관청인 들이 경제 각료 회의를 할 수 있도록 협조를 당부합니다. 그리 고, 저의 대통령 취임 선서를 계기로 저는 발명가로서 특허권자로 서 우선권을 주장하며 대한민국 국가 내부의 대통령 취임과 더불어 동 북아시아 평화공존 협정조약 비준문서와 헌법상 개정문제를 해결할 수 있도록 많은 도움을 기대합니다. 한미국제공동기술개발문제 (원자력의 원자로 기술 협력 문제, 군사, 정치, 사회, 문화)에서 많은 문제 들을 한반도 평화통일 문제들은 반 기문 UN 사무총장님과 유대를 강화하면서 지혜를 모을 수 있도록 신의 은총이 충만하시기를 기원합니다. 한글문서를 잘 이해할 수 있도록 하기 위해 반 기문 UN사무총장님을 초대하시면 감사하겠습니다 신한국연방국가 건국초대 대통령 이 우성(대통령집무 수행중) 단기 4349년(서기 2016. 04. 29. <pm. 20:00>

제 18대 통일한국 대통령 이 우성

(소재지; 대한민국 부산시 남구 대연동 U N 묘지에서 기념 촬영) 전술한 바와 같이 향후 부산시 남구 대연동 U N 묘지를 동북아 1번지에 이전할 계획임. 동북아 평화 공존 대헌장은, 동북아시아 각 국가의 국민 과 각 국가의 지도자의 평화를 이루도록 솔직한 비준의 서명을 촉구하면서 동시에 동북아 신한국 연방 헌법의 전문을 대체 구성하였다.

(소재지; 대한민국 부산시 연제구 시 청사 앞)

(소재지; 대한민국 부산시 동구 범일동 자성대공원) (소재지; 대한민국 부산시 진구 범천동 디지털 제 18대 대통령 주거지)

(소재지; 6.25 동란 중 대한민국 임시정부 대한민국 부산시 서구 아미동 이승만 초대 대통령 집무실) (소재지; 6.25 동란 중 대한민국 임시정부 부산시 서구 아미동 이승만 초대 대통령 집무실) 본 발명의 발명자는 무릇, 인터넷을 통하여 현재 미국 부통령이 세계평화 질서에 대해 미국 대통령과의 회담을 주선하겠다는 요청이 조석으로 인터넷으로 전송받는 이때, 손오공이 부처님 손바닥 위에서 놀고 있는 것과 같이 세계경제는 나의 손바닥에서 꿈틀거리면서 동시에 디지털 문화사회로 전환을 구성하는 땅 집고 헤엄치는 일들도 당업자들이 수행하지 못한 데서야, 식은 죽 먹기보다 더 쉬운 경제 부흥도 가늠할 줄 모르는 머저리 인사들을 다스리면서 신한국 연방국가의 대통령 직무 수행을 진행하였다가는 사흘이 되지못해 파단 하는 형국이 초래하므로 이름하여 어용 부 용 범법행위는 절대로 묵과할 수 없으므로 이에, 죄는 진 데로 가고 공은 닦 은데로 간다 라는 측면에서 본 발명의 발명자는 2014.구정에 이승만 초대 대통령 집무실을 방문해서 전직 이승만 초대 대통령 면전에 부복하여 이 승 오의 종 손자는 할아버지가 못다 이룬 꿈들을 이 승 오의 종 손자인 제가 이루어 놓아 으 므 로 부디 천국에 계신 나라사랑 인사들과 사이좋게 지내 주옵소서 외쳐버리곤 하니 이승만 초대 대통령 집무실을 관리하는 근무자들도 부복하면서 대성통곡하였든 것이었다.

본 발명의 발명자의 진술은 어디까지나 사이버 범죄 수사에 있어서, 부산경찰청 수사과 직원에게 의뢰하여 효율적인 수사에 어떠한 방향으로 의사를 개진 하 여야 됩 니 까? 라는 질문에는 과학적인 수사를 하기 위하여 명확한 입증 자료를 수사관에게 제출하는 것이 첫 번째요 그 다음에는 수사관이 맘에 내키지 않으면 수사관 교체를 요청하는 일들이라 하여 이에 본 항고인은 입증 자료를 수사관에게 제출하고자 하여도 이를 거부하여 둔 산 경찰서 청문 감사관 실로 수사관 경질을 요청 하 자 말자 수일 내에 수사권을 대전지방검찰청에 이첩하여 이에 뒤질세라 날도 무덥고 하니 귀청에서는 증거 불충분으로 혐의 없음으로 불기소 처분은 천부당 만부당 불행한 일이라 사료 됩니다. 이 유인즉, 다음과 같습니다. 또한,본 발명의 발명자는 질문에 그럼 나라가 죽느냐 사는야 하는(To be or not To be) 마당에 그럼 내가 1년6개월에 걸쳐서 작성한 문서로 문서내용에는 여러 가지 이슈들 중에서 저 혼자 살고 져 연평도 군수는 미국 출장 명목으로 출국해 버리는 이러한 사태는 향후 국가의 존망지추에 해악 한 혼란만을 가중시키는 결과를 초래하는바 김일성 손자 핵 광란으로 무력침공을 방어하면서 동시에 일체의 무력행사를 할 수 없도록 마련하여 작성된 문서로 이때부터 특허 문서 내용들을 팥 앙금없는 진 빵 문서로 성명불상의 범법자들이 본 발명 발명자의 메모리 수개를 아예 불태우고 다른 곳에 저장한 곳에 문서파일을 일일이 찾아가 문서 파일을 파괴해버린 철저한 지능범들로 비단 본 사건의 특허청 내부의 인사의 소행이 아니라면 김일성 손자의 소행인지 한컴 응용 프로 그 램 머 들의 철없는 소행들인지 문서작성지원을 특허청 서울사무소 원격상담지원팀의 지원으로 작성된 서류도 10분도 되지 않아 문서를 지워 버리는 아주 고약한 양상군자들로 본 서류를 작성 중에도 지워 버리는 소행으로 추석날 밤샘을 하면서 작성중입니다. 이런저런 이유들로 아날로그 시스템의 조직사회는 양상군자 양성소라는 오명을 벗기 위해서는 서류조작을 누가 했는가? 명백한 진실 규명이 선행되어야 합니다. 또한,본 발명의 발명자는 2014.02.월경 인터넷을 통하여 전 세계에 동북아시아 평화공존 협정조약 문서 및 헌법 개정에 관한 신한국연방국가 창설에 따른 협조 공한을 전송한바, 있으며 서울과 수원의 지리정보원과 해양연구소, 원자력 연구소, 진해해군 국방연구소의 각개분야 학자들의 고증자료 및 의견을 취합하여 수십억 명의 신한국 연방국가가 전쟁 없이도 살아가는 세상에서 최고로 잘산다는 북미 유럽 국가와 미국정부도 부러워하는 국가가 창출되어있다는 점들로 비추어 보건대,한반도 주변지방정부의 단체장들이 동북아시아 평화공존 협정조약 문서에 조인하는 일들만 남아 있다고 본 발명의 발명자는 솔직하게 주장합니다. 전술한 바와 같이 엄동설한 3개월 동안 국민계도 활동을 행하였는데 이의 입증자료는 동북아시아 평화 공존을 위해 미래 지향적인 대단히 주요한 입증 사실로 동북아시아 각 국가의 국민과 각 국가의 지도자에게는 밤하늘의 등불과 같이 세계 인류의 평화 공존 행동 강령의 근본 사실이다. 동북 아시아 평화공존 협정조약(A document a treaty an agreement coexistence peace Asia North east) 대한민국 대통령을 일방으로 하고 중화인민공화국 국가주석 및 러시아 국가 대표와 일본국가 내각수반을 다른 일방으로 하는 국제평화 유지군에 의한 동북아시아 평화 공존에 관한 협정조약 전문(前文) 대한민국 대통령을 일방으로 하고 중화인민공화국 국가주석 및 러시아국가대표와 일본국가 내각 수반을 다른 일방으로 하는 하기의 서명자들은 최후 적인 평화적 해결이 달성될 때까지 대한민국에서의 적대행위나 일체의 무력과 폭력행위의 완전한 정지를 보장하는 모든 국민과 모든 정부가 평화적으로 생활하고 저 하는 희망을 재확인하며, 또한 태평양 지역의 일부분인 동북아시아의 중국과 일본에 러시아 영토로 둘러싸인 한국에서의 적대행위와 일체 무력행위의 완전한 정지를 보장하는 평화공존을 확립할 목적으로 남북분단의 철의 삼각지인 평 강과 철원에 금화지역 행정 사무소 또는 면사무소 중심지역 기준을 구성하는 군사 분계선 하나 개의 기준점(북위 [N]3820,동경[E]12716강원도 철원군 동송읍 강산리 산 190,청암산(廳 巖 山) 자락) 위치를 확정하고 여기서(구,서기 1916 년 조선 총독부 간행 지적 원도<국가 기록된 보존문서 원본으로부터 촬영된 마이크로 필름으로부터 복사된 국가 기록원 역사 기록 관 소장 입증자료 3매 지적<N;537033.53 E;223315.60>좌표로 하는 대한민국 강원도 평 강군 남면 학전리 청암산(廳 巖 山;대한민국임시정부 조직을 35 년간 국정 운영을 이끌어 오신 종조부님의 호를 지칭함, ) 지적 원도 33매 지 내의 동북아 1 번지(북위[N] 38 20 , 동경 [E]127 16) 이 지역의 내부에 이미 설치된 중앙군사분계선 하나 개의 기준점(북위 [N]3820,동경[E]12716) 위치를 확정하고 그 기준점에서 18Km 반경 휴전 원과 155마일 휴전선 범위로는 1 차 민족 갱신 보존지역으로 형성하고 여기서(구, 서기 1916 년 조선 총독부 간행 지적 원도<국가 기록원 역사 기록 관 소장>를 입증 자료로 하는 대한민국 강원도 평 강군 남면 학 전리 원도 33매 지내 제33호 내부의 임야도 3매 지적<N;537033.53 E;223315.60>)좌표 중앙군사분계선 한 점을 기준 하는 600km거리를 반경으로 1,200 km 직 경 거리 삼천리를 대한민국 영토로 확정하고 1,200 km 거리를 반경으로 하는 직 경 2,400 km 범위 내에는 2 차 민족 갱신 보존지역 및 동북아시아 평화공존 보존지역으로 하는 유네스코 국제 협력 기구에 등록하고 하기 조항에 기재된 동북아시아 평화공존 조건과 규정을 준수하며 또 그 제약과 통제를 받는데 개별적으로나 또는 중국과 러시아와 일본 들은 공동으로나 또는 상호 간에 동의한다. 이 조건과 규정의 의도는 순전히 영토분쟁을 유발하는 당사국가의 군사적 세력 확장을 저지하고 동북아시아 지역의 긴장완화에 따른 한국의 옛 영토와 평화주권선 내부로만 적용하되, 또한, 동북아시아 지역에 있어서의 평화기구를 항구적으로 공고히 할 것을 희망하고, 당사 국 중 어느 1국이라도 태평양의 동북아시아 지역에 있어서, 고립하여 있다는 환각을 어떠한 잠재적 침략자도 가지지 않도록 외부로부터의 무력공격에 대하여 자신을 방위하고자 하는 공통의 결의를 공공연히 또한 정식으로 선언할 것을 희망하고, 또한 태평양의 동북아시아 지역에 있어서 더욱 포괄적이고 효과적인 지역적 안전 보장조직이 발달 될 때까지 평화와 안전을 유지하고 자, 집단적 방위를 위한 노력을 공고히 할 것을 희망하여 대한민국 옛 영토를 점유하는 당사국은 영해를 포함하는 영토지분의 점용료를 국제연합기구에 지 불할 것을 서약하고 다음과 같이 동의한다. 제1조 동북아시아 평화 공존에 따른 국제연합기구창설 1. 동북아시아 지역 내부로 영토분쟁 당사국들은 관련될지도 모르는 세계 2차 대전이 종지 후 맥아더 함상에서 일본 천황의 항복 문서가 낭독된 그 후 발생한 1950년 6월 25일 한국전쟁 발생 전 후 시 소위, 동방예의지국에서 한국전쟁 발생을 유발한 집단적인 전범자 규명과 그에 따른 전범자 사법 처리가 전혀 해결 없이 60 여년 세월이 흐르는 동안에 센 카 구 열도 분쟁, 독도분쟁, 이어도 분쟁, 월남 전쟁과 히말라야 티베트 고원 등지의 약소국의 강제적 합방과 1977년경 판문점 도끼 만행 사건과 원산 앞바다의 푸 에 불로 호 납치사건과 최근의 천안 함 폭침 사건과 연평도 폭격 사건에 동년 3월 핵 광란적 핵 위협 사건 등에 따른 과거사 청산이 무엇보다도 필요성이 절실하게 부각되어 여러 가지 그 어떠한 국제적 분쟁이라도 국제적 평화와 안전과 정의를 위태롭게 하지 않는 방법으로 평화적 수단에 의하여 해결하고 또한 국제관계에 있어서 국제연합의 목적이나 당사국들이 국제연합에 대하여 부담한 의무에 배치되는 방법으로 무력으로 위협하거나 무력을 행사함을 삼 가할 것을 동북아 지역 각국들은 약속한다. 2. 동북아시아 지역 내부로 1950년 6월 25일 한국전쟁 발생 전 후 시 한국 휴전 협정 전 한국전쟁 격전지 평 강 읍 소재지 건물 중심지점과 철원 읍 소재지 건물 중심지점에 금화면 소재지 건물 중심 지점으로 철의 삼각지 내부 결합 삼각구도 중심 위치;주소,강원도 철원군 동송읍 강산리 산 190번지를 확정하고 여기서(구, 서기 1916 년 조선 총독부 간행 지적 원도<국가 기록된 보존문서 원본으로부터 촬영된 마이크로 필름으로부터 복사된 국가 기록원 역사 기록 관 소장 입증자료 3매<N;537033.53 E;223315.60>로 마련한 대한민국 강원도 평 강군 남면 학전리 청암산(廳 巖 山) 자락 지적 원도 33매 지내 동북아 1 번지(북위[N] 38°20 , 동경 [E]127°16) 이 지역 내부에 이미 설치된 군사분계선 하나 개의 기준점(북위 [N]38 °20 , 동경 [E]127°16) 위치를 확정하고 여기서(구,서기 1916 년 조선 총독부 간행 지적 원도<국가 기록원 역사 기록 관 소장>를 입증 자료로 하는 대한민국 강원도 평 강군 남면 학전리 원도 33매 지 제33호 내부의 임야도 3매<N;537033.53 E;223315.60>) 군사분계선 내의 기준점을 확정하고, 남북쌍방이 기준점으로부터 각기 원형 형태로 마련한 반경 18km씩 후퇴를 마련함으로써,서울특별시 면적과 동등하게 1,000 km 휴전 원 확보를 마련하고, 동쪽에서 서쪽까지 155마일의 중앙군사 분계선을 철거하고,이미 쌍방이 이 선으로부터 각기 2km 씩 후퇴한 지점에 설치된 철책선들을 그대로 방치를 마련하고 비무장 지대에 존재하는 모든 폭발물과 지뢰 원의 이런 위험물들을 설치한 양측군대의 사령관들이 반드시 위험물 철거 전후의 증빙자료 사진들을 군사정전위원회 지시에 따라 그 감독하에 비무장 지대 내로부터 이를 제거한 후 1,000 km 2 휴전 원 내부로는 무장지대로 설정하고 동북아국제 평화 기구를 신설하여 그 기구 통제하에 탄알과, 포탄과, 핵미사일과, 핵폭탄의 일체를 보관 저장하도록 마련한 남북쌍방이 보유한 군수물자 총 집결을 마련하고, 휴전 원 이외의 155마일 DMZ내부로는 탄알이 장전되지 않은 권총과 포탄이 장전되지 않은 장사 포와, 탱크와 핵미사일과 핵탄두가 장전되지 않은 미사일 발사대와 인공위성 발사대들을 보관 저장하여 교육용과 전시용으로 마련하며 휴전 원과 D M Z 이외의 군사분계선 하나 개의 확정된 기준점에서 1,200 km 반경으로 하는 직 경 2,400 km 범위 내에는 동북아시아 각국들은 군사적 무장해제를 이행하여 각 국가와 남북적대 군대 간에 적대행위의 재발을 초래할 수 있는 사건의 발생을 방지한다. 3. 동북아시아 지역 내부로 확정된 동북아시아 평화주권선 위치는 첨부한 지도에 표시한 바와 같다. (지도 1 첨부) 4. 동북아시아 지역 내부로 휴전 원과 DMZ의 무장지대는 첨부한 지도에 표시한 북방경계선 및 남방경계선으로써 철거된 중앙군사분계선으로는 군사도로로써 이를 확정하되,옛 조상님들의 평화주권 선인 이미 설치된 군사분계선 하나 개의 기준점(북위[N] 38도 20분, 동경[E]127도 16분) 위치를 확정하고 여기서(구, 서기 1916 년 조선총독부 간행 지적 원도<국가기록원 역사 기록 관 소장>를 입증 자료 <N;537033.53 E;223315.60>로 하는 대한민국 강원도 평 강군 남면 학전리 원도 33매 지 내 제33호 가 지번 기호 )을 확정하고, 남북쌍방이 기준점으로부터 각기 원형 형태로 마련하는 반경을 18 km씩 후퇴를 마련하고, 서울특별시 면적과 동일하게 1,000 km 2 휴전 원을 확보한 후에는 동쪽에서 서쪽까지 155마일의 중앙군사 분계선 철거를 마련하고나,이미 쌍방이 이 선으로부터 각기 2 km 씩 후퇴한 지점에 설치된 철책선들을 그대로 방치를 마련하고, 비무장 지대에 존재하는 모든 폭발물과 지뢰 원의 이런 위험물들을 설치한 양측군대의 사령관들이 반드시 위험물 철거 전후의 증빙자료 사진들을 군사정전위원회 지시에 따라 그 감독하에 비무장지대 내로부터 이의 제거를 마련한 후 1,000km2 휴전 원 내부로는 무장지대 설정을 마련하고 동북아국제 평화 기구를 신설하여 그 기구 통제하에 탄알과 포탄과 핵미사일과 핵폭탄의 일체를 보관 저장할 수 있도록 마련한 남북쌍방이 보유한 군수물자를 총 집결을 마련하고, 휴전 원 이외의 155마일 DMZ내부로는 탄알이 장전되지 않은 권총과 포탄이 장전되지 않은 장사 포와 탱크와 핵미사일과 핵탄두가 장전되지 않은 미사일 발사대와 인공위성 발사대들을 보관 저장하고나,동시에 군수물자들은 교육용과 전시용으로 하며 휴전 원과 DMZ 이외의 군사분계선 하나 개의 확정된 기준점에서 1,200 km 반경의 직 경 2,400km 범위 내부 영토는 복수 개의 철책선으로 확정하여 철책선 내부로는 도로를 형성하고 영해로는 복수 개의 해저터널 교통장치를 형성한다.(지도 1 첨부 및 특허 문서첨부) 5. 동북아시아 지역 내부로 DMZ 내부에 있는 판문점 군사정전위원회는 폐쇄하고 휴전 원 내부 국제연합기구에 판문점 군사정전위원회는 신한국연방국가에 귀속하고 남북쌍방이 보유한 군수물자를 휴전 원 내부 국제연합기구에 총 집결을 마련하고나,동시에 휴전 원 이외의 155마일 DMZ내부로는 탄알이 장전되지 않은 권총과 포탄이 장전되지 않은 장 사포와 탱크와 핵미사일과 핵탄두가 장전되지 않은 미사일 발사대와 핵미사일과 핵탄두가 장전되지 않은 인공위성 발사대들을 보관 저장을 마련하고, 남북 쌍방이 각기 보관한 장 사포와 탱크와 핵미사일과 핵탄두가 장전되지 않은 미사일 발사대와 인공위성 발사대의 포 열과 포신과 포구들은 각기 남북쌍방의 군작전 수뇌 지역과 군통수 총괄 지역으로 각각 화집 점 방위각도로 배열배치를 마련하고, 위치 변동을 수행할 수 없도록 마련하고,이를 위반하는 쌍방의 군대 사령들은 그 즉시 보임이 해직되며 휴전 원과 DMZ 이외의 군사분계선 하나 개의 확정된 기준점에서 1,200km 반경으로 마련한 직 경 2,400km 범위 내에는 동북아시아 각국들은 군사적 무장해제 이행을 마련하고, 핵폭탄보다 더 강한 무기의 세계평화 보존형 이미지 포토샵을 마련한 신한국연방국가는 각 국가와 남북적대 군대 간에 적대행위의 재발을 초래할 수 있는 사건의 발생을 사전에 방지한다. 6. 동북아시아 지역 내부로 평화주권선 내부로는 군수물자에 속하는 지하광물 자원을 포함하여 일체의 군수물자들을 생산, 운송을 행할 수 없도록 하 기 위해 압록강에서 두만강에 이르는 국경 지역 등으로는 국제연합기구산하 국제평화유지군으로 하여금 각 국가간의 여행객, 각 국가간의 군수물자반입,반출,차량 들을 검 문 검색 후 통과하도록 중립국 감시 위원들을 배치하고 검문소를 설치하여 국제평화유지군의 안전보장을 각 국가는 제공한다. 7. 동북아시아 지역 내부로 남북쌍방의 군수물자 중 함선, 잠수함, 전투기, 함정들은 국제 평화 유지군 산하 통제 하에 연료와 무기를 공급받아 운용할 수 있다. 8. 동북아시아 지역 내부로 평화주권선 내부로 각 국가는 국제 평화 유지군 통제 하에 핵 항공모함, 함선, 전투기들이 진입, 퇴출할 수 있도록 각 국가는 평화 유지군의 권능과 권위를 허여한다. 9. 동북아시아 지역 내부로 남북쌍방은 DMZ 내부로 차단된 도로와 철도에 교량 등을 연결하여 만주벌판, 시베리아, 텐 진 산맥 등지로 인적, 물적 통행을 위해, 무조건 합의 이행을 마련하고 시베리아 유류, 가스송유관 매설공사 사업에 참여하여 무조건 남북쌍방은 자유로운 민간출입을 허여한다. 10. 동북아시아 지역 내부로 남북쌍방은 군사적 권리를 포기하고 그 포기한 권리는 국제 평화 유지군의 동북아시아 국제 연합 기구에 일임하며 절대로 국제 평화 유지군의 동북아시아 국제 연합 기구의 설립에 이의와 반론을 제기할 수 없으며 이를 위반하는 각각의 집단은 살아서 70 년 죽어서 그 자손들이 300 년 권리를 행사할 수 있는 WIPO 국제협정조약협력기구와 베른조약에 의하여 선출된 통일 한국 제 18대 대통령의 권위와 인격권에 도전하는 항명죄로 간주하여 남북쌍방의 권력 기관 종사자 전부는 국제법규에 따라 의법 엄단 조치한다. 11. 동북아시아 지역 내부로 남북쌍방은 군사적 권리를 포기하는 대신에 평화로운 무재해 지구촌을 이루기 위해 화산 폭발, 지진, 대형 산불, 쓰나 미, 태풍, 허리케인, 토네이도, 홍수, 가뭄, 황사, 폭염, 한파 등의 자연재해를 신속하게 극복할 수 있는 수해조절 장치와 핵폭발로 인한 방사능 오염이 되지 않은 핵폐기물 처리기술과 폭발 방지형 원자로 설비사업을 1 차적으로 동북아시아 지역 내부로 시행 후 실시 타당성 평가에 따라 점진적으로 전 지구촌에 보급하여 지구촌 평화를 지속적으로 유지하는 권리의 댓 가로 재외 동포를 포함하는 8,500만 국민소득 1인당 10만 불 수준의 국가로 전환한다.(별첨 란 첨부) 12. 동북아시아 지역 내부로 휴전 원 내부로 남북쌍방의 한국전쟁 참전 전사 장병 및 U N 군과 러시아군에 중국군 참전 전사 장병과 민간인 전몰자와 상해 임시혁명 정부요인 위령탑 등은 오대양에 분포된 금 ,은 ,유리 ,마노 ,호박 ,진주 ,다이아몬드 등으로 형성된 것을 사용하여 각개의 나라 위해 죽은 원혼을 달래 주기 위해 건립한다.(별첨 란 첨부) 제2조 국제연합기구에 의한 영토분쟁해결방안 1. 동북아시아 지역 내부로 영토분쟁 당사국 중 어느 1국의 정치적 독립 또는 안전이 외부로부터의 무력공격에 의하여 위협을 받고 있다고 어느 당사국이든지 인정할 때에는 언제든지 당사국은 서로 동북아시아 연합기구에서 협의한다. 2. 동북아시아 지역 내부로 영토분쟁 당사국들은 단독적으로나 공동으로나 자조와 상호 원조에 의하여 무력공격을 저지하기 위한 적절한 수단을 지속하여 강화시킬 것이며, 본 협정조약을 이행하고 그 목적을 추진할 적절한 조치와 상응되는 예를 들어 동북아시아 연합기구에서는 영토분쟁 당사국들의 각 지역으로 원폭 또는 수소폭탄을 베이징 또는 동경 등에 투하할 것인가 또는 하지 않을 것인가를 결정한 후 협의와 합의하에 취할 것이다. 제3조 1. 동북아시아 지역 내부로 영토분쟁 당사국들은 타 당사국의 행정 지 배 하에 있는 영토와 각 당사국이 타 당사국의 행정 지 배 하에 합법적으로 들어갔다고 인정하는 금후의 영토에 있어서 타 당사국에 대한 태평양 지역에 있어서는 무력공격을 자국의 평화와 안전을 위태롭게 하는 것을 인정하고 공통적인 위험에 대처하기 위하여 각자의 헌법상의 수속에 따라 동북아시아 연합기구의 설립과 창설의 목적과 취지에 의해 행동할 것을 분쟁당사국들은 영토분쟁 지역인 센 카 구 열도분쟁지역과 독도분쟁 유발 지역에 이어도 분쟁 지역을 포함하는 일본과 중국의 주장과 권리 모두를 포기하는 것을 선언하며 이를 위반하는 영토분쟁 당사국들의 지휘 통수권자는 이유 없이 국제사법 재판소에 제소된다. 제4조 1. 동북아시아 지역 내부로 영토분쟁 당사국들의 상호 적 합의에 의하여 국제연합의 대표국인 미합중국의 육군, 해군과 공군을 대한민국의 영토 내와 그 부근에 배 치하는 권리를 구비하고 대한민국은 이를 허여하고 미합중국은 이를 수락하며 영토분쟁 당사국들의 상호 적 합의를 어느 일국이 거절하거나 파기를 할 때에는 오대양을 육지로 형성된 육대주로 형성하고 육대주를 오대양으로 형성될 수 있는 지구촌 대 변형을 실행할 수 있으며 그 실시 예로 히말라야 산맥의 티베트 고원 등을 통째로 이동(우 공 이산;愚 公 移 山,)하며 1차적으로 동북아시아 각국들이 상호 간의 영토분쟁을 빌미로 군비 경쟁을 지속적으로 행하면 동북아시아 모든 영해를 육지로 육지는 영해로 지구촌 지각변동 대 변형을 실행할 수 있으며 이에 대한 손 배 책임은 각 국가의 통치권자에게 전가 되며 매립된 영토는 영토분쟁 당사국가 국민과 그 당사국 통치자들은 영토 소유권을 주장할 수 없다.(입증 자료 첨 부 사진 1매) 제5조 1. 본 동북아시아 평화공존 협정조약은 동북아시아 지역 내부로 대한민국과 미합중국에 의하여 헌법상의 수속에 따라 비준되어야 하며 러시아, 중국, 일본 국가들도 헌법상의 수속에 의해 동등하게 비준되어야 하고 그 비준서가 다 국가에 의하여 서울에서 교환되었을 때에 효력을 발생한다 2. 본 협정 조약문서 작성은 동북아시아 지역 내부로 대한민국의 지구촌 재난 방지 기술보급소 소장 겸 살아서 70 년 죽어서 그 자손들이 300 년 권리를 행사할 수 있는 WIPO 국제협정조약기구와 베른조약에 의하여 선출된 통일 한국 제 18대 대통령 이 우성이 작성하였다. 3. 상기 동북아시아 지역 내부로 자유중국 수반 대표와 북한 전권 수반 대표들은 동북아시아 평화 공존을 위해서 뉴욕 유엔 총회에 이의를 제기할 수 없을 뿐만 아니라, 특히, 일본국가와 그 국민 들은 세계 2차 대전의 패전 국가로써 국제사법재판소에 독도 영유권을 제소하는 시점으로 사흘이 멀다 않고 태풍과 홍수와 쓰나 미와 지진 화산폭발, 등으로 화를 면할 수 없도록 한 일련의 조치를 본 협정조약문서 작성자는 시행할 수 있다. 또한, 이어도 영유권을 주장하는 중국정부에도 전술한 자연 재해로부터 자유롭지 못함을 엄격히 경고하는 바이며 동해를 일본 해로 표기한 전 세계의 도서 서적들을 폐기처분하고 중국 정부도 마찬가지로 고구려와 발해, 백제 등의 역사 유적 물을 폐기처분하거나 역사를 왜곡 주장하는 일이 없도록 국제사회 일원 으 로 써 책임과 의무를 성실히 수행할 것으로 믿어 의심치 않는 바이다. 4. 이하, 동북아시아 지역 내부로 국제연합기구 창설에 따른 세부적인 총칙과 구성의 운용 방법 등은 추후 각국전권 대표들에게 통보함. 제6조 1. 본 협정조약은 동북아시아 지역 내부로 무기한으로 유효하다. 동북아시아 평화공존의 어느 당사국이든지 타 당사국에 통고한 후 1년 후에 본 협정조약을 종지 시킬 수 있다. 2. 이상의 증거로서 하 기 전권 위원은 본 협정조약에 서명한다. 3. 본 협정조약은 동북아시아 지역 내부로 2013년 02월 02일 대한민국 서울에서 동북아 분쟁 당사국 모든 국가의 국문과, 영문, 중국 문, 일본 문, 러시아 어문 등으로 두 벌로 작성됨. 4. 동북아시아 지역 내부로 단기 4346 년(2013년 02월 02일) 한 달 이후로 대한민국 제18대 대통령에는 이우성으로 추대된 것을 확인하고 본 협정조약문서작성과 함께 비준 동의 서명하는 것으로 각국의 국가원수들과 이우성은 동등한 지위의 효력이 발생하고 본 협정조약은 단기 4346 년(2013년 02월)부터 통일 원년을 삼아 그 즉시 시행한다.

동북아시아 평화 공존을 위해서 각국 전권대표 ( 신한국 연방국가 전권 대표 , 서명 이우성 ) 동북아시아 평화 공존을 위해서 각국 전권대표 ( 미합중국 연방국가 전권 대표 , 서명 브 락 오 바 마 ) 동북아시아 평화 공존을 위해서 각국 전권대표 ( 중화인민공화국 전권대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국 전권대표 ( 러시아 정부 권 권 대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국 전권대표 ( 일본 내각 수반 대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국 전권대표 ( 자유 중국 수반 대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국 전권대표 ( 남한 전권 수반 대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국 전권대표 ( 북한 전권 수반 대표 , 서명 ) 상기 본 협정조약문서의 언어는, 일어 영어 러시아어 중국어 번역본(This Agreement treaty document translation)이다. MESSAGE

from Lee Woo Sung Internet Digital the Republic of South Korea 18th President = > I m sorry I'm not good at English will I want world beauty big peace to URL = > http://www.whitehouse.gov/ The White House 1600 Pennsylvania Avenue N W Washington DC 20500 USA President B A R A K O B A M A ロシアの家元首索このメルアドレスはありません 中華人民共和家主席索このメルアドレスはありません 日本の閣伴う索このメルアドレスはありません 自由の中のキャビネット伴う索メルアドレスがありません 平政索このメルアドレスはありません UN事務局半奇長メッセジ送信 you ' es are requested to an sewer in written form Will agree you e s big peace of my mind You e s will help me For world peace Only One there of with it's d t e n t e 北東アジアの平和共存協定の約 文書の容 Content a document a treaty an agreement coexistence peace Asia northeast Toブラオバマアメリカ合衆 大統領 こんにちは 尊敬する大統領の再就任を再もう一度おめでとうございます インタネット上のデジタル第18代大韓民大統領は質素に私の 私邸前で第18代大統領就任の宣誓を終えました President take officer inaugurated as president finished You will help me これらの事を米政府CN放送局で米の ラジオ放送 The Times新聞社全世界のメディアを利用し大韓民 部の放送局新聞社で公表するよう協力を要請します from in the Korea dual lityanal log system working load to simply apolitical system Nothing No problem 世界の失業問題不況を迅速に克服することができる方案を米 大統領だけでなく世界各の家元首と Free of Charge suddenly Rule このような況を提供し北東アジア地域と全地球の平和のために 30日以に世界不況を克服するための知を提供する世界 の官であるが閣僚議をするように協力をお願いします そして私の大統領就任の宣誓をきっかけに私の明者として特許者に て優先を主張し大韓民の家部の大統領就任と同 北アジアの平和共存協定の約批准文書と憲法上の改正問題を解決することができ ように多くの助けを期待しています 米際共同技術開の問題原子力の原子の技術協力の問題軍事政治社文化で多くの問題を韓半島の平和統一の問題は半奇UN社 無長との絆を化しながら知を集めることができるように神の恩寵 たされることを願っています ハングル文書をよく理解できるように半奇UN事務長を招待する ありがとうございます 無投票選者が優勢大統領執務279日目

第18代大韓民大統領が 優勢 Lee Woo Sung The U.S. scheme that allows unemployment problem in the world, to overcome the rapid economic downturn As well as the President, and head of state of the world (Free of Charge, It provides suddenly Rule) this situation, for the sake of peace of all the earth and Northeast Asia, World that provides the wisdom to overcome the global recession within 30 days It is a government of, but I need your help and cooperation to the economic ministers' meeting. And, in the wake of the presidential oath of me, the patent owner as the inventor of the I This application claims priority Te, and the inauguration of the state inside of the Republic of Korea It is possible to resolve the question of revision of constitutional and treaty ratification document of peaceful coexistence agreement of North Asia I hope to help so many. (Issue of technical cooperation in the nuclear reactor, military, politics, society, culture) in the problem of peaceful reunification of the Korean peninsula, half odd UN's many problems problem of U.S. International collaborative technology development In order to be able to while strengthening ties with non-General, to collect the wisdom, grace of God We hope you will be satisfied. Invite hemiazygos UN Secretary-General to be able to understand the Hangul document Thank you. (279 day Oval) predominant Mutohyo winner 18th Republic of Korea President dominance 2013 09 02 pm. 20:00 北東アジアの平和共存協定約 A document a treaty an agreement coexistence peace Asia Northeast 大韓民の大統領が一方的にして中華人民共和家主席とロシア 代表と日本民の閣伴い他の一方とする際平和維持軍 による北東アジアの平和共存にする協定約 門前文 大韓民の大統領が一方的にして中華人民共和家主席とロシア 代表と日本民の閣伴い他の一方にするための署名者は 最後の平和的解決が達成されるまで大韓民での敵行や一切の武力と暴力行の完全な停止を保するすべての人とすべての政府が平和的に生活しその希望を再確認しまた太平洋地域の日 部分的な北東アジアの中と日本にロシアの領土にまれた韓での 敵行と一不能の行の完全な停止を保する平和共存を確立する 目的のために南北北端ののトライアングルの平安と原子の金貨地域管理事務所 または役場中心部を基にして軍事境界線かの基準点北緯[ N ] 38度20分東[ E ] 127度16分の場所を確定しここで西1916年朝鮮督府出版指摘員も<記係史文書館所>を立資料とする大韓民江原道原郡語の練習には2通り李元も72マジの地番不明である係で1965年頃行政改編に伴う大韓民江原道原郡東町の江籬8番地付近の部位中央軍事境界線の点を基準して三千里1,200 kmの距離を半とする直2,400 kmの範にはした事項に記載された北東アジアの平和共存の件や規制を遵守しまたその制約と制御を受ける個にまたは中とロシアと日本は共同的にもまたは相互に合意する この件の規定の意は純に領土紛を誘する弊社の軍事的勢力大を阻止し北東アジア地域の緊張緩和に伴う韓の昔の領土と平和の主線のみで適用するがまた北東アジア地域におけるの平和機構を恒久的に固なものにすることを希望し 締約のうちいずれか1でも太平洋の北東アジア地域において 孤立しているという錯を任意の在的侵略者も持たないように外部からの武力攻にして自分を防衛しようとする共通の決意を公の場で また正式に宣言することを希望しまた太平洋の北東アジア地域におけるより包括的で果的な地域的安全保障組織が達するまで 平和と安全を維持し高低集的防衛のための努力を固にすることを希望し大韓民昔の領域を占めている締約は領海を含む領域株式の占用料を際連合機に支うことを誓約し次のように同意する 第1北東アジアの平和共存に伴う際連合機構の創設 Peaceful coexistence agreement treaty in Northeast Asia (A document a treaty an agreement coexistence peace Asia Northeast) President of the Republic of Korea is the one-sided , and Russia and the People's Republic of China president With Cabinet of the Japanese people and representative , international peace -keeping force to the one of the other The agreement Convention on the peaceful coexistence of Northeast Asia by Professional ( Preamble ) President of the Republic of Korea is the one-sided , and Russia and the People's Republic of China president Signer for With Cabinet of the Japanese people and representatives , to one another , Peaceful solution until the last is achieved , government and all people of all in order to ensure the complete stop of violence and force of any and hostilities in the Republic of Korea to live peacefully , double-check the desired , also the day of the Pacific Ocean region In Korea is surrounded by the territory of Russia in China and Japan in Northeast Asia partial To establish a peaceful coexistence in order to ensure the complete stop of the act of non- integral with the hostilities The gold area management office of iron atoms and peace of the iron triangle of north-south north end for the purpose Or on the basis of the office center , ( north latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) to confirm the location of the , 1916 ( Ward , AD here reference point or military demarcation line , in the relationship is a lot number unknown 72 in seriously , Korea government-General pointed out that publishing ins 1965 Li Yuan also two ways to practice of the Republic of Korea Gangwon iron original county word that prove article <country registrar history Archives Collection >in the range of 2,400 km diameter and radius the distance of 1,200 km three thousand miles with respect to the point of site) central military demarcation line of Jiang Mase 8 address the vicinity of the Republic of Korea Gangwon iron original county Higashi due to administrative reform is , individually under the control and the constraint , or even collaborative , or Japan and Russia and China , agree with each other , and also comply with the regulations and conditions of peaceful coexistence in Northeast Asia that is described in the matters that you have . To prevent military forces expansion of our country to induce territorial disputes purely intent of the provisions of this condition will be applied in only sovereignty line of peace and territory of old Korea due to the easing of tensions in Northeast Asia , in addition, I hope that you can have a robust permanent peace mechanism in Northeast Asia , In Northeast Asia region of the Pacific Ocean in one country one of the Parties , Potential invaders of any well so as not to have the illusion that they are isolated , in public determination common to try to defend yourself against armed attack from outside In addition, also , hope to formally declare , in Northeast Asia region of the Pacific Ocean , regional security organization and effective more comprehensive until the development , Parties that wish to be a strong effort for high and low , of collective defense to maintain peace and security , occupies an area of the Republic of Korea a long time ago is payable to the United Nations agencies occupation fee of area shares , including the territorial waters the pledge , you agree as follows . The creation of a United Nations mechanism associated with the peaceful coexistence of Article 1 of Northeast Asia 2北東アジア地域で1950年6月25日韓の生前後視韓休協定前に韓の激地平安町施設の建物の中心点と原邑施設の建物中心点に金の面施設の建物の中心点に三角構で線を引いてこの地域ににインストルされて軍事境界線かの基準点北緯[ N ] 38度20分東[ E ] 127度16分の場所を確定しここで西1916年朝鮮督府出版指摘員も<家記院の史文書館所>を立資料とする大韓民江原道原郡語の練習には2通り李元も72マジ私の地番賞を確定し南北方が基準点からそれぞれ丸形とする半約18 kmずつ後退することでソウル特別市面積と同等に1,000 km2休ウォンを確保した後は東から西まで155マイルの中央軍事境界線を撤去してすでに方がこの線からそれぞれ2 kmずつ後退した地点に設置され柵線をそのまま放置して非武地に存在するすべての爆物地雷元などのこのような危物をインストルした側の軍隊の司令官が必ず危物撤去前後の資料を軍事停委員の指示にじてまたはその監督の下で非武地からこれをアンインストルした後 1,000 km2休円の部には武地を設定し北東アジアの際平和機構を新設しその機構制御下に丸砲核ミサイル核爆などの一切のアカイブ保存できるように南北方が保有する軍需物資を集結させるが休員以外155マイルDMZの側には丸がされていない拳銃と砲がされていない商フォタンクに核ミサイルと核頭がされていないミサイル射置と衛星射台を保管し保存して育と展示用にして休円とDMZ以外の軍事境界線かの確定した基準点から1,200 km半とする直2,400 kmの範には北東アジア各は軍事的武解除を施してそれぞれのの南北敵軍の間で敵行の再を引き起こすことができる事件の生を防止する 1 . Territorial dispute parties in Northeast Asia within the region , June 25 1950 World War II that may be related to termination , surrender of the Japanese Emperor will be declaimed in aboard than malt , it occurs after day , in the generation before and after the Korean War , while the 60 years or more flows war criminal justice process and the associated war criminal investigation collective that caused the Korean War occurred without resolving all the so-called , in the country east courtesy and so forced annexation of weaker nations , such as Himalayan Tibetan Plateau dispute bright archipelago dispute strong , even in the D o k do dispute , and the Vietnam war , No. hijacking a fire in F u z h o u native and off the coast of Panmunjom ax brutality incident in 1977 history settlement of the past , such as a threat incident of nuclear Y eon p y e o n g Island shelling incident and the C h e o nan sinking incident of recent , nuclear frantic of March the same year is to highlight the need desperately more than anything , any international dispute some by force , and also resolved by peaceful means in a manner that does not compromise the justice and security and international peace , to be on the duty of parties and purpose of the United Nations in international relations has the burden to the United Nations northeast Asia countries to promise to refrain from that or threaten to use force . 2 . June 25, 1950 , before the occurrence of the Korean War , of gold to building the center point of the original iron -eup facility and the center point of the hard-fought field of building peace town facilities of Korean War in South Korea backsight before cease-fire agreement in Northeast Asia area pull the line in the triangular composition in the center of the building of the screen facility , ( north latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) reference point or military demarcation line is already installed in this area to confirm the location of the , 1916 ( Ward , AD , Korea government-General publication pointed out employee also two ways to practice of the Republic of Korea Gangwon iron original county word that prove article <history archives holding a national record in> here by about 18 km radius of Li Yuan also to confirm the lot number award ) my 72 seriously , North and South both to round each from the reference point at a time retreat , after securing the 1,000 km2 truce won equivalent to the Seoul area is , you can remove the central military demarcation line of 155 miles from east to west , the explosion of all installed to the point where the two sides is retracted by 2 km , respectively, from this line already exists in the demilitarized zone on standing as it is the iron fence line commander of troops on both sides where you installed the hazardous materials such things , such as mine original , in accordance with the instructions of the military cease-fire committee evidence file photo of hazardous materials removal before and after always , or under its supervision , demilitarized after the zone in , you must uninstall this, set the demilitarized zone in the interior of the 1,000 km2 truce yen , we established an international peace mechanism in Northeast Asia , bullets , artillery shells , nuclear , missile , nuclear bomb in the mechanism under control thereby the total concentrate the munitions that North and South sides held to allow archiving of all such , but business for the shells and handgun bullets is not loaded inside the 155 miles DMZ truce employee A non is not loaded , the tank and 1,200 km radius from the reference point to have been fixed or military Demarcation Line in the DMZ and non- truce yen in the exhibition for education and save to save the satellite launch pad and missile launchers that nuclear warheads and nuclear missiles is not loaded on the within the scope of the 2,400 km diameter to be , to prevent the occurrence of an event that can northeast Asian countries to conduct military disarmament , to cause a recurrence of hostilities between North and South hostile forces of each country. 3 北東アジア地域で確定された北東アジアの平和主線の位置は添付された地に表示されたとおりである 地1付 4北東アジア地域での停元とDMZの武地は添付された地に表示された北方境界線と南方境界線として撤去された中央軍事境界線には軍事道路としてこれを確定するが昔の祖先の平和主先人すでにインストルされて軍事境界線かつの基準点北緯[ N ] 38度20分東[ E ] 127度16分の場所を確定しここで西1916年朝鮮督府出版指摘員も<家記院史文書館所>を立資料とする大韓民江原道原郡語の練習には2通り李元も72マジ私の地番賞を確定し南北方が基準点からそれぞれ丸形とする半約18 kmずつ後退することでソウル市の面積と同等に1,000 km2休円を確保した後は東から西まで155マイルの中央軍事境界線を撤去してすでに方がこの線からそれぞれ2 kmずつ後退した地点に設置され柵線をそのまま放置して非武地に存在するすべての爆物地雷円などのこのような危物をインストルした側の軍隊の司令官が必ず危物撤去前後の資料を軍事停委員の指示にじてまたはその監督の下で非武地からこれをアンインストルした後 1,000 km2休円の部には武地に設定して北東アジアの際平和機構を新設しその機構制御下に丸砲核ミサイル核爆などの一切のアカイブ保存できるように南北方が保有する軍需物資を集結させるが休員以外の155マイルDMZの側には丸このされていない拳銃と砲がされていない商フォタンクに核ミサイルと核頭がされていないミサイル射置と衛星射台を保管し保存して育と展示用にして休円とDMZ以外の軍事境界線かの確定した基準点から1,200 km半とする直2,400 kmの範での領域は複の柵線で確定して柵線の部には道路を形成し領海には複の海底トンネル輸送置を形成する 地1添付や特許文書添付 5 北東アジア地域でDMZの側にある板門店軍事停委員は閉鎖して休円の部的な連組織に板門店の軍事停委員はし南北方が保有する軍需物資を集結させるが休員以外の155マイルDMZ部には丸がされていない拳銃と砲がされていない商フォタンクに核ミサイルと核頭がされていないミサイル射置と衛星射台を保管格納しておき南北方がそれぞれ保管して商フォタンクに核ミサイルと核頭がされていないミサイル射置と衛星射台などのポ熱フォシンフォなどはそれぞれ南北方の軍の作首地域の軍統帥括地域にそれぞれ話集点方位道路の配列に配置し絶位置動を行うことができないのでこれに違反する方の軍隊司令はすぐに見えるが解雇され休円とDMZ以外の軍事境界線かの確定した基準点から1,200 km半とする直2,400 kmの範には北東アジア各は軍事武解除を施しそれぞれのの南北敵軍の間で敵行の再を引き起こすことができる事件の生を絶に防ぐ 6北東アジア地域で平和主線の部には軍需物資にする地下物資源を含む一切の軍需物資を生産輸送を行うことができないようにするために鴨江から豆江までの境地域などでは際連合機構傘下際平和維持軍にとって各家間の旅行者は各家間の軍需物資の搬入搬出車をドアを索し通過するようにニュトラル監視委員を配置しチェックポイントを設置し際平和維持軍の安全保障をそれぞれのにはいない 7北東アジア地域で南北方の軍需物資の船水艦機艦艇は際平和維持軍傘下の制御下に燃料と武器の供給を受け運用することができる 8北東アジア地域で平和主線の部にそれぞれのは際平和維持軍管理下に原子力空母艦船機が進入退出できるようにそれぞれのは平和維持軍の力と威を付する 9北東アジア地域で南北方は DMZの側にブロックされた道路や道の橋梁などを接して洲原野シベリア天神山などに人的物的流通のために無件に合意履行してシベリアの石油ガスパイプライン埋設工事事業に加して無件に南北方は自由な民間の出入りを付する 10北東アジア地域で南北方は軍事的利を放棄し利に際平和維持軍の北東アジア際連合機に一任して使えば際平和維持軍の北東アジア際連合機構の設立に異議と反論を提起することができずこれを違反しているそれぞれの集は生きて70年死んでその子孫が300年利を行使することができるWIPO際約約機構とベルン約によって選出された統一韓の第18代大統領の威と人格に挑するハンミョンジュェであると考えて南北方の力機事者すべては際法に基づいて法によりしく取り締まる措置する 3 . Position of sovereignty peace line in Northeast Asia that have been confirmed in Northeast Asia area is as it appears on the map attached . ( With map 1 ) 4 . The central military demarcation line that was removed as a southern border and the Northern Limit Line , which is shown on a map that is attached , as a military road , demilitarized zone and DMZ truce based in Northeast Asia within the region , but to confirm this , already installed peace sovereignty predecessors ancestor of old reference point of the military demarcation line and ( north latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) to confirm the location of where ( Ward , 1916 AD , the Korean government-General pointed out that publishing employee also confirm the lot number award ) my 72 seriously Lee also two ways to practice of the Republic of Korea Gangwon iron original county word that prove article <National Academy of recording history Archives Collection >by then , about 18 km radius of North and South both to round each from the reference point at a time retreat , after securing the 1,000 km2 truce yen equivalent to the area of Seoul , from east to west to the Central Military boundary of 155 miles hazardous materials such explosive of all , such as mine circle , you have removed the line , is installed at the point where the two sides retreated by 2 km , respectively, from this line already exists in the demilitarized zone on standing as it is the iron fence line commander of troops on both sides have installed in accordance with the instructions of the military cease-fire committee evidence file photo of hazardous materials removal before and after always , or under its supervision , after the demilitarized zone in , you must uninstall this , 1,000 established an international peace mechanism in Northeast Asia by setting the demilitarized zone in the interior of the km2 truce circle , north and south sides to allow archiving of any bullet , ammunition , nuclear , missile , or in nuclear bomb in the mechanism under control thereby total centralizing munitions held , but business for the shells and handguns not loaded the bullet inside the 155 miles DMZ in truce employee A non is not loaded , warheads and missiles is not loaded in the tank area in the range of 2,400 km in diameter and 1,200 km radius from the reference point to have been fixed or military Demarcation Line in the DMZ and non- truce yen in the exhibition for education and save to save the satellite launch pad and missile launch device inside the iron fence line , to form a road confirm by iron fence lines , the waters to form a submarine tunnel transport units. (Patent document and the accompanying map 1 attached) 5 . Military Armistice Commission in Panmunjom is the property of the United Nations organization 's internal truce yen closed , Panmunjom Military Armistice Commission is inside the DMZ in Northeast Asia within the region but to the total concentration the munitions that North and South both held , business for the shells and handgun bullets is not loaded to 155 miles the DMZ of truce employee other than is not loaded , storage stores satellite launch pad and missile launchers that nuclear warheads and nuclear missiles is not loaded on the tank the leave , port heat business for North and South both keep each , such as satellite launch pad and missile launchers that nuclear warheads and nuclear missiles is not loaded into the tank , Foshin , include Forbidden Zone , army of North and South both each it is not possible to place an array of story collection point orientation road respectively the military supreme command summary area of strategy summit area , and the position change absolute , it appears immediately fired , military commander of both in violation of this , truce within the scope of the 2,400 km diameter and 1,200 km radius from the reference point to confirm or military Demarcation Line in the DMZ and non- yen , northeast Asian countries to carry out military disarmament , between North and South hostile forces of each country to prevent absolutely the occurrence of an event that can cause a recurrence of hostilities . 6 . Inside the peace Sovereign lines , in order not to be able to produce the munitions of any containing underground mineral resources belonging to munitions , and performs transport and border to Duman from Yalu in Northeast Asia area in such areas , find Ken door carrying of munitions of each inter-state , carry-out , the vehicle , travelers each between nations , place a neutral monitoring committee to pass for the United Nations Organization under international peacekeeping force , we have established a checkpoint , it is not the country of each security of the international peacekeeping force . 7 . Ship munitions of both North and South , submarines , fighter , vessels will be able to operate receives a supply of fuel and weapons under the control of the international peacekeeping force under the umbrella in the Northeast Asia region. 8 . The inside of the peace sovereignty line , nuclear-powered aircraft carrier , ships , fighters enter the international peacekeeping force under control , to be able to exit , each country , power and authority of the peacekeeping forces in each country in Northeast Asia area I grant . 9 . The north and south sides , connect the bridges and other road and rail blocked inside the DMZ, for human and physical distribution , and agreed to unconditional Manchuria wilderness , Siberia , and Tenjinyama in Northeast Asia area North and South both sides , to give out free private unconditionally to participate Siberian oil , the gas pipeline buried construction business with fulfillment . 10 . The north and south sides , to abandon the military right , you can use with discretion northeast Asia United Nations agencies of international peace -keeping force to the rights , and the objection to the establishment of Northeast Asia United Nations Organization of the international peacekeeping force in Northeast Asia area each population that it is not possible to raise objections , are in violation of this dead '70 to live , was elected by the Berne Convention and the WIPO international treaties Treaty Organization that allows the offspring to exercise 300 years right and thinking is a Hanmyonju~e to challenge personal rights and authority of the 18th president of a unified Korea , to measure crack down by law on the basis of international law , all power agency workers in both North and South . 11北東アジア地域で南北方は軍事的利を放棄する代わりに平和な無災害地球村を達成するために火山の噴火地震大規模な山火事書きや米台風ハリケン洪水干ばつ砂猛暑寒波などの自然災害を迅速に克服することができる水害調整置と核爆による放射能汚染がされていない核棄物の理技術と爆防止型原子設備事業を主に北東アジア地域で施し施の妥性の評にじて徐にで全地球村に普及して地球の平和を持的に維持する利のザット在外同胞を含む8,500万の民所得1人たり10万ドル水準のに移行する 別添と付 12北東アジア地域での停円の部に南北方の韓士兵士とUN軍とロシア軍に中軍士兵などの民間人者と上海臨時革命政府の要人慰塔などは五大に分布された金銀ガラス瑪瑙琥珀珠ダイヤモンドなどで形成されたものを使用してのために死んだ魂を癒してくれるために建設する 別添と付 11. The north and south sides, a volcanic eruption in order to achieve a peaceful accident-free global village instead to abandon the military right, earthquake, wildfire large, rice, and typhoons oysters, hurricane, tornado, flood in Northeast Asia area , the explosion prevention reactor equipment business and processing technology of nuclear waste and the flood control device that can be overcome quickly natural disasters drought, yellow sand, scorching heat, and cold wave, radioactive contamination caused by nuclear explosion is not we conducted in Northeast Asia area primarily, gradually, depending on the evaluation of the adequacy of the implementation, people of 85 million, including that horizontal overseas brethren of the right to maintain the sustainable peace on earth to spread the global village I want to migrate to the country of $ 100,000 income level per capita. (With and Annex) 12. Dignitaries such as War Memorial of Shanghai extraordinary revolutionary government and civilian war dead, including Chinese military officers and soldiers in war warrior Russian army and UN troops and the Korean War war warrior soldiers both North and South in the interior of the cease-fire circle in Northeast Asia within the region, will be built in order to heal the soul that died for the country with the one formed gold that has been distributed in the Great Lakes, silver, glass, agate, amber, pearl, or diamond. (With and Annex) 第2際連合機構による領土紛解決方案 1北東アジア地域での領土紛事のいずれか1の政治的立または安全が外部からの武力攻による脅威を受けているとどのでも認め際いつでも締約は相互に北東アジア連合の組みで協議する 2北東アジア地域での領土紛事はにも共同的にも自助と相互援助による武力攻を阻止するための適切な手段をして化するものであり本協定約を履行しその目的を推進する適切な措置とする例を含む北東アジア連合の組みでは領土紛事の各地域に原爆や水爆を北京や東京などに投下するかまたはしないかを決定し協議と合意のもとに取る 第3 1北東アジア地域での領土紛事は他の締約の行政かの船の下にある領土の締約が他の締約の行政かの船の下で合法的に入っ認める今後の地域における他の締約の太平洋地域においては武力攻を自の平和と安全を危にさらすことを認識し一般的なリスクにするためにそれぞれの憲法上の手にって北東アジア連合組織の設立と設立の目的と趣旨により行動するのを紛事は領土紛地域であるセンが列島紛地域と島紛生地域にあっても紛地域を含む日本と中の主張と利のすべてを放棄することを宣言する 第4 1北東アジア地域での領土紛事の相互の合意により際連合の代表であるアメリカ合衆の軍隊海軍と空軍を大韓民の領土とその付近に配備する利を大韓民はこれを許諾するものでアメリカ合衆はこれを受諾し領土紛事の相互の合意をどの一が拒否したり破棄をするときは五大洋を陸地に形成された六大陸に形成し六大州の五大に形成することができる地球の形を行することができその施例としてヒマラヤのチベット高原を丸ごと移動愚;愚公移山 で主に東北アジア各が相互の領土紛を的に行うと東北アジアの領海を陸に陸地は領海と地球の形を行することができこのための手の船の責任は各の支配者に嫁され埋め立てられた領域は領土紛社の籍とその締約の支配者たちは領土の所有を主張することができない 立資料添付2枚 第5 1この北東アジアの平和共存協定の約は北東アジア地域で大韓民とアメリカ合衆は憲法上の手にって批准される必要がありロシア中日本のも憲法上の手きによって均等に批准されるべきでその批准書が複には"ソウル"で交換された時に力を生する 2本協定約文書の作成は北東アジア地域で大韓民の地球の災害策技術普及所所長兼生きて70年死んでその子孫が300年利を行使することができるWIPO際約約機構とベルン約によって選出された統一韓の第18代大統領が優勢に作成した The territorial dispute resolution scheme by Article 2 of the United Nations Organization 1 . Safety or political independence of one country one of the territorial dispute parties in Northeast Asia area is has received a threat of armed attack from the outside , when , Parties , northeast to each other at any time observed in any party I discuss in the framework of Asia Union. 2 . Are intended to strengthen to continue the appropriate means to prevent armed attacks by mutual aid and self-help also alone , even collaborative , territorial disputes parties in Northeast Asia within the region , this agreement treaty in the framework of northeast Asia Union , including the example and the corresponding appropriate measures to fulfill , to promote its purpose , whether or not , or dropped on the Tokyo and Beijing the hydrogen bomb and atomic bomb in each region of the territory the parties to the dispute the decision , to take on the basis of consultation and consensus . Article 3 1 . Territorial dispute parties in Northeast Asia region within the area of future parties of territory at the bottom of the ship or administration of another Party admits in the lawful under the ship or administration of other Parties in the Pacific Ocean region of another Party in , in order to recognize that it is endangering the peace and security of the country the armed attack , to deal with the general risks , in accordance with constitutional processes of each , and northeast Asia coalition even in Dokdo conflict affected regions and old archipelago conflict areas are a thousand is a territorial conflict areas , the parties to the dispute , the claims of Japan and China , including the disputed area you to action by the spirit and purpose of the establishment and the establishment of to declare that to abandon all of its rights and . Article 4 1 . The Republic of Korea shall be permitted to this the right to deploy in that neighborhood and territory of the Republic of Korea Forces of the United States of America is a representative of the United Nations , the Navy and Air Force by mutual agreement of the territory the parties to the dispute in Northeast Asia area in the United States to accept this , when any one country or reject the mutual agreement of the territory the parties to the dispute , to destroy , to form on six continents formed to land a Major Ocean , and of the six continents can perform the deformation of the earth can be formed into five major , as an example, the mobile whole plateau Himalayan ; Northeast Asian countries continuously territorial disputes mutual mainly ( Woo Woo public transfer mountain ) land can be used to perform the deformation of the earth and waters to land the waters of Northeast Asia , a region that is passed on to the ruler of the country , has been reclaimed , the responsibility of the ship on hand for this , territorial disputes If you do , rulers of the Parties to the nationality of the Company may not be able to claim ownership of the territory . ( Two proven materials attached photo ) Article 5 1 . Must be ratified in accordance with the procedures of constitutional United States and South Korea in Northeast Asia area , treaty of peaceful coexistence agreement of this Northeast Asia , be ratified equally by constitutional processes some countries Russia , China , Japan it should , come into force when the instrument of ratification has been replaced with " Seoul " in multiple countries 2 . Preparation of this agreement treaty document , died in '70 to live disaster recovery technology diffusion plant director and the earth of the Republic of Korea in Northeast Asia area , Berne and WIPO international treaties Treaty Organization that can any of its descendants to exercise 300 years right 18th president of the unified Korea , which is elected by the treaty has created predominantly . 3 上記北東アジア地域での自由中伴う代表と北朝鮮全伴う代表は北東アジアの平和共存のために"ニュヨク"連に異議を申し立てることができないだけでなく特に日本家とその民は第2次世界大の敗として際司法裁判所に島領有を提訴した時点で三日が遠いことなく台風や洪水と書きや三輪地震火山爆などと話を免れることができないように一連の措置を本協定の約文書の作成者は施することができるまたあっても領有を主張する中政府にも前述した自然災害から自由ではないことをしく警告するところであり東海を日本海と表記した世界の書籍書籍を棄分し中政府も同に高句麗と渤海百などの史遺跡の水を棄したり史を歪曲主張することのないよう際社の一員としての責任と義務を誠に行することは間違いないところだ 4以下北東アジア地域での際連合の組みの創設に伴う詳細な則と構成と運用方法などは今後の各全代表者に通知する 第6 1本協定約は北東アジア地域で無期限に有である北東アジアの平和共存のいずれかの締約でも他の締約に通告した後 1年後に本協定約を終止させることができる 2以上のとしてした全委員はこの協定の約に署名する 3 本協定約は北東アジア地域で2013年02月02日大韓民"ソウル"で北東アジアの紛事すべてのの文科英語中語のドア日本のドアロシアドアなどに二着で作成され 4北東アジア地域で大韓民の第18代大統領にはウソンに推戴されたことを本協定の約文書の作成と批准署名することで各の家元首との優勢は同等の地位の力が生し本協定の約はそのすぐ施行する 3 . Not only not be able to challenge the General Assembly United Nations " New York " for peaceful coexistence in Northeast Asia , in particular , representatives accompanied North Korea plenipotentiary representatives and with free china in the Northeast Asia region within , and its people Japanese state is it not to be able to avoid talking to and Miwa earthquake volcanic explosion , oysters and a flood and typhoon without the 3rd is far when sued Dokdo sovereignty to the International Court of Justice as a defeated nation in world War II I can be in , the creator of the treaty document of this agreement , to carry out a series of measures . In addition , the Chinese government to be claimed even if there is a place where sternly warn that it is not free from natural disasters described above , disposed of the book book of world referred to as the Sea of Japan the East Sea , the Chinese government it's place as in the same way , that it will not be that you can discard the water of history remains Bohai and Koguryo and Baekje , distort claims history , there is no doubt that running in good faith the obligations and responsibilities as a member of the international community . 4 . Or less , such as how to configure and operate with the detailed general rules associated with the creation of a framework of the United Nations in Northeast Asia area , I will inform the country plenipotentiary representatives of the future . Article 6 1 . The agreement treaty is effective indefinitely in the Northeast Asia region. It is possible that after notice to the other parties in the Contracting State of one of the peaceful coexistence of Northeast Asia and to stop this agreement treaty a year later . 2 . Plenipotentiary of the evidence as described above , to sign a treaty of this agreement . 3 . February 02, 2013 , in the Republic of Korea " Seoul " , door country arts of all countries parties to the dispute in Northeast Asia , English , Chinese , door of Japan , the Agreement Convention , and in Northeast Asia Roshiadoa area it is created by the second-place finish in 4 . Through the ratification creates and signs of the treaty document of the agreement that has been Suitai in Towson , efficacy equivalent position is generated dominance head of state of each country to the 18th president of the Republic of Korea in Northeast Asia area , the Convention of this agreement shall come into force immediately that . 北東アジアの平和共存のために各全代表アメリカ合衆UN司令官署名

大韓民全代表署名イオソン 中華人民共和全代表署名 ロシア政府グォングォン代表署名 日本の閣伴う代表署名 自由中伴う代表署名 北朝鮮全伴う代表署名 1別添と添付 (United States UN commander in chief, signature) countries plenipotentiary representative for peaceful coexistence in Northeast Asia

(South Korea plenipotentiary representative, signed Lee Woo Sung ) (People's Republic of China plenipotentiary representative, signature) (Gu~ongu~on Russian government representative, signature) representative associated with Cabinet (Japan, signed (representative with free china, signature) (representative with North Korea all-powerful, signature) (Attached as Appendix # 1) 다음은 상기 본 협정조약문서의 중국어 번역본(Chinese translation of this Agreement, the treaty document)이다. 留言

自 이(李) 우(愚)성(聖) 的 第18的共和互字= >我不起我不擅英 我希望世界的美大和平 URL => http://www.whitehouse.gov/ 白1600夕法尼大道 N W 盛特美20500 裁 B A K. R A O B A M 俄斯家元首无E-mail地址搜索 中人民共和 E-mail地址有搜索家 日本无E-mail地址搜索 自由中承无E-mail地址搜索 平壤政无E-mail地址搜索 合秘范gimun 消息 ES要求以面形式下水道 同意E S大我心中的和平 E S助我世界和平 唯一的一的DET E N T E 北和平共文件容容的文件一共存的和平 洲北部 下美布拉迪斯拉五阿拉巴 大家 要尊重重新任命一次再次向表示祝 18日在互上字jocholhage我的 我的姐姐在前面的18已完成宣誓就任 社人就任完成 我的一事美政府美播CN 的音 泰晤士 向全世界媒 播公布市民要求合作 lityanal日志系工作荷的非政治化系有任何 Sileopnan世界衰退迅速接近可以克服美 以及世界各地的家元首免的 突然第通全球和平情在北和前 世界30天以所以不能克服衰退通智慧的世界 喜的合作部理事公室 非常高的我和我的宣誓就之后利的明家 的就典里面的方家具有先 北地的和平共存批准了的文件和法修正案解 多的助以期望 美合技的核反堆技合作的事政治社文化和平一的朝半多在的四合反gimun 非校和加强收集智慧和上帝的恩典 祈求 了更好地理解文文件合秘邀一半gimun Mutupyo公室279小 第十八胡共和 2,013 09 02 20:00 pm. : Lee Woo Sung 北和平共文件的共存的和平洲北 的中人民共和的一胡和俄斯 日本家和外一涉及家部委和部 北和平共 前文 的中人民共和的一胡和俄斯 家和日本陪家育部的名者向方 最和平解直到jeokin在或任何武行和暴力行以保完全停止所有人民和所有政府和平我希望重申的生活一在太平洋 部分北中和日本俄斯土包 任何武的行完全停止行保建立和平共 三角的目的北端的北南和平和金在地的行政公原 或在事分界 MDL 基于中部地的myeonsamuso 1考点度[ N ] 38度20分[ ] 127度16分和地方九公元1916年得了的政府一般也的位置文表<家案史案增持>据的共和江原道原方式的如果李得72吉也是未知的系在行政改革的多在1965年根据的共和江原道原第八街附近城市域中央事的基上除以行三千里一点一直1200公里位于距的款和件北和平和共存和法定的范的机器半2,400公里和也的束和控制batneunde或在日本或中和俄斯也不是合或方同意的 的款和件使我多家的在北地的新西州和放松和平的土的意根据的土主适用于要在北永久机制固和平希望 一家甚至家在北太平洋 那孤立的幻也有反武攻的共同心之外有任何在的侵略者公然自己 希望正式宣布在太平洋北地安全直到一更全面更有效的展 和平安全以及距集努力加强保希望老占土的土包括土的美合私人使用行支付的承成如下股海 合在北地的和平共存机制第1的基上造 1北到事方的土端可能被相第二次世界大洲杯芽和更多的日本天皇的投降文件生后年6月25 1950年之前在所的例如的分公司的致生集同和生jeonbeomja jeonbeomja 60年有任何司法程在所有年流量感器KAGU群之中解使突在越南和在喜拉雅西藏高原和其他地方的弱大在1977年包括板店斧事件和本地通到火海岸波多黎各天安pokchim最近的架事件延坪炸事件在三月同年核威核狂去史的情下强行包括什的算所有是被需要的迫切任何端甚至和平及安全和正在不危及算通和平手段同系的目的或方的美合盟所生的的方式放置的方式通武力或以武力相威避免施加周地的承 二前的到南年6月25 1950年中北伏我休和平的建中心位置点和的建筑宇原建筑的中心点破幕中心点的位置一2三角形成1考点的域是已安的事分界度[ N ] 38度20分[ ] 127度16分 位置的地方九公元1916年得了政府的一般也指出出版<家案史演案>的据江原道李得了原路使2的包量72奇未知同在北方和南方分形式的衰退18公里的一形的半的考点由首面1,000平方公里和一同安全的一休后得了155英里到西的中央事分界 MDL 已方在一点上安的各2公里和的非事所有爆炸物存在山得包括在安些危之一的指官后的去除有害的据照片事停委按照明或在非事的1,000平方公里停火取出后的督下行到一置在北地的武和平机制建立了子核炸等的控制下所有由北南方行如此可以省共的机制比一聚集sikidoe休155英里DMZ里面的子是不加不加手和埋在Pau 坦克有核和核射器以省存的星射和育和利得了DMZ休其中的2非事分界建立基直2,400公里位于北的家半1,200公里械的北及南的每一家和那之的事行的施范可以致一的行事件的生被防止 三北北地的和平建立主位置是相同的如附所示 1附地 四北和DMZ里面的武停火的附加地北部境和南部境所示被毁的中央事分界 MDL 作一事道路修但的好老的主我的祖先和平1是已安在事分界 MDL 一考点度[ N ] 38度20分[E ] 127度16分 位置九公元1916年政府指出出版<家案史案collections>的据法的如果原共和李江原道也得了72吉的多量未知同在北方和南方分形式的衰退18公里的一形的半的考点同首地及1,000平方公里得休得155英里到西和中央委界 MDL 已方解后每2公里通撤退到一点安的和DMZ炸存在山得如安些危的事指官方后按照明中去除有害的据照片事停委或在非事的1,000平方公里手持一一圈的停火中取出后的督下行新的和平机制在北地和的子核炸等的控制下保持所有由北南方行所以可以省的聚集sikidoe的一 155英里非休得子DMZ的到不加不加手和埋在Pau 坦克有核和核射器以省存的星射和停火培和利得了事分界的DMZ中比一一的1,200公里的半考点的范2,400 km到由多定的的道路隧道交通的水形成置中以形成多部cheolchaekseon境的 1和利文件附件 5北洲地DMZ的事停委在板店停定和一封的部圈子的美合和民事板店事停委的部因方行共聚集sikidoe 155英里非休得DMZ不入手和子未入埋在Pau 坦克不核射器和射器和星店他但他人保持一本每包括方面坦克非核和核射器和星射等四10 4新四九事作包括同在北方和南方各地和各周二房子的水流量一般域和有放在道路的方位位置的波也不做各方的指官反停火立和示事分界止外和DMZ得1 2固定考点直2400公里位于北的家半1,200公里范的事武各之的渡和相互的事行可能致生的事件有被阻止 六北地的和平到主于用物包括任何的生的地下源不允以到作合的界江江地旅客往他gakgukga和部用物之gakgukga口出口搜索通后一中立的委安点以保每家的和部提供安全 七北地北南方里面的火船艇机船下的燃料和武器的和部的控制之下可以操作提供 八每家的主每家的力和威的和部的核航母艇机入境退出和部的控制下的北地的和平是理所然的 九北分南北非事的部如一阻塞公路和路接的10000股在野西伯利和10山通人力和材料行无件西伯利的石油和天然管道工作各方无件授予公免入私人 10北洲北美和南美都事和放在美合和力量在的利和有的的美合和力量在建立反和反也有被提出每反的生活死和70年的孩子300年伯尼公18一的挑的最不的威和道德利方面行使的人机和世界知的所有工部按照法采取适的措施uibeop eomdan 11北成南北以一和平的地方事故的利以便全球的火山地震野火大入和大米台卷洪水干旱灰端高寒冷的天等可以克服自然害防放射性染引起的核爆炸和核料理技和非核防爆主要是在北地迅速行部按照逐步行可行性究分到所有地球村保持全球和平右DAET 85万海外人包括人均收入水平的10万美元的切浸星 12北都在的停火得了南北的士士兵和合部和中部的俄斯用和民用死的包括的士士兵和受wiryeongtap因素如革命政府ohdaeyang分布在金琉璃瑙琥珀珍珠石是由捐了治要建在使用鬼 浸星 合第2的土端解机制 1北洲各方的政治立或安全的任何1外的土是受到攻的任何一方在任何候任何方征方的北洲的合的威 二北到的土各方也有的唯一的也不共同自救和相互援助以防止暴力攻以加强和持适的手段本的目的促施适的措施和相的一例子北合各方的土向地原子或被北京或京定是否采取商同意 第3 1北到的其他一的管理的土和代下的端土其他各倍今后合法可deuleogatdago在太平洋地的其他家土的管理下武危及其的和平安全了共同危程序按照各自的法合成立的目的和意有各方采取行成立于土面的感器9和小是有的域在地生突造成包括土地面使日本和中之的端宣布放所有索和利 第四 1到合方相互同意在北地的土表示在美的海和航空部的共和和共和的有乘和美利合境和接受可土的方的事人拒或破任何一家ohdaeyang形成的土地形成了由六星期到六星期就可以形成一全球ohdaeyang的形可以行例如喜拉雅山的行和藏高原整散woogong ;愚公移山和北家主要是在北地的土端互haenghamyeon的所有水域海到大大可以行大形全球手任每嫁到家的治者和土土回收我民和的治者不能要求境 附据照片 第五 1和平的共存北北到的共和和美的法被批准按照程序俄斯中日本也同通法程序批准的家所有家予以批准由城生效交 二本的建立文件的共和在北地入全球裁和主任防技活着70多年去世300年他的后代有行使的世界知及机的伯尼公第18制服建的主地位 三自由到北地涉及中朝的代表和代表陪同北洲的和平和共存大的合不提起申尤其是日本的和其公民在二中作家主司法部法院三天的行点有地震火山爆洪水和和美容怒了一系列措施以防止本的逃生和强制行的方式的文件的作者此外中政府甚至在前述不无自然害的酒和日本海面置和高句和渤海像中政府的和的世界的一格的警告如百的史水置所或十二歪曲史要求社的一我忠地行和任的情下不相信 四或更少部北地建立合根据的配置和未的和各如何通知全代表 第6 1无限期北地是可用的无是任何方通知后本的其他方的可以抑挫一年后北地的和平共存 二本以昭信守根据全代表署了 三入北地2013年2月2日的城所有各方共和表俄斯在北部的和英中日本句如的面 四洲北部在18日到螺栓的城堡留下批准同意建的每家和主要的平等地位和本署文件需要的效果立生效 北地各和平共的全代表美合指官名

民全代表署 Lee Woo Sung 中人民共和全代表名 gwongwon俄斯政府代表署 日本外省的代表名 自由需要代表中名 北全代表代表名 什的附件1附件 [통일한국 제18대 대통령 긴급조치 훈령 제5호] 등록저작권기재 70년 권리의 통일한국 제18대 대통령 이우성은 청와대 박대통령이 본인을 대신하여 그 직무를 수행함에 따라 그대의 심심한 노고에 대해 감사하면서 북한의 핵 위협에 따른 긴장 고조가 가일층 심화 된 동북아시아 지역의 긴장완화 대책을 하기 와 같이 구두로 전달한다. 긴급 조치 훈령 제1호 철의 삼각지 휴전선 한 점의 기준점을 주축으로 반경 삼천리 이내로 북한의 김일성 손자의 핵 광란에 맞대응할 수 있는 핵전쟁에 대응하는 핵보다 더 강력한 군사 대응 전략 방안을 전달하기 위해, 전 세계평화를 위해 본인의 대응전략지침을 그대의 부하직원을 부산에 급파하여 본인의 대응전략지침서를 수령하기로 한다. 긴급 조치 훈령 제2호 북한의 김일성 손자뿐만 아니라 그의 추종세력들이 군사적 권리를 포기하고 전 세계 인류가 추구하는 평화의 길로 동참하도록 1977년경 판문점 미루나무 도끼 만행 사건 때와 동등한 수준의 김일성 사과방송과 같은 수준의 성명서가 청와대에 전달되는 시점으로 항구적인 동북아시아 평화 공존 협정 조약문서 및 헌법개정안을 선포하고 비준안 국제조약 협약 각서에 국가 간의 국가 원수의 서명을 완료하기로 한다. 긴급 조치 훈령 제3호 긴급조치 훈령 제2호에 따른 사회 안정화 시책추진에 따라 국회의원 재보선 선거를 동년 8월15일 이후로 연기하기로 한다. 긴급 조치 훈령 제4호 개성공단 조업중단에 따른 그 어떠한 대응방안으로 표면적으로 절대 표출하지 않고 제2분기 재정절벽을 해소하는 본인의 대책 방안을 수령하기로 한다. 긴급 조치 훈령 제5호 혼탁한 정치 경제 문화 사회질서를 타파하고 정의 사회 구현을 이룩하기 위해 정부는 최선의 노력을 조용히 수행하기로 한다.

2013.04.09. 12시20분 통일한국 제18대 대통령 이 우성 1577-1365/02-2100-5736/1577-0606 다음은 상기 본 협정조약문서의 별첨 번역본(The following is a translation of the Appendix of this Agreement treaty document)이다. [Unified Korea Presidential Emergency Action Directive No. 18, No. 05] Copyright registration rights described 70 years of the 18th President of Yiwu unified Korea President Park Dae on behalf of my sincere gratitude for the hard work while thy depending on their duties in accordance with the deepening gailcheung the heightened tension in Northeast Asia North Korea's nuclear threat the oral delivery of local stress mitigation measures as described below. Urgent Action Directive No. 1 To deliver more powerful than a nuclear military plan strategies to respond to a nuclear war to the nuclear madness behaving grandson of Kim Il Sung of North Korea Samchully as the main reference point within a radius of a point on the demilitarized zone of the Iron Triangle, for the peace of your world the strategic guidelines to receive a response to my dispatch to London for a response strategy guidelines thy subordinates. Urgent Action Directive No. 2 Presidential statement on the same apple and broadcasting of Kim Il equivalent to circa 1977 Aspen Panmunjom Axe-level events is to join the path of peace to mankind around the world seeking the grandson of Kim Il Sung in North Korea, as well as his followers abandoned the military forces and the right declared a permanent Northeast Asian peace and co-existence agreements treaty document and the proposed amendments to the time of delivery to complete the signing of the Heads of State memorandum of agreement between the countries in bijunan international treaty. Urgent Action Directive No. 3 The acting in accordance with the community to promote stabilization measures in accordance with the Emergency Measures Directive No. 2 since August 15 the same year, the National Assembly election jaeboseon. Urgent Action Directive No. 4 The Measures of a person to receive a financial cliff to eliminate the second quarter of the surface without ever expressing any countermeasures according to the discontinued operations in Kaesong. Urgent Action Directive No. 5 To break the political, economic and social order, and culture turbidity and implementation to achieve social justice and to make every effort to silence government. 09/04/2013 12:20 unified Korea is the 18th President of dominance 1577-1365 / 02-2100-5736 / 1577-0606 동북아 신한국연방 헌법 제1부............................................................1 제1장 헌법 체제의 기초적 총강....................................6 제2장 개인과 시민의 권리와 자유..................................3 제3장 연방의 구성................................................9 제4장 동북아 신한국연방 대통령..................................16 제5장 동북아 신한국 연방 의회.................................. 21 제6장 동북아 신한국 연방 내각...................................27 제7장 사법부................................................... 30 제8장 지방자치..................................................33 제9장 연방 헌법 개정 및 국제법의 재검토.........................38 제10장 공직자 선출 위원회.......................................43 제11장 동북아 국제연합기구 창설.................................49 제2부...........................................................50 세부시행 규칙종결 및 과도적 이행 규칙...........................52 동북아 신한국연방 헌법 [시행 단기 4346 년(2013.11.22.) ][동북아 신한국 연방 헌법 제 01호, 전부 개정] 전문 동북아 신한국 연방의 영토 내에서 평화 수호 공동운명체로 형성된 다수 국가의 다민족인 수억 명으로 형성된 우리는, 하느님의 자손이자 단군의 자손들로 배달민족의 동질성을 회복해야될 남북한 재외 동포를 포함한 8500만 우리 대한국민은 조국의 민주적 평화 통일의 사명에 입각하여 세계 제2차 대전 전 후 시의 미흡한 과거사 청산의 제 문제와 정의 인도와 동포애로써 골육상잔의 6.25 동란의 참담함을 깊이 반성하고 한반도 주변 다수 국가의 다민족과 우호적 평화수호 단결을 공고히 하며 영토분쟁 당사국 간의 긴장 고조로 형성된 군비확산의 모든 사회적 폐습과 불의를 배척하고, 개인의 권리와 자유 그리고 동북아 신한국 연방 국민의 평화와 동의를 확인하고 이런저런 약육강식의 역사 바탕 위에서 긴장 완화로 형성된 군축 비확산의 신한국 연방 국가적 일체성을 보존하면서,자율과 조화를 바탕으로 자유 민주적 기본질서를 더욱 확고히 하여 권리평등과 민족자결의 보편적 원칙으로부터 출발하는 정치와 경제에 사회와 문화의 모든 영역에 있어서 각인의 기회를 균등히 하고,능력을 최고도로 발휘하는 자유와 권리에 따르는 책임과 의무를 완수하게 하여,안으로는 국민생활의 균등한 향상을 기하고 밖으로는 항구적인 동북아시아의 평화 공존과 세계평화와 인류 공영에 이바지함으로써,우리들과 우리들의 자손의 안전과 자유와 행복을 영원히 확보할 것을 두 손을 합장하여 다짐하면서 하늘만큼 땅만큼 조국에 대한 사랑과 존경심에 평화 수호의 믿음을 우리에게 전한 선조 들을 추모하면서 아날로그 문명사회에서 디지털 문명사회로 전환 형성된 집단적 안전보장을 위한 신개념의 사고력으로 형성된 동북아 신한국 연방의 안녕과 번영을 보장하는 국제 평화유지군의 통제하에서 현재와 미래의 세대 앞에 조국에 대한 책임감을 가지고,우리가 세계사회의 일원임을 인지하여 1948 년 7월 12일에 제정되고 10차에 걸쳐 개정된 헌법을 이제 평화수호 공동운명체로 형성된 다수 지방정부의회의 의결을 동시에 거쳐 국민투표에 의하여 개정 후 동북아 신한국 연방국가 창시자의 만년지 대계의 동양평화 대헌장 겸용의 고도로 발달한 동북아시아 평화공존 협정조약 문서 및 개정헌법을 채택한다. 제1부 제1장 헌법 체제의 기초적 총 강 제1조 ①동북아 신한국 연방, 즉 대한민국은 공화국 통치 형태를 가진 동북아시아 지역에서 민주 연방 법치국가이며, 동북아 신한국 연방과 대한민국이라는 명칭은 동일하게 사용한다. ②대한민국의 주권은 국민에게 있고, 모든 권력은 국민으로부터 나온다. ③국민과 모든 권력기관의 종사자는 주종 관계로 확정하여 실행한다. 제2조 ①동북아 신한국 연방, 즉 대한민국의 국민이 되는 요건은 법률로 정한다. ②국가는 법률이 정하는 바에 의하여 재외국민을 보호할 의무를 진다. ③개인의 권리와 자유는 최고의 가치를 갖는다. ④개인과 시민의 권리와 자유를 인정하고 이를 준수하며 수호하는 것은 국가의 의무이다. 제3조 ①동북아 신한국 연방의 제 민족은 신한국 연방 주권의 소유자이며 유일한 권력의 원천이다. ②국민은 직접적으로, 또는 권력기구와 지방자치 기구들을 통하여 권력을 행사한다. ③국민투표와 자유선거는 국민에 의한 최고의 직접적인 권력행사이다. ④신한국연방에서는 그 누구도 나의 동의를 취득하지 않고서는 국가권력을 탈취할 수 없으며, 권력의 탈취 또는 취득 행위는 연방법에 따라 소추된다. ⑤동북아 신한국 연방, 즉 대한민국의 영토는 한국동란격전지인 철의 삼각지 중심 지역의 동북아 1번지 기준점에서 1200KM 거리를 반경으로 구성하는 직 경 2400KM 범위 삼천리 내부 영토와 영해를 포함한 것으로 동북아 신한국 연방의 고유한 영토로 확정하고 동북아 1번지 기준점에서 반경 1200KM 범위 삼천리 내부 영토와 영해를 포함한 지역에는 살아서 70년 죽어서 그 자손들이 300년 권리를 갖는 자 종신대통령의 허락과 동의 없이는 절대로 군수 물자 일체를 생산하거나 이동과 군사 행동을 할 수 없으며 동북아 1번지 기준점에서 1200KM 거리를 반경으로 하는 동북아 3000번지 지역 내부로는 국제평화 유지군의 통제 하에 허락과 승인을 취득한 후 각 지방정부는 군사 경계 임무를 실행한다. 제4조 ①신한국연방의 주권은 연방 내의 전 영토에 미친다. ②신한국연방 헌법과 연방법들은 신한국연방 영토 내에서 최고의 상위법이다. ③신한국연방은 영토의 보전과 불가침을 절대로 보장한다. ④신한국연방의 헌법과 연방법들은 고도로 발달한 동북아시아 평화공존 협정조약 문서 및 개정 헌법을 채택하고 세계법제 정보센터에서 제공하는 세계법제 정보 그 중에서 러시아 헌법번역문을 기초로 하여 개정 사항을 반영한 후 시행한다. ⑤신한국연방은 무조건 단기간 내로 평화적인 신한국연방국가 창립을 달성하며, 자유민주적 기본질서에 입각한 평화적 정책을 수립하고 이를 추진한다. 제5조 ①신한국연방은 국제평화의 유지에 노력하고 침략적 전쟁을 부인한다. ②신한국연방의 국군은 국제평화 유지군대로 대체하여 형성하고 국가의 안전보장과 국토 방위의 신성한 의무를 수행함을 사명으로 하며,그 정치적 중립성은 준수된다. ③신한국연방은 공화국, 지방, 주, 연방직할시, 자치주, 자치 관구 들로 형성하고 이들은 동등한 권리를 가지는 연방의 주체이다. ④공화국은 자체의 헌법과 법률을 갖는다. 지방, 주, 연방직할시, 자치주, 자치구역들은 자체의 헌장과 법령을 구비한다. ⑤신한국연방의 연방체재는 국가적 일체성, 국가권력체재의 단일성, 연방권력기구들과 연방 구성주체 권력기구들 간의 관할과 권한의 구분, 연방 내 제 민족의 평등과 자결을 기초로 형성된다. ⑥연방권력기구들과의 관계에 있어서, 신한국연방의 모든 구성주체들은 상호 동등하다. 제6조 ①신한국연방의 헌법에 의하여 체결 공포된 조약과 일반적으로 승인된 국제법규는 국내법과 같은 효력을 가진다. ②신한국연방의 외국인은 국제법과 조약이 정하는 바에 의하여 그 지위가 보장된다. ③신한국연방의 시민권은 연방 법률에 따라 취득 또는 정지되며 취득사유와 상관없이 단일, 평등하다. ④신한국연방의 모든 국민은 영토 내에서 신한국연방 헌법에 규정된 모든 권리와 자유를 향유하며, 동등한 의무를 진다. ⑤신한국연방의 국민은 자신의 시민권 또는 국적변경의 권리를 박탈당하지 아니한다. 제7조 ①신한국연방의 공무원은 국민 전체에 대한 봉사자이며,국민에 대하여 책임을 진다. ②신한국연방 공무원의 신분과 정치적 중립성은 법률이 정하는 바에 의하여 보장된다. ③신한국연방은 민주 사회적 국가이며, 신한국연방의 정책은 개인의 가치 있는 삶과 자유로운 발전을 보장해주는 여건 창조를 목표로 한다. ④신한국연방에서는 국민 들의 노동과 건강이 보호되며, 최소임금이 보장되며, 가족, 모성, 부 성, 아동, 장애 자와 노령자에 대한 국가지원이 보장되며, 사회적 봉사제도가 발전 되며 국가 연금, 수당과 여타 사회적 보호가 보장된다. 제8조 ①신한국연방에서는 정당의 설립은 자유이며, 복수정당제는 보장하되, 정당인이 절대로 국회위원과 대통령이 될 수 없다. ②신한국연방에서는 정당은 그 목적 조직과 활동이 민주적이어야 하며, 국민의 정치적 의사 형성에 참여하는데 필요한 조직을 가져야 한다. ③신한국연방에서는 정당은 법률이 정하는 바에 의하여 국가의 보호를 받을 수 없으며,국가는 법률이 정하는 바에 의하여 정당 운영에 필요한 지금을 보조할 수 없고 정당은 국민의 정치적 의사형성에 참여하는 친목 단체로 설정한다. ④신한국연방에서는 정당의 목적이나 활동이 민주적 기본질서에 위배 될 때에는 정부는 헌법재판소에 그 해산을 제소할 수 있고, 정당은 헌법재판소의 심판에 의하여 해산된다. ⑤신한국연방에서는 국민에 의해 선출된 국민의 정부, 국민의 정권 이외의 용어들은 사용하되, 개인의 호칭을 정부와 정권들의 용어 선두에 기재하여 아무개 정부, 아무개 정권 용어들은 절대로 사용할 수 없다. ⑥신한국연방에서는 단일경제권, 상품, 서비스, 자본재의 자유로운 이동, 경쟁의 지원과 경제활동의 자유가 보장된다. ⑦신한국연방에서는 개인소유, 국가소유, 자치단체소유 및 여타 소유 형태가 동일하게 인정되고 보호하며 다만, 임야와 전답과 그 외의 공유지와 공유수면 군사 작전지역등은 개인소유 권리를 파기하고 제외하며 국가는 경작권리로 대체 허여하고 부동산 등기 제도를 허여하지 않는다. 제9조 ①신한국연방에서는 제 민족의 전통문화의 계승 발전과 민족문화의 창달에 노력하여야 한다. ②신한국연방에서는 토지와 그 외 천연자원은 신한국연방 내 해당지역에 거주하는 제 민족의 생활과 활동의 기반으로써 이용되고 보호된다. ③신한국연방에서는 토지와 그 외 천연자원들은 개인소유, 국가소유, 자치단체소유 및 여타 소유 형태가 될 수 있다. 제10조 ①신한국연방에서는 모든 국민은 인간으로서의 존엄과 가치를 가지며, 행복을 추구할 권리를 가진다. 국가는 개인이 가지는 불가침의 기본적 인권을 확인하고 이를 보장할 의무를 진다. ②신한국연방의 국가권력은 입법, 행정, 사법권의 분립을 기반으로 행사된다. 입법, 행정, 사법 기구들은 상호 독립이다. ③신한국연방의 국가권력을 회의 대통령, 연방의회(연방회의 및 국가회의), 신한국연방정부, 신한국 연방 사법부에 의해 행사된다. ④신한국연방을 구성하는 주체에서는 이들에 의해 구성된 권력기구들에 의해 국가권력을 수행한다. 제11조 ①신한국연방 정부와 신한국연방 구성 주체 간의 권한 배분은 본 헌법, 연방 조약 및 권한의 구분에 관한 여타 조약에 의해 이루어진다. ②신한국연방의 모든 국민과 모든 사회단체들은 법 앞에 평등하다. 누구든지 성별, 종교 또는 사회적 신분에 의하여 정치적, 경제적, 사회적, 문화적 생활의 모든 영역에 있어서 처벌을 받지 아니한다. ③신한국연방에서는 사회적 특수계급의 제도는 인정되지 아니하며, 어떠한 형태로도 이를 창설할 수 없다. 훈장 등의 영전은 이를 받은 자에게만 효력이 있고, 어떠한 특권도 부여되지 아니한다. 제12조 ①신한국연방의 모든 국민은 신체의 자유를 가지며 성년 20 세 이상이 되면 무조건 이유없이 배우자를 선택하여 결혼하도록 보장한 신한국연방 법률을 포함한,신한국연방에서는 누구든지 법률에 의하지 아니하고는 체포. 구속. 압수. 수색 또는 심문을 받지 아니하며 법률과 적합한 절차에 의하지 아니하고는 처벌. 보안처분 또는 강제 노역을 받지 아니한다. ②신한국연방에서는 지방자치가 인정되고 보장된다. 지방자치는 각 주체들의 권한 내에서 독자적으로 시행된다. 지방자치기구들은 국가권력기구 체계에 포함되지 않는다. 제13조 ①신한국연방에서는 이데 올로 기의 다양성이 허용된다. ②어떠한 이데올로기도 국가이념이나 의무적 이념으로 규정될 수 없다. ③신한국연방에서는 치적 다양성과 복수 정당이 허용된다. ④신한국연방 모든 국민은 행위 시의 법률에 의하여 범죄를 구성하지 아니하는 행위로 소추되지 아니하며, 동일한 범죄에 대하여 거듭 처벌받지 아니한다. ⑤신한국연방 모든 국민은 소급입법에 의하여 참정권의 제한을 받거나 재산권을 박탈당하지 아니한다. ⑥신한국연방의 모든 국민은 자기의 행위가 아닌 친족의 행위로 인하여 불이익한 처우를 받지 아니한다. 다만, 신한국연방 헌법체재의 기초를 변경시키거나 연방의 일체성을 파괴하는 사회단체의 창설과 활동, 국가 안보를 위해 하는 무장병력의 창설, 사회적, 인종적, 지역적 반목의 선동을 목적으로 하는 사회단체의 창설과 활동은 금지되며 이를 위반하는 혈연관계는 3대 9족이 멸하게 되어도 국가에 이의를 제기할 수 없다. 제14조 ①신한국연방은 국가종교를 갖지 않으며, 어떤 종교도 국가 종교나 의무 종교로 제정될 수 없다. ②종교단체는 국가로부터 분리되며 법 앞에 평등하다. 제15조 ①신한국연방의 헌법은 최고의 법률적 가치를 가지며, 신한국연방의 영토에 직접적인 효력을 미친다. 신한국연방에서 채택된 법률, 기타의 법령은 신한국연방의 헌법과 상치되어서는 안 된다. ②국가권력기구, 지방자치기구, 공무원, 일반시민들과 기타 단체는 신한국연방 헌법과 법률을 준수할 의무가 있다. ③모든 법률은 공표되며 공표되지 않은 법률은 효력을 갖지 못한다. 시민의 권리와 자유 및 의무에 관계되는 규범과 법령은 보편적 고지를 위해 공표되지 않으면 효력을 갖지 못한다. ④국제법상 보편적으로 인정되는 원칙과 규범 및 신한국연방이 체결한 국제조약들은 신한국연방 법률체계를 구성하는 일부분이다. 국제조약은 신한국연방 법률에 우선한다. 제16조 ①신한국연방 헌법체재의 기초적 총 강을 구성하는 본 장의 내용들은 본 헌법에 규정된 절차에 의하지 아니하고는 개정이 불가능하다. ②본 헌법의 어떤 조항도 신한국연방 헌법체계의 기초에 상치되어서는 안 된다. 제2장 개인과 시민의 권리와 자유 제17조 ①신한국연방에서는 보편적으로 인정되는 국제법상의 원칙과 규범 및 본 헌법에 의해 개인과 시민의 권리와 자유가 인정되고 보장된다. ②개인의 기본 권리와 자유는 박탈할 수 없으며 출생 때부터 모든 국민 들에게 부여된다. ③개인과 시민의 권리와 자유의 행사가 타인의 권리와 자유를 침해하는 것이어서는 안 된다. 제18조 신한국연방 개인과 시민의 권리와 자유는 직접적인 효력을 가지며, 법률의 의미, 내용 및 적용 ,입법부 및 행정부 활동, 지방자치구의 활동을 규정한다. 제19조 ①신한국연방 만인은 법과 재판 앞에 평등하며, 만인은 양심의 자유를 가지며, 개인은 주거의 자유를 침해받지 아니하며 주거에 대한 압수나 수색을 할 때에는 검사의 신청에 의하여 법관이 발부한 영장을 제시하여야 한다. ②국가는 개인의 기본 권리와 자유가 성별, 인종, 언어, 출신, 거주지, 종교, 사회단체 소속 여부 및 여타 사유에 의해 차별받지 않도록 보장한다. ③남성과 여성은 동등한 권리와 자유 및 이를 실현하기 위한 동등한 기회를 갖는다. 제20조 ①신한국연방 모든 개인은 삶의 권리를 구비하고 거주·이전의 자유를 가지며 사생활의 비밀과 자유를 침해받지 아니하며 직업선택의 자유를 가지며, 통신의 비밀을 침해받지 아니하고, 종교의 자유를 가지면서 국교는 인정되지 아니하며, 종교와 정치는 분리된다. ②사형은 사형제도가 폐지될 때까지 연방법에 따라 중대한 범죄에 대한 예외적 조치로서 제정될 수 있으며 피고인은 배심원이 참가하는 재판에서 사건의 심리를 받을 권리가 부여된다. ③모든 국민은 언론·출판의 자유와 집회·결사의 자유를 가진다. ④언론·출판에 대한 허가나 검열과 집회·결사에 대한 허가는 인정되지 아니한다. 제21조 ①신한국연방 인간의 존엄성은 국가에 의해 보호되며 그 무엇도 이를 훼손할 수 없다. ②누구도 고문, 강압, 체벌, 여타의 가혹 행위를 통해 인간의 존엄성을 훼손시켜서는 안 된다. 누구도 자발적 동의에 의하지 아니하고는 의학, 과학, 기타의 실험을 당하지아니한다. ③통신·방송의 시설기준과 신문의 기능을 보장하기 위하여 필요한 사항은 법률로 정한다. ④언론·출판은 타인의 명예나 권리 또는 공중도덕이나 사회윤리를 침해하여서는 아니 된다. ⑤언론·출판이 타인의 명예나 권리를 침해한 때에는 피해자는 이에 대한 피해의 배상을 청구할 수 있다. 제22조 ①신한국연방 모든 개인은 학문과 예술의 자유를 가지면서 저작자·발명가·과학기술자와 예술가의 권리는 법률로써 보호하고 자유와 신체 불가침권을 갖는다. ②체포, 구금 및 감금은 법원의 결정에 의해서만 허용되며, 법원의 결정이 있을 때까지 48시간 이상 구금되어서는 안 된다. 제23조 ①신한국연방 모든 개인은 사생활의 불가침, 자신과 가족의 비밀, 자기의 명예와 명성을 보호할 권리를 가지며 개인의 재산권은 보장된다. 그 내용과 한계는 법률로 정한다. ②모든 개인은 서신, 전화통화, 우편, 전신과 다른 통신 수단에 대한 비밀 권을 가지며 재산권의 행사는 공공복리에 적합하도록 하여야 한다. ③공공필요에 의한 재산권의 수용·사용 또는 이 권리의 제한은 법원의 결정에 의해서만 허용되며 그에 대한 보상은 법률로써 하되, 정당한 보상을 지급하여야 한다. 제24조 ①신한국연방 개인의 사생활에 관한 정보의 수집, 보존, 이용과 유포는 본인의 동의없이는 허용되지 않는다. ②국가기구 및 지방자치기구들과 이 기관의 책임자들은 법이 허용하는 범위 내에서 모든 개인들에게 본인의 권리와 자유에 직접 관계되는 문서와 자료를 열람할 수 있는 기회를 보장할 의무가 있다. 제25조 ①신한국연방 모든 개인은 법률이 정하는 바에 의하여 선거권과 공무담임권을 가진다. ②주거는 불가침이다. 그 누구도 연방법에 명시된 경우나 법원의 결정에 의하지 아니하고는 거주자의 의사에 반해 주거에 침범할 권리를 갖지 못한다. 제26조 ①신한국연방 모든 개인은 자신의 민족적 귀속을 결정할 권리를 소유하며, 이에 관한 결정을 강요받지 아니한다. ②모든 개인은 모국어 사용, 전달, 교육, 학습 및 창작을 위해 자유롭게 사용 언어를 선택할 권리를 갖는다. ③신한국연방 국민 들은 개인적으로 또는 집단적으로 법률이 정하는 바에 의하여 국가기관과 지방자치기관에 문서로 소청할 권리를 가지며, 국가는 소청에 대하여 심사할 의무를 진다. 제27조 ①신한국연방 모든 개인은 헌법과 법률이 정한 법관에 의하여 법률에 의한 재판을 받을 권리를 가진다. ②군인 또는 군무원이 아닌 국민은 대한민국의 영역 안에서는 중대한 군사상 기밀·초병·초소·유독음식물공급· 포로·군용 물에 관한 죄 중 법률이 정한 경우와 비상계엄이 선포된 경우를 제외하고는 군사법원의 재판을 받지 아니한다. ③모든 개인은 신속한 재판을 받을 권리를 가진다. 형사피고인은 상당한 이유가 없는 한 지체 없이 공개재판을 받을 권리를 가진다. ④형사피고인은 유죄의 판결이 확정될 때까지는 무죄로 추정된다. ⑤형사피해자는 법률이 정하는 바에 의하여 당해 사건의 재판절차에서 진술할 수 있다. ⑥형사피의자 또는 형사피고인으로서 구금되었던 자가 법률이 정하는 불기소 처분을 받거나 무죄판결을 받은 때에는 법률이 정하는 바에 의하여 국가에 정당한 보상을 청구할 수 있다. 제28조 ①신한국연방 영토 내에서 합법적으로 거주하는 모든 개인들은 자유로운 이전이 보장되며 체류 및 거주의 장소를 선택할 권리를 갖는다. ②모든 개인들은 신한국연방 영토의 국경을 넘어 자유로이 다닐 수 있으며, 신한국연방 국민 들은 신한국연방으로 자유로이 귀환할 수 있는 권리를 갖는다. ③모든 개인들에게는 양심의 자유와, 종교의 자유, 인즉, 개인적으로 원하는 종교를 신봉할 권리 또는 어떤 종교도 신봉하지 않을 권리, 종교 이외의 여타의 신념을 자유롭게 선택, 신봉, 전파할 수 있는 권리가 보장된다. 제29조 ①신한국연방 모든 개인들에게는 사상과 표현의 자유가 보장된다. ②사회적, 인종적, 종교적 반목을 야기하는 선전 또는 선동은 허용되지 않으며 사회적, 인종적, 종교적 또는 언어 우월성에 대한 선전은 허용되지 않는다. ③누구도 개인의 사상과 신념의 표현 또는 이를 버릴 것을 강요 억제를 당하지 않는다. ④모든 개인들은 합법적인 방법으로 자유로이 정보를 획득, 생산, 전파할 수 있는 권리를 가진다. 국가의 기밀로 분류되는 정보의 목록은 연방법에 의해 정해진다. ⑤신한국연방 영토 내에서 보도의 자유는 보장되며 검열은 금지된다. 제30조 ①모든 개인은 자신의 이해를 보호하기 위한 결사의 권리를 가진다. 사회 활동의 자유는 보장된다. ②누구도 사회단체에의 가입 또는 탈퇴를 강요당하지 않는다. ③공무원의 직무상 불법행위로 손해를 받은 국민은 법률이 정하는 바에 의하여 국가 또는 공공단체에 정당한 배상을 청구할 수 있다. 이 경우 공무원 자신의 책임은 면제되지 아니한다. ④군인·군무원·경찰공무원 기타 법률이 정하는 자가 전투·훈련 등 직무집행과 관련하여 받은 손해에 대하여는 법률이 정하는 보상 외에 국가 또는 공공단체에 공무원의 직무상 불법행위로 인한 배상은 청구할 수 없다. ⑤타인의 범죄행위로 인하여 생명·신체에 대한 피해를 받은 국민은 법률이 정하는 바에 의하여 국가로부터 구조를 받을 수 있다. 제31조 ①신한국연방 국민 들은 인마살상용 일체의 무기를 갖지 않고 평화롭게 집회, 시위 행동 및 피켓 행위를 할 권리를 가지며. 이를 위반하는 국민과 혈연관계는 3대 9족이 멸하게 되어도 국가에 이의를 제기할 수 없다. ②모든 개인은 능력에 따라 균등하게 교육을 받을 권리를 가진다. 그 보호하는 자녀에게 적어도 고등교육과 법률이 정하는 교육을 받게 할 의무를 진다. ③의무교육은 무상으로 한다. ④교육의 자주성·전문성·정치적 중립성 및 대학의 자율성은 법률이 정하는 바에 의하여 보장된다. ⑤국가는 평생교육을 진흥하여야 한다. ⑥학교교육 및 평생교육을 포함한 교육제도와 그 운영, 교육재정 및 교원의 지위에 관한 기본적인 사항은 법률로 정한다. 제32조 ①신한국연방 국민 들은 대표자를 통해 혹은 직접적으로 국정에 참여할 권리가 있다. ②신한국연방 국민 들은 국가기구와 지방자치기구에 대한 선거권과 피선거권을 가지며 국민투표에 참가할 권리가 있다. ③신한국연방 국민 들은 법원의 판결에 따라 자유가 제한되거나 무능력자로 선고된 국민 들 에게는 선거에 참여할 의무가 주어지지 않는다. ④신한국연방 국민 들은 공무에 참여할 수 있는 동등한 권리를 갖는다. ⑤신한국연방 국민 들은 재판에 참여할 권리를 갖는다. 제33조 ①신한국연방의 근로자는 근로조건의 향상을 위하여 자주적인 단결권·단체교섭권 및 단체행동권을 가진다. ②신한국연방의 공무원인 근로자는 법률이 정하는 자에 한하여 단결권·단체교섭권 및 단체행동권을 가진다. ③신한국연방의 법률이 정하는 주요방위산업체에 종사하는 근로자의 단체행동권은 법률이 정하는 바에 의하여 이를 제한하거나 인정하지 아니할 수 있다. ④신한국연방 국민 들은 근로의 권리를 가진다. 국가는 사회적·경제적 방법으로 근로자의 고용의 증진과 적정임금의 보장에 노력하여야 하며, 법률이 정하는 바에 의하여 최저임금제를 시행하여야 한다. ⑤신한국연방 국민 들은 근로의 의무를 진다. 국가는 근로의 의무의 내용과 조건을 민주주의원칙에 따라 법률로 정한다. ⑥신한국연방 국민 들은 근로조건의 기준은 인간의 존엄성을 보장하도록 법률로 정한다. ⑦신한국연방 국민 들은 여자의 근로는 특별한 보호를 받으며, 고용·임금 및 근로조건에 있어서 부당한 차별을 받지 아니한다. ⑧신한국연방 국민 들은 연소자의 근로는 특별한 보호를 받는다. ⑨신한국연방 국민 들은 국가유공자·상이군경 및 전몰군경의 유가족은 법률이 정하는 바에 의하여 우선적으로 근로의 기회를 부여받는다. 제34조 ①신한국연방 국민 들은 인간다운 생활을 할 권리를 가진다. ②신한국연방 국가는 사회보장·사회복지의 증진에 노력할 의무를 진다. ③신한국연방 국가는 여자의 복지와 권익의 향상을 위하여 노력하여야 한다. ④신한국연방 국가는 노인과 청소년의 복지향상을 위한 정책을 실시할 의무를 진다. ⑤신한국연방 국가의 신체 장애 자 및 질병·노령 기타의 사유로 생활능력이 없는 국민은 법률이 정하는 바에 의하여 국가의 보호를 받는다. ⑥신한국연방 국가는 재해를 예방하고 그 위험으로부터 국민을 보호하기 위하여 노력하여야 한다. ⑦모든 개인들은 법으로 금지되어 있지 않은 경제활동이나 기업 활동을 위해 자신의 재산과 능력을 이용할 권리를 갖는다. ⑧모든 개인들에게는 불공정한 경쟁이나 독점을 위한 경제활동은 허용되지 않는다. 제35조 ①신한국연방 국가의 모든 개인들은 건강하고 쾌적한 환경에서 생활할 권리를 가지며,국가와 국민은 환경보전을 위하여 노력하여야 한다. ②신한국연방 국가의 환경권의 내용과 행사에 관하여는 법률로 정한다. ③국가는 주택 개발 정책 등을 통하여 모든 국민이 쾌적한 주거생활을 할 수 있도록 노력하여야 한다. ④신한국연방 국가의 사유재산권은 법률로 보장된다. ⑤신한국연방 국가의 모든 개인들은 단독으로 또는 타인과 공동으로 재산을 점유, 처리, 사용할 수 있는 권리를 갖는다. ⑥신한국연방 국가의 누구도 법원의 판결에 의하지 아니하고는 자기의 재산을 몰수당하지 아니한다. 국가의 필요에 따른 재산의 강제수용은 사전에 동등한 보상을 하는 조건하에서 행해질 수 있다. ⑦신한국연방 국가의 재산 상속권은 보장된다. 제36조 ①신한국연방 국가의 혼인과 가족생활은 개인의 존엄과 양성의 평등을 기초로 성립되고 유지되어야 하며, 국가는 이를 보장한다. ②신한국연방 국가는 모성의 보호를 위하여 노력하여야 한다. ③신한국연방 국가의 모든 국민은 보건에 관하여 국가의 보호를 받는다. ④신한국연방 국가의 개인이나 단체는 토지를 사유화할 권리를 갖는다. ⑤신한국연방 국가의 환경을 훼손하지 않고 타인의 권리 및 적법한 이익을 침해하지 않는 한, 자연자원이나 토지의 사용과 처분은 자유롭게 행할 수 있다. ⑥신한국연방 국가의 토지의 이용조건과 절차는 연방법에 따라 정해진다. 제37조 ①신한국연방 국가에서는 국민의 자유와 권리는 헌법에 열거되지 아니한 이유로 경시되지 아니한다. ②국민의 모든 자유와 권리는 국가안전보장·질서유지 또는 공공복리를 위하여 필요한 경우에 한하여 법률로써 제한할 수 있으며, 제한하는 경우에도 자유와 권리의 본질적 인내용을 침해할 수 없다. ③자유로운 노동은 보장된다. 모든 개인들은 자신의 노동능력을 자유롭게 활용하며 직업과 노동을 자유롭게 선택할 수 있는 권리를 갖는다. ④강제노동은 금지된다. ⑤모든 개인들은 안전하고도,위험을 배제한 작업장의 보장된 조건하에 노동하며 일체의 차별 없이 연방법이 정한 최소 임금보다 적지 않은 임금을 받을 권리와 실업으로부터 보호받을 권리를 갖는다. ⑥파업을 포함하여 연방법으로 정해진 개인적, 집단적 쟁의는 허용된다. ⑦모든 개인들은 휴양을 취할 권리를 가진다. 노동계약에 따라 일하는 근로자들에게는 연방법에 의해 정해진 근로시간, 휴일, 경축휴일과 연가가 보장된다. 제38조 ①신한국연방 국가에서는 모자와 가족은 국가의 보호를 받는다. ②아동에 대한 보호와 양육은 양친의 동등한 권리이며 의무이다. ③만18세에 달한 취로 능력자는 노동력이 없는 부모를 공양해야 한다. 제39조 ①신한국연방 국가의 모든 개인들에게는 노령, 질병, 신체장애, 부양자의 사망과 아동의 양육에 대해 법에 정해진 바에 따라 사회적 보장이 허용된다. ②국가연금과 사회적 수당은 법에 의해 정해진다. ③자발적인 사회적 보험이나 자선사업 또는 사회보장의 보충을 위한 형태의 창출은 권장된다. 제40조 ①신한국연방 국가의 모든 개인들은 주거의 권리를 갖는다. 누구도 부당하게 주거의 권리를 박탈할 수 없다. ②주거의 권리를 보장하기 위해 국가기관이나 지방자치기관의 주택건설은 권장된다. ③극빈자, 법으로 정해진 시민, 주거가 여의치 않은 개인들에게는 법이 정하는 기준에 따라 국가, 지방자치단체, 기타 주택자산에서 무상으로 또는 저렴한 임대료로 주택이 제공될 수 있다. 제41조 ①신한국연방 국가의 모든 개인들은 건강의 보호와 진료를 받을 권리가 있다. 국가기관이나 지방자치단체의 의료보호는 국민에게 무료로 시행되며 관련 비용은 국가 예산,보험료 납입, 기타의 자금에 의해 충당된다. ②신한국연방에서는 국가, 지방자치단체와 민간의 보건제도를 발전시키는 조치가 강구되며, 개인의 건강보호, 신체문화 발전, 스포츠 생태학 전염병 예방을 위한 활동이 권장된다. ③개인의 건강과 생명을 위협하는 행위와 이러한 사실을 은닉하는 행위에 대하여는 연방법에 따라 책임을 묻는다. 제42조 신한국연방 모든 개인들은 환경에 대한 정보를 제공받고 좋은 환경에서 살 권리를 가지며 환경상의 위법행위로 인하여 발생한 재산이나 건강상 손실에 대하여는 배상을 청구할 권리를 갖는다. 제43조 ①신한국연방 국가의 모든 개인들은 교육을 받을 권리를 갖는다. ②국가가 지방자치단체의 보통교육 시설과 기업체에 있어서 학령전 교육, 초등교육,중등직업교육은 누구든지 무상으로 받을 권리를 가진다. ③모든 개인들은 경쟁에 의한 선발을 통해 국가나 지방자치단체, 기업들에 의해 행해지는 고등교육을 무상으로 받을 권리가 있다. ④기초 보통교육은 의무이다. 부모나 부모를 대리하는 사람은 자식이 기초 보통교육을 받을 수 있도록 보장하여야 한다. ⑤신한국 연방은 국가교육 수준을 정하여 여러 형태의 교육을 지원한다. 제44조 ①신한국연방 국가의 모든 개인들에게 문학, 미술, 과학, 기술 등 모든 형태의 창작활동과 교수의 자유가 보장된다.지적 소유 권들은 법에 의하여 보호된다. ②모든 개인들은 문화적인 생활에 참여하고, 문화시설을 이용하고 문화적 유산에 접근할 수 있는 권리를 가진다. ③모든 개인들은 역사적, 문화적 유산을 보호해야 하며 역사 및 문화적 기념물을 보존할 의무를 갖는다. 제45조 ①신한국연방 국가의 모든 개인들은 개인의 자유와 권리에 대한 국가의 보호가 보장된다. ②모든 국민 들은, 법이 제한하지 않는 한, 자신의 권리와 자유를 보호할 권리를 갖는다. 제46조 ①신한국연방 국가의 모든 개인들은 개인의 권리와 자유에 대한 사법적 보호가 보장된다. ②국가기관, 지방자치단체, 시민단체, 공무원의 결정이나 행위는 법원에 제소될 수 있다. ③모든 개인들은 개인의 권리에 대한 신한국연방의 국내적 보호수단이 없을 경우, 신한국 연방이 체결한 국제조약에 의거하여 개인의 권리와 자유의 보호를 국제기구에 제소할 권리를 갖는다. 제47조 ①신한국연방 국가의 모든 개인들은 누구도 법원과 법관에 의해 재판받을 권리를 박탈당하지 아니한다. ②범죄 피의자는 연방법이 규정하는 경우, 배심원의 참여 속에 재판을 받을 권리를 갖는다. 제48조 ①신한국연방 국가의 모든 개인들은 사법적인 도움을 받을 권리를 보장받는다. 법에 규정된 경우, 법적인 보호는 무료로 제공받을 수 있다. ②체포 또는 구금된 모든 피의자들은 체포 또는 구금된 시점부터 변호인의 도움을 청할 권리를 갖는다. 제49조 ①신한국연방 국가의 모든 개인들은 범죄행위로 인해 기소된 모든 개인들은 법원의 판결을 통해 유죄가 인정될 때까지는 무죄로 간주 된다. ②피의자 및 피고인은 자신의 무죄를 입증할 의무가 없다. ③피의자에 대한 불확실한 협의는 피의자에게 유리하게 해석한다. 제50조 ①누구도 동일 범죄에 대해 중복하여 판결을 받지 아니한다. ②연방법을 위반하여 획득한 증거는 재판과정에서 이용할 수 없다. ③형을 선고받는 모든 사람들은 연방법의 규정에 따라 상급 법원에 하소 할 권리가 있으면 특사나 형의 경감을 신청할 권리를 갖는다. 제51조 ①신한국연방 국가의 모든 개인들은 누구도 본인이나 본인의 배우자, 연방법에 의해 그 범위가 정해진 가까운 친척들에 대해 불리한 증언을 할 의무가 없다. ②연방법은 증언의무로부터의 면제에 대해 예외적인 규정을 할 수 있다. 제52조 신한국연방 국가의 모든 개인들은 범행이나 직권남용으로 인해 피해를 입은 자의 권리는 법으로 보호된다. 국가는 이러한 손실에 대한 보상이나 재판을 보장한다. 제53조 신한국연방 국가의 모든 개인들은 국가기관이나 공무원들이 불법행위로 인해 손해를 입은 경우 모든 개인들은 국가로부터 배상을 받을 권리를 갖는다. 제54조 ①신한국연방 국가의 모든 개인들은 책임을 확정하거나 이를 강화하는 법은 소급 효력을 갖지 못한다. ②누구도 행위의 시점에서 위법사실이 증명되지 않는 행위에 대해서는 책임을 지 지 않는다.위법행위를 한 경우 그에 대한 책임의 경감이나 면제는 새로운 법에 따른다. 제55조 ①신한국연방 국가의 모든 개인들은 신한국 연방 헌법에 열거된 기본적인 권리와 자유가 다른 일반적인 개인의 권리와 자유를 축소 또는 부인하는 것으로 해석되어서는 안 된다. ②신한국연방 내에서는 개인의 권리와 자유를 축소하거나 파기하는 법이 제정되어서는 안 된다. ③개인의 권리와 자유는 헌법 체제, 윤리, 타인의 권리와 법적 이해, 국가와 정부의 안전을 보호하기 위해 불가피한 경우에만 연방법에 의해 제한할 수 있다. 제56조 ①신한국연방 국가의 모든 개인들은 국민의 안전보장 및 헌법제도의 수호를 위해 비상사태 하에서는 연방헌법 법률에 의해 일정기간과 범위를 명시하여 개인의 권리와 자유를 제한할 수 있다. ②신한국연방의 모든 영토 및 개별지역에 대한 비상사태 선포는 연방헌법 법률이 정한 절차에 따라 이루어진다. ③신한국연방 헌법 제20조, 제21조, 제22조, 제23조, 제24조, 제28조, 제34조, 제40조, 제46조 ~ 제54조에 규정된 권리와 자유는 제한할 수 없다. 제57조 신한국연방 국가의 모든 개인들은 법에 규정된 세금을 납부해야 한다. 납세자의 부담을 확대하거나 새로운 조세를 규정한 법은 소급 효력을 갖지 않는다. 제58조 신한국연방 국가의 모든 사람들은 자연, 주변 환경과 천연자원을 보호할 의무를 갖는다. 제59조 ①신한국연방 국가의 모든 개인들은 조국수호는 신한국연방 국민의 본분이며 의무이다. ②신한국연방 국민은 러시아 연방법에 따라 병역의 의무를 완수해야 한다. ③신한국 연방 국민 들은 본인의 신앙이나 종교가 군복무 이행과 상치하는 경우, 법이 정하는 바에 따라 여타 복무를 대신 선택할 수 있다. 제60조 신한국연방 국가의 모든 국민 들은 18세부터 자기의 권리와 의무를 독자적으로 행사할 수 있다. 제61조 ①신한국연방 국가의 모든 국민 들은 신한국 연방 경계 외로 추방되거나 또는 외국에 인도되지 아니한다. ②신한국연방은 그 경계 외에서도 자기의 국민에 대한 보호를 보장한다. 제62조 ①신한국연방 국가의 모든 국민은 연방법과 신한국연방이 체결한 국제조약에 따라 외국 국적을 가질 수 있다. ②신한국연방 국민은 외국국적을 취득해도 연방법이나 신한국연방이 체결한 국제조약에 의해 특 별이 규정되지 않는 한 신한국연방 시민으로서의 의무나 권리가 경감되거나 면제되지 않는다. ③외국 시민이나 무국적자도 연방법이나 신한국연방이 체결한 국제조약이 규정하는 경우를 제외하고는 신한국연방 시민과 동등한 권리와 자유를 향유하며 의무를 진다. 제63조 ①신한국연방 국가의 모든 시민들은 국제법 원칙에 따라 외국시민과 무국적자에 대해 정치적 망명을 제공할 수 있다. ②신한국연방에서는 자신의 정치적 신조를 위해 신한국연방법에 의해 범죄로 인정되지 않는 행동으로 박해를 받은 인사를 타국에 양도하지 않는다. 범죄 행위자에 대한 인도는 신한국연방법과 신한국연방이 체결한 국제 조약에 의거하여 이루어진다. 제64조 신한국연방 국가의 모든 개인들은 본 장의 규정은 신한국연방에서의 개인의 법적지위에 관한 기본규정이며, 이는 현 헌법에 규정된 절차에 의하지 않고서는 변경되지 않는다. 제3장 연방의 구성 제65조 ①신한국연방은 다음과 같은 신한국 연방주체(主體)(역주: 신한국연방을 구성하는 행정구역 단위로 공화국, 지방, 주, 자치구 등을 일컬음)들로 구성된다. 일본국 일부분, 중화인민 공화국 일부분과 러시아 연방 일부분에 북조선 인민 공화국과 남조선민주공화국들로 구비되어 대한민국, 즉, 신한국연방 국가가 이루어지며,대한민국헌법 일본국의 타 네 쿠 시 마 지방, 큐 우슈 우 지방, 후 구 지마 하라 데 시 마 지방, 시 코 쿠 지방, 하네다 시 마 지방, 혼슈우 지방, 혼 고 구 지방 등의 일부분,중화인민 공화국의 장수 성, 안 후 이 성, 허난성, 산둥성, 싱허 베 이 성, 베이징 성, 라 오 링 성, 지린성, 헤이룽장성, 수 허 바 타르 성, 일부분과 러시아 연방의 프 리 모리 예 지방(연해지방) 일부분들로 구성되었다. 연방 적 의의를 갖는 시(市). ②새로운 구성주체의 신한국연방 가입과 지위 부여는 신한국연방 헌법규정에 의한 절차에 따라 이루어진다. 제66조 ①공화국의 지위는 신한국연방 헌법과 공화국 헌법에 의해 규정된다. ②지방, 주, 연방직할시, 자치주, 자치구역의 지위는 신한국연방 헌법 및 각 주체의 헌장에 의해 규정된다. ③자치주와 자치구역 입법, 행정기관의 위임에 의해 자치주와 자치구역에 관한 연방법이 채택될 수 있다. ④자치구역과 주의 관계는 연방 법률 및 지방정부기구 간의 협약에 의해 조정될 수 있다. ⑤신한국연방 구성주체의 지위는 연방 헌법절차에 따라 연방과 구성 주체 간의 상호합의에 의해 변경할 수 있다. 제67조 ①신한국연방 영토는 내해, 영해, 영공을 포함한다. ②신한국연방은 연방법률 및 국제법에 정해진 절차에 따라 신한국연방의 대륙붕과 경제 수역에 대한 주권을 가지며 관할권을 행사한다. ③신한국연방 구성 주체 간의 경계선은 상호합의에 따라 변경될 수 있다. ④동북아 신한국 연방, 즉 대한민국의 영토는 한국동란격전지인 철의 삼각지 중심 지역의 동북아 1번지 기준점에서 1200KM 거리를 반경으로 하는 직 경 2400KM 범위 삼천리 내부 영토와 영해를 포함한 것으로 동북아 신한국 연방의 고유한 영토로 확정하고 동북아 1번지 기준점에서 반경 1200KM 범위 삼천리 내부 영토와 영해를 포함한 지역에는 살아서 70년 죽어서 그 자손들이 300년 권리를 갖는 자 종신 대통령의 허락과 동의 없이는 절대로 군수 물자 일체를 생산하거나 이동과 군사 행동을 할 수 없으며 동북아 1번지 기준점에서 1200KM 거리를 반경으로 하는 동북아 3000번지 지역 내부로는 국제평화 유지군의 통제 하에 허락과 승인을 취득 한 후 각 지방정부는 군사 경계 임무를 실행한다. 제68조 ①신한국연방의 국어는 한글이 주된 것이며 중국어와 일본어에 러시아로 번역어이다. ②공화국은 자체사용언어를 설정할 권리가 있다. 공화국의 자치 기구에서는 한글본문과 함께 자체언어를 사용할 수 있다. ③신한국연방은 모국어의 보존, 학습, 발전을 위한 제 조건의 정비를 모든 민족에 보장한다. 제69조 신한국연방은 보편적으로 인정되는 국제법 규범과 신한국연방이 체결한 국제조약에 의해 소수민족의 권리를 보장한다. 제70조 ①신한국연방의 국기, 문장과 국가의 공식적 사용절차는 연방헌법 법률에 의해 규정된다. ②신한국연방의 수도는 철의 삼각지 휴전 원이다. 수도의 지위는 연방법에 의해 규정된다. ③신한국연방의 수도는 새 서울로 호칭하고 연방정부 청사는 청담 대라 칭한다. ④신한국연방의 국기, 문장과 국가의 공식적인 국호 사용절차는 향후 500년 간격으로 지방 정부 국민의 권리와 자유의 조정 및 보호와 소수민족 권리의 조정과 보호정책들이 고도로 발달한 지방 정부에게 우선권이 주어지며, 번갈아 가면서 사용된다. 제71조 신한국연방 정부는 다음 사항을 관할한다. 1. 신한국연방 헌법과 법률의 채택, 개정, 준수에 대한 감독. 2. 연방체제 및 신한국 연방 영토. 3. 국민의 권리와 자유의 조정 및 보호 : 신한국연방 시민권 : 소수민족 권리의 조정과 보호. 4. 연방 입법, 행정, 사법기구의 조직과 활동절차 수립 : 연방기구 조성. 5. 연방 재산관리. 6. 정치, 경제, 환경, 사회, 문화 분야와 신한국 연방의 발전에 관한 연방차원의 정책과 프로그램 수립. 7. 단일시장의 법적 기초 확립 : 금융, 회화, 신용, 관세정책, 통화발행, 가격정책 수립 :연방은행을 포함한 연방 경제기구. 8. 연방 예산 : 연방 세금의 징수 : 지역발전을 위한 연방 기금. 9. 연방 에너지 시스템, 핵에너지와 그에 관련된 물질 : 연방수송, 정보, 통신 : 우주에서의 활동. 10. 대외정책, 신한국연방의 국제관계, 신한국연방의 국제협약 체결, 전쟁과 평화에 관한 문제. 11. 신한국연방의 대외경제 관계. 12. 국방, 안보 : 방위산업 : 무기, 탄약, 군사장비, 기타 군수물자 판매 및 구입에 관한 절차의 결정 : 유독물질, 마취 수단의 생산 및 사용에 관한 절차. 13. 신한국연방의 국경, 영해, 영공, 경제수역 및 대륙붕의 획정과 보호. 14. 재판제도 : 검찰 : 형사, 형사소송, 형사 집행법 : 사면, 민사, 민사소송 : 지적소유 권의 법률적 조정. 15. 연방 분쟁 방지법. 16. 기상연구 업무, 표준, 도량형에 관한 업무, 미터법, 시간계산 : 측지학 및 지도제작: 지형 물 명칭 : 공식통계 및 회계 계산. 17. 신한국연방 국가 포상 및 명예 호칭. 18. 연방 국가 업무. 제72조 ①신한국 연방과 신한국연방의 구성주체가 공동으로 관할하는 사항은 다음과 같다. 공화국 헌법 및 법률과 연방직할시, 자치주, 자치구역의 법률과 연방 헌법 및 법률과의 조화 보장 개인의 권리와 자유보호 : 소수민족의 권리 보호 : 법질서와 안정의 보장 : 국경지역정책토지, 물 및 기타 자원 자원의 점유, 사용 및 처분에 관한 사항 국가소유의 한계 설정. 자연이용 : 환경보호 및 생태계 안정보장 : 특별자연보호 구역 : 역사, 문화적 기념비 보호 교육, 과학, 문화, 체육, 스포츠 문제에 관한 사항 전반. 재난, 천연재해, 전염병의 예방과 퇴치 가정과 아동 보호에 관한 문제 조정. 신한국연방에 있어서의 조세 부과의 징수에 관한 원칙 수립 행정, 행정소송, 노동, 가정, 주거, 토지, 물, 산림에 관한 법, 토지와 천연자원, 환경보호관련법. 사법부와 법질서 수호기구 인원 : 변호사, 공증인제도 소수민족사회의 전통 생활양식 보호 연방기구와 지방관청의 조직 체계에 관한 원칙 확립 신한국연방 구성주체의 대외교류와 대외경제 관계조정, 신한국연방이 체결한 국제조약이행 ②본 조항은 공화국, 지방, 주, 연방직할시, 자치주, 자치 구역에 동등하게 적용된다. 제73조 신한국연방과 신한국연방 주체의 공동 관할 대상 업무에 있어서 신한국연방 전권의 관 할 사항 이외에는 신한국연방 주체가 관할권을 행사한다. 제74조 ①신한국 연방 영토에서는 관세구역 설정, 세금, 수수료 징수와 같이 상품, 용역 및 자본재의 자유거래를 방해하는 수단은 허용되지 않는다. ②국가안보, 시민의 생명과 건강보호, 자연, 문화재 보호를 위해 필요한 경우에는 연방 법률에 의해 상품과 용역거래에 관한 제한을 할 수 있다. 제75조 ①신한국연방의 화폐단위는 국제 통화화폐단위의 원 불이다. 화폐발행은 신한국연방 중앙은행에 의해 독점적으로 행해진다. 신한국 연방에서는 다른 화폐의 유통은 허용되지 않는다. ②원불 화폐의 가치 보장과 보호는 신한국 중앙은행의 기본업무이다. 중앙은행은 다른 정부기관과 독립적으로 업무를 수행한다. ③연방 예산과 관련된 조세제도와 세금 징수에 관한 일반원칙은 연방 법률에 의해 규정된다. ④국채는 연방 법률에 따라 발행되며 자유의사에 의해 인수된다. 제76조 ①신한국연방의 관할 사항에 대하여는 신한국연방 전 영토에서 적용되는 연방헌법 법률과 연방 법률이 채택된다. ②신한국연방과 신한국연방 주체의 공동 관할사항에 대해서는 연방 법률과 그에 따라 채택되는 신한국연방 구성주체의 법률이 공포된다. ③연방 법률은 연방헌법 법률에 상치되어서는 안 된다. ④신한국연방의 관할 사항과 신한국연방 및 신한국연방 주체의 공동관할사항 이외의 업무에 대해 공화국(지방, 주), 연방직할시, 자치주, 자치구역은 관련 법령 채택 등 독자적 법률 조정권을 행사한다. ⑤신한국연방 주체가 채택하는 법률과 기타 규범적 행위는 본조 1항과 2항에 의해 채택되는 연방 법률에 상치되어서는 안 된다. 신한국 연방에서 연방법과 여타 규범 행위가 대립하는 경우 연방법이 우선한다. ⑥연방법과 본 조항 제4조에 의해 채택된 신한국연방 주체의 법령이 대립하는 경우에는 신한국 연방 구성주체의 법령이 적용된다. 제77조 ①공화국, 지방, 주, 연방직할시, 자치주, 자치구역의 국가 기구체계는 신한국연방 구성주체가 신한국 헌법체계에 근거하여 독자적으로 수립한다. ②신한국연방 관할 업무, 신한국연방과 신한국연방 구성주체가 공동으로 관할하는 업무에 대해 신한국연방 구성주체의 행정기구와 연방 행정기구는 단일한 행정체계를 형성한다. 제78조 ①연방 행정기구는 관할 업무를 수행하기 위해 지방에 기구를 설치할 수 있으며 관계 공무원을 임명할 수 있다. ②연방 행정기구는 지방 행정기구의 동의를 받아 신한국연방 헌법 및 법률에 저촉되지 않는 범위 내에서 권한의 일부 행사를 지방 행정기구에 위임할 수 있다. ③신한국연방 구성주체의 행정기구는 연방 행정기구와의 합의에 의해 자기 권한의 일부를 연방 행정기구에 위임할 수 있다. ④신한국연방의 대통령과 연방 정부는 신한국연방 전 영토에서 신한국연방 헌법에 의한 연방 정부기구의 권력행사를 보장한다. 제79조 신한국연방은 개인의 자유와 권리를 구속하지 않고 신한국연방 헌법체계에 반하지 않을 경우 국가 간 연합에 참여하여 권한의 일부를 국가 간 연합에 위임할 수 있다. 제4장 신한국연방 대통령 제80조 ①신한국연방 대통령은 국가의 원수이다. ②신한국연방 대통령은 신한국연방 헌법 및 국민의 권리와 자유의 수호자이다. 대통령은 신한국연방 헌법이 정한 절차에 따라 신한국연방의 주권, 독립과 국가적 일체성을 지키기 위한 조치를 강구하면 국가기구들의 균형 있는 기능과 협력을 관장한다. ③신한국연방 대통령은 신한국연방의 헌법 및 연방법에 따라 대내외 정책의 기본방향을 설정한다. ④신한국연방 대통령은 국가원수로서 국내외에 신한국연방을 대표한다. 제81조 ①신한국연방 대통령은 보통 평등 및 직접 선거권에 기초하여 비밀 투표로 신한국연방 국민이 6년 임기로 선출한다. 반드시 공직자 선출 위원회의 각각의 대통령 후보자 추천에 따라 그에 준하여 선출한다. ②신한국연방에 10년 이상 계속 거주하고 있는 신한국연방 국민은 신한국연방 대통령으로 선출될 수 있다. ③신한국연방에서 동일인은 신한국연방 대통령직을 2회 이상 연임할 수 없다. ④신한국연방 대통령 선거 절차는 연방 법률로 정한다. ⑤국민과 대통령은 주종 관계로 이루어짐을 상호 인지한다. ⑥신한국연방대통령은 국가의 표상으로 지도자 권내에 속하는 인물들을 항시 대기하도록 공직자 선출 위원회에서는 교육청과 협의하여 유소년기의 행동발달 상황 채점표를 취합하여 국민에게 연차적으로 보고한다. ⑦신한국연방대통령은 반드시 하늘만큼 땅 만큼 애국애족의 투철한 신념의 보유자를 정규직 출신 공직자 사회 인물로 국가는 선택하여야하고 별정직 공무원 제도하의 출신자는 제외한다. ⑧신한국연방 대통령은 임기 중 내란음모사건, 소요사태, 자연재해 사전예방대책 미흡 경제 난국 극복 등의 성과 부족일 경우에는 후임자에게 그 직을 이양하고 자진 사임한다. ⑨신한국연방 대통령은 봉급을 받지 않는 명예직으로 그 직의 임기 중 예우와 처우에 대해 국가는 절대로 보장하고, 대통령 이하 고급 관료들도 마찬가지로 명예직으로 처분하여 성과급여 제도를 시행하며 9,000 조에 달하는 국가 외채를 신속하게 지 불 처리하기 위해 하위직과 고위직 공직자 임금을 일정량의 금액으로 동결하며 국민 들로부터 세금을 징수하지 않고도 국정 운영을 할 수 있는 체재인즉, 국민 행복지수가 상승하면 그에 따른 예우와 처우가 상승할 수 있으며, 국민 행복지수가 하강하면 그에 따른 예우와 처우가 추락 될 수 있는 공직자사회체재로 다음과 같이 전환 형성한다. 1.신한국연방에서는 제1항의 선거에 있어서 최고 득표자가 2인 이상인 때에는 의회 재적 의원 과반수가 출석한 공개회의에서 다수표를 얻은 자를 당선자로 하며 낙선자는 부통령으로 임명하여 차기 대통령의 그 직무 수업을 계승하며 부통령은 2인으로 하되,그 중 1인은 정치담당 다른 1인은 경제 담당으로 구성한다. 2.신한국연방 대통령후보자가 1인일 때에는 그 득표수가 선거권자 총수의 3분의 1 이상이 아니면 대통령으로 당선될 수 없으며 대통령후보자는 공직자 선출위원회에 6년간의 국가방위백서와 국가 경제 발전 정책안을 제출한 자로 자격 심의를 통과한자로 선정하며 절대로 사비를 이용해 대통령이 될 수 없다. 3.신한국연방 대통령으로 선거 될 수 있는 자는 국회의원의 피선거권이 있고 선거일 현재 38 세에 도달하여야 하며 유소년 기의 행동발달 상황 채점표가 취합된 반드시 하늘만큼 땅 만큼 애국애족의 투철한 신념의 정보 공개된 보유자로 대통령으로 선거 될 수 있다. 4.신한국연방대통령의 선거에 관한 사항은 법률로 정하며 살아서 70년 죽어서 그 자손들이 300년 권리를 갖는 자는 대통령이라 호칭하고 6년 임기의 권리를 갖는 자는 통 령 이라 지칭하여 대통령 칭호를 절대로 사용해서는 아니 되며 통 령에 해당한 자는 항시 대통령에게 국가 중대사에 대해 반드시 보고하고 대통령 관저 청담대에는 대한민국 역사가 종지 할 때까지 국보 제 0호의 관물을 보존하여 국태민안을 기원하며 조선의 마지막 임금의 특명으로 상해 임시 정부를 조직하여 35년간 국정 운영을 하신 종조부님, 그 뒤를 이어 국정 운영 자금 조달책임자 조부님과 국정 운영 자금 조달중 일본 순사들에 의해 피살된 외조부님에 국정 운영 자금 조달 자인 아버님의 숭고한 얼을 기리 간직하기 위해 100 여명이 국정 운영을 논할 수 있는 거대한 바위를 청와대 마당에 설치된 이후에는 청 암 대이라 개칭 후 신한국연방 창설자인 초대 대통령의 직무를 수행한다. 5.대통령의 임기가 만료되는 때에는 임기만료 70일 내지 40일 전에 후임자를 선거한다. 6.대통령이 궐위 된 때 또는 대통령 당선자가 사망하거나 판결 기타의 사유로 그 자격을 상실한 때에는 60일 이내에 후임자를 선거하도록 공직자 선출 위원회에서는 대통령 후임자를 항시 배치하고 구비한다. 제82조 ①신한국연방 대통령은 취임에 즈음하여 국민에게 다음의 선서를 한다. “본인은 신한국연방 대통령으로서 국민의 권리와 자유를 존중하고 보호하며, 신한국연방 헌법을 준수하여 국가의 주권, 독립, 안전과 일체성을 수호하며 국민에게 충실하게 봉사할 것을 선서합니다.” ②선서는 신한국연방의 연방회의(상원, Federal Council)의원들, 국가두마(하원, State Du ma)의원들 및 헌법 재판소 판사들이 참석한 가운데 장엄한 분위기 속에서 거행된다. 제83조 신한국연방 대통령은 1.국가두마의 동의하에 신한국연방 총리를 임명하며, 2.신한국연방 국무회의를 주재할 권리를 가지며, 3.신한국연방 내각 사퇴에 관한 결정을 시행하며, 4.신한국연방 중앙은행 총재의 임명과 해임을 하원에 제청하며, 5.신한국연방 총리의 제정으로 신한국연방 부총리 및 각부 장관들을 임명 또는 해임하며, 6.신한국연방 헌법재판소, 신한국연방 최고중재재판소 판사들의 임명, 신한국연방 검찰 총장의 임명과 해임을 연방회의에 제청하고 기타 연방 재판소 판사들을 임명하며, 7.그 지위가 연방법에 규정되는 신한국연방 국가안보회의를 구성하고 주재하며, 8.신한국연방의 군사독트린을 승인하며, 9.신한국연방 대통령실을 편성하며, 10.신한국연방 대통령의 특명 전권대표들을 임명하고 해임하며, 11.신한국연방 국제 평화유지군의 초 고위급 지휘관들을 임명하고 해임하며, 12.연방의회(상하원을 통칭) 해당위원회들과의 협의를 거쳐 재외공관 및 국제기구에 주재할 신한국연방 외교대표들을 임명하고 소환한다. 제84조 신한국연방 대통령은 1.신한국연방 헌법과 연방법에 따라 국가두마 선거를 공고하며, 2.신한국연방 헌법에 의하여 규정된 절차에 따라 국가두마를 해산하며, 3.연방 헌법 법률에 규정된 절차에 따라 국민 투표를 공고하며, 4.국가두마에 법안을 제출하며, 5.연방 법령에 서명하고 이를 공표하며, 6.국내정치 및 국가 대내외정책의 기본방향에 관한 연례 보고서를 연방회의에 제출한다. 제85조 ①신한국연방 대통령은 신한국연방 국가기구들과 신한국연방 구성주체 자치 기구들 간의 또는 신한국연방주체 자치 기구들 간의 의견 대립을 해소하기 위해 조정권을 행하고 대립을 해소하지 못한 경우에는 분쟁 해결을 해당 법원에 회부할 수 있다. ②신한국연방 대통령은 구성주체 자치기구들의 결정이 신한국연방 헌법, 연방법률 또는 신한국연방이 체결한 국제적 협약이 저촉되거나 개인의 권리와 자유를 침해하는 경우 해당 법원을 통해 문제가 해결될 때까지 자치기구 결정의 효력을 정지할 권리를 가진다. 제86조 신한국연방 대통령은 1.신한국연방 대외정책을 지도하며, 2.신한국연방이 체결하는 국제조약에 관한 교섭을 시행하고 서명을 하며, 3.조약 비준서에 서명하며, 4.신한국연방에 주재하는 다 국 외교대표들의 신임장과 소환 장을 접수한다. 제87조 ①신한국연방 대통령은 신한국연방군의 최고 사령관이다. ②신한국연방이 침략을 당하거나 직접적인 침략위험이 발생한 경우에 신한국 연방 대통령은 신한국연방의 전역이나 그 일부 지역에 전시상태를 선포하고 이를 지체 없이 연방회의와 국가두마에 통고한다. ③전시상태의 제 조건은 연방 헌법 법률에 의하여 규정된다. 제88조 신한국연방 대통령은 연방 헌법 법률에 규정된 상황과 절차에 따라 신한국 연방 전역 또는 일부 지역에서 비상상태를 선포하며 이를 지체 없이 연방회의와 국가두마에 통고한다. 제89조 신한국연방 대통령은 1. 신한국연방 공민권 및 정치적 망명문제를 결정하며, 2. 신한국연방 국가표창을 수여하고 신한국연방 명예칭호, 최고군사칭호 및 최고 특별칭호를 부여하며, 3. 사 면을 수행한다. 제90조 ①신한국연방 대통령은 대통령령을 공포한다. ②신한국연방 대통령령은 러시아연방 전역에서 적용된다. ③신한국연방 대통령은 러시아연방의 헌법과 연방 법률에 상치되지 않아야 한다. 제91조 신한국연방 대통령은 신체 불가침권을 가진다. 제92조 ①신한국연방 대통령은 취임선서를 한 시점부터 권한행사를 시작하며, 후임 대통령이 선서를 한 시점부터 권한행사를 중지한다. ②신한국연방 대통령은 사임하거나, 건강상 이유로 권한을 행사할 수 없거나 탄핵되는 경우 임기만료 전에 권한행사를 중지한다. 이 경우 새로운 대통령 선거는 권한 행사가 중지된 시점으로부터 3개월 이내에 시행되어야 한다. ③신한국연방 대통령이 직무를 수행할 수 없는 경우에는 신한국연방 총리가 그 임무를 대행한다. 신한국 연방 대통령 서리는 국가두마 해산권, 국민투표 실 시 권과 헌법 개정 제안권을 갖지 못한다. 제93조 ①신한국연방 대통령은 국가두마가 제기하여 신한국연방 최고재판소에 이에 의해 유죄로 판결받고 신한국연방 헌법재판소에 의해 탄핵의 절차가 준수되었음이 확인된 대역죄나 기타 중죄에 대해서만 연방 회의에서 최종 탄핵 결정을 받을 수 있다. ②탄핵은 국가두마 재적의원 3분의 1 이상이 발의하고 국가두마 내 특별위원회의 결정을 거쳐 연방회의와 국가두마 제적의원 3분의 2이상의 찬성을 얻어 확정된다. ③ 탄핵에 대한 연방회의의 결정은 국가두마가 대통령에 대한 탄핵을 발의한 후 3개월 이내에 채택되어야 한다. 그 기간 내에 연방회의의 결정이 채택되질 않으면 대통령에 대한 탄핵발의는 소멸 된 것으로 간주 된다. 제5장 연방의회 제94조 신한국연방 의회는 신한국연방의 대의 및 입법 기구이다. 제95조 ①연방의회는 연방회의와 국가두마의 양원으로 구성된다. ②연방회의는 모든 신한국 연방 구성주체에서 2인씩 선출된 대표, 즉 대의 기구와 행정기구의 대표 각 1인으로 구성된다. ③국가두마는 450명의 의원으로 구성된다. 제96조 ①국가두마는 5년 임기로 선거 된다. ②연방회의 구성 절차와 국가두마 의원 선거 절차는 연방 법률로 정한다. 제97조 ①국가두마 의원은 만21세 이상으로 피선거권을 가진 신한국연방 국민 중에서 선출된다. ②연방회의 의원과 국가두마 의원직은 겸직 될 수 없다. 국가두마 의원은 여타의 대의기구와 지방자치기구의 대의원을 겸할 수 없다. ③국가두마 의원들은 전업 직으로 근무한다. 국가두마 의원들은 정부 직책을 겸직할 수 없으며 교육 및 학술 활동, 기타 창조적 활동을 제외한 다른 유급 활동에 종사할 수 없다. 제98조 ①연방회의 의원과 국가두마 의원은 임기 동안 신체 불가침권을 가진다. 이들은 현행범인 경우를 제외하고는 체포, 구금, 수색당하지 않으며 타인의 안전을 보장하기 위하여 연방법에 의하여 규정된 경우를 제외하고는 검문당하지 않는다. ②불가침권 박탈 문제는 신한국연방 검찰총장의 제기에 의해 연방의회의 해당하는 당원에 의하여 결정된다. 제99조 ① 연방 의회는 상시 적으로 활동하는 기구이다. ② 국가두마는 선출된 후 30일째 되는 날에 첫 회의를 소집한다. 신한국 연방 대통령은 이 기간 전에는 국가두마를 소집할 수 없다. ③ 국가두마의 첫 번째 회의는 의원 중 최고령자가 주재한다. ④ 새로 구성된 국가두마가 업무를 개시하는 시점으로부터 전임의 국가두마는 권한이 중지된다. 제100조 ①연방회의와 국가두마는 별도로 회의를 개최한다. ②연방회의와 국가두마의 회의는 공개로 진행하나 관계법에 규정된 경우에는 비공개 회의를 할 수 있다 ③양원은 신한국 대통령의 교서, 신한국 연방 헌법 재판소의 교서, 외국 지도자들의 연설을 청취하기 위하여 합동회의를 개최할 수 있다 제101조 ①연방회의는 구성원 중에서 의장과 부의장을 선출한다. 국가두마는 구성원 중에서 의장과 부의장을 선출한다 ②연방회의 의장과 부의장, 국가두마 의장과 부의장은 회의를 주재하며 각 원의 내부 규칙을 정한다. ③연방회의와 국가두마는 위원회와 소위원회를 구성하며 소관업무에 대해 공청회를 개최한다. ④양원은 각기 의사 규칙을 채택하며 스스로 의 활동에 필요한 내규를 제정한다. ⑤연방예산 집행을 감사하기 위하여 연방 회의와 국가두마는 회계감사원 구성하며 그 구성원과 활동절차는 연방법에 의하여 규정된다. 제102조 ①다음 사항은 연방회의가 관할한다. 1.신한국연방 구성주제들 간의 경계선 변경 승인 2.전시상태 선포에 대한 신한국 연방 대통령령의 승인 3.비상사태 선포에 대한 신한국 연방 대통령령의 승인 4.신한국 연방 영토 밖에서 신한국연방 군사력을 사용하는 문제의 결정 5.신한국연방 대통령 선거의 공고 6.신한국연방 대통령의 탄핵 7.신한국연방 헌법재판소, 신한국연방 최고재판소, 신한국연방 최고 중재재판소 판사들의 임명 8.신한국연방 검찰총장의 임명 및 해임 9.회계감사원 부원장과 회계감사원을 구성하는 감사위원 반수의 임명 및 해임 ②연방회의는 신한국연방 헌법에 규정된 관할 업무에 대한 결정을 채택한다. ③연방회의의 결정은 신한국연방 헌법에 의하여 별도로 규정되어 있는 경우를 제외하고는 재적의원 과반수의 찬성으로 채택된다. 제103조 ①국가두마의 관할사항은 다음과 같다 1.신한국 연방 대통령의 신한국연방 총리 임명에 대한 동의 2.신한국 연방 내각 신임에 관한 문제의 결정 3.신한국 연방 정부의 활동 결과(국가두마가 제기한 문제에 따른 결과를 포함한다)에 관한 정부의 연례 보고서 정취 4.신한국 연방 중앙은행 총재의 임명 및 해임 5.회계감사원 원장과 회계감사원을 구성하는 감사위원 반수의 임명 및 해임 6.연방 헌법 법률에 따라 활동하는 인권담당 전권대표의 임명 및 해임 7.사면의 실시 8.신한국 연방 대통령에 대한 탄핵 발의 ②국가두마는 신한국연방 헌법에 규정된 관할 업무에 대한 결정을 채택한다. ③국가두마의 결정은 신한국연방 헌법에 의하여 별도로 규정되어 있는 경우를 제외하고는 재적 과반수의 찬성으로 채택한다. 제104조 ①신한국연방 대통령, 연방의회, 연방회의 의원, 국가두마 의원, 신한국 연방 정부, 신한국 연방 주체들의 입법(대의)기구들은 법안 제출권을 가진다. 신한국연방 헌법재판소,신한국연방 최고재판소 및 신한국연방 최고중재 재판소는 소관업무에 관련된 법안제출권을 가진다. ②법률안은 국가두마에 제출된다. ③조세의 도입 또는 폐지, 세금의 면제, 국채발행, 국가재정의무의 변경에 관한 연방 예산에 의하여 부담되는 지출을 수반하는 법안들은 신한국연방 정부의 의견을 명기해서만 제출될 수 있다. 제105조 ①연방 법률은 국가두마에 의해 채택된다. ②연방 법률은 신한국연방 헌법에 의하여 별도로 규정되어 있는 경우를 제외하고는 국가 두마 의원 재적 과반수의 찬성으로 채택된다. ③국가두마가 채택한 연방 법률은 5일 내에 연방회의의 심의에 회부된다. ④연방 법률은 연방회의 의원 재적 과반수의 찬성을 받거나, 14일 이내에 심의되지않은 경우에 연방회의를 통과한 것으로 간주 된다. 연방 법률이 연방회의에서 부결되는 경우, 양원은 이견을 해소하기 위하여 조정위원회를 구성할 수 있으며 연방 법률은 국가 두마에서 재 심의한다. ⑤국가두마가 연방회의의 결정에 동의하지 않는 경우에 연방 법률은 국가두마에서 재차 표결에 회부되어 재적 의원 3분의2이상의 찬성을 얻는 경우 채택된 것으로 간주 된다. 제106조 국가두마가 채택한 다음 문제에 관한 연방 법률은 연방회의에서 의무적으로 심의된다. 1. 연방 예산 2. 연방 세금 및 수수료 3. 금융, 외화, 신용, 관세의 조정과 화폐 발행 4. 신한국연방이 체결하는 국제조약의 비준과 파기 5. 신한국연방 국경의 지위 및 방위 6. 선전포고의 강화 제107조 ① 채택된 연방 법률은 서명 및 공포를 위하여 5일 내에 신한국연방 대통령에게 송부된다. ② 신한국연방 대통령은 14일 내에 연방 법률에 서명하고 이를 공포한다. ③신한국연방 대통령이 연방 법률이 송부된 시점으로부터 14일 내에 이를 거부하면 국가두마와 연방회의는 신한국연방 헌법에 규정된 절차에 따라 그 법률을 재 심의한다. 재심의를 거쳐 연방 법률이 연방회의와 국가두마 의원 재적 3분의 2 이상의 찬성으로 원안대로 재의결되면 러시아연방 대통령은 7일 내에 이에 서명하고 공포하여야 한다. 제108조 ① 연방 헌법 법률은 신한국연방 헌법에 의하여 규정된 바에 따라 채택된다. ② 연방 헌법 법률은 연방회의위원 재적 4분의 3 이상과 국가두마 의원 재적 3분의 2 이상의 찬성으로 의결된 경우 채택된 것으로 간주 된다. 채택된 연방 헌법 법률은 신한국 연방 대통령이 14일 내에 서명하고 이를 공포한다. 제109조 ① 국가두마는 신한국연방 헌법 제111조와 제117조에 규정에 의거하여 신한국연방 대통령에 의해 해산될 수 있다. ② 국가두마가 해산된 경우 신한국연방 대통령은 국가두마가 해산된 시점부터 4개월 이내에 새로운 국가두마가 소집될 수 있도록 선거 일자를 공고한다. ③ 국가두마는 신한국연방 헌법 제117조의 규정에 의거하여 새로 구성된 후 1년 이내에는 해산될 수 없다 ④ 국가두마는 신한국연방 대통령에 대한 탄핵이 발의되어 연방회의에서 이에 대한 결의가 채택될 때까지는 해산되지 않는다. ⑤ 국가두마는 신한국연방 전역에서 전시상태나 비상상태가 발생한 경우 그리고 신한국연방 대통령의 임기 만료 전 6개월 기간 동안에는 해산될 수 없다. 제6장 신한국연방 내각 제110조 ① 신한국연방의 행정권은 신한국연방 내각이 행사한다. ②신한국연방 내각은 신한국연방 총리, 신한국연방 부총리 및 연방 각료들로 구성된다. 제111조 ① 신한국연방 총리는 신한국연방 대통령이 국가두마의 동의를 얻어 임명된다. ② 신한국연방의 총리 후보에 대한 제안은 새로 선출된 신한국 연방 대통령의 취임 후 또는 신한국연방 내각이 사퇴한 후 2주일 이내에 또는 국가두마가 후보 인준을 거부한 후 1주일 이내에 이루어져야 한다. ③ 국가두마는 신한국 연방 대통령이 추천한 신한국연방 총리 후보를 그 제안이 제출된 날로부터 1주일 이내에 심의하여야 한다. ④ 국가두마가 대통령이 추천한 신한국연방 총리 후보를 3차례 거부할 경우 대통령은 신한국 연방 총리를 임명한 후 의회를 해산하고 새로운 선거를 공고한다. 제112조 ① 신한국연방 총리는 임명된 후 1주일 이내에 연방 내각 구성에 대한 제안을 신한국연방 대통령에게 제출한다. ② 신한국연방 총리는 신한국연방 부총리와 연방 각료 후보자를 신한국연방 대통령에게 추천한다. 제113조 신한국 연방 총리는 신한국연방 헌법, 연방 법률 및 신한국 연방 대통령령에 따라 신한국 연방 내각 활동의 기본방향을 설정하고 그 사업을 수행한다. 제114조 ① 신한국연방 내각은 연방예산을 편성하여 국가두마에 제출하고 그의 집행을 보장한다. 국가두마에 연방예산 집행 보고서를 제출한다. 1.국가두마에 정부의 활동 결과(국가 두마가 제기한 문제에 따른 결과를 포함한다.)에 관한 연례보고서를 제출한다. 2. 신한국연방 내에 단일한 재정, 신용 및 통화정책의 집행을 보장하며, 3. 신한국연방 내에서 문화, 과학 , 교육, 보건, 사회보장, 생태학 분야에서 단일한 정책의 집행을 보장하며, 4. 연방재산에 대한 관리를 시행하며, 5. 국가안전을 보장하고 러시아연방의 대외정책을 실현하기 위한 조치를 강구하며, 6. 개인의 권리와 자유를 보장하고 재산과 사회질서를 보호하며, 범죄 퇴치를 위한 조치를 수행하며, 7. 신한국연방 헌법, 연방 법률, 신한국연방 대통령령에 의하여 내각에 부여된 기타 권한을 행사한다. ② 신한국연방 내각의 활동절차는 연방 헌법 법률에 의하여 규정된다. 제115조 ① 신한국 연방 내각은 신한국연방 헌법, 연방법률 및 신한국연방 대통령령에 기초하여 내각의 정책집행을 위한 각종 포고령을 발표하며 그 집행을 보장한다. ② 신한국 연방 내각의 포고령은 신한국연방 헌법, 연방 법률 및 신한국 대통령령에 상치되는 경우에 신한국연방 대통령에 의하여 취소될 수 있다. 제116조 신한국연방 내각은 새로이 선출된 신한국연방 대통령에게 그 권한을 이양한다. 제117조 ① 신한국연방 내각은 총 사퇴할 수 있으며 신한국연방 대통령은 이를 수리하거나 거부할 수 있다. ② 신한국연방 대통령은 신한국연방 내각의 총사퇴를 결정할 수 있다. ③ 국가두마는 신한국연방 내각에 대한 불신임을 의결할 수 있다. 신한국 연방 내각 불신임에 대한 의결은 국가두마 의원 재적 과반수의 찬성으로 채택된다. 국가두마가 신한국 연방 내각에 불신임을 의결할 경우 신한국연방 대통령은 신한국연방 내각의 사퇴를 공고하거나 또는 국가두마의 결정에 동의하지 않을 권리가 있다. 국가두마가 3개월 이내에 신한국연방 내각에 대한 불신임을 재차 의결할 경우에 신한국연방 대통령은 내각 사퇴를 공고하거나 국가두마를 해산한다. ④ 신한국연방 총리는 신한국연방 내각 불신임에 관한 문제를 국가두마에 제기할 수 있다. 국가두마가 불신임을 의결하는 경우 대통령은 7일내에 신한국연방 내각의 사퇴 또는 국가두마 해산과 새로운 선거공고에 대한 결정을 채택한다. ⑤ 내각 사퇴나 권한 해제의 경우 신한국연방 내각은 신한국연방 대통령의 위임에 의하여, 신한국연방의 새 내각이 구성될 때까지 계속 직무를 수행한다. 제7장 사법부 제118조 ①신한국연방에서 재판은 법원에 의해서만 행하여진다. ②사법권은 헌법, 민사, 행정 및 형사 소송절차를 통하여 실현된다. ③신한국연방 사법제도는 신한국연방 헌법과 연방 헌법 법률에 의하여 규정된다. 특별재판소의 구성은 허용되지 않는다. 제119조 법관은 만25세 이상으로, 고등 법학 교육을 받고 법률분야에서의 실무경험을 5년 이상 가지고 있는 신한국연방 국민 중에서 임명된다. 신한국연방 법관들에 대한 추가적 요건은 연방 법률에 의해 규정된다. 제120조 ① 법관은 독립이며 러시아연방 헌법과 연방 법률에만 복종한다. ② 법원은 사건 심리에 있어 국가기구 및 여타 기구 법령의 부적합성이 확인되는 경우 관계 법률에 따라 결정을 채택한다. 제121조 ① 법관은 파면되지 않는다. ② 법관의 권한은 연방 법률에 정해진 절차와 근거에 의해서만 일시 중지되거나 정지될 수 있다. 제122조 ① 법관은 불가침이다. ② 법관에게는 연방 법률에 정해진 절차에 의하지 않는 한 형사책임을 추궁할 수 없다. 제123조 ① 모든 재판의 진행은 공개한다. 비공개 재판은 연방 법률에 규정된 경우에만 허용된다. ② 형사사건의 궐 석 재판은 연방 법률에 의하여 규정된 경우를 제외하고는 허용되지 않는다. ③ 소송절차는 당사자주의와 당사자 쌍방의 동등권의 기초 하에 진행된다. ④ 연방 법률에 의하여 규정된 경우 소송절차는 배심원의 참여하에 진행된다. 제124조 법원에 대한 예산배정은 연방 예산으로부터만 시행되며 연방 법률에 따른 완전히 독립적이고 공정한 재판의 실현이 보장되어야 한다. 제125조 ①신한국연방 헌법재판소는 19인의 판사로 구성된다. ②신한국연방 헌법재판소는 신한국연방 대통령, 연방회의 또는 국가두마 재적의원 5분의 1, 신한국연방 내각, 신한국연방 최고재판소와 신한국연방 최고중재재판소, 신한국연방 구성주체들의 입법기관과 행정기관의 요구가 있을 경우 다음 사항이 신한국연방 헌법에 부합하는지 여부를 심판한다. 1. 연방 법률, 신한국연방 대통령, 연방회의, 국가두마, 신한국연방 내각의 법령 2. 공화국 헌법, 신한국 연방 구성주체들의 헌장, 신한국 연방 관하라 업무와 신한국 연방과 구성주체들의 공동관할에 속하는 문제들에 관하여 공포된 법률 및 기타 법령 3. 러시아연방 기구와 러시아 연방 구성주체 기구사이에 체결된 조약, 신한국 연방 구성주체 기구들 간에 체결된 조약 4. 발효되지 않은 신한국연방이 체결한 국제조약 ③신한국연방 헌법재판소는 다음과 같은 쟁의를 심판한다. 1.신한국연방 기구들 간의 쟁의 2.신한국연방 기구와 신한국연방 구성주체 기구 간의 쟁의 3.신한국연방 구성주체 기구들 간의 쟁의 4.신한국연방 구성주체 기구들 간의 쟁의 ④신한국연방 헌법재판소는 개인의 권리와 자유의 침해에 대한 상소와 법원의 청구에 의해 구체적인 사건에 적용하게 될 법률의 합헌성 여부를 연방 법률이 정한 절차에 따라 심리한다. ⑤신한국연방 헌법재판소는 신한국연방 대통령, 연방회의, 국가두마, 신한국 연방 내각,신한국연방 구성주체 입법기구들의 요청이 있을 경우 신한국연방 헌법을 해석한다. ⑥ 위헌으로 인정된 법령이나 규정은 효력을 상실하며 신한국연방 헌법에 상치되는 신한국 연방의 국제조약들은 발효되지 않는다. ⑦ 신한국연방 헌법재판소는 연방회의의 요청에 의해 신한국연방 대통령에 대해 제기된 탄핵의 절차가 준수되었는지의 여부를 심의한다. 제126조 신한국연방 최고재판소는 민사, 형사, 행정소송과 일반 법원 관할의 사건에 대한 최고사법기관이며, 연방 법률에 규정된 절차에 따라 하급 재판소들의 활동에 대한 감독 행위를 시행하며, 판례에 대하여 설명한다. 제127조 신한국연방 최고 중재재판소는 경제 분쟁과 중재재판소의 심리대상이 되는 기타 법률 행위를 심판하는 최고 사법기관이며, 연방 법률에 규정된 절차에 따라 하급 중재 재판소들의 활동에 대한 감독행위를 시행하며, 관례에 대하여 설명한다. 제128조 ①신한국연방 헌법재판소, 신한국연방 최고재판소, 신한국연방 중재재판소 판사들은 신한국연방 대통령이 제청에 의해 임명된다. ②여타 연방 재판소들의 판사는 신한국연방 대통령의 제청에 의해 연방 의회가 임명한다. ③신한국연방 연방 헌법재판소, 신한국연방 최고재판소, 신한국연방 최고 중재재판소 및 기타 연방 재판소들의 권한, 편제 및 활동 절차는 연방헌법 법률에 의하여 규정된다. 제129조 ①신한국연방의 검찰기관들은 동일한 체계를 이루며 하급 검사들은 상급 검사들과 신한국 연방 검찰총장에게 복종한다. ②신한국연방 검찰총장은 신한국연방 대통령의 제청에 의해 연방회의가 임명한다. ③신한국연방 구성주체의 검사는 신한국연방 검찰총장이 구성주체의 동의를 얻어 임명한다. ④여타의 검사들은 신한국연방 검찰총장이 임명한다. ⑤신한국연방 검찰기관들의 권한, 편제 및 활동 절차는 연방 법률에 의하여 규정된다. 제8장 지방자치 제130조 ①신한국연방에서 지방적 의의를 갖는 문제에 대한 주민들의 자치적 해결과 자치기구 재산에 대한 소유, 사용 및 처분권은 보장된다. ②지방자치는 국민투표, 선거 등 직접적 형태의 의사표시와 지방자치기구를 통하여 시행한다. 제131조 ①지방자치는 도시 및 농촌 거주지와 기타지역에서 그 지방의 역사와 전통 등을 고려하여 시행한다. 지방자치기구들의 구성은 주민들의 자치적으로 규정한다, ②지방자치구역의 경계선 변경은 해당지역 주민들의 의견을 고려하여 시행된다. 제132조 ① 지방자치기구는 자치제 재산을 관리하며, 지방예산을 편성, 승인, 집행하며, 지방세금을 징수하며, 사회질서를 유지하며, 지방에 속하는 기타 문제를 해결한다. ② 지방자치기구는 법률에 의하여 일부 국가권한을 이양받을 수 있으며 권한 행사에 필요한 물질적, 재정적 수단도 자치 기구에 이전될 수 있다. 이양된 권한의 행사는 국가의 감독하에 시행한다. 제133조 신한국연방의 지방자치는 사법적 보호를 받을 권리, 연방기구가 채택한 결정의 결과로 발생한 지출에 대한 보상을 받을 권리, 신한국연방 헌법과 연방법에 규정된 지방 자치권의 제한금지가 보장된다. 제9장 헌법 개정 및 재검토 제134조 신한국연방 헌법조항에 대한 개정은 신한국연방 대통령, 연방회의, 국가두마, 신한국 연방 내각, 신한국연방 구성주체의 입법(대의 기구),연방회의 또는 국가두마 재적 의원 5분의 1 이상의 요구에 의해 제기된다. 제135조 ①신한국연방 헌법 제1장, 제2장 및 제9장의 규정은 연방회의에 의해 재검토될 수 없다. ②연방회의 및 국가두마 재적의원의 5분의 3 이상이 신한국연방 헌법. 제1장, 제2장 및 제9장의 개정에 대한 제안을 요구하면 연방 헌법 법률에 따라 제헌회의가 소집된다. ③제헌회의는 신한국연방 헌법의 불 변경은 확인하거나 새 신한국연방 헌법 초안을 작성하며, 동 초안은 제헌회의 의원 재적 3분의 2 이상의 찬성을 얻어 채택되거나 국민투표에 회부된다. 국민 투표를 실 시 하는 경우 신한국연방 헌법은 유권자 재적 과반수가 투표에 참가하고 투표참가자가 과반수가 찬성하면 채택된 것으로 간주 된다. 제136조 신한국연방 헌법 제3장-제8장에 대한 개정은 연방 헌법 법률의 채택을 위하여 규정된 절차에 따라 채택되며 신한국연방 구성 주체 입법기구 3분의 2 이상의 찬성을 얻은 후 효력을 발생한다. 제137조 ①신한국연방의 구성을 규정하는 신한국연방 헌법 제65조에 대한 개정은 새로운 구성 주체의 연방 가입에 관한 연방 헌법 법률, 신한국연방 구성주체 지위의 변경에 관한 연방 헌법 법률에 따라 이루어질 수 있다. ②공화국, 지방, 주, 연방직할시, 자치주, 자치구역의 명칭이 변경되는 경우 신한국연방 구성 주체의 새 명칭은 신한국연방 헌법 제65조에 기재한다. 제2부 종결 및 과도적 이행 규칙 1.신한국연방 헌법은 국민투표 결과가 공포된 날로부터 효력을 발생한다. 국민투표일은 신한국연방국가 창시자 60회 생신인 2014년 06월 04일자로 확정하고 신한국연방 헌법 채택으로 간주 되며 동시에 2014년 01월 20일 전에 채택되고 그 전에 개정된 분쟁 당사국 간의 체결된 국제 조약과 협정에 각 국가의 헌법은 효력이 중지된다. 연방조약 즉, 신한국연방 기구와 신한국연방 구성공화국 기구 간의 관할 및 권한 배분에 관한 조약, 신한국연방을 구성하는 공화국 기구 간의 조약, 신한국연방 기구와 신한국연방을 구성하는 지방, 주, 신한국연방은 다음과 같은 신한국 연방주체(主體)(역주: 신한국연방을 구성하는 행정구역 단위로 공화국, 지방, 주, 자치구 등을 일컬음)들로 구성된다. 일본국 일부분, 중화인민 공화국 일부분과 러시아 연방 일부분에 북조선 인민 공화국과 남조선민주공화국들로 구비되어 대한민국, 즉, 대한민국의 영토는 한국동란격전지인 철의 삼각지 중심 지역의 동북아 1번지 기준점에서 1200KM 거리를 반경으로 하는 직 경 2400KM 범위 삼천리 내부 영토와 영해를포함한 것으로 동북아 신한국 연방의 고유한 영토로 확정하고 동북아 1번지 기준점에서 반경 1200KM 범위 삼천리 내부 영토와 영해를 포함한 지역에는 살아서 70년 죽어서 그 자손들이 300년 권리를 갖는 자 종신대통령의 허락과 동의 없이는 절대로 군수 물자 일체를 생산하거나 이동과 단, 1발의 총알에서부터 핵미사일 등의 발사와 발포 군사 행동을 할 수 없으며 동북아 1번지 기준점에서 18KM 거리를 반경으로 하는 동북아 45번지까지를 연방정부 수도인 새 서울로 확정하고 1200KM 거리를 반경으로 하는 동북아 3000번지 지역 내부로는 국제평화 유지군의 통제 하에 허락과 승인을 취득 한 후 각 지방정부는 군사 경계 임무를 실행하여 신한국연방 국가가 이루어지며, 일본국 지방정부의 타네 쿠 시 마 지방,큐 우슈 우 지방, 후구지마 하라 데 시 마 지방,시 코 쿠 지방,하네다 시 마 지방, 혼슈우 지방,혼 고 구 지방 등의 일부분, 중화인민 공화국의 장수 성,안 후 이 성, 허난성,산 둥 성,싱 허 베 이 성, 베이징 성, 라 오 링 성, 지린성, 헤 이 룽 장 성, 수 허 바 타르 성, 일부분과 러시아 연방의 프 리 모 리 예 지방(연해지방) 일부분들로 구성되었다. 연 방적 의의를 갖는 시(市), 새로운 구성주체의 신한국연방 가입과 지위 부여는 신한국연방 헌법규정에 의한 절차에 따라 거국적인 아날로그 시스템의 정치적 권리, 군사적 권리 경제적 권리 분쟁의 국가 간의 침략 야욕과 침탈야망 모두를 포기한 가운데 신한국연방국가 창시자와 분쟁 당사국 간의 협의에 의해서 동북아시아 평화공존 협정조약 문서 및 헌법 개정에 날인 서명 후 이루어진다. 2. 본 헌법이 채택되기 이전까지 신한국연방 영토에서 적용되어온 법률과 기타 법령은 신한국연방 헌법에 상치되지 않는 한 계속 적용된다. 3.신한국연방 헌법(구헌법)에 따라 선출된 신한국연방 대통령은 본 헌법 발효 일부터 당 초 임기 만료일까지 본 헌법에 의하여 제정된 권한을 행사한다. 4. 신한국연방 내각은 본 헌법 발효일로부터 신한국연방 헌법에 의하여 제정된 신한국연방 내각의 권리, 의무 및 책임을 가지며 향후 신한국연방 정부로 호칭한다. 5. 신한국연방의 법원들은 본 헌법에 제정된 권한에 따라 재판을 수행한다. 신한국연방 내 모든 법원의 법관들은 본 헌법 발효 후,당 초 임기가 만료될 때까지 권한을 유지한다. 결원은 본 헌법에 제정된 절차에 따라 보충된다. 6. 배심원의 참가에 의한 사건 심리 절차를 제정한 연방 법류의 효력 발생 시까지 해당사건에 대한 종래의 재판심리 절차가 유지된다. 신한국연방 형사소송법을 본 헌법 규칙에 부합되도록 조정할 때까지 범죄 용의자들에 대한 체포, 구금 및 구속에 관한 종래의 절차가 유지된다. 7. 제1기 연방회의와 제1기 국가두마는 2년 임기로 선출된다. 8. 연방회의는 선출 후 30일째 되는 날에 첫 회의를 소집한다. 연방회의 첫 회의는 신한국연방 대통령이 개막한다. 9. 제1기 국가두마 의원은 신한국연방 내각 구성원으로 겸직할 수 있다. 국가두마 의원직을 겸직하는 신한국연방 내각 구성원들의 직무수행과 관련된 활동에 대한 책임에 대하여는 대의원의 불가침권에 관한 본 헌법의 조항이 적용되지 않는다. 제1기 연방회의 의원들은 비상임 원칙하에 자기 권한을 행사한다. 10.종전의 선거관리 제도는 노름꾼 또는 투기꾼 양성 제도인바 이의 선거관리를 폐지하고 국민투표의 공정한 관리 및 대통령, 국회의원, 지방장관, 지방의회의원, 선출에 관한 사무를 처리하기 위하여 청렴한 공직사회 자체 공직자로 형성한 899,999명 상당의 공직자 선출 위원회를 구성하여 운용한다. 11.공직자 중앙 선출 위원회는 대통령이 임명하는 3인, 국회에서 선출하는 3인과 대법원장이 지명하는 3인의 위원으로 구성하고 위원장은 위원 중에서 호선하며 비상근 임명자는 폐임하고 상근자를 배속한다. 12.위원의 임기는 6년으로 한다. 13.위원은 정당에 가입하거나 정치에 관여할 수 없다. 14.위원은 탄핵 또는 금고 이상의 형의 선고에 의하지 아니하고는 파면되지 아니한다. 15.공직자 중앙 선출 위원회는 법령의 범위 안에서 선거관리·국민투표관리 또는 공직자 사무에 관한 규칙을 제정할 수 있으며, 법률에 저촉되지 아니하는 범위 안에서 내부규율에 관한 규칙을 제정할 수 있다. 16.각급 선거관리위원회의 조직·직무범위 기타 필요한 사항은 각급 공직자 선출 위원회에서 법률로 정한다. 17.각급 공직자 선출 위원회는 선거인명부의 작성 등 선거사무와 국민투표사무에 관하여 관계 행정기관에 필요한 지시를 할 수 있으며 국민투표와 개표 진행 중에는 각 후보자의 득표상황을 언론의 매개물을 이용해 절대로 중간발표를 해서는 아니 되며 그 선거 결과에 따른 최종 결과를 1회로 발표한다. 18.선거운동은 각급 공직자 선출 위원회의 관리 하에 법률이 정하는 범위 안에서 하되, 청렴하고 유능한 각 후보자에게 균등한 기회가 보장되어야 하고 당쟁과 파벌주의 조직사회를 청산한다. 19.선거에 관한 경비는 법률이 정하는 경우를 제 긴장 고조로 형성된 군비확산의 예산 경비를 제외하고는 후보자에게 부담시킬 수 없다. 20.각급 공직자 선출 위원회는 공직자 임기만료 10 년차 이내인자들로 반드시 구성하고 하늘만큼 땅 만큼 애국애족의 투철한 신념의 사명으로 그 직무를 수행한다. 21.공직자 중앙 선출 위원회는 각급 선거관리위원회를 통솔하는 조직체로서 전체 국가 국민과 모든 권력기관의 종사자를 주종 관계로 확정하여 향후 6년간의 예산을 기획 조정 편성해 연방의회에 제출할 수 있다. 22.이 헌법시행은 국내 헌법과 국제 법규와 동반자적인 동북아시아 평화 공존에 따른 국제연합 창설기구와 연방정부 수반은 주주 관계로 형성하여 지방정부 각 군대는 국제 평화 유지군에 편입하여 신한국 연방정부에 충성을 다하는 평화 수호 군대로 환골탈태하여 상호 호환성 있게 평화 유지의 동반자 관계로 조직을 새롭게 형성하고 항구적인 동북 아시아의 평화 공존과 세계평화와 인류 공영에 이바지함을 목적으로 이루어 지구촌의 평화가 지속적으로 이루어지는 그날까지 영구적으로 그 직무를 행한다. 다음은 상기 본 문서의 신한국연방 헌법 번역본(The following is a translation of the new Federal Constitution Korea this article)이다. Northeast New Korea Constitution 제1부...........................................................................................................................1 Chapter 1 of the Constitution of the total river system, basic ......................................... ....................................... 06 Chapter 2 of the individual and citizen rights and freedoms ........................................ ..................................... 3 Chapter 3 of the Federal 구성..................................................................................................9 Chapter 4 Northeast New Korea Federation president .......................................... ................................... 16 Chapter 5 New Korea in Northeast Asia Congress .......................................... ................................... 21 Chapter 6 Northeast New Federal Cabinet Korea .......................................... .................................... 27 Chapter 7 사법부....................................................................................................... 30 Chapter 8 지방자치.....................................................................................................33 Chapter 9 Review of International Law and the federal constitutional amendment ........................................ ................. 38 Chapter 10, the Commission elected officials ............................................ ........................................ 43 Chapter 11 Northeast United Nations Organization founded .......................................... ................................. 49 제2부.........................................................................................................................50 Detailed implementation rules and transitional termination transition rules ......................................... ......................... 52 Northeast New Korea Constitution [Trial short 4346 years (11/22/2013)] [Northeast New Korea No. 01 Federal Constitution, all amendments; Professional North and South Korea, including 85 million overseas Koreans will be blessed children of God and the children of Dangun and ethnic homogeneity of delivery once we have formed hundreds of millions of people as a multiethnic country formed by a number of peace posse defend South Korea in the territory of the Northeast New Commonwealth, we the people are the basis for the mission of the democratic and Peaceful Unification of the fatherland after world War II as the first issue of insufficient past when clearing brotherhood and justice in India and the disturbance of 6.25 chamdamham golyuk sangjan depth reflection and a number of countries around the Korean Peninsula rejection of all social vices and injustice strengthen arms spread of ethnic unity and defend peace and amicable tensions formed by territorial disputes between the Parties, and the rights and freedoms of the individual and the peace agreement with the National Union of Northeast new Korea confirmed this and that and new federal Korea while preserving national unity, the departure from the general principle of equal rights and self-determination for ethnic freedom and democratic basic order and harmony based on a voluntary disarmament and non-proliferation formed a further strengthening of the political history of the cut - throat gangsik based on Relaxation to make in all areas of society and culture in the economy, the opportunity to demonstrate the highest degrees of stamped evenly ability to fulfill the responsibilities and obligations in accordance with the freedom and rights, aneuroneun group to improve people's lives and out of uniform by contributing to world peace and human prosperity in Northeast Asia and lasting peaceful coexistence, love and respect for the country by land, as the sky while committed to a sit-down with both hands to ensure that the safety of our descendants and our freedom and happiness forever. under the control of the international peacekeeping force to ensure peace and prosperity in Northeast Asia, Korea Federation formed a new thinking of a new concept for the transition from analog to digital civilization civilization formed collective security as a memorial to those preached peace to defend our faith ancestors have the responsibility for the country before the present and future generations, we have been established in July 12, 1948 members of the world community to recognize that now formed a posse to defend peace, as amended constitution numerous local governments throughout the 10th Parliament adopt a highly developed combination of ten thousand years of East peace Magna Carta not daegye new Korea in Northeast Asia through the resolution of both the federal state founder by referendum amendment Northeast Asia peace and co-existence agreements and amend the constitution treaty article. Part 1 Chapter 1 of the Constitution of the total river system, basic Article 1 New Korea in Northeast Asia federal, democratic and rule of law means that the federal government in the form of northeast Asia with Africa The Republic of Korea is used in the same Northeast New Korea Republic of Korea Federal and called names. And sovereignty of the Republic of Korea, All power comes from the people. Run by people committed to the master-slave relationship between practitioners and institutions of all power. Article 2 Shall be determined by federal law New Korea in Northeast Asia, namely the requirement that citizens of the Republic of Korea. The duty to protect its citizens abroad as prescribed by law country. Has the highest value of the individual's rights and freedoms. It is the duty of the state to recognize the rights and freedoms of individuals and citizens, and to adhere to and defend. Article 3 First peoples of Northeast New Federal Korea is the only source of power is the owner of the new federal sovereignty Korea. Or the exercise of power through the power bodies and local self-government bodies directly, and citizens. The referendum and free elections are the best direct exercise of power by the people. Korea is the new Federal anyone without obtaining my consent can not be seized state power, be prosecuted in accordance with the federal takeover of power or act of acquisition. That is the territory of the Republic of Korea including territorial waters to 1200K in the radial diameter of the M Street Northeast No. 1 in the center of the reference point of the Iron Triangle area of South Korea disturbance battlefield 2400K M range Samchully inside the territory of the Northeast and South Korea the new federal, federal Northeast New Korea territory defined by a unique reference point and No. 1 in the Northeast region, including the territorial sea and living in the radius range of 1200 KM Samchully inside its territory sons died 70 years without the consent of the parties allowed the permanent president has the right to 300 years never any war materials production or you can not move and military action after obtaining a permit and approval under the control of international peacekeeping missions and executed the military boundaries of each local government area to the interior of the Northeast bungee 3000 to 1200K for the radial distance from the Northeast 1 M gu reference point . Article 4 Extends to the territorial sovereignty of God in Korea before the Federal Union. The best sangwibeop in the new federal territory of Korea Federal Constitution and federal law are the new Korea. It ensures the integrity and inviolability of the territory Never Seen Federal Korea. The implementation and reflects the amendments to the Constitution on the basis of the Russian translation information from the world that adopts a highly developed legal system in Northeast Asia peace and co-existence agreements treaty document and amended the Constitution to provide legal information center in the world in the new federal constitution and federal Korea are . New Korea unconditionally into the federal short-term peace of God Korea inaugural Commonwealth countries and achieved, and establish a peaceful and democratic basic order based on freedom and promote this policy. Article 5 The New Korea Federal efforts to maintain international peace and denied the invasive war. Armed Forces of the Union are formed by replacing the new Korea International peace keeping troops and carrying out the mission and a sacred duty of the Ministry of National Security and Defense and their political neutrality shall be observed. Forming a republic, provincial, state and federal municipalities, autonomous region, autonomous districts tube god Korea and these are the subject of a Federal Union have the same rights. Has its own constitution and laws of the Republic. Includes the Constitution and laws of its own local, state and federal municipalities, autonomous region, autonomous area. Staying power of national unity, the competent authority and power between the principal federal agencies and federal power agencies configuration sensitive, are formed on the basis of equality and self-determination of the peoples within the federal national unity, the format of the new federal federal Korea. And power relations in the federal agencies, is equal to interaction are all the subject of a federal new Korea. Article 6 Have the same laws and treaties and generally accepted effect signed by the fear of God in the Constitution the federal Korea international laws. The status bar is guaranteed by international laws and treaties of the new Korea International Union. South Korea is one of the new federal civil rights, equality, regardless of the reason for acquiring or acquired in accordance with the federal law still is. All citizens of New Korea enjoy all the rights and the federal regulations on the new Constitution in the territory freedom Korea, and have an equal obligation. Not deprived of the right to citizenship or nationality of the people of God to change their federal Korea. Article 7 The volunteers for the entire nation, officials of the New Korea is responsible for the National Union. Is guaranteed by law prescribed status bar, and political neutrality of the new federal officials Korea. The New Korea is a democratic and social federal state, we aim to create conditions that ensure that the value of life and free development of the individual in the new federal policy, Korea. New Korea and federal labor and protection of public health, and ensure a minimum wage, and guaranteed state support for children, families, maternity, part castle, sleeping disorders and older people, the social service system and develop state pension, allowance and other social protection is guaranteed. Article 8 South Korea and the establishment of new federal political party is free, but multiple jeongdangje guarantee, it can not be the president and Congress party, the committee never. South Korea aims to be new federal and democratic organization and activities, we have the organization necessary to participate in the political decision to form a national political party. Korea is the new federal political party in the country can not be protected as prescribed by law, as prescribed by law to assist the country is not now necessary to set up a social organization legitimate operations involved in the political decision of the National Party was formed The. New South Korea dismissed when the federal democratic basic order is contrary to the purposes and activities of political parties can be sued in the Constitutional Court, the government, the dissolution of political parties by the decision of the Constitutional Court. New Korea in terms of the federal government than the national government of the people, elected by the people, etc., but use the title of the person in front of the base term of the government and the government can not use whatever government, whatever government is never such terms. New federal Korea are guaranteed a single economic, products, services, free movement of capital, the support and the freedom of economic competition. New federal Korea privately owned, government-owned and state-owned form, other ownership recognized and protected, and just the same, The fields and forest and other public lands and public waters, such as the military operations area except destroy private property rights and state and do not have to cultivate the right granted to the real estate registration system replaces issued. Article 9 New Korea shall endeavor to changdal federal cultural heritages of ethnic culture and development of the nation. New federal Korea is used as the basis of life and the protection of the people and activities that reside in the area of land within the new federal Korea and other natural resources. God may be in the form of federal Korea privately owned, state-owned, government-owned and other land and other natural resources are owned. Article 10 New federal Korea has a dignity and value as human beings, have the right to pursue happiness, all citizens. The duty to confirm and guarantee the basic human rights of non-aggression with individuals and nations. The events in the legislative, administrative, judicial power based on the separation of state power of New Korea Union. The legislative, administrative, judicial bodies are mutually independent. The conference event by the President, the Federal Parliament (Federal Assembly and the National Council), the new federal Korea, South Korea New federal judiciary federal state power of New Korea. The event, organized by state power by the power mechanism in these subjects that make up the new federal Korea. Article 11 Made by the other treaties concerning the classification of the Constitution, treaties, and federal authority distribution between the federal government and the New New Korea Korea consists mainly of federal. All citizens are equal before the law and the new federal and Korea all social groups. Anyone gender, Article 11 Made by the other treaties concerning the classification of the Constitution, treaties, and federal authority distribution between the federal government and the New New Korea Korea consists mainly of federal. All citizens are equal before the law and the new federal and Korea all social groups. Whoever shall by gender, religion or social status being in all areas of political, economic, social and cultural life of punishment. Korea shall be recognized in the new Federal caste, it can not constitute any form. Effect, and shall not grant any such privilege only for recipients of this decoration is of zero. Article 12 Have the liberty to marry if at least 20 years of age to choose a spouse unconditionally, and all the people of God without reason Korea is relying on federal law nor arrested anyone. Redemption. Confiscated. Nor shall punishment is not questioned or searched except by law and proper procedures. No one shall be subjected to forced labor or secure disposal. New federal Korea is recognized and guaranteed by the local government. Is performed independently for each subject within the authority of the local government. Does not include local government agencies of state power bodies system. ....................................................................................................................... Article 136 New Korea Federal Constitution Chapter 3 - The regulations adopted pursuant to the procedure for the adoption of amendments to the Federal Constitution Act Chapter 8 shall take effect after obtaining at least two of the new configuration Korea principal federal legislative bodies thirds vote. Article 137 New Korea Federal Constitution may be made in accordance with the Federal Constitution, the law, on the Federal Register of a new configuration of the subject changes the configuration of the new Korea principal federal status Constitution amendment to Article 65 of the law that governs the structure of the federal New Korea. If you change the name of the republic, provincial, state and federal municipalities, autonomous region, autonomous areas and the Korea Federation described in Article 65 of the Constitution the new name of Korea Federal configure new principal is new. ............................................................................................................................. May be submitted to the Congress organized planning and coordination of the next six years as the organization's budget at all levels of leadership to Board of Elections to confirm a master-slave relationship between the workers and the people of the whole country, all 21 official Central Election Commission has the power authority. 22 This relationship is formed by the shareholders in accordance with the Constitution and international law and domestic partner of the United Nations in Northeast Asia and peaceful coexistence involves the creation of institutions and the federal government in the enforcement of the Constitution, each provincial government to transfer troops to the international peacekeeping force new federal Korea and reborn as a loyal patron of peace army made ??for the purpose of the newly formed organization and also contribute to the peaceful coexistence of lasting world peace and human prosperity in Northeast Asia and the peacekeeping partnership enables interoperability with the peace of the world continually made perform their duties until the day permanently. M E S S A G E ( 동북아 평화공존 협정조약 문서 내용 :Content a document a treaty an agreement coexistence peace Asia northeast) from: Lee Woo Sung Internet Digital the Republic of South Korea 18th President =＞I m sorry, I'm not good at English. will I want world beauty big peace? to : URL =＞ http://www.whitehouse.gov/ The White House 1600 Pennsylvania Avenue, N W Washington, DC 20500 USA President. B A R A K .O B A M A : 러시아 국가 원수 (미 검색; 주한러시아 대사관 송출) : 중화인민공화국 국가 주석 (미 검색; 주중 대사관 송출) : 일본 내각 수반 (검색 이 메일 주소가 없음) : 자유중국 내각 수반 (검색 이 메일 주소가 없음) : 평양정권 (검색 이 메일 주소가 없음) : UN사무국 반 기문 총장 (메시지전달) you' e s are requested to a n sewer in written form Will agree you e s big peace of my mind? You e s will help me, For world peace Only One there of with it's dt e n t e ( 동북아 평화공존 협정조약 문서 내용 :Content a document a treaty an agreement coexistence peace Asia northeast) To : 브라 오 바 마 미합중국 대통령각하. 안녕하십니까. 존경하는 대통령각하 재취임을 다 시 한 번 더 축하드립니다 인터넷상의 디지털 제18대 대한민국 대통령은 조촐하게 저의 사저 앞에서 제18대 대통령 취임선서를 마쳤습니다. ( President : take officer ＆ inaugurated as president finished ) You will help me, 이러한 사실을 미국정부 C N 방송사에서 미국의 소리방송, The Times 신문사, 전 세계 언론매체를 이용하여 대한민국 내부의 방송사, 신문사에서 공개발표 하도록 협조를 요청합니다. ( from in the Korea dual l i t y a n a l log system working load to simply apolitical system Nothing No problem ) 전 세계 실업난, 경제 불황을 신속하게 극복할 수 있는 방안들을 미국 대 통 령 뿐만 아니라, 전 세계 각국 국가 원수에게 ( Free of Charge, suddenly Rule ) 이런 상황을 전달하여 동북아지역과 전 지구촌의 평화를 위하여, 30일 이내로 세계 불황을 극복할 수 있도록 지혜를 전달하도록 전 세계 의 관청인 들이 경제 각료 회의를 할 수 있도록 협조를 당부합니다. 그리 고, 저의 대통령 취임 선서를 계기로 저는 발명가로서 특허권자로 서 우선권을 주장하며 대한민국 국가 내부의 대통령 취임과 더불어 동 북아시아 평화공존 협정조약 비준문서와 헌법상 개정문제를 해결할 수 있도록 많은 도움을 기대합니다. 한미국제공동기술개발문제 (원자력의 원자로 기술 협력 문제, 군사, 정치, 사회, 문화)에서 많은 문제 들을 한반도 평화통일 문제들은 반 기문 U N 사무총장님과 유대를 강화하면서 지혜를 모을 수 있도록 신의 은총이 충만하시기를 기원합니다. 한글문서를 잘 이해할 수 있도록 반 기문 U N사무총장님을 초대하시면 감사하겠습니다. 무투표 당선자 이 우성 (대통령집무 279 일차) 단기 4346년(서기 2013. 10. 29. ＜pm. 20:00＞ 제 18대 통일한국 대통령 이 우성 (소재지; 대한민국 부산시 남구 대연동 U N묘지에서 U N 군에 의해 촬영된 한글문서를 잘 이해할 수 있도록 반 기문 UN사무총장님을 초대하시면 감사하겠습니다. 무투표 당선자 이 우성(대통령집무 279 일차) 단기 4346년(서기 2013. 10. 29. ＜pm. 20:00＞ 제 18대 통일한국 대통령 이 우성

(소재지; 대한민국 부산시 남구 대연동 U N 묘지에서 기념 촬영) 전술한 바와 같이 향후 부산시 남구 대연동 U N 묘지를 동북아 1번지에 이전할 계획임. 것임.) 전술한 바와 같이 향후 부산시 남구 대연동 U N묘지를 동북아 1번지에 이전할 계획임. 동북아 평화 공존 대헌장 각 지방 정부의 문장가, 문호들의 결집한 평화대헌장의 거룩한 뜻을 모아 선서해야될 사안으로 이의 초안 문안 작성을 유보함 하루를 살아도 만년을 살다 가는 것과 같이 태어나서 죽을 때까지 물에 빠져 목숨을 잃지 아니하고, 불 속에서 생명을 잃지 아니하고 선원이나, 승객들 모두 거센 풍랑 파도 속에서, 침 몰 되는 선박들에, 선 저 부위와 만 재 홀수 선의 선박 좌우 현에 헤 치 카 버 와, 비상구 문을 설치를 형성함으로써, 살아도 같이 살고, 죽어도 같이 죽는다는 각오의 선박을 제작함으로써, 국민 들을 안심하고, 신뢰를 구축하여, 사랑하는 나의 자손들이 사경 속에서 구출되는 것을 목적과 취지로, 절대로 천안 함 폭침 사고와, 여객선 침몰사고 일어나지 않도록 하기 위해 세상에서 1등 하는 선박에, 1등 하는 선박 대체 장비들로 구비해 수억 명 안전을 지켜주기 위하여 본 발명자의 의지와, 뜻을 세계 만방에 선포하노라!!

(소재지; 대한민국 부산시 동구 범일동 자성대공원)

(소재지; 대한민국 부산시 진구 범천동 디지털 제 18대 대통령 주거지) 전술한 바와 같이 엄동설한에 3개월 동안 국민계도 활동을 행하였는데 이의 입증자료는 동북아시아 평화 공존을 위해 미래 지향적인 대단히 주요한 입증 사실로 동북아시아 각 국가의 국민과 각 국가의 지도자에게는 밤하늘의 등불과 같이 세계 인류의 평화 공존 행동 강령의 근본 사실이다.

(소재지; 대한민국 부산시 연제구 시청사 앞)

동북아시아 평화 공존 협정조약( A document a treaty an agreement coexistence peace Asia Northeast) 대한민국 대통령을 일방으로 하고 중화인민공화국 국가주석 및 러시아 국가대표와 일본국가 내각수반을 다른 일방으로 하는 국제평화 유지군 에 의한 동북아시아 평화 공존에 관한 협정조약 전문(前文) 대한민국 대통령을 일방으로 하고 중화인민공화국 국가주석 및 러시아국가대표와 일본국가 내각 수반을 다른 일방으로 하는 하기의 서명자들은 최후 적인 평화적 해결이 달성될 때까지 대한민국에서의 적대행위나 일체의 무력과 폭력행위의 완전한 정지를 보장하는 모든 국민과 모든 정부가 평화적으로 생활하고 저 하는 희망을 재확인하며, 또한 태평양 지역의 일부분인 동북아시아의 중국과 일본에 러시아 영토로 둘러싸인 한국에서의 적대행위와 일체 무력행위의 완전한 정지를 보장하는 평화공존을 확립할 목적으로 남북 분단의 철의 삼각지인 평 강과 철원에 금화지역 행정 사무소 또는 면사무소 중심 지역을 기준 하여 군사 분계선 하나 개의 기준점(북위 [N]3820,동경[E]12716강원도 철원군 동송읍 강산리 산 190,청암산(廳 巖 山) 자락) 위치를 확정하고 여기서(구, 서기 1916 년 조선 총독부 간행 지적 원도<국가 기록된 보존문서 원본으로부터 촬영된 마이크로 필름으로부터 복사된 국가 기록원 역사 기록 관 소장 입증 자료 3매 지적<N;537033.53 E;223315.60>좌표로 하는 대한민국 강원도 평 강군 남면 학 전리 청 암 산(廳 巖 山;대한민국임시정부 조직을 35 연간 국정 운영을 이끌어 오신 종조부님의 호를 지칭함, ) 지적 원도 33매 지 내의 동북아 1 번지(북위[N] 38 20 , 동경 [E]127 16) 이 지역의 내부에 이미 설치된 중앙군사분계선 하나 개의 기준점(북위 [N]3820,동경[E]12716) 위치를 확정하고 그 기준점에서 18Km 반경 휴전 원과 155마일 휴전선 범위로는 1 차 민족 갱신 보존지역으로 형성하고 여기서(구, 서기 1916 년 조선 총독부 간행 지적 원도<국가 기록원 역사 기록 관 소장>를 입증 자료로 하는 대한민국 강원도 평 강군 남면 학 전리 원도 33매 지 내 제33호 내부의 임야도 3매 지적<N;537033.53 E;223315.60>)좌표 중앙군사분계선 한 점을 기준 하는 600km거리를 반경으로 1,200 km 직 경 거리 삼천리를 대한민국 영토로 확정하고 1,200 km 거리를 반경으로 구성하는 직 경 2,400 km 범위 내에는 2 차 민족 갱신 보존지역 및 동북아시아 평화공존 보존지역으로 하는 유네스코 국제 협력 기구에 등록하고 하 기 조항에 기재된 동북아시아 평화공존 조건과 규정을 준수하며 또 그 제약과 통제를 받는데 개별적으로나 또는 중국과 러시아와 일본 들은 공동으로나 또는 상호 간에 동의한다. 이 조건과 규정의 의도는 순전히 영토분쟁을 유발하는 당사국가의 군사적 세력 확장을 저지하고 동북아시아 지역의 긴장완화에 따른 한국의 옛 영토와 평화주권선 내부로만 적용하되, 또한, 동북아시아 지역에 있어서의 평화기구를 항구적으로 공고히 할 것을 희망하고, 당사 국 중 어느 1국이라도 태평양의 동북아시아 지역에 있어서, 고립하여 있다는 환각을 어떠한 잠재적 침략자도 가지지 않도록 외부로부터의 무력공격에 대하여 자신을 방위하고자 하는 공통의 결의를 공공연히 또한 정식으로 선언할 것을 희망하고, 또한 태평양의 동북아시아 지역에 있어서 더욱 포괄적이고 효과적인 지역적 안전 보장조직이 발달 될 때까지 평화와 안전을 유지하고자, 집단적 방위를 위한 노력을 공고히 할 것을 희망하여 대한민국 옛 영토를 점유하는 당사국은 영해를 포함하는 영토지분의 점용료를 국제연합기구에 지 불 할 것을 서약하고 다음과 같이 동의한다. 제1조 동북아시아 평화 공존에 따른 국제연합기구창설 1. 동북아시아 지역 내부로 영토분쟁 당사국들은 관련될지도 모르는 세계 2차 대전이 종지 후 맥 아 더 함상에서 일본 천황의 항복 문서가 낭독된 그 후 발생 된 1950년 6 월 25일 한국전쟁 발생 전 후 시 소위, 동방예의지국에서 한국전쟁 발생을 유발한 집단적인 전범자 규명과 그에 따른 전범자 사법 처리가 전혀 해결 없이 60 여년 세월이 흐르는 동안에 센 카 구 열도 분쟁, 독도분쟁, 이어도 분쟁, 월남 전쟁과 히말라야 티베트 고원 등지의 약소국의 강제적 합방과 1977년경 판문점 도끼 만행 사건과 원산 앞바다의 푸 에 불로 호 납치사건에 최근의 천안 함 폭침 사건과 연평도 폭격 사건에 동년 3월 핵 광란적 핵 위협 사건 등에 따른 과거사 청산이 무엇보다도 필요성이 절실하게 부각되어 여러 가지 그 어떠한 국제적 분쟁이라도 국제적 평화와 안전과 정의를 위태롭게 하지 않는 방법으로 평화적 수단에 의하여 해결하고 또한 국제관계에 있어서 국제연합의 목적이나 당사국들이 국제연합에 대하여 부담한 의무에 배치되는 방법으로 무력으로 위협하거나 무력을 행사함을 삼 가 할 것을 동북아 지역 각국들은 약속한다. 2. 동북아시아 지역 내부로 1950년 6월 25일 한국전쟁 발생 전 후 시 한국 휴전 협정 전 한국전쟁 격전지 평 강 읍 소재지 건물 중심지점과 철원 읍 소재지 건물 중심지점에 금화면 소재지 건물 중심 지점으로 철의 삼각지 내부 결합 삼각구도 중심 위치;주소,강원도 철원군 동송읍 강산리 산 190번지를 확정하고 여기서(구, 서기 1916 년 조선 총독부 간행 지적 원도<국가 기록된 보존문서 원본으로부터 촬영된 마이크로 필름으로부터 복사된 국가 기록원 역사 기록 관 소장 입증 자료 3매<N;537033.53 E;223315.60>로 하는 대한민국 강원도 평 강군 남면 학 전리 청암산(廳 巖 山) 자락 지적 원도 33매 지 내의 동북아 1 번지(북위[N] 38 20 , 동경 [E]127 16) 이 지역 내부에 이미 설치된 군사분계선 하나 개의 기준점(북위 [N]38 20 , 동경 [E]127 16) 위치를 확정하고 여기서(구, 서기 1916 년 조선 총독부 간행 지적 원도<국가 기록원 역사 기록 관 소장>를 입증 자료로 하는 대한민국 강원도 평강군 남면 학 전리 원도 33매 지 제33호 내부의 임야도 3매<N;537033.53 E;223315.60>) 군사분계선 내의 기준점을 확정하고, 남북쌍방이 기준점으로부터 각기 원형 형태로 하는 반경 18 km씩 후퇴함으로써, 서울특별시 면적과 동등하게 1,000 k m2 휴전 원을 확보한 후에는 동쪽에서 서쪽까지 155마일의 중앙군사 분계선을 철거하고, 이미 쌍방이 이 선으로부터 각기 2 km 씩 후퇴한 지점에 설치된 철 책 선들을 그대로 방치하고 비무장 지대에 존재하는 모든 폭발물, 지뢰 원, 등의 이러한 위험물들을 설치한 양측군대의 사령관들이 반드시 위험물 철거 전후의 증빙 자료 사진들을 군사정전위원회 지시에 따라 또는 그 감독하에 비무장 지대 내로부터 이를 제거한 후 1,000 k m2 휴전 원 내부로는 무장지대로 설정하고 동북아국제 평화 기구를 신설하여 그 기구 통제 하에 탄알, 포탄, 핵미사일, 핵폭탄 등의 일체를 보관 저장할 수 있도록 남북쌍방이 보유한 군수물자를 총 집결시키되, 휴전 원 이외의 155마일 D M Z내부로는 탄알이 장전되지 않은 권총과 포탄이 장전되지 않은 장사 포, 탱크에 핵미사일과 핵탄두가 장전되지 않은 미사일 발사대와 인공위성 발사대들을 보관 저장하여 교육용과 전시용으로 하며 휴전 원과 D M Z 이외의 군사분계선 하나 개의 확정된 기준점에서 1,200 km 반경으로 하는 직 경 2,400 km 범위 내에는 동북아시아 각국들은 군사적 무장해제를 이행하여 각 국가와 남북적대 군대 간에 적대행위의 재발을 초래할 수 있는 사건의 발생을 방지한다. 3. 동북아시아 지역 내부로 확정된 동북아시아 평화주권선 위치는 첨부한 지도에 표시한 바와 같다. (지도 1 첨부) 4. 동북아시아 지역 내부로 휴전 원과 D M Z의 무장지대는 첨부한 지도에 표시한 북방경계선 및 남방경계선으로써 철거된 중앙군사분계선으로는 군사도로로써 이를 확정하되, 옛 조상님들의 평화주권 선인 이미 설치된 군사분계선 하나 개의 기준점(북위[N] 38 도 20 분, 동경 [E]127 도 16 분) 위치를 확정하고 여기서(구, 서기 1916 년 조선 총독부 간행 지적 원도<국가기록원 역사 기록 관 소장>를 입증 자료 <N;537033.53 E;223315.60>로 하는 대한민국 강원도 평 강군 남면 학 전리 원도 33매 지 내 제33호 가 지번 기호 )을 확정하고, 남북쌍방이 기준점으로부터 각기 원형 형태로 하는 반경 약 18 km씩 후퇴함으로써, 서울특별시 면적과 동등하게 1,000 km 2 휴전 원을 확보한 후에는 동쪽에서 서쪽까지 155마일의 중앙군사 분계선을 철거하고, 이미 쌍방이 이 선으로부터 각기 2 km 씩 후퇴한 지점에 설치된 철책선들을 그대로 방치하고 비무장 지대에 존재하는 모든 폭발물, 지뢰 원, 등의 이러한 위험물들을 설치한 양측군대의 사령관들이 반드시 위험물 철거 전후의 증빙자료 사진들을 군사정전위원회 지시에 따라 또는 그 감독하에 비무장 지대 내로부터 이를 제거한 후 1,000 km 2 휴전 원 내부로는 무장지대로 설정하고 동북아국제 평화 기구를 신설하여 그 기구 통제 하에 탄알, 포탄, 핵미사일, 핵폭탄 등의 일체를 보관 저장할 수 있도록 남북쌍방이 보유한 군수물자를 총 집결시키되, 휴전 원 이외의 155마일 D M Z내부로는 탄알이 장전되지 않은 권총과 포탄이 장전되지 않은 장사 포, 탱크에 핵미사일과 핵탄두가 장전되지 않은 미사일 발사대와 인공위성 발사대들을 보관 저장하여 교육용과 전시용으로 하며 휴전 원과 D M Z 이외의 군사분계선 하나 개의 확정된 기준점에서 1,200 km 반경으로 하는 직 경 2,400 km 범위 내부로 영토는 복수 개의 철책선으로 확정하여 철책선 내부로는 도로를 형성하고 영해로는 복수 개의 해저터널 교통장치를 형성한다. (지도 1 첨 부 및 특허 문서 첨 부) 5.동북아시아 지역 내부로 D M Z 내부에 있는 판문점 군사정전위원회는 폐쇄하고 휴전 원 내부 국제연합기구에 판문점 군사정전위원회는 귀속하고 남북쌍방이 보유한 군수물자를 총 집결시키되, 휴전 원 이외의 155마일 D M Z내부로는 탄알이 장전되지 않은 권총과 포탄이 장전되지 않은 장사 포, 탱크에 핵미사일과 핵탄두가 장전되지 않은 미사일 발사대와 인공위성 발사대들을 보관 저장하되, 남 북 쌍방이 각기 보관한 장사 포, 탱크에 핵미사일과 핵탄두가 장전되지 않은 미사일 발사대와 인공위성 발사대 등의 포 열,포 신,포 구 등은 각기 남북쌍방의 군 작전 수뇌 지역과 군 통수 총괄 지역으로 각각 화 집 점 방위 각도로 배열 배치하며 절대로 위치 변동을 행할 수 없으므로 이를 위반하는 쌍방의 군대 사령들은 그 즉시 보임이 해직되며 휴전 원과 D M Z 이외의 군사분계선 하나 개의 확정된 기준점에서 1,200 km 반경으로 하는 직 경 2,400 km 범위 내에는 동북아시아 각국들은 군사적 무장해제를 이행하여 각 국가와 남북적대 군대 간에 적대행위의 재발을 초래할 수 있는 사건의 발생을 절대로 방지한다. 6. 동북아시아 지역 내부로 평화주권선 내부로는 군수물자에 속하는 지하광물 자원을 포함하여 일체의 군수물자들을 생산, 운송을 행할 수 없도록 하 기 위해 압록강에서 두만강에 이르는 국경 지역 등으로는 국제연합기구산하 국제평화유지군으로 하여금 각 국가간의 여행객, 각 국가간의 군수물자반입, 반출, 차량 들을 검 문 검색 후 통과하도록 중립국 감시 위원들을 배치하고 검문소를 설치하여 국제평화유지군의 안전보장을 각 국가는 제공한다. 7. 동북아시아 지역 내부로 남북쌍방의 군수물자 중 함선, 잠수함, 전투기, 함정들은 국제 평화 유지군 산하 통제 하에 연료와 무기를 공급받아 운용할 수 있다. 8. 동북아시아 지역 내부로 평화주권선 내부로 각 국가는 국제 평화 유지군 통제 하에 핵 항공모함, 함선, 전투기들이 진입, 퇴출할 수 있도록 각 국가는 평화 유지군의 권능과 권위를 허여한다. 9. 동북아시아 지역 내부로 남북쌍방은 D M Z 내부로 차단된 도로와 철도에 교량 등을 연결하여 만주벌판, 시베리아, 텐 진 산맥 등으로 인적, 물적 통행을 위해, 무조건 합의 이행하고 시베리아 유류, 가스송유관 매설공사 사업에 참여하여 무조건 남북쌍방은 자유로운 민간출입을 허여한다. 10. 동북아시아 지역 내부로 남북쌍방은 군사적 권리를 포기하고 그 포기한 권리는 국제 평화 유지군의 동북아시아 국제 연합 기구에 일임하며 절대로 국제 평화 유지군의 동북아시아 국제 연합 기구의 설립에 이의와 반론을 제기할 수 없으며 이를 위반하는 각각의 집단은 살아서 70 년 죽어서 그 자손들이 300 년 권리를 행사할 수 있는 WIPO 국제협정조약협력기구와 베른조약에 의하여 선출된 통일 한국 제 18대 대통령의 권위와 인격권에 도전하는 항명죄로 간주하여 남북쌍방의 권력 기관 종사자 전부는 국제법규에 따라 의법 엄단 조치한다. 11. 동북아시아 지역 내부로 남북쌍방은 군사적 권리를 포기하는 대신에 평화로운 무재해 지구촌을 이루기 위해 화산 폭발, 지진, 대형 산불, 쓰나 미, 태풍, 허리케인, 토네이도, 홍수, 가뭄, 황사, 폭염, 한파 등의 자연재해를 신속하게 극복할 수 있는 수해조절 장치와 핵폭발로 인한 방사능 오염이 되지 않은 핵폐기물 처리기술과 폭발 방지형 원자로 설비사업을 1 차적으로 동북아시아 지역 내부로 시행 후 실시 타당성 평가에 따라 점진적으로 전 지구촌에 보급하여 지구촌 평화를 지속적으로 유지하는 권리의 댓 가로 재외 동포를 포함하는 8,500만 국민소득 1인당 10만 불 수준의 국가로 전환한다.(별 첨 란 첨부) 12. 동북아시아 지역 내부로 휴전 원 내부로 남북쌍방의 한국전쟁 참전 전사 장병 및 U N 군과 러시아군에 중국군 참전 전사 장병과 민간인 전몰자와 상해 임시혁명 정부요인 위령탑들은 오대양에 분포된 금 ,은 ,유리 ,마노 ,호박 ,진주 ,다이아몬드 등으로 형성된 것을 사용하여 각개의 나라 위해 죽은 원혼을 달래 주기 위해 건립한다.(별 첨 란 첨부) 제2조 국제연합기구에 의한 영토분쟁해결방안 1. 동북아시아 지역 내부로 영토분쟁 당사국 중 어느 1국의 정치적 독립 또는 안전이 외부로부터의 무력공격에 의하여 위협을 받고 있다고 어느 당사국이든지 인정 할 때에는 언제든지 당사국은 서로 동북아시아 연합기구에서 협의한다. 2. 동북아시아 지역 내부로 영토분쟁 당사국들은 단독적으로나 공동으로나 자조와 상호 원조에 의하여 무력공격을 저지하기 위한 적절한 수단을 지속하여 강화시킬 것이며, 본 협정조약을 이행하고 그 목적을 추진할 적절한 조치와 상응되는 예를 들어 동북아시아 연합기구에서는 영토분쟁 당사국들의 각 지역으로 원폭 또는 수소폭탄을 베이징 또는 동경 등에 투하할 것인가 또는 하지 않을 것인가를 결정한 후 협의와 합의하에 취할 것이다. 제3조 1. 동북아시아 지역 내부로 영토분쟁 당사국들은 타 당사국의 행정 지 배 하에 있는 영토와 각 당사국이 타 당사국의 행정 지 배 하에 합법적으로 들어갔다고 인정하는 금후의 영토에 있어서 타 당사국에 대한 태평양 지역에 있어서는 무력공격을 자국의 평화와 안전을 위태롭게 하는 것을 인정하고 공통적인 위험에 대처하기 위하여 각자의 헌법상의 수속에 따라 동북아시아 연합기구의 설립과 창설의 목적과 취지에 의해 행동할 것을 분쟁당사국들은 영토분쟁 지역인 센 카 구 열도분쟁지역과 독도분쟁 유발 지역에 이어도 분쟁 지역을 포함하는 일본과 중국의 주장과 권리 모두를 포기하는 것을 선언하며 이를 위반하는 영토분쟁 당사국들의 지휘 통수권자는 이유 없이 국제사법 재판소에 제소된다. 제4조 1. 동북아시아 지역 내부로 영토분쟁 당사국들의 상호 적 합의에 의하여 국제연합의 대표국인 미합중국의 육군, 해군과 공군을 대한민국의 영토 내와 그 부근에 배치하고 구비하는 권리를 대한민국은 이를 허여하고 미합중국은 이를 수락하며 영토분쟁 당사국들의 상호 적 합의를 어느 일국이 거절하거나 파기를 할 때에는 오대양을 육지로 형성된 육대주로 형성하고 육대주를 오대양으로 형성될 수 있는 지구촌 대 변형을 실행할 수 있으며 그 실시 예로 히말라야 산맥의 티베트 고원 등을 통째로 이동(우 공 이산;愚 公 移 山,)하며 1차적으로 동북아시아 각국들이 상호 간의 영토분쟁을 빌미로 군비 경쟁을 지속적으로 행하면 동북아시아 모든 영해를 육지로 육지는 영해로 지구촌 지각변동 대 변형을 실행할 수 있으며 이에 대한 손 배 책임은 각 국가의 통치권자에게 전가 되며 매립된 영토는 영토분쟁 당사국가 국민과 그 당사국 통치자들은 영토 소유권을 주장할 수 없다.(입증 자료 첨 부 사진 1매) 제5조 1. 본 동북아시아 평화공존 협정조약은 동북아시아 지역 내부로 대한민국과 미합중국에 의하여 헌법상의 수속에 따라 비준되어야 하며 러시아, 중국, 일본 국가들도 헌법상의 수속에 의해 동등하게 비준되어야 하고 그 비준서가 다 국가에 의하여 서울에서 교환되었을 때에 효력을 발생한다 2. 본 협정 조약문서 작성은 동북아시아 지역 내부로 대한민국의 지구촌 재난 방지 기술보급소 소장 겸 살아서 70 년 죽어서 그 자손들이 300 년 권리를 행사할 수 있는 WIPO 국제협정조약기구와 베른조약에 의하여 선출된 통일 한국 제 18대 대통령 이 우성이 작성하였다. 3. 상기 동북아시아 지역 내부로 자유중국 수반 대표와 북한 전권 수반 대표들은 동북아시아 평화 공존을 위해서 뉴욕 유엔 총회에 이의를 제기할 수 없을 뿐만 아니라, 특히, 일본국가와 그 국민 들은 세계 2차 대전의 패전 국가로써 국제사법재판소에 독도 영유권을 제소하는 시점으로 사흘이 멀다 않고 태풍과 홍수와 쓰나 미와 지진 화산폭발, 등으로 화를 면할 수 없도록 일련의 조치를 본 협정조약문서 작성자는 시행할 수 있다. 또한, 이어도 영유권을 주장하는 중국정부에도 전술한 자연 재해로부터 자유롭지 못함을 엄격히 경고하는 바이며 동해를 일본 해로 표기한 전 세계의 도서 서적들을 폐기처분하고 중국 정부도 마찬가지로 고구려와 발해, 백제 등의 역사 유적 물을 폐기처분하거나 역사를 왜곡 주장하는 일이 없도록 국제사회 일원으로써 책임과 의무를 성실히 수행할 것으로 믿어 의심치 않는 바이다. 4. 이하, 동북아시아 지역 내부로 국제연합기구 창설에 따른 세부적인 총칙과 구성의 운용 방법 등은 추후 각국전권 대표들에게 통보함. 제6조 1. 본 협정조약은 동북아시아 지역 내부로 무기한으로 유효하다. 동북아시아 평화공존의 어느 당사국이든지 타 당사국에 통고한 후 1년 후에 본 협정조약을 종지 시킬 수 있다. 2. 이상의 증거로서 하 기 전권 위원은 본 협정조약에 서명한다. 3. 본 협정조약은 동북아시아 지역 내부로 2013년 02월 02일 대한민국 서울에서 동북아 분쟁 당사국 모든 국가의 국문과, 영문, 중국 문, 일본 문, 러시아 문들로 구비해 복수 개로 작성됨. 4. 동북아시아 지역 내부로 단기 4346 년(2013년 02월 02일) 한 달 이후로 대한민국 제18대 대통령에는 이우성으로 추대된 것을 확인하고 본 협정조약문서작성과 함께 비준 동의 서명하는 것으로 각국의 국가원수들과 이우성은 동등한 지위의 효력이 발생하고 본 협정조약은 단기 4346 년(2013년 02월)부터 통일 원년을 삼아 그 즉시 시행한다.

동북아시아 평화 공존을 위해서 각국전권대표( 신한국 연방국 전권대표 , 서명 이우성 ) 동북아시아 평화 공존을 위해서 각국전권대표 ( 미합중국 전권대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국전권대표 ( 중화인민공화국 전권대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국전권대표 ( 러시아 정부 전권 대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국전권대표 ( 일본 내각 수반 대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국전권대표 ( 자유 중국 수반 대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국전권대표 ( 남한 전권 수반 대표 , 서명 ) 동북아시아 평화 공존을 위해서 각국전권대표 ( 북한 전권 수반 대표 , 서명 ) 상기 본 협정조약문서의 일어 영어 번역본(This Agreement treaty document translation)이다. MESSAGE

from Lee Woo Sung Internet Digital the Republic of South Korea 18th President = > I m sorry I'm not good at English will I want world beauty big peace to URL = > http://www.whitehouse.gov/ The White House 1600 Pennsylvania Avenue N W Washington DC 20500 USA President B A R A K O B A M A ロシアの家元首索このメルアドレスはありません 中華人民共和家主席索このメルアドレスはありません 日本の閣伴う索このメルアドレスはありません 自由の中のキャビネット伴う索メルアドレスがありません 平政索このメルアドレスはありません UN事務局半奇長メッセジ送信 you ' es are requested to an sewer in written form Will agree you e s big peace of my mind You e s will help me For world peace Only One there of with it'sdte n t e 北東アジアの平和共存協定の約文書の容 Content a document a treaty an agreement coexistence peace Asia northeast Toブラオバマアメリカ合衆大統領 こんにちは 尊敬する大統領の再就任を再もう一度おめでとうございます インタネット上のデジタル第18代大韓民大統領は質素に私の 私邸前で第18代大統領就任の宣誓を終えました President take officer inaugurated as president finished You will help me これらの事を米政府CN放送局で米の ラジオ放送 The Times新聞社全世界のメディアを利用し大韓民 部の放送局新聞社で公表するよう協力を要請します from in the Korea dual lityanal log system working load to simply apolitical system Nothing No problem 世界の失業問題不況を迅速に克服することができる方案を米 大統領だけでなく世界各の家元首と Free of Charge suddenly Rule このような況を提供し北東アジア地域と全地球の平和のために 30日以に世界不況を克服するための知を提供する世界 の官であるが閣僚議をするように協力をお願いします そして私の大統領就任の宣誓をきっかけに私の明者として特許者に て優先を主張し大韓民の家部の大統領就任と同 北アジアの平和共存協定の約批准文書と憲法上の改正問題を解決することができ ように多くの助けを期待しています 米際共同技術開の問題原子力の原子の技術協力の問題軍事政治社文化で多くの問題を韓半島の平和統一の問題は半奇UN社 無長との絆を化しながら知を集めることができるように神の恩寵 たされることを願っています ハングル文書をよく理解できるように半奇UN事務長を招待する ありがとうございます 無投票選者が優勢大統領執務279日目

第18代大韓民大統領が 優勢 Lee Woo Sung The U.S. scheme that allows unemployment problem in the world, to overcome the rapid economic downturn As well as the President, and head of state of the world (Free of Charge, It provides suddenly Rule) this situation, for the sake of peace of all the earth and Northeast Asia, World that provides the wisdom to overcome the global recession within 30 days It is a government of, but I need your help and cooperation to the economic ministers' meeting. And, in the wake of the presidential oath of me, the patent owner as the inventor of the I This application claims priority Te, and the inauguration of the state inside of the Republic of Korea It is possible to resolve the question of revision of constitutional and treaty ratification document of peaceful coexistence agreement of North Asia I hope to help so many. (Issue of technical cooperation in the nuclear reactor, military, politics, society, culture) in the problem of peaceful reunification of the Korean peninsula, half odd UN's many problems problem of U.S. International collaborative technology development In order to be able to while strengthening ties with non-General, to collect the wisdom, grace of God We hope you will be satisfied. Invite hemiazygos UN Secretary-General to be able to understand the Hangul document Thank you. (279 day Oval) predominant Mutohyo winner 18th Republic of Korea President dominance 2013 09 02 pm. 20:00 北東アジアの平和共存協定約 A document a treaty an agreement coexistence peace Asia Northeast 大韓民の大統領が一方的にして中華人民共和家主席とロシア 代表と日本民の閣伴い他の一方とする際平和維持軍 による北東アジアの平和共存にする協定約 門前文 大韓民の大統領が一方的にして中華人民共和家主席とロシア 代表と日本民の閣伴い他の一方にするための署名者は 最後の平和的解決が達成されるまで大韓民での敵行や一切の武力と暴力行の完全な停止を保するすべての人とすべての政府が平和的に生活しその希望を再確認しまた太平洋地域の日 部分的な北東アジアの中と日本にロシアの領土にまれた韓での 敵行と一不能の行の完全な停止を保する平和共存を確立する 目的のために南北北端ののトライアングルの平安と原子の金貨地域管理事務所 または役場中心部を基にして軍事境界線かの基準点北緯[ N ] 38度20分東[ E ] 127度16分の場所を確定しここで西1916年朝鮮督府出版指摘員も<記係史文書館所>を立資料とする大韓民江原道原郡語の練習には2通り李元も72マジの地番不明である係で1965年頃行政改編に伴う大韓民江原道原郡東町の江籬8番地付近の部位中央軍事境界線の点を基準して三千里1,200 kmの距離を半とする直2,400 kmの範にはした事項に記載された北東アジアの平和共存の件や規制を遵守しまたその制約と制御を受ける個にまたは中とロシアと日本は共同的にもまたは相互に合意する この件の規定の意は純に領土紛を誘する弊社の軍事的勢力大を阻止し北東アジア地域の緊張緩和に伴う韓の昔の領土と平和の主線のみで適用するがまた北東アジア地域におけるの平和機構を恒久的に固なものにすることを希望し 締約のうちいずれか1でも太平洋の北東アジア地域において 孤立しているという錯を任意の在的侵略者も持たないように外部からの武力攻にして自分を防衛しようとする共通の決意を公の場で また正式に宣言することを希望しまた太平洋の北東アジア地域におけるより包括的で果的な地域的安全保障組織が達するまで 平和と安全を維持し高低集的防衛のための努力を固にすることを希望し大韓民昔の領域を占めている締約は領海を含む領域株式の占用料を際連合機に支うことを誓約し次のように同意する 第1北東アジアの平和共存に伴う際連合機構の創設 Peaceful coexistence agreement treaty in Northeast Asia (A document a treaty an agreement coexistence peace Asia Northeast) President of the Republic of Korea is the one-sided , and Russia and the People's Republic of China president With Cabinet of the Japanese people and representative , international peace -keeping force to the one of the other The agreement Convention on the peaceful coexistence of Northeast Asia by Professional ( Preamble ) President of the Republic of Korea is the one-sided , and Russia and the People's Republic of China president Signer for With Cabinet of the Japanese people and representatives , to one another , Peaceful solution until the last is achieved , government and all people of all in order to ensure the complete stop of violence and force of any and hostilities in the Republic of Korea to live peacefully , double-check the desired , also the day of the Pacific Ocean region In Korea is surrounded by the territory of Russia in China and Japan in Northeast Asia partial To establish a peaceful coexistence in order to ensure the complete stop of the act of non- integral with the hostilities The gold area management office of iron atoms and peace of the iron triangle of north-south north end for the purpose Or on the basis of the office center , ( north latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) to confirm the location of the , 1916 ( Ward , AD here reference point or military demarcation line , in the relationship is a lot number unknown 72 in seriously , Korea government-General pointed out that publishing ins 1965 Li Yuan also two ways to practice of the Republic of Korea Gangwon iron original county word that prove article <country registrar history Archives Collection >in the range of 2,400 km diameter and radius the distance of 1,200 km three thousand miles with respect to the point of site) central military demarcation line of Jiang Mase 8 address the vicinity of the Republic of Korea Gangwon iron original county Higashi due to administrative reform is , individually under the control and the constraint , or even collaborative , or Japan and Russia and China , agree with each other , and also comply with the regulations and conditions of peaceful coexistence in Northeast Asia that is described in the matters that you have . To prevent military forces expansion of our country to induce territorial disputes purely intent of the provisions of this condition will be applied in only sovereignty line of peace and territory of old Korea due to the easing of tensions in Northeast Asia , in addition, I hope that you can have a robust permanent peace mechanism in Northeast Asia , In Northeast Asia region of the Pacific Ocean in one country one of the Parties , Potential invaders of any well so as not to have the illusion that they are isolated , in public determination common to try to defend yourself against armed attack from outside In addition, also , hope to formally declare , in Northeast Asia region of the Pacific Ocean , regional security organization and effective more comprehensive until the development , Parties that wish to be a strong effort for high and low , of collective defense to maintain peace and security , occupies an area of the Republic of Korea a long time ago is payable to the United Nations agencies occupation fee of area shares , including the territorial waters the pledge , you agree as follows . The creation of a United Nations mechanism associated with the peaceful coexistence of Article 1 of Northeast Asia 2北東アジア地域で1950年6月25日韓の生前後視韓休協定前に韓の激地平安町施設の建物の中心点と原邑施設の建物中心点に金の面施設の建物の中心点に三角構で線を引いてこの地域ににインストルされて軍事境界線かの基準点北緯[ N ] 38度20分東[ E ] 127度16分の場所を確定しここで西1916年朝鮮督府出版指摘員も<家記院の史文書館所>を立資料とする大韓民江原道原郡語の練習には2通り李元も72マジ私の地番賞を確定し南北方が基準点からそれぞれ丸形とする半約18 kmずつ後退することでソウル特別市面積と同等に1,000 km2休ウォンを確保した後は東から西まで155マイルの中央軍事境界線を撤去してすでに方がこの線からそれぞれ2 kmずつ後退した地点に設置され柵線をそのまま放置して非武地に存在するすべての爆物地雷元などのこのような危物をインストルした側の軍隊の司令官が必ず危物撤去前後の資料を軍事停委員の指示にじてまたはその監督の下で非武地からこれをアンインストルした後 1,000 km2休円の部には武地を設定し北東アジアの際平和機構を新設しその機構制御下に丸砲核ミサイル核爆などの一切のアカイブ保存できるように南北方が保有する軍需物資を集結させるが休員以外155マイルDMZの側には丸がされていない拳銃と砲がされていない商フォタンクに核ミサイルと核頭がされていないミサイル射置と衛星射台を保管し保存して育と展示用にして休円とDMZ以外の軍事境界線かの確定した基準点から1,200 km半とする直2,400 kmの範には北東アジア各は軍事的武解除を施してそれぞれのの南北敵軍の間で敵行の再を引き起こすことができる事件の生を防止する 1 . Territorial dispute parties in Northeast Asia within the region , June 25 1950 World War II that may be related to termination , surrender of the Japanese Emperor will be declaimed in aboard than malt , it occurs after day , in the generation before and after the Korean War , while the 60 years or more flows war criminal justice process and the associated war criminal investigation collective that caused the Korean War occurred without resolving all the so-called , in the country east courtesy and so forced annexation of weaker nations , such as Himalayan Tibetan Plateau dispute bright archipelago dispute strong , even in the D o k do dispute , and the Vietnam war , No. hijacking a fire in F u z h o u native and off the coast of Panmunjom ax brutality incident in 1977 history settlement of the past , such as a threat incident of nuclear Y eon p y e o n g Island shelling incident and the C h e o nan sinking incident of recent , nuclear frantic of March the same year is to highlight the need desperately more than anything , any international dispute some by force , and also resolved by peaceful means in a manner that does not compromise the justice and security and international peace , to be on the duty of parties and purpose of the United Nations in international relations has the burden to the United Nations northeast Asia countries to promise to refrain from that or threaten to use force . 2 . June 25, 1950 , before the occurrence of the Korean War , of gold to building the center point of the original iron -eup facility and the center point of the hard-fought field of building peace town facilities of Korean War in South Korea backsight before cease-fire agreement in Northeast Asia area pull the line in the triangular composition in the center of the building of the screen facility , ( north latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) reference point or military demarcation line is already installed in this area to confirm the location of the , 1916 ( Ward , AD , Korea government-General publication pointed out employee also two ways to practice of the Republic of Korea Gangwon iron original county word that prove article <history archives holding a national record in> here by about 18 km radius of Li Yuan also to confirm the lot number award ) my 72 seriously , North and South both to round each from the reference point at a time retreat , after securing the 1,000 km2 truce won equivalent to the Seoul area is , you can remove the central military demarcation line of 155 miles from east to west , the explosion of all installed to the point where the two sides is retracted by 2 km , respectively, from this line already exists in the demilitarized zone on standing as it is the iron fence line commander of troops on both sides where you installed the hazardous materials such things , such as mine original , in accordance with the instructions of the military cease-fire committee evidence file photo of hazardous materials removal before and after always , or under its supervision , demilitarized after the zone in , you must uninstall this, set the demilitarized zone in the interior of the 1,000 km2 truce yen , we established an international peace mechanism in Northeast Asia , bullets , artillery shells , nuclear , missile , nuclear bomb in the mechanism under control thereby the total concentrate the munitions that North and South sides held to allow archiving of all such , but business for the shells and handgun bullets is not loaded inside the 155 miles DMZ truce employee A non is not loaded , the tank and 1,200 km radius from the reference point to have been fixed or military Demarcation Line in the DMZ and non- truce yen in the exhibition for education and save to save the satellite launch pad and missile launchers that nuclear warheads and nuclear missiles is not loaded on the within the scope of the 2,400 km diameter to be , to prevent the occurrence of an event that can northeast Asian countries to conduct military disarmament , to cause a recurrence of hostilities between North and South hostile forces of each country . 3 北東アジア地域で確定された北東アジアの平和主線の位置は添付された地に表示されたとおりである 地1付 4北東アジア地域での停元とDMZの武地は添付された地に表示された北方境界線と南方境界線として撤去された中央軍事境界線には軍事道路としてこれを確定するが昔の祖先の平和主先人すでにインストルされて軍事境界線かつの基準点北緯[ N ] 38度20分東[ E ] 127度16分の場所を確定しここで西1916年朝鮮督府出版指摘員も<家記院史文書館所>を立資料とする大韓民江原道原郡語の練習には2通り李元も72マジ私の地番賞を確定し南北方が基準点からそれぞれ丸形とする半約18 kmずつ後退することでソウル市の面積と同等に1,000 km2休円を確保した後は東から西まで155マイルの中央軍事境界線を撤去してすでに方がこの線からそれぞれ2 kmずつ後退した地点に設置され柵線をそのまま放置して非武地に存在するすべての爆物地雷円などのこのような危物をインストルした側の軍隊の司令官が必ず危物撤去前後の資料を軍事停委員の指示にじてまたはその監督の下で非武地からこれをアンインストルした後 1,000 km2休円の部には武地に設定して北東アジアの際平和機構を新設しその機構制御下に丸砲核ミサイル核爆などの一切のアカイブ保存できるように南北方が保有する軍需物資を集結させるが休員以外の155マイルDMZの側には丸このされていない拳銃と砲がされていない商フォタンクに核ミサイルと核頭がされていないミサイル射置と衛星射台を保管し保存して育と展示用にして休円とDMZ以外の軍事境界線かの確定した基準点から1,200 km半とする直2,400 kmの範での領域は複の柵線で確定して柵線の部には道路を形成し領海には複の海底トンネル輸送置を形成する 地1添付や特許文書添付 5 北東アジア地域でDMZの側にある板門店軍事停委員は閉鎖して休円の部的な連組織に板門店の軍事停委員はし南北方が保有する軍需物資を集結させるが休員以外の155マイルDMZ部には丸がされていない拳銃と砲がされていない商フォタンクに核ミサイルと核頭がされていないミサイル射置と衛星射台を保管格納しておき南北方がそれぞれ保管して商フォタンクに核ミサイルと核頭がされていないミサイル射置と衛星射台などのポ熱フォシンフォなどはそれぞれ南北方の軍の作首地域の軍統帥括地域にそれぞれ話集点方位道路の配列に配置し絶位置動を行うことができないのでこれに違反する方の軍隊司令はすぐに見えるが解雇され休円とDMZ以外の軍事境界線かの確定した基準点から1,200 km半とする直2,400 kmの範には北東アジア各は軍事武解除を施しそれぞれのの南北敵軍の間で敵行の再を引き起こすことができる事件の生を絶に防ぐ 6北東アジア地域で平和主線の部には軍需物資にする地下物資源を含む一切の軍需物資を生産輸送を行うことができないようにするために鴨江から豆江までの境地域などでは際連合機構傘下際平和維持軍にとって各家間の旅行者は各家間の軍需物資の搬入搬出車をドアを索し通過するようにニュトラル監視委員を配置しチェックポイントを設置し際平和維持軍の安全保障をそれぞれのにはいない 7北東アジア地域で南北方の軍需物資の船水艦機艦艇は際平和維持軍傘下の制御下に燃料と武器の供給を受け運用することができる 8北東アジア地域で平和主線の部にそれぞれのは際平和維持軍管理下に原子力空母艦船機が進入退出できるようにそれぞれのは平和維持軍の力と威を付する 9北東アジア地域で南北方は DMZの側にブロックされた道路や道の橋梁などを接して洲原野シベリア天神山などに人的物的流通のために無件に合意履行してシベリアの石油ガスパイプライン埋設工事事業に加して無件に南北方は自由な民間の出入りを付する 10北東アジア地域で南北方は軍事的利を放棄し利に際平和維持軍の北東アジア際連合機に一任して使えば際平和維持軍の北東アジア際連合機構の設立に異議と反論を提起することができずこれを違反しているそれぞれの集は生きて70年死んでその子孫が300年利を行使することができるWIPO際約約機構とベルン約によって選出された統一韓の第18代大統領の威と人格に挑するハンミョンジュェであると考えて南北方の力機事者すべては際法に基づいて法によりしく取り締まる措置する 3 . Position of sovereignty peace line in Northeast Asia that have been confirmed in Northeast Asia area is as it appears on the map attached . ( With map 1 ) 4 . The central military demarcation line that was removed as a southern border and the Northern Limit Line , which is shown on a map that is attached , as a military road , demilitarized zone and DMZ truce based in Northeast Asia within the region , but to confirm this , already installed peace sovereignty predecessors ancestor of old reference point of the military demarcation line and ( north latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) to confirm the location of where ( Ward , 1916 AD , the Korean government-General pointed out that publishing employee also confirm the lot number award ) my 72 seriously Lee also two ways to practice of the Republic of Korea Gangwon iron original county word that prove article <National Academy of recording history Archives Collection >by then , about 18 km radius of North and South both to round each from the reference point at a time retreat , after securing the 1,000 km2 truce yen equivalent to the area of Seoul , from east to west to the Central Military boundary of 155 miles hazardous materials such explosive of all , such as mine circle , you have removed the line , is installed at the point where the two sides retreated by 2 km , respectively, from this line already exists in the demilitarized zone on standing as it is the iron fence line commander of troops on both sides have installed in accordance with the instructions of the military cease-fire committee evidence file photo of hazardous materials removal before and after always , or under its supervision , after the demilitarized zone in , you must uninstall this , 1,000 established an international peace mechanism in Northeast Asia by setting the demilitarized zone in the interior of the km2 truce circle , north and south sides to allow archiving of any bullet , ammunition , nuclear , missile , or in nuclear bomb in the mechanism under control thereby total centralizing munitions held , but business for the shells and handguns not loaded the bullet inside the 155 miles DMZ in truce employee A non is not loaded , warheads and missiles is not loaded in the tank area in the range of 2,400 km in diameter and 1,200 km radius from the reference point to have been fixed or military Demarcation Line in the DMZ and non- truce yen in the exhibition for education and save to save the satellite launch pad and missile launch device inside the iron fence line , to form a road confirm by iron fence lines , the waters to form a submarine tunnel transport units. (Patent document and the accompanying map 1 attached) 5 . Military Armistice Commission in Panmunjom is the property of the United Nations organization 's internal truce yen closed , Panmunjom Military Armistice Commission is inside the DMZ in Northeast Asia within the region but to the total concentration the munitions that North and South both held , business for the shells and handgun bullets is not loaded to 155 miles the DMZ of truce employee other than is not loaded , storage stores satellite launch pad and missile launchers that nuclear warheads and nuclear missiles is not loaded on the tank the leave , port heat business for North and South both keep each , such as satellite launch pad and missile launchers that nuclear warheads and nuclear missiles is not loaded into the tank , Foshin , include Forbidden Zone , army of North and South both each it is not possible to place an array of story collection point orientation road respectively the military supreme command summary area of strategy summit area , and the position change absolute , it appears immediately fired , military commander of both in violation of this , truce within the scope of the 2,400 km diameter and 1,200 km radius from the reference point to confirm or military Demarcation Line in the DMZ and non- yen , northeast Asian countries to carry out military disarmament , between North and South hostile forces of each country to prevent absolutely the occurrence of an event that can cause a recurrence of hostilities . 6 . Inside the peace Sovereign lines , in order not to be able to produce the munitions of any containing underground mineral resources belonging to munitions , and performs transport and border to Duman from Yalu in Northeast Asia area in such areas , find Ken door carrying of munitions of each inter-state , carry-out , the vehicle , travelers each between nations , place a neutral monitoring committee to pass for the United Nations Organization under international peacekeeping force , we have established a checkpoint , it is not the country of each security of the international peacekeeping force . 7 . Ship munitions of both North and South , submarines , fighter , vessels will be able to operate receives a supply of fuel and weapons under the control of the international peacekeeping force under the umbrella in the Northeast Asia region. 8 . The inside of the peace sovereignty line , nuclear-powered aircraft carrier , ships , fighters enter the international peacekeeping force under control , to be able to exit , each country , power and authority of the peacekeeping forces in each country in Northeast Asia area I grant . 9 . The north and south sides , connect the bridges and other road and rail blocked inside the DMZ, for human and physical distribution , and agreed to unconditional Manchuria wilderness , Siberia , and Tenjinyama in Northeast Asia area North and South both sides , to give out free private unconditionally to participate Siberian oil , the gas pipeline buried construction business with fulfillment . 10 . The north and south sides , to abandon the military right , you can use with discretion northeast Asia United Nations agencies of international peace -keeping force to the rights , and the objection to the establishment of Northeast Asia United Nations Organization of the international peacekeeping force in Northeast Asia area each population that it is not possible to raise objections , are in violation of this dead '70 to live , was elected by the Berne Convention and the WIPO international treaties Treaty Organization that allows the offspring to exercise 300 years right and thinking is a Hanmyonju~e to challenge personal rights and authority of the 18th president of a unified Korea , to measure crack down by law on the basis of international law , all power agency workers in both North and South . 11北東アジア地域で南北方は軍事的利を放棄する代わりに平和な無災害地球村を達成するために火山の噴火地震大規模な山火事書きや米台風ハリケン洪水干ばつ砂猛暑寒波などの自然災害を迅速に克服することができる水害調整置と核爆による放射能汚染がされていない核棄物の理技術と爆防止型原子設備事業を主に北東アジア地域で施し施の妥性の評にじて徐にで全地球村に普及して地球の平和を持的に維持する利のザット在外同胞を含む8,500万の民所得1人たり10万ドル水準のに移行する 別添と付 12北東アジア地域での停円の部に南北方の韓士兵士とUN軍とロシア軍に中軍士兵などの民間人者と上海臨時革命政府の要人慰塔などは五大に分布された金銀ガラス瑪瑙琥珀珠ダイヤモンドなどで形成されたものを使用してのために死んだ魂を癒してくれるために建設する 別添と付 11. The north and south sides, a volcanic eruption in order to achieve a peaceful accident-free global village instead to abandon the military right, earthquake, wildfire large, rice, and typhoons oysters, hurricane, tornado, flood in Northeast Asia area , the explosion prevention reactor equipment business and processing technology of nuclear waste and the flood control device that can be overcome quickly natural disasters drought, yellow sand, scorching heat, and cold wave, radioactive contamination caused by nuclear explosion is not we conducted in Northeast Asia area primarily, gradually, depending on the evaluation of the adequacy of the implementation, people of 85 million, including that horizontal overseas brethren of the right to maintain the sustainable peace on earth to spread the global village I want to migrate to the country of $ 100,000 income level per capita. (With and Annex) 12. Dignitaries such as War Memorial of Shanghai extraordinary revolutionary government and civilian war dead, including Chinese military officers and soldiers in war warrior Russian army and UN troops and the Korean War war warrior soldiers both North and South in the interior of the cease-fire circle in Northeast Asia within the region, will be built in order to heal the soul that died for the country with the one formed gold that has been distributed in the Great Lakes, silver, glass, agate, amber, pearl, or diamond. (With and Annex) 第2際連合機構による領土紛解決方案 1北東アジア地域での領土紛事のいずれか1の政治的立または安全が外部からの武力攻による脅威を受けているとどのでも認め際いつでも締約は相互に北東アジア連合の組みで協議する 2北東アジア地域での領土紛事はにも共同的にも自助と相互援助による武力攻を阻止するための適切な手段をして化するものであり本協定約を履行しその目的を推進する適切な措置とする例を含む北東アジア連合の組みでは領土紛事の各地域に原爆や水爆を北京や東京などに投下するかまたはしないかを決定し協議と合意のもとに取る 第3 1北東アジア地域での領土紛事は他の締約の行政かの船の下にある領土の締約が他の締約の行政かの船の下で合法的に入っ認める今後の地域における他の締約の太平洋地域においては武力攻を自の平和と安全を危にさらすことを認識し一般的なリスクにするためにそれぞれの憲法上の手にって北東アジア連合組織の設立と設立の目的と趣旨により行動するのを紛事は領土紛地域であるセンが列島紛地域と島紛生地域にあっても紛地域を含む日本と中の主張と利のすべてを放棄することを宣言する 第4 1北東アジア地域での領土紛事の相互の合意により際連合の代表であるアメリカ合衆の軍隊海軍と空軍を大韓民の領土とその付近に配備する利を大韓民はこれを許諾するものでアメリカ合衆はこれを受諾し領土紛事の相互の合意をどの一が拒否したり破棄をするときは五大洋を陸地に形成された六大陸に形成し六大州の五大に形成することができる地球の形を行することができその施例としてヒマラヤのチベット高原を丸ごと移動愚;愚公移山 で主に東北アジア各が相互の領土紛を的に行うと東北アジアの領海を陸に陸地は領海と地球の形を行することができこのための手の船の責任は各の支配者に嫁され埋め立てられた領域は領土紛社の籍とその締約の支配者たちは領土の所有を主張することができない 立資料添付2枚 第5 1この北東アジアの平和共存協定の約は北東アジア地域で大韓民とアメリカ合衆は憲法上の手にって批准される必要がありロシア中日本のも憲法上の手きによって均等に批准されるべきでその批准書が複には"ソウル"で交換された時に力を生する 2本協定約文書の作成は北東アジア地域で大韓民の地球の災害策技術普及所所長兼生きて70年死んでその子孫が300年利を行使することができるWIPO際約約機構とベルン約によって選出された統一韓の第18代大統領が優勢に作成した The territorial dispute resolution scheme by Article 2 of the United Nations Organization 1 . Safety or political independence of one country one of the territorial dispute parties in Northeast Asia area is has received a threat of armed attack from the outside , when , Parties , northeast to each other at any time observed in any party I discuss in the framework of Asia Union. 2 . Are intended to strengthen to continue the appropriate means to prevent armed attacks by mutual aid and self-help also alone , even collaborative , territorial disputes parties in Northeast Asia within the region , this agreement treaty in the framework of northeast Asia Union , including the example and the corresponding appropriate measures to fulfill , to promote its purpose , whether or not , or dropped on the Tokyo and Beijing the hydrogen bomb and atomic bomb in each region of the territory the parties to the dispute the decision , to take on the basis of consultation and consensus . Article 3 1 . Territorial dispute parties in Northeast Asia region within the area of future parties of territory at the bottom of the ship or administration of another Party admits in the lawful under the ship or administration of other Parties in the Pacific Ocean region of another Party in , in order to recognize that it is endangering the peace and security of the country the armed attack , to deal with the general risks , in accordance with constitutional processes of each , and northeast Asia coalition even in Dokdo conflict affected regions and old archipelago conflict areas are a thousand is a territorial conflict areas , the parties to the dispute , the claims of Japan and China , including the disputed area you to action by the spirit and purpose of the establishment and the establishment of to declare that to abandon all of its rights and . Article 4 1 . The Republic of Korea shall be permitted to this the right to deploy in that neighborhood and territory of the Republic of Korea Forces of the United States of America is a representative of the United Nations , the Navy and Air Force by mutual agreement of the territory the parties to the dispute in Northeast Asia area in the United States to accept this , when any one country or reject the mutual agreement of the territory the parties to the dispute , to destroy , to form on six continents formed to land a Major Ocean , and of the six continents can perform the deformation of the earth can be formed into five major , as an example, the mobile whole plateau Himalayan ; Northeast Asian countries continuously territorial disputes mutual mainly ( Woo Woo public transfer mountain ) land can be used to perform the deformation of the earth and waters to land the waters of Northeast Asia , a region that is passed on to the ruler of the country , has been reclaimed , the responsibility of the ship on hand for this , territorial disputes If you do , rulers of the Parties to the nationality of the Company may not be able to claim ownership of the territory . ( Two proven materials attached photo ) Article 5 1 . Must be ratified in accordance with the procedures of constitutional United States and South Korea in Northeast Asia area , treaty of peaceful coexistence agreement of this Northeast Asia , be ratified equally by constitutional processes some countries Russia , China , Japan it should , come into force when the instrument of ratification has been replaced with " Seoul " in multiple countries 2 . Preparation of this agreement treaty document , died in '70 to live disaster recovery technology diffusion plant director and the earth of the Republic of Korea in Northeast Asia area , Berne and WIPO international treaties Treaty Organization that can any of its descendants to exercise 300 years right 18th president of the unified Korea , which is elected by the treaty has created predominantly . 3 上記北東アジア地域での自由中伴う代表と北朝鮮全伴う代表は北東アジアの平和共存のために"ニュヨク"連に異議を申し立てることができないだけでなく特に日本家とその民は第2次世界大の敗として際司法裁判所に島領有を提訴した時点で三日が遠いことなく台風や洪水と書きや三輪地震火山爆などと話を免れることができないように一連の措置を本協定の約文書の作成者は施することができるまたあっても領有を主張する中政府にも前述した自然災害から自由ではないことをしく警告するところであり東海を日本海と表記した世界の書籍書籍を棄分し中政府も同に高句麗と渤海百などの史遺跡の水を棄したり史を歪曲主張することのないよう際社の一員としての責任と義務を誠に行することは間違いないところだ 4以下北東アジア地域での際連合の組みの創設に伴う詳細な則と構成と運用方法などは今後の各全代表者に通知する 第6 1本協定約は北東アジア地域で無期限に有である北東アジアの平和共存のいずれかの締約でも他の締約に通告した後 1年後に本協定約を終止させることができる 2以上のとしてした全委員はこの協定の約に署名する 3 本協定約は北東アジア地域で2013年02月02日大韓民"ソウル"で北東アジアの紛事すべてのの文科英語中語のドア日本のドアロシアドアなどに二着で作成され 4北東アジア地域で大韓民の第18代大統領にはウソンに推戴されたことを本協定の約文書の作成と批准署名することで各の家元首との優勢は同等の地位の力が生し本協定の約はそのすぐ施行する 3 . Not only not be able to challenge the General Assembly United Nations " New York " for peaceful coexistence in Northeast Asia , in particular , representatives accompanied North Korea plenipotentiary representatives and with free china in the Northeast Asia region within , and its people Japanese state is it not to be able to avoid talking to and Miwa earthquake volcanic explosion , oysters and a flood and typhoon without the 3rd is far when sued Dokdo sovereignty to the International Court of Justice as a defeated nation in world War II I can be in , the creator of the treaty document of this agreement , to carry out a series of measures . In addition , the Chinese government to be claimed even if there is a place where sternly warn that it is not free from natural disasters described above , disposed of the book book of world referred to as the Sea of Japan the East Sea , the Chinese government it's place as in the same way , that it will not be that you can discard the water of history remains Bohai and Koguryo and Baekje , distort claims history , there is no doubt that running in good faith the obligations and responsibilities as a member of the international community . 4 . Or less , such as how to configure and operate with the detailed general rules associated with the creation of a framework of the United Nations in Northeast Asia area , I will inform the country plenipotentiary representatives of the future . Article 6 1 . The agreement treaty is effective indefinitely in the Northeast Asia region. It is possible that after notice to the other parties in the Contracting State of one of the peaceful coexistence of Northeast Asia and to stop this agreement treaty a year later . 2 . Plenipotentiary of the evidence as described above , to sign a treaty of this agreement . 3 . February 02, 2013 , in the Republic of Korea " Seoul " , door country arts of all countries parties to the dispute in Northeast Asia , English , Chinese , door of Japan , the Agreement Convention , and in Northeast Asia Roshiadoa area it is created by the second-place finish in 4 . Through the ratification creates and signs of the treaty document of the agreement that has been Suitai in Towson , efficacy equivalent position is generated dominance head of state of each country to the 18th president of the Republic of Korea in Northeast Asia area , the Convention of this agreement shall come into force immediately that . 北東アジアの平和共存のために各全代表アメリカ合衆UN司令官署名

大韓民全代表署名イオソン 中華人民共和全代表署名 ロシア政府グォングォン代表署名 日本の閣伴う代表署名 自由中伴う代表署名 北朝鮮全伴う代表署名 1別添と添付 (United States UN commander in chief, signature) countries plenipotentiary representative for peaceful coexistence in Northeast Asia

(South Korea plenipotentiary representative, signed Lee Woo Sung ) (People's Republic of China plenipotentiary representative, signature) (Gu~ongu~on Russian government representative, signature) representative associated with Cabinet (Japan, signed (representative with free china, signature) (representative with North Korea all-powerful, signature) (Attached as Appendix # 1) 다음은 상기 본 협정조약문서의 중국어 번역본(Chinese translation of this Agreement, the treaty document)이다. 留言

自 이(李) 우(愚)성(聖) 的 第18的共和互字= >我不起我不擅英 我希望世界的美大和平 URL => http://www.whitehouse.gov/ 白1600夕法尼大道 N W 盛特美20500 裁 B A K. R A O B A M 俄斯家元首无E-mail地址搜索 中人民共和 E-mail地址有搜索家 日本无E-mail地址搜索 自由中承无E-mail地址搜索 平壤政无E-mail地址搜索 合秘范gimun 消息 ES要求以面形式下水道 同意E S大我心中的和平 E S助我世界和平 唯一的一的DET E N T E 北和平共文件容容的文件一共存的和平 洲北部 下美布拉迪斯拉五阿拉巴 大家 要尊重重新任命一次再次向表示祝 18日在互上字jocholhage我的 我的姐姐在前面的18已完成宣誓就任 社人就任完成 我的一事美政府美播CN 的音 泰晤士 向全世界媒 播公布市民要求合作 lityanal日志系工作荷的非政治化系有任何 Sileopnan世界衰退迅速接近可以克服美 以及世界各地的家元首免的 突然第通全球和平情在北和前 世界30天以所以不能克服衰退通智慧的世界 喜的合作部理事公室 非常高的我和我的宣誓就之后利的明家 的就典里面的方家具有先 北地的和平共存批准了的文件和法修正案解 多的助以期望 美合技的核反堆技合作的事政治社文化和平一的朝半多在的四合反gimun 非校和加强收集智慧和上帝的恩典 祈求 了更好地理解文文件合秘邀一半gimun Mutupyo公室279小 第十八胡共和 2,013 09 02 20:00 pm. : Lee Woo Sung 北和平共文件的共存的和平洲北 的中人民共和的一胡和俄斯 日本家和外一涉及家部委和部 北和平共 前文 的中人民共和的一胡和俄斯 家和日本陪家育部的名者向方 最和平解直到jeokin在或任何武行和暴力行以保完全停止所有人民和所有政府和平我希望重申的生活一在太平洋 部分北中和日本俄斯土包 任何武的行完全停止行保建立和平共 三角的目的北端的北南和平和金在地的行政公原 或在事分界 MDL 基于中部地的myeonsamuso 1考点度[ N ] 38度20分[ ] 127度16分和地方九公元1916年得了的政府一般也的位置文表<家案史案增持>据的共和江原道原方式的如果李得72吉也是未知的系在行政改革的多在1965年根据的共和江原道原第八街附近城市域中央事的基上除以行三千里一点一直1200公里位于距的款和件北和平和共存和法定的范的机器半2,400公里和也的束和控制batneunde或在日本或中和俄斯也不是合或方同意的 的款和件使我多家的在北地的新西州和放松和平的土的意根据的土主适用于要在北永久机制固和平希望 一家甚至家在北太平洋 那孤立的幻也有反武攻的共同心之外有任何在的侵略者公然自己 希望正式宣布在太平洋北地安全直到一更全面更有效的展 和平安全以及距集努力加强保希望老占土的土包括土的美合私人使用行支付的承成如下股海 合在北地的和平共存机制第1的基上造 1北到事方的土端可能被相第二次世界大洲杯芽和更多的日本天皇的投降文件生后年6月25 1950年之前在所的例如的分公司的致生集同和生jeonbeomja jeonbeomja 60年有任何司法程在所有年流量感器KAGU群之中解使突在越南和在喜拉雅西藏高原和其他地方的弱大在1977年包括板店斧事件和本地通到火海岸波多黎各天安pokchim最近的架事件延坪炸事件在三月同年核威核狂去史的情下强行包括什的算所有是被需要的迫切任何端甚至和平及安全和正在不危及算通和平手段同系的目的或方的美合盟所生的的方式放置的方式通武力或以武力相威避免施加周地的承 二前的到南年6月25 1950年中北伏我休和平的建中心位置点和的建筑宇原建筑的中心点破幕中心点的位置一2三角形成1考点的域是已安的事分界度[ N ] 38度20分[ ] 127度16分 位置的地方九公元1916年得了政府的一般也指出出版<家案史演案>的据江原道李得了原路使2的包量72奇未知同在北方和南方分形式的衰退18公里的一形的半的考点由首面1,000平方公里和一同安全的一休后得了155英里到西的中央事分界 MDL 已方在一点上安的各2公里和的非事所有爆炸物存在山得包括在安些危之一的指官后的去除有害的据照片事停委按照明或在非事的1,000平方公里停火取出后的督下行到一置在北地的武和平机制建立了子核炸等的控制下所有由北南方行如此可以省共的机制比一聚集sikidoe休155英里DMZ里面的子是不加不加手和埋在Pau 坦克有核和核射器以省存的星射和育和利得了DMZ休其中的2非事分界建立基直2,400公里位于北的家半1,200公里械的北及南的每一家和那之的事行的施范可以致一的行事件的生被防止 三北北地的和平建立主位置是相同的如附所示 1附地 四北和DMZ里面的武停火的附加地北部境和南部境所示被毁的中央事分界 MDL 作一事道路修但的好老的主我的祖先和平1是已安在事分界 MDL 一考点度[ N ] 38度20分[E ] 127度16分 位置九公元1916年政府指出出版<家案史案collections>的据法的如果原共和李江原道也得了72吉的多量未知同在北方和南方分形式的衰退18公里的一形的半的考点同首地及1,000平方公里得休得155英里到西和中央委界 MDL 已方解后每2公里通撤退到一点安的和DMZ炸存在山得如安些危的事指官方后按照明中去除有害的据照片事停委或在非事的1,000平方公里手持一一圈的停火中取出后的督下行新的和平机制在北地和的子核炸等的控制下保持所有由北南方行所以可以省的聚集sikidoe的一 155英里非休得子DMZ的到不加不加手和埋在Pau 坦克有核和核射器以省存的星射和停火培和利得了事分界的DMZ中比一一的1,200公里的半考点的范2,400 km到由多定的的道路隧道交通的水形成置中以形成多部cheolchaekseon境的 1和利文件附件 5北洲地DMZ的事停委在板店停定和一封的部圈子的美合和民事板店事停委的部因方行共聚集sikidoe 155英里非休得DMZ不入手和子未入埋在Pau 坦克不核射器和射器和星店他但他人保持一本每包括方面坦克非核和核射器和星射等四10 4新四九事作包括同在北方和南方各地和各周二房子的水流量一般域和有放在道路的方位位置的波也不做各方的指官反停火立和示事分界止外和DMZ得1 2固定考点直2400公里位于北的家半1,200公里范的事武各之的渡和相互的事行可能致生的事件有被阻止 六北地的和平到主于用物包括任何的生的地下源不允以到作合的界江江地旅客往他gakgukga和部用物之gakgukga口出口搜索通后一中立的委安点以保每家的和部提供安全 七北地北南方里面的火船艇机船下的燃料和武器的和部的控制之下可以操作提供 八每家的主每家的力和威的和部的核航母艇机入境退出和部的控制下的北地的和平是理所然的 九北分南北非事的部如一阻塞公路和路接的10000股在野西伯利和10山通人力和材料行无件西伯利的石油和天然管道工作各方无件授予公免入私人 10北洲北美和南美都事和放在美合和力量在的利和有的的美合和力量在建立反和反也有被提出每反的生活死和70年的孩子300年伯尼公18一的挑的最不的威和道德利方面行使的人机和世界知的所有工部按照法采取适的措施uibeop eomdan 11北成南北以一和平的地方事故的利以便全球的火山地震野火大入和大米台卷洪水干旱灰端高寒冷的天等可以克服自然害防放射性染引起的核爆炸和核料理技和非核防爆主要是在北地迅速行部按照逐步行可行性究分到所有地球村保持全球和平右DAET 85万海外人包括人均收入水平的10万美元的切浸星 12北都在的停火得了南北的士士兵和合部和中部的俄斯用和民用死的包括的士士兵和受wiryeongtap因素如革命政府ohdaeyang分布在金琉璃瑙琥珀珍珠石是由捐了治要建在使用鬼 浸星 合第2的土端解机制 1北洲各方的政治立或安全的任何1外的土是受到攻的任何一方在任何候任何方征方的北洲的合的威 二北到的土各方也有的唯一的也不共同自救和相互援助以防止暴力攻以加强和持适的手段本的目的促施适的措施和相的一例子北合各方的土向地原子或被北京或京定是否采取商同意 第3 1北到的其他一的管理的土和代下的端土其他各倍今后合法可deuleogatdago在太平洋地的其他家土的管理下武危及其的和平安全了共同危程序按照各自的法合成立的目的和意有各方采取行成立于土面的感器9和小是有的域在地生突造成包括土地面使日本和中之的端宣布放所有索和利 第四 1到合方相互同意在北地的土表示在美的海和航空部的共和和共和的有乘和美利合境和接受可土的方的事人拒或破任何一家ohdaeyang形成的土地形成了由六星期到六星期就可以形成一全球ohdaeyang的形可以行例如喜拉雅山的行和藏高原整散woogong ;愚公移山和北家主要是在北地的土端互haenghamyeon的所有水域海到大大可以行大形全球手任每嫁到家的治者和土土回收我民和的治者不能要求境 附据照片 第五 1和平的共存北北到的共和和美的法被批准按照程序俄斯中日本也同通法程序批准的家所有家予以批准由城生效交 二本的建立文件的共和在北地入全球裁和主任防技活着70多年去世300年他的后代有行使的世界知及机的伯尼公第18制服建的主地位 三自由到北地涉及中朝的代表和代表陪同北洲的和平和共存大的合不提起申尤其是日本的和其公民在二中作家主司法部法院三天的行点有地震火山爆洪水和和美容怒了一系列措施以防止本的逃生和强制行的方式的文件的作者此外中政府甚至在前述不无自然害的酒和日本海面置和高句和渤海像中政府的和的世界的一格的警告如百的史水置所或十二歪曲史要求社的一我忠地行和任的情下不相信 四或更少部北地建立合根据的配置和未的和各如何通知全代表 第6 1无限期北地是可用的无是任何方通知后本的其他方的可以抑挫一年后北地的和平共存 二本以昭信守根据全代表署了 三入北地2013年2月2日的城所有各方共和表俄斯在北部的和英中日本句如的面 四洲北部在18日到螺栓的城堡留下批准同意建的每家和主要的平等地位和本署文件需要的效果立生效 北地各和平共的全代表美合指官名

民全代表署 Lee Woo Sung 中人民共和全代表名 gwongwon俄斯政府代表署 日本外省的代表名 自由需要代表中名 北全代表代表名 什的附件1附件 [통일한국 제18대 대통령 긴급조치 훈령 제5호] 등록저작권기재 70년 권리의 통일한국 제18대 대통령 이우성은 청와대 박대통령이 본인을 대신하여 그 직무를 수행함에 따라 그대의 심심한 노고에 대해 감사하면서 북한의 핵 위협에 따른 긴장 고조가 가일층 심화 된 동북아시아 지역의 긴장완화 대책을 하기 와 같이 구두로 전달한다. 긴급 조치 훈령 제1호 철의 삼각지 휴전선 한 점의 기준점을 주축으로 반경 삼천리 이내로 북한의 김일성 손자의 핵 광란에 맞대응할 수 있는 핵전쟁에 대응하는 핵보다 더 강력한 군사 대응 전략 방안을 전달하기 위해, 전 세계평화를 위해 본인의 대응전략지침을 그대의 부하직원을 부산에 급파하여 본인의 대응전략지침서를 수령하기로 한다. 긴급 조치 훈령 제2호 북한의 김일성 손자뿐만 아니라 그의 추종세력들이 군사적 권리를 포기하고 전 세계 인류가 추구하는 평화의 길로 동참하도록 1977년경 판문점 미루나무 도끼 만행 사건 때와 동등한 수준의 김일성 사과방송과 같은 수준의 성명서가 청와대에 전달되는 시점으로 항구적인 동북아시아 평화 공존 협정 조약문서 및 헌법개정안을 선포하고 비준안 국제조약 협약 각서에 국가 간의 국가 원수의 서명을 완료하기로 한다. 긴급 조치 훈령 제3호 긴급조치 훈령 제2호에 따른 사회 안정화 시책추진에 따라 국회의원 재보선 선거를 동년 8월15일 이후로 연기하기로 한다. 긴급 조치 훈령 제4호 개성공단 조업중단에 따른 그 어떠한 대응방안으로 표면적으로 절대 표출하지 않고 제2분기 재정절벽을 해소하는 본인의 대책 방안을 수령하기로 한다. 긴급 조치 훈령 제5호 혼탁한 정치 경제 문화 사회질서를 타파하고 정의 사회 구현을 이룩하기 위해 정부는 최선의 노력을 조용히 수행하기로 한다.

2013.04.09. 12시20분 통일한국 제18대 대통령 이 우성 1577-1365/02-2100-5736/1577-0606 다음은 상기 본 협정조약문서의 별첨 번역본(The following is a translation of the Appendix of this Agreement treaty document)이다. [Unified Korea Presidential Emergency Action Directive No. 18, No. 05] Copyright registration rights described 70 years of the 18th President of Yiwu unified Korea President Park Dae on behalf of my sincere gratitude for the hard work while thy depending on their duties in accordance with the deepening gailcheung the heightened tension in Northeast Asia North Korea's nuclear threat the oral delivery of local stress mitigation measures as described below. Urgent Action Directive No. 1 To deliver more powerful than a nuclear military plan strategies to respond to a nuclear war to the nuclear madness behaving grandson of Kim Il Sung of North Korea Samchully as the main reference point within a radius of a point on the demilitarized zone of the Iron Triangle, for the peace of your world the strategic guidelines to receive a response to my dispatch to London for a response strategy guidelines thy subordinates. Urgent Action Directive No. 2 Presidential statement on the same apple and broadcasting of Kim Il equivalent to circa 1977 Aspen Panmunjom Axe-level events is to join the path of peace to mankind around the world seeking the grandson of Kim Il Sung in North Korea, as well as his followers abandoned the military forces and the right declared a permanent Northeast Asian peace and co-existence agreements treaty document and the proposed amendments to the time of delivery to complete the signing of the Heads of State memorandum of agreement between the countries in bijunan international treaty. Urgent Action Directive No. 3 The acting in accordance with the community to promote stabilization measures in accordance with the Emergency Measures Directive No. 2 since August 15 the same year, the National Assembly election jaeboseon. Urgent Action Directive No. 4 The Measures of a person to receive a financial cliff to eliminate the second quarter of the surface without ever expressing any countermeasures according to the discontinued operations in Kaesong. Urgent Action Directive No. 5 To break the political, economic and social order, and culture turbidity and implementation to achieve social justice and to make every effort to silence government. 09/04/2013 12:20 unified Korea is the 18th President of dominance 1577-1365 / 02-2100-5736 / 1577-0606 (Non-Patent Document 1) (Non-Patent Document 1) Registration No. 2012.12.31 No. c-2012-0268465 Registered copyright, Amendment of Treaty Document and Constitution of Northeast Asian Peace and Coexistence Agreement 80.000. The Korean Confederation of Northeast Asian Nations.

MESSAGE (Contents of a Treaty on Peaceful Coexistence Treaty of Northeast Asia) from: Lee Woo Sung Internet Digital Republic of South Korea 18th President =>I'm sorry, I'm not good at English. will I want world beauty big peace? to: URL => http://www.whitehouse.gov/ The White House 1600 Pennsylvania Avenue, NW Washington, DC 20500 USA President. BARAK.OBAMA : Russian Heads of State (not searching; sending Russian Embassy to Korea) : State of the People's Republic of China (Non-search; : Japanese Cabinet Officer (no search e-mail address) : Head of the Free Chinese Cabinet (no search e-mail address) : Pyongyang regime (search email address is not available) : UN Secretary-General Ban Ki-moon (message delivery) You are requested to write in a written form Will you agree with me? You will help me, For world peace Only One (Contents of a Treaty on Peaceful Coexistence Treaty of Northeast Asia) To: President Obama of the United States of America. Hello. Congratulations again on your reappointment of your esteemed President. The 18th President of the Republic of Korea Digital on the Internet The oath of the 18th President took office in front of the sister. (President: take officer & inaugurated as president finished) You will help me, and I will tell you this on CNN Sound Broadcasting, The Times Newspaper, Worldwide Press We ask for co-operation to be publicly announced by internal broadcasters and newspapers. (from the Korea dual lityanal log system working load to simply apolitical system Nothing No problem) The United States, which is trying to overcome the global economic recession quickly, Not only the President, but also the heads of nations around the world (Free of Charge, suddenly Rule) To convey this situation and to make peace in Northeast Asia and the world, To deliver wisdom to overcome the global recession within 30 days I urge the government to cooperate with the Economic Ministers' Conference. And as a result of my oath of presidency, I am a patentee as an inventor. In addition to taking office in the Republic of Korea, North Asia Peaceful Coexistence Treaty ratification treaty and constitutional amendment I look forward to helping you a lot. Many problems in the international joint technology development problem of Korea and the United States (nuclear reactor technology cooperation, military, politics, society, culture) are on the Korean peninsula peaceful unification issues are filled with God's grace to strengthen wisdom and strengthen ties with the UN Secretary General I wish you all. If you invite the UN Secretary General Ban Ki-moon to understand the Korean language document well Thank you. The first president of the new Korean federal state was Woo Sung (under the presidential duties) Short term 4349 (AD: March 29, 2016) <pm. 20:00>

The 18th President of the Unification Republic of Korea

(Location: taken at the UN Cemetery in Daehyeon-dong, Nam-gu, Busan, Republic of Korea) As mentioned above, We plan to relocate the cemetery to No. 1 Northeast Asia. The Northeast Asian Peace Coexistence Leader, And the signing of frank ratification to ensure the peace of the leaders of each country, while at the same time replacing the full text of the new Korean constitution in Northeast Asia.

(Located in front of City Government Complex in Yeonje-gu, Busan, Korea)

(Location: Magnetic Valley Park, Bongil Dong, Busan, Korea) (The residence of the 18th President of the Digital Bumchun-dong, Jung-gu, Busan, Republic of Korea)

(Location: 6.25 East Korea Provisional Government of the Republic of Korea Busan Lee, Seung-man, the First Presidential Office, (Location: Busan, Republic of Korea Provisional Government of Busan Lee, Seung-man, the First Presidential Office, The inventors of the present invention have found that, as the Son Vice President is currently playing on the palm of the Buddha at the moment when the request of the US Vice President to arrange a meeting with the President of the United States for the world peace order through the Internet is transmitted to the Internet as a tide through the Internet, It is not easy for the people to swim in the palm of a hand and swim in the land that constitutes a transition to a digital cultural society. In view of the fact that the criminal act can not be condemned in the name of the criminal department because the crime is broken and the criminal act can not be done within three days after the criminal proceedings have been carried out, Visit to the first presidential office of Rhee Seung-man The former grandchild of Lee Seung - oh, the grandchild of the grandmother of Grandpa 's grandfather, will be the grandson of this soul, so I will be with him. Lee Gun-man, the first person to manage the presidential office, was also wailing in a rage.

In the case of cybercrime investigation, the statement of the inventor of the present invention must be referred to the investigative staff of the Busan Police Agency in order to make an effective investigation. The first question is to submit a clear evidence to the investigator in order to conduct a scientific investigation, and then the second to ask the investigator to replace the investigator if he / she does not like it. I will not be able to do it. I will not be able to do it. I will not be able to do it. I will not be able to do it. It's possible. This attractiveness is the following. In addition, the inventor of the present invention has found that, in a questionnaire, if a country is to die or not to be, then it is a document written over a period of one year and six months. In the document, there are various issues, This incident, which the military has left in the name of the United States of America, has resulted in an increase in confusion caused by the antagonism of the nation in the future. As a result of Kim Il Sung's grandson nuclear frenzy, As a document, the contents of the patent document from this time, the name of the bamboo bread without the bamboo bamboo deposit, the banners of the Buddhist statue of the invention inventor completely destroyed the memory of the inventor, If this is not the case of the personnel inside the Patent Office, The application written by the remote office of the patent office in Seoul Office is also written in less than 10 minutes. It is a very bad aspect that the documents are erased. I am writing while taking a nap. For these and other reasons, the organizational societies of the analog system have been involved in the manipulation of paperwork to get rid of the stigma of " Explicit truth must be preceded. In addition, the inventor of the present invention transmitted the cooperation document for the establishment of the new federal state in the Northeast Asian Peace and Coexistence Treaty Convention and the amendment of the Constitution to the whole world through the Internet on November, 2014, The North American and European governments, which are the best in the world where billions of new Korean federal states live without war, have created envy countries by collecting their hard-earned knowledge and opinions from researchers from the Institute, the Nuclear Energy Research Institute and the Jinhae Navy Defense Research Institute In light of these points, the inventors of the present invention are frankly arguing that there are only things that are signed by heads of local governments around the Korean Peninsula in the Treaty of Peaceful Coexistence Treaty of Northeast Asia. As mentioned above, during the three-month period, the people's activities were conducted. The evidence is very important for the future of the Northeast Asian peace coexistence. It is a fundamental fact of the World Peace Coexistence Code of Conduct. A Treaty on Peaceful Coexistence in Northeast Asia The Treaty of Peaceful Coexistence in Northeast Asia by the International Peacekeeping Force, with the President of the Republic of Korea unilaterally, the President of the People's Republic of China and the President of the Russian State and the Head of the Japanese National Cabinet Preface The following signatories, with the President of the Republic of Korea unilaterally, the President of the People 's Republic of China and the President of the Russian State and the Head of the Japanese National Cabinet, shall, until the final peaceful settlement, achieve adversarial acts, And that all the governments and all governments that guarantee a complete halt of the peaceful reunification of China and Japan will reaffirm their hope to live and live peacefully and that the hostilities and all forms of armed actions in Korea surrounded by Russian territory in China and Japan in Northeast Asia, In order to establish a peaceful coexistence that guarantees a complete stoppage, one of the reference points (north latitude [N] 3820, east longitude [E ] 12716 Kangsanri Mountain 190, Cheongam Mountain) of Donggwon-eup, Cheolwon-gun, Gangwon-do And where (former Governor-General of Korea published in 1916 AD intellectual circles also <Proof of the records of the National Archives Historical Records copied from the microfilm taken from the original recorded archival document <N; 537033.53 E; 223315.60> coordinates Gangwon-do, Pyeonggang-gun, Namseon-myeon, Cheongam-san (referring to the municipal government's administrative office for 35 years) (N) 3820, Tokyo [E] 12716) located in the central Military Demarcation Line already established in this area, It was formed as a primary ethnic renewal reserve area with a radius of 18 km from the base point and a range of 155 miles from the ceasefire line (here, in 1916, Three records of the 33rd inner forest in the 33rd Iwamuni area of Pyeonggang-gun Nam-myeon, Gangwon-do province, proving the record of the National Archives of Records <N; 537033.53 E; 223315.60>) Coordinates Central Military Demarcation Line Approximately 600 km distance from the center of the Military Demarcation Line 1,200 km of distance Samcheonri is confirmed as Korean territory and within the range of 2,400 km with a radius of 1,200 km, Registered in the UNESCO International Cooperation Organization for the Peaceful Coexistence and Conservation of Northeast Asia, and comply with the conditions and regulations of peaceful coexistence in Northeast Asia as set forth in the following paragraphs, Agree jointly or mutually. The intent of these conditions and regulations is to prevent the expansion of the military power of our country which causes purely territorial disputes and to apply only to the former territories and peaceful sovereignty lines of Korea due to the relaxation of tensions in Northeast Asia, And to defend itself against external armed attacks so that no one of the States has any potential invaders in the Northeast Asia region of the Pacific in isolation. Hoping to formally declare a common resolution and to solidify efforts for collective defense to maintain peace and security until a more comprehensive and effective regional security organization develops in the Northeast Asia region of the Pacific. A Party that seizes the old territory of the Republic of Korea with the hope of I pledge to pay to the United Nations agency the duty of a share of the territorial sea, including the territorial sea, and agree as follows. Article 1 Establishment of the United Nations Framework for Peaceful Coexistence in Northeast Asia 1. Parties to territorial disputes within the Northeast Asia region may be involved in the World War II, after the end of the Korean War, on June 25, 1950, after the end of the MacArthur march, During the past 60 years without any resolution of the collective war criminals who caused the Korean War to occur in the bureaucratic bureaucracy, the disadvantages of the Senkaku Islands dispute, the Dokdo dispute, the Idiot dispute, the Vietnam War and the Himalayan Tibet Plateau, And the 1977 Panmunjom Axis Incident, the kidnapping of Fujebulo off the coast of Wonsan, the recent Cheonan incident and the Yeonpyeong Island bombing in March of the same year, There is an urgent need for international peace and security and justice in any international dispute. To resolve by peaceful means in a way that does not jeopardize, and to refrain from intimidating or exercising force by force in the manner of the purpose of the United Nations in international relations or in the manner in which the Parties are placed in their obligation to the United Nations. I promise. 2. Inside of Northeast Asia In June 25, 1950, before the Korean War, before the Korean Armistice Agreement, the battlefield of the Korean War, Pyung Kang Eup, the center of the building, and Cheolwon Eup, the location of the center of the building. In 1916, the government of the Chosun Government General Administration of Publishing of the Joseon Dynasty was established. <National Recorded Preservation Document Copied from the microfilm taken from the original National Archives Historical Records Evidence document 3 copies (N) 38 ° 20, Tokyo [E] 127 ° 16), which is located on the 33rd floor of Cheongam Mountain in Cheongam Mountain in Gangwon-gun, Gangwon-do, Gangwon-do, South Gyeongsang Province in <N; 537033.53 E; 223315.60> (N, 38 ° 20, and Tokyo [E] 127 ° 16), which were already installed in the area, Three provincial landscapes inside the 33rd branch 33 of the Pyongkang-ri, Namgyeon-myeon, Pyungang-gun, Gangwon-do province, proving the record of the National Archives of Records <N; 537033.53 E; 223315.60>) By establishing a base point in the Military Demarcation Line and providing a retreat by a radius of 18 km each from both sides in a circular form from the base point, The Central Military Demarcation Line, which is 155 miles from east to west, has been demolished. The two sides have already settled down the railway lines installed at the point where they have retreated 2 km from each other. All of the explosives and land mines in the Demilitarized Zone Commanders of one of the two armies must remove evidence from the DMZ under the supervision of the Military Armistice Commission in accordance with the instructions of the Military Armistice Commission, and set up an armed zone within the 1,000 km 2 militia and establish a Northeast Asia International Peace Organization And to prepare a total gathering of military materials possessed by the two Koreas, which are under the control of the apparatus and which are designed to store and store all of the bullets, shells, nuclear missiles and nuclear bombs, The 155-mile DMZ besides the armistice will store and store bullets that have not been loaded, weapons that have not been loaded, missiles that do not have tanks, nuclear missiles and nuclear warheads, and missile launchers and satellite launchers that are not loaded. Military demarcation lines other than the Demilitarized Zone and the DMZ Within the range of 2,400 km from a fixed base point of 1,200 km, Northeast Asian countries may implement military disarmament, resulting in a recurrence of hostilities between each country and the inter-Korean hostilities Prevent the occurrence of an event. 3. The location of the Northeast Asian peace sovereignty confirmed within the Northeast Asian region is indicated on the attached map. (Attached map 1) 4. The armistice of the armistice and the DMZ inside the Northeast Asia region shall be established as a military road to the Central Military Demarcation Line demolished as the northern boundary line and the southern boundary line indicated on the attached map, The location of one demarcation line (North latitude [N] 38 degrees 20 minutes, Tokyo [E] 127 degrees 16 minutes) was confirmed here (in 1916, Proof of the Director of the National Archives of Records <N; 537033.53 E; 223315.60>), and the North and the South both retreated a radius of 18 km from the reference point in a circular form, Respectively, After securing 1,000 km 2 militia in the same area as the Seoul metropolitan area, the Central Military Demarcation Line of 155 miles from east to west was dismantled, and the railway lines installed at the point where both sides retreated 2 km from each other In addition, Commanders of both armies that have installed all these explosives and land mine dangers in the DMZ must remove evidence from the DMZ under the supervision of the Military Armistice Commission, We have set up an armed zone inside the armistice, established a Northeast Asia International Peace Organization, prepared a total gathering of logistical materials possessed by the two Koreas, which provided for storage and storage of all the bullets, shells, nuclear missiles and nuclear bombs , Inside the 155-mile DMZ other than the truce, a pistol with no bullets, unarmed guns and tanks, missiles with unloaded nuclear missiles and nuclear warheads, and satellite launchers were stored and stored, And a demonstration zone outside the demilitarized zone and the demilitarized zone (DMZ). Within a range of 2,400 km in a 1,200 km radius from a fixed base point, the inner territory is defined as a plurality of iron wire lines and a road is formed inside the iron wire line. Forms a tunnel transport system (attached to map 1 and attached with a patent document). 5. The Panmunjom Military Armistice Commission inside the DMZ will be closed inside the DMZ. The Panmunjom Military Armistice Commission will return to the new United Nations, At the same time, inside the 155-mile DMZ other than the militia, there are no bullet-loaded pistols, unmanned long-range sandals and tanks, missiles with unloaded nuclear missiles and nuclear warheads, nuclear missiles, It is necessary to arrange storage of satellite launchers that are not loaded with nuclear warheads, The missile launchers and the launchers, guns, and barrels, which are not loaded with tanks, nuclear missiles, and nuclear warheads, which are kept by the North and the South, are each a military operation headquarters area in both Koreas, Arranging an array, The two military commanders who violate the position shall be dismissed immediately and within the range of 2,400km in the 1,200km radius from the fixed base of one of the military demarcation lines other than the Demilitarized Zone and DMZ Northeast Asian nations should prepare for the implementation of military disarmament, The new federal state, which has set up Photoshop to protect the world's peaceful image of weapons stronger than nuclear bombs, prevents the occurrence of incidents that could lead to the recurrence of hostilities between countries and inter-Korean hostilities. 6. In order to prevent the production and transportation of all kinds of military materials including underground mineral resources belonging to military supplies within the territory of the Peace Sovereignty in the Northeast Asia region, the border area from the Yalu River to the Tumen River, The International Peacekeeping Force under the Organization shall arrange for the Neutral Nations Monitoring Committee to pass the search and retrieval of the logistical goods between each country and each country, and checkpoints shall be established to ensure the safety of the international peacekeeping force. do. 7. Inside Northeast Asia, ships, submarines, fighter planes and vessels of both military and naval materials between the two Koreas can be supplied with fuel and weapons under the control of the International Peacekeeping Force. 8. Inside the peaceful sovereignty in Northeast Asia Each country grants the power and authority of the peacekeeping forces to each country in order to allow nuclear carriers, ships and fighters to enter and exit under international peacekeeping force control. 9. Inside Northeast Asia, both sides will bridge the roads and railways that are blocked inside the DMZ to establish unconditional agreements for human and material traffic in Manchuria, Siberia, and Tenjin Mountains. Participation in the gas pipeline construction project will allow the two Koreas to freely enter and exit freely. 10. The inter-Korean and intra-Northeast Asian countries will abandon their military rights and leave their abandoned rights to the Northeast Asian Nations Organization of the International Peacekeeping Force and will never object to the establishment of the Northeast Asian Nations Organization of the International Peacekeeping Force. Each group that violated it is alleged to face the authority and morality of the unified Korea 18th President elected by the WIPO International Treaty Cooperation Organization and the Berne Convention, , All the workers of the power agencies of both sides of the South and North shall act in accordance with international laws and regulations. 11. Inside Northeast Asia In order to achieve a peaceful, non-disruptive global village, instead of abandoning military rights, the two sides have begun to work on volcanic eruptions, earthquakes, large forest fires, tsunamis, typhoons, hurricanes, tornadoes, floods, droughts, And Nuclear Waste Treatment Technology and Non-explosion-proof Reactor Facilities Project, which are not subject to radioactive contamination caused by a nuclear explosion, are first implemented in Northeast Asia region. According to the feasibility evaluation It will be gradually transformed into a country with a share of 85 million per capita income, including overseas Koreans, by the spreading of money to the rest of the world and the maintenance of global peace. 12. Inside the Northeast Asia region, inside and outside the Korean War, both Korean and Japanese soldiers in the Korean War, soldiers in the Korean War, soldiers in the United Nations and the ROK Army, soldiers, civilians and war criminals in Shanghai, It is made of glass, agate, amber, pearl, diamond, etc., and it is built to soothe the dead gods for each country. Article 2 Resolution of Territorial Disputes by the Organization of the United Nations 1. The Parties shall consult with each other at any time in the Northeast Asian Union Organization whenever they recognize that the political independence or security of any one of the territorial dispute-holding Parties within the Northeast Asia region is threatened by an external armed attack. 2.The States Parties to the territorial disputes within the Northeast Asia region shall continue to strengthen and strengthen appropriate measures to prevent armed attacks on their own, jointly, self-help and mutual aid, and shall take appropriate measures to implement the Agreement For example, the Northeast Asian Coalition will decide whether or not to release atomic bombs or hydrogen bombs to Beijing or Tokyo to each territory of the territorial disputant parties, and will take it in consultation and agreement. Article 3 1. Within the territory of Northeast Asia, the parties to territorial disputes shall, in the territories under the administrative jurisdiction of the other Party, and in the territory of the other Party to admit that each Party has legally entered under the administrative jurisdiction of the other Party, The Parties to the Convention shall act by the purpose and purpose of the establishment and establishment of the Organization of Northeast Asian Confederation in accordance with their respective constitutional procedures in order to recognize the threats to the peace and security of their own country and to counter common hazards. Even after the disputed territory of the Incheon International Airport and the Incident on the Dokdo Island, it declared the abandonment of all claims and rights of Japan and China, including the disputed territory, and the commander of the territorial disputes that violated it filed a complaint with the International Court of Justice do. Article 4 1. Within the territory of Northeast Asia, with the mutual agreement of the parties to the territorial dispute, the ROK has the right to place the United States of America's army, navy and air force in and around the territory of the Republic of Korea, And when one nation refuses or abolishes the mutual agreement of the parties to the territorial dispute, it can form the land of the omnidy into a landed land and carry out the global transformation that can be formed into the omni- And the Tibetan Plateau of the Tibetan People's Republic of China (Ningbo), and the Northeast Asian countries will continue to compete in arms race against each other for territorial disputes. Global crustal variation versus variability can be implemented, Tongchigwonja be imputed to the landfill territory of our country territorial nation and the Party rulers can not claim ownership of the territory (proof Attachment 1 photo) Article 5 1. This Treaty of Peaceful Coexistence Treaty of Northeast Asia shall be ratified by the Republic of Korea and the United States of America within the territory of the Northeast Asia in accordance with the constitutional procedure, and Russia, China and Japan shall be equally ratified by the constitutional procedure, Effective when exchanged in Seoul by the State 2.The writing of this Treaty treaty document shall be made by the WIPO International Treaty Organization and the Berne Treaty, which have the right to exercise their rights for 300 years, The 18th President was written by Woo Sung. 3. In addition to not being able to appeal to the United Nations General Assembly in New York for the peaceful coexistence of Northeast Asia within the Northeast Asia region, As a defeated state, the author of the treaty document can take a series of measures that would not allow the international court to file a claim for Dokdo territory, but that it could not be ignored due to typhoons, floods, tsunami, earthquake volcanic eruptions, . It also warns that the Chinese government, which claims its sovereignty, is not free from the above-mentioned natural disasters. It dismisses the books of the world that denote the East Sea as the Japanese Sea, and the Chinese government likewise has the history of Goguryeo, I do not doubt that we will faithfully carry out our responsibilities and duties as a member of the international community so that we will not dispose of the remains or claim history distortion. 4. In the following, the details of the general rules and procedures for the establishment of the Organization of the United Nations in the region of Northeast Asia shall be communicated to all the delegates of the respective countries. Article 6 1. This Agreement Treaty is valid indefinitely within the Northeast Asian region. Any Party to peaceful coexistence in Northeast Asia may terminate this Agreement after one year from the date of notification to the other Party. 2. The foregoing Plenipotentiaries shall sign the present Agreement as evidence. 3. This Treaty shall be drafted into the Northeast Asian region on February 02, 2013, in Seoul, Korea, in the Korean language department, English, Chinese, Japanese, and Russian languages of all countries of the Northeast Asian disputes. 4. After one month from the month 4346 (February 02, 2013) to the inside of the Northeast Asia region, the 18th President of the Republic of Korea was confirmed to be Yi Sung Lee and signed the ratification agreement with the agreement of this treaty. The enemies and Yi Woo Sung shall have equal status, and the Treaty of Agreement shall be executed immediately after the short term 4346 (February 2013) as the first year of unification.

For the peaceful coexistence of Northeast Asia, representatives from all nations (New Republic of Korea, all signatories Yi Woo Sung) For the peaceful coexistence of Northeast Asia, the plenipotentiary representatives from all countries (the United States, For the peaceful coexistence of Northeast Asia, representatives from all countries (signed by all the representatives of the People's Republic of China) For the peaceful coexistence of Northeast Asia, representatives from all countries (signed by Russian government representatives) To sign the peaceful coexistence of Northeast Asia, the representatives of all countries (signed by the Japanese cabinet representatives) For the peaceful coexistence of Northeast Asia, full-fledged representatives of each country For the peaceful coexistence of Northeast Asian countries, representatives from all countries (representative of the whole territory of South Korea) For the peaceful coexistence of Northeast Asia, representatives from all nations (Representative of all North Koreans) The language of this Treaty treaty document is the Japanese translation of this Agreement treaty document. MESSAGE

from Lee Woo Sung Internet Digital the Republic of South Korea 18th President => I m sorry I am not good at English will I want world beauty big peace to URL => http://www.whitehouse.gov/ The White House 1600 Pennsylvania Avenue NW Washington DC 20500 USA President BARAKOBAMA The family head office in Russia has a mail address President of the People's Republic of China The mail address of the Japanese Cabinet Office is There is no cache entry search address in free memory This is a mail address for UN secretariat send half-length message You are requested to write in a written form Will agree with you For you peace of mind Only One Content of a Peaceful Coexistence Agreement of North East Asia Coexistence peace Asia northeast To Bouroba America, President of the United States こ ん に ち は I will re-establish the reappointment of the President of the Republic. Digital on the Internet The 18th President of the Republic of Korea I have been sworn in as the 18th President in front of my private residence President take officer inaugurated as president finished You will help me. These things are the US Radio Broadcasting The Times Newspaper Company Using the whole world media, We ask for cooperation to be announced by the broadcasting station newspaper department of the department from in the Korea dual lityanal log system working load to simply apolitical system Nothing No problem A solution that can quickly overcome the unemployment problem in the world is the US Not only the President, but also the heads of the world's houses and the Free of Charge suddenly Rule To provide such a situation and for the peace of the North East Asian region and the whole earth Worlds that provide knowledge to overcome the global recession in 30 days I would like to ask you to cooperate with the ministerial And as a result of my oath of assuming my post as president, And the appointment of the president of the family of the Korean people It is possible to resolve the issue of ratification of the Peaceful Coexistence Agreement in North Asia and the constitutional amendment I am expecting a lot of help Problems in the Opening of the US-Japan Joint Technical Technology Problems of Atomic Technology Cooperation in Nuclear Power Military Politics Issues in the Culture of the Korean Peninsula God's grace so that we can gather our knowledge even though we can make a bond with nothing. I hope that you will Invite the UN Secretary-General to better understand the document. Arigata and Uozo Non-voters dominate the presidency 279 days

The 18th Grand Dhuljary of the Republic of Korea is dominant Lee Woo Sung The US scheme that allows unemployment problems in the world, to overcome the rapid economic downturn As well as the President, and head of state of the world (Free of Charge, It provides suddenly Rule) This situation, for the sake of peace, World that provides the wisdom to overcome the global recession within 30 days It's a government, but I need your help and cooperation to the economic ministers' meeting. And, in the wake of the presidential oath of me, the patent owner as the inventor of the I This application claims priority Te, and the inauguration of the state inside the Republic of Korea It is possible to resolve the question of revision of constitutional and treaty ratification document of peaceful coexistence agreement of North Asia I hope so. (International Union for the Advancement of Science and Technology), and the United Nations Convention on Climate Change (UNFCCC). In order to be able to strengthening ties with non-general, to collect the wisdom, grace of God We hope you will be satisfied. Invite hemiazygos UN Secretary-General to be able to understand the Hangul document Thank you. (279 day Oval) predominant Mutohyo winner 18th Republic of Korea President dominance 2013 09 02 pm. 20:00 North East Asia Peaceful Coexistence Agreement A document a treaty an agreement coexistence peace Asia Northeast The President of the People's Republic of China and the President of the People's Republic of China When deputies and other members of the Japanese People's Council are involved, Agreement on Peaceful Coexistence of North East Asia Gate The President of the People's Republic of China and the President of the People's Republic of China The signatory to be the representative and the other party of the Japanese people All the people and all the people and all the people who kept the enemy line and all the armed forces and the violence line in the Korean people until the last peaceful settlement was achieved and live peacefully and reaffirmed their wishes Pacific Day In part of North East Asia and in the territory of Korea on the territory of Korea Establish peaceful coexistence that ensures complete stoppage of enemy lines and unavailable lines For the purpose, the Pyuan and Atom gold money area management office Based on the headquarters of the headquarters, the reference point of the military boundary line [N] 38 degrees 20 minutes East [E] 127 degrees 16 minutes in the West 1916 In the practice of the Daehan-gun Gangwon-do Hara-gun language, which is based on the documentary history of the documentary history, there are two exercises of the word " The area near the Jiangyuan No. 8 of East Town, based on the point of the Central Military Boundary Line, the distance of 3,000 km 1,200 km, half of the distance of 2,400 km, the North East Asia peaceful coexistence And those who are subject to restrictions and controls or that Japan and the United States agree jointly or mutually This provision is intended to prevent our military power that induces a purely territorial dispute and apply only to the former territory of Korea and the main line of peace accompanying the relaxation of tensions in the North East Asia region, but in North East Asia We want to make the peace mechanism of the Even in one of the conventions, in the North East Asia region of the Pacific The common resolve to defend itself from the outside, rather than having any arbitrary invaders, that is to say that they are isolated. We also want to formally declare a more comprehensive and fruitful regional security organization in the North East Asian region of the Pacific In order to maintain peace and security and to endeavor for high and low-level defense, the contracts that occupied the territory of the Republic of Korea and the Democratic People's Republic of Korea are designed to support the use of territorial- I pledge and agree to the following Establishment of a coalition organization in conjunction with the peaceful coexistence of the First North East Asia Peaceful coexistence agreement treaty in Northeast Asia (A document a treaty an agreement coexistence peace Asia Northeast) President of the Republic of Korea is the one-sided, and Russia and the People's Republic of China president With Cabinet of the Japanese people and representative, the international peace -keeping force to the one of the other The agreement on the peaceful coexistence of Northeast Asia by Professional (Preamble) President of the Republic of Korea is the one-sided, and Russia and the People's Republic of China president Signer for Cabinet of the Japanese people and representatives, to one another, Peaceful solution until the last is achieved, the government and all the people in all the orders of the violence and force of the Republic of Korea to live peacefully, double-check the desired, also the day of the Pacific Ocean region In Korea is surrounded by the territory of Russia in China and Japan in Northeast Asia partial To establish a peaceful coexistence in order to ensure the complete stop of the act of non-integral with the hostilities The gold area management of the iron atoms and peace of the triangle of north-south north end for the purpose (North latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) to confirm the location of the 1916 (Ward, AD here reference point or military demarcation line, in The relationship between Korea and the United States of America is in the form of an article in the United States. <country registrar history Archives Collection> Gangwon iron is located in the center of Jiang Mase, the capital of the Republic of Korea. original county Higashi due to administrative reform, individually under the control and the constraint, or even collaborative, or Japan and Russia and China, agree with each other, and comply with the regulations and conditions of peaceful coexistence in Northeast Asia that is described in the matter that you have. To prevent military forces from expanding to our country, we need to develop a territorial dispute in the territory of Northeast Asia, in addition, I hope that You can have a robust permanent peace mechanism in Northeast Asia, In the Northeast Asia region of the Pacific Ocean in one of the countries of the Parties, Potential invaders of the illusion that they are isolated, in common determination to defend themselves against armed attack from outside In addition, there is also a hope that the development of the Pacific Ocean, Parties that wish to have a strong effort for high and low levels of collective defense to maintain peace and security, occupies an area of the Republic of Korea a long time ago is payable to the United Nations agencies waters the pledge, you agree as follows. The creation of a United Nations mechanism associated with the peaceful coexistence of Article 1 of Northeast Asia 2 In the North East Asia region, on June 25, 1950, the center of the building of Heian Town in Korea and the center of the building of the Hwasung Eup A triangular line was drawn to the point and it was installed in this area to establish a reference point north of the military boundaries [N] 38 degrees 20 minutes east [E] 127 degrees 16 minutes. In 1916, Also, In the practice of the Hana-gun-Gangwon-do Hara-gun language, which is based on the "History of the House of History of the House of Representatives", Lee Wen-yi also confirmed my place number prize in two rounds, After securing 1,000 km2 of rest area on the same level as Seoul's special city area by about 18 km backward, the central military border line of 155 mils was removed from east to west, and 2 km The commander of the army who installed the danger such as all the bomb land mines which are installed in the place where it retreated and the fence line is left as it is in the non - After a military commissioner has instructed him or her to uninstall it from a non-militarized area under its supervision, set up a military force in a 1,000 km2 holiday zone, establish a new peace mechanism in Northeast Asia, South and north so that they can store any kind of arc bombs, nuclear weapons, nuclear bombs, etc. 155 Mills not on the side of the DMZ No fist guns and guns are not held Commercial missiles with nuclear missiles and nuclear missiles are not kept in storage and satellite launchers The North and East Asia are to release their military relief in a range of 1,200 km 2 to 1,200 km from the established base point for preservation, education and exhibition except for the holiday and non-DMZ military boundaries. Prevent the occurrence of incidents that could lead to the re-enactment of enemy lines between the enemies of the north and the south One . Territorial dispute parties in Northeast Asia within the region, June 25 1950 World War II, which is the first time in the world, , while the 60-year or more flows war criminal justice process and the associated war criminal investigation were caused by the Korean War. Plateau dispute bright archipelago dispute strong, even in the D ok do dispute, and the Vietnam war, No. hijacking a fire in F hou hou uz uz uz native of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of March the same year is to highlight the need for a more peaceful, peaceful, and peaceful way of life. The United States of America is a member of the United Nations. It is a member of the United Nations. 2 . June 25, 1950, before the occurrence of the Korean War, the center of the building is the center of the iron-eup facility, (north latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) reference point or military demarcation line is already installed in this area to confirm the location of the 1916 (Ward, AD, Korea government-General publication pointed out employee also two ways to practice the Republic of Korea Gangwon iron original county word that prove article <history archives holding a national record in> here by about 18 km radius of Li Yuan) my 72 seriously, North and South from both reference points at a time retreat, after securing the 1,000 km2 truce is equivalent to the Seoul area, you can remove the central military demarcation line of 155 miles from east to west, where the two sides are retracted by 2 kilometers, respectively, from this line already In addition, there is no evidence that the military is in the process of establishing a nuclear-weapon-free zone. hazardous materials removal before and after, or under supervision, demilitarized after the zone, you must uninstall this, the demilitarized zone in the 1000 km2 truce ye We have established an international peace mechanism in Northeast Asia, the bullets, the artillery shells, the nuclear, the missile, the nuclear bomb in the mechanism under the control of the total concentrate the munitions that the archival of all such, The shells and handgun bullets are not loaded inside the 155-mile DMZ truce empire in the DMZ and non-truce yen in the exhibition For the first time in the history of nuclear warheads and nuclear missiles, there are a number of missile launches to be held in the United States. disarmament, to cause a recurrence of hostilities between North and South hostile forces of each country. 3 The location of the Peace Main Line in North East Asia confirmed in the North East Asia region is indicated on the attached site. 4 In the North East Asia region, the stoppage and the DMZ are determined as military roads on the central military boundary, which is removed as the northern boundary line and the southern boundary line shown on the attached land, Peace Principals Installed already Military boundary line Two reference points North [N] 38 degrees 20 minutes East [E] 127 degrees 16 minutes to determine the location here West 1916 North Korean delegation In the practice of the Hana-gun-Gangwon-do Hara-gun language, which is based on the "History of the History of the Family History and Documentation", Lee, Yong-hyun, and Lee have established my place number prize and made a round shape from the reference point in the south and north. After securing 1,000 km2 of vacancies equal to the area of Seoul City by halfway back approximately 18 km, the central military boundary line of 155 mils from east to west was removed, The commander of the army who installed the dangerous thing such as the mine circle which is installed at the retreated point and left the fence line as it is and does not exist in the non - After the removal from the non-military area under the direction of the military commissioner or under its supervision, a 1,000-square-kilometer (2-km2) holiday zone is set up as a military base, and a new peace mechanism is established at the time of North East Asia. The army possessed by the south and north to be able to store all of the arc bombs, nuclear weapons, nuclear bombs, etc. 155 Mills other than the rest of the crew, but not on the side of the DMZ No fist guns and no artillery guns Military missiles and nuclear missiles with no nuclear weapons and nuclear weapons were kept in storage. The area in the range of 2,400 km to 1,200 km from the fixed reference point of the military boundary line other than the holiday circle and the DMZ for the preservation and the exhibition and the exhibition is fixed by the double barrier line, The road is formed in the section and the territorial sea forms a complex submarine tunnel transport system. In the North East Asia region, the Panmunjom Military Suspension Committee on the DMZ side is closed, and the Military Suspension Commissioner of Panmunjom is organized as a part of the restitution of the holiday zone, and the military supplies held by the South and North are collected. In the DMZ section, there are no circles, no guns, no guns, no commercial weapons, no nuclear weapons, no nuclear weapons, no missile launchers and satellite launchers, Military missiles and satellite missiles with no nuclear missiles and nuclear weapons in phantoms are placed in the arrays of narrative-oriented azimuth roads in the army-guerrilla areas of the southern northern military forces, respectively The military commander who violates this position can not see the position immediately, but is dismissed and dismissed for 1,200 km from the fixed base point of the military boundary except for the holiday and the DMZ. In the case of North East Asia,れ ぞ れ の の 南北 敵軍 そ の の 再 行 間 で 敵 を 引 き 起 こ す こ と が で き る 事件 の 生 を 絶 に 防 ぐ 6 In order to prevent the production and transportation of all military supplies, including underground resources for military supplies, in the Peace Main Line in the North East Asia region, in the border areas between the Kamo River and Mt. For the Peacekeeping Army under umbrella, the tourists from each house should arrange for a check-in and check-out of the vehicles in and out of the municipal households. Not all of them are 7 North and South Asian naval vessels in the North East Asia region can receive and operate fuel and weapons supplies under the control of the Peacekeeping Force 8 Each of the peacekeepers in the North East Asia region is equipped with the power and authority of the peacekeeping force so that atomic aircraft carriers can enter and exit under the control of the peacekeeping force In the North East Asia region, the south and north are connected to roads and road bridges blocked on the side of the DMZ, and they have agreed on nothing to ensure humanistic distribution, such as the Siberian Mountains, Tenjin Mountains, and the Kyivia Oil Gas Pipeline In addition to the buried construction project, there are no cases of free private access to the south and north In the North East Asia region, South and North abandoned their military interests and raised objections to and opposition to the establishment of the Northeast Asian Regional Coalition for Peacekeeping Operations in the Peacekeeping Force Each of these groups, which violate this law, can not survive for 70 years and their descendants can exercise their 300-year welfare. In the case of WIPO, the 18th generation unified Korea Considering that it is a hanmion jue to challenge the power and personality of the President, all the forces in the south and north shall take measures to deal with them based on laws 3. Position of sovereignty peace line in Northeast Asia The Northeast Asia area is located on the map attached. (With map 1) 4 . The central military demarcation line has been removed as a southern border and the Northern Limit Line, which is located on a military road, a demilitarized zone and DMZ. , already installed peace sovereignty predecessors ancestor of old reference point of the military demarcation line and (north latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) to confirm the location of where (Ward, 1916 AD, the Korean government-General pointed out that the publishing employee also confirmed the lot number award) my 72 seriously Lee also two ways to practice the Republic of Korea Gangwon iron original county word that prove article <National Academy of Recording History Archives Collection> by then, about 18 km radius of North and South, both of which is a reference point at a time retreat, after securing the 1,000 km2 truce yen equivalent to the area of Seoul, from east to west to the Central Military boundary of 155 miles. The hazardous materials such explosive of all, such as the mine circle, are installed at the point where the two sides are retreated by 2 km. It is important to note that there is no evidence that the military is responsible for the deterioration of the safety of the military. demilitarized zone in, you must uninstall this, 1000 established an international peace mechanism in Northeast Asia by setting the demilitarized zone in the interior of the km2 truc e circle, north and south sides allow for archiving of any bullet, ammunition, nuclear, missile, or nuclear bomb in the underground control, so total centralizing munitions held, but for the shells and handguns not loaded the bullet inside the 155 miles The DMZ is located in the DMZ and non-demilitarized areas of the Demarcation Line. The DMZ is located in the DMZ and non- Truce yen in the exhibition to save and save the satellite launch pad and missile launch device inside the iron fence line, to form a road to confirm the iron fence lines, the waters to form a submarine tunnel transport units. (Patent document and accompanying map 1 attached) 5. Military Armistice Commission in Panmunjom is the property of the United Nations organization, which is located in the North East of South Africa. The DMZ's truce employee is not only loaded, storage stores, satellite launch pads, and missile launchers that have nuclear warheads and nuclear missiles. and South both keep each, such as satellite launch pad and missile launchers that nuclear warheads and nuclear missiles are not loaded into the tank, Foshin, include Forbidden Zone, army of North and South collection point orientation road respectively the military supreme command summary area of strategy summit area, and the position change absolut In the DMZ and the Non-Demilitarized Zone (DMZ), North Korea is a member of the Democratic People's Republic of Korea (DPRK). to carry out military disarmament, between North and South hostile forces of each country to prevent the occurrence of an event that can cause a recurrence of hostilities. 6. Inside the peace Sovereign lines, in order not to be able to produce the munitions of any kind, containing mineral resources belonging to munitions, each inter-state, carry-out, the vehicle, travelers each between nations, place a neutral monitoring committee to pass for the United Nations Organization under international peacekeeping force, we have established a checkpoint, international peacekeeping force. 7. Ship munitions of both North and South, submarines, fighters, vessels will be able to operate a fuel and weapons under the control of the international peacekeeping force under the umbrella in the Northeast Asia region. 8 . The inside of the peace sovereignty line, nuclear-powered aircraft carrier, ships, fighters enter the international peacekeeping force under control, to be able to exit each country, power and authority of the peacekeeping forces in each country in Northeast Asia area I grant . 9. The north and south sides of the DMZ, for human and physical distribution, and agreed to unconditional Manchuria wilderness, Siberia, and Tenjin private unconditionally to participate Siberian oil, the gas pipeline buried construction business with fulfillment. 10. The North and South sides of the Northeast Asia United Nations Organization of the International Peacekeeping Force in the United States of America Northeast Asia is the largest city in the world. It is the largest city in the world and the largest city in the world. a Hanmyonju ~ e to challenge personal rights and authority of the 18th president of a unified Korea, to crack down on law on the basis of international law, all power agencies workers in both North and South. In the North East Asia region, South and North have to abandon their military interests in order to achieve a peaceful, no-disaster earth village. Volcanic eruption earthquakes Large-scale volcanic events and typhoons. Hurricane floods Dust, sand, The nuclear technology and the explosion-prevention type atomic equipment business, which are not contaminated by radioactive contamination due to the hydropower control facility and the nuclear bomb that can be quickly overcome, are mainly applied in the North East Asia region, It is important to note that the number of foreign residents in the world who are living in a peaceful and sustainable manner in the global village will increase to 85 million people, including 100 million dollars. 12 In the North East Asia region, there are South and North Korean soldiers in the stoppage area, civilians such as army soldiers in the army of the United Nations and the United States of America, and militants of the Shanghai extraordinary revolutionary government, It is made of glass, agate, amber, beads, diamonds, and other materials that are used to heal dead souls. 11. The north and south sides, a volcanic eruption in order to achieve a peaceful accident-free global office, to the military right, earthquake, wildfire large, rice, and typhoons oysters, hurricane, tornado, flood in Northeast Asia area, the explosion prevention reactor equipment business and processing technology of nuclear waste and the flood control device that can overcome quickly natural disasters drought, yellow sand, scorching heat, and cold wave, radioactive contamination caused by nuclear explosion is not conducted in Northeast Asia area I would like to extend my sincere appreciation to the people of the country for the first time. I would like to express my gratitude to the people of the country. income level per capita. (With and Annex) 12. Dignitaries such as War Memorial of Shanghai extraordinary revolutionary government and civilian war dead, including Chinese military officers and soldiers in war warrior Russian army and UN troops and Korean war warrior soldiers both North and South of the cease-fire Circle in the Northeast Asia, within the region, will be the heaven of souls that have been formed in the Great Lakes, silver, glass, agate, amber, pearl, or diamond. (With and Annex) Territorial Dispute Resolution by the Second Com- munity 1 Whatever the political or security situation of one of the territorial disputes in the North East Asia region is threatened by external armed attacks, the parties will consult each other in the North East Asian Union 2. The territorial dispute in the North East Asia region shall be implemented jointly by the appropriate measures to prevent the armed aggression by self-help and mutual aid, The North East Asia Coalition, which includes examples of appropriate measures, decides whether or not to drop atomic bombs and water bombs in areas of territorial disputes in Beijing and Tokyo, and considers them as consultations and agreements Third (1) Territorial disputes in the North East Asia region shall be subject to the provisions of the other Contracting Parties in the future territories where the territorial contracts under the ships of the other Contracting Parties shall legally enter and enter under the vessels of the other Contracting Administrations In the Pacific region, due to the purpose and purpose of establishing and establishing a North - East Asian federation in their respective constitutional procedures in order to recognize the danger of armed assa - tism and the risk of its own peace and security, Declares that the dispute will abandon all claims and interests in Japan and in the region including the disputed territory even if the territorial dispute area is in the islands' Fourth 1 It is the agreement of the territorial disputes in the North East Asia region that the Republic of Korea, which is the representative of the United States of America, agrees that the Army Navy and the Air Force of the United States of America should be deployed in close proximity to the territory of the Korean people. The United States of America accepts this and agrees to disagree or dismiss each other's consensus on territorial disputes that the five oceans should be formed on the six continents formed on land and formed into the five greatest states of the six provinces As an example, the Tibetan Plateau of Himaraja will be able to carry out the shape of the earth. In the case of Tohoku Aijia, the mainland, The responsibility of the ship of the hand is given to each ruler, and the buried territory is the territory of the territorial dispute and the rulers of that contract own the territory. It can not be asserted. Fifth (1) The Agreement on the Peaceful Coexistence of North East Asia should be ratified by the constitutional authority of the Republic of Korea and the United States of America in the North East Asia region, and ratified by the Constitutional Court of Japan And that the instruments of ratification should be exchanged in "Soul" The preparation of the agreement document is based on the WIPO Incentive Mechanism and the Benchmark of the WIPO, in which the descendants can exercise their 300-year wages in the North-East Asia region, The 18th President of the Unification Republic of Korea The territorial dispute resolution scheme by Article 2 of the United Nations Organization One . It is important to note that the Northeast Asian region is not a member of the Northeast Asian region, but it is a member of the Northeast Asian region. Asia Union. 2 . It is the intention of the United States, the United States, the United States, and the United States of America to promote the peace and stability of the Asia-Pacific region. The bombing of atomic bombs in the Tokyo metropolitan area is a major step forward in the development of the atomic bomb. consultation and consensus. Article 3 One . Territorial dispute parties in the Northeast Asia region within the territory of the Party of the inland in the Pacific Ocean region of the Pacific Ocean It is noteworthy that in the past, there has been a great deal of conflict between the two countries in the Asia-Pacific region. The disputed area of the disputed territory of China and the disputed territory of the People's Republic of China is the territory of the People's Republic of China. Article 4 One . The United States of America is a member of the United Nations, the Navy and the Air Force, and the United States is the territory of the United States. Parties to the dispute in the Northeast Asia region are the United States, the United States, the United States, and the United States. of the six continents, the mobile whole plateau Himalayan; Northeast Asia is a region that has been passed on to the ruler of the country, has been the land of the waters of Northeast Asia If you are a member of the United States of America, you should be aware of the fact that you are a member of the United States. (Two proven materials attached photo) Article 5 One . The United States and South Korea in the Northeast Asia region must treat the peaceful coexistence agreement of this Northeast Asia, which should be ratified in the constitutional processes of some countries Russia, China, Japan should come, come into force when the instrument of ratification has been replaced with "Seoul" in multiple countries 2 . The preparation of this treaty document, died in '70 to the disaster recovery technology, and the republican plant of the Republic of Korea in the Northeast Asia area, Berne and WIPO treaty Organization of the Treaty Organization that any of its descendants to exercise 300 years right 18th president of the unified Korea, which is elected by the treaty has created predominantly. 3 The representatives of the North and East Asia in the North East Asia region can not appeal to the Nuclear Power for the purpose of peaceful coexistence in North East Asia. In particular, As a result of the defeat of the world's greatest earthquake victims, when we filed an appeal to the judicial court for three days, a series of measures could be taken against the typhoon, the flood, and the earthquake and volcanic eruption. Although the author of the document may warn them that the Japanese government is not free from the natural disasters mentioned above, even if they are able to enforce their territorial rights, the World Book Book marked the Sea of Japan as the Sea of Japan is discarded It is no surprise that the central government is also committed to fulfilling its responsibilities and obligations as a member of the company when it does not want to dispose of water in Goguryeo and Balhae hundreds of historical sites or distort history 4 Notification to all future representatives of detailed future rules, structure and operation methods in connection with the creation of a cooperative group in the North East Asia region Sixth The Agreement may terminate this Agreement one year after notification to any other Contracting Party in any one of the peaceful coexistence of North East Asia, which is indefinitely in North East Asia All members of more than one shall sign the agreement of this agreement The three - part agreement was made in North East Asia on February 02, 2013 in Dae - jin Min - su, "Soul", in two different languages, 4 In the North East Asia region, the creation of the agreement and the ratification and signing of the agreement that the 18th President of the Republic of Korea was awarded to the United States, The provisions of this Agreement shall be enforced immediately 3. Not only can not we challenge the General Assembly United Nations "New York" for peaceful coexistence in Northeast Asia, in particular, representatives accompanied North Korea It is not easy to say that Dokdo is so much the same as it is in Japan, but it is not the same as it is in Japan. of the treaty, of a series of measures. In addition, the Chinese government has stated that there is no place to sternly warn that it is not free from natural disasters described above, It is not the only way for us to be able to make a difference in our lives. We will not be able to do that. international community. 4 . Or less, such as how to configure and operate with the general rules of the United Nations in the Northeast Asia area, I will inform the country of plenipotentiary representatives of the future. Article 6 One . The agreement treaty is indefinitely in the Northeast Asia region. It is possible that after the notice of the contracting State of one of the peaceful coexistence of Northeast Asia and to stop this treaty a year later. 2 . Plenipotentiary of the evidence as described above, to sign a treaty of this agreement. 3. February 02, 2013, in the Republic of Korea "Seoul", door country arts of all dispute in Northeast Asia, English, Chinese, door of Japan, the second-place finish in 4 . Throughout the ratification and the signing of the treaty, the Convention has been established in the Towson, the efficacy equivalent of the dominance of the state of each country to the 18th President of the Republic of Korea in the Northeast Asia area, the Convention of this agreement shall come into force immediately. For the peaceful coexistence of North East Asia, the signatures of all United States Commanders

Republic of Korea All Representative Signature All representatives of the People's Republic of China Representative Signature of the Government of Russia Representative Signature of the Japanese Cabinet Free Representative Signature Representative Signature of All North Korea 1 Attachment and Attachment (United States UN commander in chief, signature) countries plenipotentiary representative for peaceful coexistence in Northeast Asia

(South Korea plenipotentiary representative, signed Lee Woo Sung) (People's Republic of China plenipotentiary representative, signature) (Gu ~ ongu ~ on Russian government representative, signature) representative associated with Cabinet (Japan, signed (representative with free china, signature) (representative with North Korea all-powerful, signature) (Attached as Appendix # 1) The following is a Chinese translation of this Agreement, the treaty document. Affix

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Part Northern Japan Japanese 俄斯 土 包 Nemutake Line Completion Stop Line Triangular purpose north end north north peace The MDL group in the present situation is divided into three areas: myeonsamuso 1 point [N] 38 degrees 20 minutes [] 127 degrees 16 minutes <Increase of the draft of the house plan> Stable Gangwon-do Gangwon-do Gangwha-ri Guei 72 Yoshiyuki Unknown System Administrative Reform Multi-residency 1965 Role-based Republican Gangwon- Inquiries about the dispute of the ruling party of the ruling party of the ruling Communist Party of the People 's Republic of China Consensual In the case of North Korea, the North Korean territory, the North, the West, the South, the West, the Peaceful, the Democratic, the Democratic, the Democratic, the Democratic, Family home north Pacific 孤 isolation 幻 也 有 反 反 武 攻 的 共同 心之外 有 有 任何 的 侵略 者 public self Hope Formalization in the Pacific North Pacific Peace, Security, and Efforts to Extend Distance, Strengthening Security, Preservation, Earth Covering, Earthquake Protection, Private Use, The first North Korea-based system of peaceful coexistence 1 The north is an earthquake, the earth is possible The second world osaka gobbledo The other is the Japanese emperor's surrender The postmortem Junior 25 June 1950 之 前 の 所 的 例如 的 分公司 的 致 生 集 集 同 生 生 jeonbeomja jeonbeomja 60 years 有 任何 法法 在 蔵 年 year owing to the flow sensor KAGU group 之 中 解 使 突 越 越 南 和 在 喜 拉 雅 西藏 高原 和 其他 地方 弱 大 在 1977 全部 板 店 Ax 事 合 本地 地 通 火 岸 海 波 多 黎 黎安 p p p p p p p 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 和 和 和 和 和 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同Animal Biotechnology Biotechnology Biotechnology Offensive Biotechnology Armed Forces or Armed Forces Avoidance Implementation Second Preliminary June 25, 1950 Mid - Century North Korea Peaceful Central Center Position Uniform Architecture Uwara Architectural Center Blinds Center Point Position 1 2 Triangulation 1 Thoughts Area 是 已 安 的 事 分界Degree [N] 38 degrees 20 minutes [] 127 degrees 16 minutes Positional region Kyushu Kogen 1916 year Grade Government general 也 指 出 出版 <History of House Planning> Gangwon-do, Lee, Eul-Eun, Yong-Ji, Yang, Ji-2, Kang, 72, Unknown, North Korea, North, South, Formal Decline, 18 Public, Uniform, Semi- 155 days after the end of the first year of independence, the central area of MDL 已 方 在 一点 上 安 安 的 2 公里 和 的 non - possessed 爆 电物 在 山 得 包括 在 安 些 之一 的 指 指 方 后 的 除除In the case of a shutdown, the 1,000 - square - kilometer long - distance subway system will be used for emergency shutdowns. Dukyung coal mine sikidoe 155 里里 DMZ 里面 的 子 是 不 加 不 加 手 和 buried Pau 坦克 有 Nuclear atom nuclear weapon equipment conservationist astronomical weapons, Public Location: 北 北 家 半 1,200 公里 机 的 北南 南 的 每 一家 和 那 之 的 事行 的 范范 可以 致 一 的 行 行 事件 的 生 防 防 三 北 北 地 的 平平 立立 主 所 是 相同 的 如 附 註 表 1 附近 Four Hokkaido Demilitarized Zone (DMZ) 里面 的 武 时间 附件 地 北海 南 和 南部 地圖 地毁 毁 中央 Central Disciplinary Division MDL 作 一事 道 老 的 老性 的 主 我 的 祖上 和平 1 是 已 安 在 事 分界 MDL 一 考点 度[N] 38 degrees 20 minutes [E] 127 degrees 16 minutes Position 9 Kyoho 1916 Government official publication 原 原 colle colle colle colle colle 72 72 72 72 72 72 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得The deadline for withdrawal is 155years. Nishiwa Central Committee MDL 已 方面 後 2 分 2 公里 通 withdrawal 一点 点 安 合 Sum DMZ 炸 在 山 如 安 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照A 1,000 - square - kilometer land in hand Non - disruptive intermittent stoppage Discharge after enforcement Downstream New peace settlement system North - korea Nuclear explosion Equal reserves Retained Ownership 北 南 方 行 所 か な い 省 省 聚集 sikidoe 的 一155 Unregistered Unemployed DMZ Unavailable Unavailable Unincorporated Pau Unconsolidated Nuclear Nuclear Radiation Unavailable Minority Starfire Unrefined Units Gain Ratio Minority DMZ Medium Unity 1,200 Public Considerable range 2,400 km Arrival multidirectional roadway road traffic water formation stationary formation multiple formation cheolchaekseon boundary 1 5 DMZ station in North Area DMZ station Inquiries SZK SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZ Pau 坦克 Nuclear beam radiator 射 器 和 星 店 Other 其 Other person retention 1 每 包括 方面 克克 Nuclear non-nuclear radiator Asterisk etc. 4 10 4 New 4 九 九 事 事件 全 般 北 北 和 南 全方 和 志 二 周 二 房子Water Flow Rate General Area Total Unavailable Road Direction Position Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction武 武 的 之 的 渡 和 Mutual action possible Miscarriage Incident prevention 六 北 地 的 平平 主 主 主 主 主 主 主 主 主 主 主 主 主 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以Provided security Seven Hokkaido North and South Rear Side Fire Vessel Ship Submarine Fuel Weaponary Combined Control System 八 每 家 的 主 每 家 的 力 和 和 威 和 和 部 的 nuclear-powered voyeur 机 机 entry 退 退 和 和 部 的 控制 下 北地 的 平平 旨事 然 的 Nishi - ku Minami - ku, Nonshu - ku, Nishi - ku, Nishi - ku, Naka - ku, Naka - ku, Tokyo, 10 北美 北美 和 南美 都 事 和 在 美美 和 competence 在 利 利 和 有的 美 合 合 competence 在 建立 反 和 反 也 有 提出 每天 的 生命 死 和 70 年 的 孩子 300 年 伯尼 公 18 一 的 challenge和 最 最 最 利 利 利 利 利 利 利 利 利 利 利 利 利 u dan u u u u u u u u u u u u u u u u u u u u u u u u u 11 Hokushin North-South Peaceful Local Accident Benefit Global Volcano Earthquake Wildfire Daizuwada U. Amount Taiwan Flood Drought Ash-edge High Cryogenic Sky Overcame Overcome Natural Hazard Radioactive Dyestuff Causative Nuclear Bacteria Nuclear Technique Non-nuclear Explosion-proof Major 是 在 北 地 quick 行 行 部 按照 行步 行动 性 究到 到到 所有 Earth Village Holding Global Peace Right DAET 850,000 Overseas People 均 均 入 入 入 入 入 水平 水平 水平 水平 水平 水平 星 星 星 星 星 星 12 North-South Military Accomplishment South-North Military Academy Combined Division Japanese Central Liaison Japanese Private Death Comprehensive Military Service Soldier wiryeongtap Prosodic Government Revolutionary government ohdaeyang Distribution Ryukyu Amateur Amber Chinju Stone 是 由 捐 了 治 要 建立Use Onyoshi Secondary soil settlement system 1 North Korean Political or Security Commitment 1 External Land Commitment Ordinance Officer Position Officer Position Officer North Korea (2) North Korea 's territory and territorial integrity, (1) uniqueness, (2) self - reliance, (2) non - cooperation, (3) violence, (4) violence, Atomic or nuclear Beijing agreement or agreement Third 1 North-eastern 其他 一个 管理 的 土 和 代 下 的 里 土 其他 第一 回 法 法 可 可 deuleogatdago 在 Pacific Ocean 其他 家 土 的 管理 下 下載 其他 Peace and Security Co-operative Countermeasures Purpose Japanese Won Won Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Fourth 1 Arrival method Mutual agreement North territorial land Representative Aichi Prefecture Air division Republican / Japanese Republican / Equivalent / / / / / / / / / / / / / / / / / /六星 期 到 六星 期 就 可以 形 一 一 全球 ohdaeyang 的 形 可以 行 例 如 拉雅 山 的 行 和 藏 高原 直点 woogong; 愚 公 移山 和 北 家 主 是 在 北 地 的 土端 他 haenghamyeon 的 所有 水域 海 到 大大 可以Line large-scale globally-handed-for-marriage-marriage- Fifth (1) Peaceful coexistence (2) North Korea (2) Prosperity (2) Laws of ratification (3) Laws of ratification (4) Two - tiered Constitutional Territory Republican Territory Globalization Master Chief Rescue Movement of Defense 70 70 Years of the Past 300 years Other Dynasties Exercise of World Intellectuals 伯尼 公 第 18 Uniform Construction Three Freely Arrived North and Central China Representative Representative Unity North Korea Coexistence and Peaceful Coexistence Unconsiderable Prosperity Significantly Nihongi, Wakamatsu Anger 怒 了 一 一 一 以 以 以 以 以 以 本 本 本 本 本 本 本 和 和 和 和 和 和 和 和 和 和 和 和 和 和 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界A warrant for warranting a warrant of war or a distortion of war history (Iv) Notification of all the representatives Sixth 1 Infinite North Territory Possible Unsigned Notification Notification Subsequent Other Other Uncontrolable After One Year Northern Territorial Peace Parity Signing of all representatives of the two secretaries San Iryo Area February 2, 2013 The castle possessed by each castle The Liaison Table 俄斯 在 北部 和 和 英 中 日本 句 如面 面 四 洲 北部 在 18 日 に 螺栓 的 城堡 了 下 Ritten ratification agreement 建築 每 家 和 主 的 等等 地位 和 本 文 文件 需要 的 效果 立效 Every North Pacific Peace Co-ordinate All Representative

Lee Woo Sung Representative of the People's Republic of China gwongwon 俄斯 Government Representative Office Representative of Japan External Free Demand Representative Medium Representative of North Korea 什 的 附件 1 附件 [The 18th President of the Unification Korea Emergency Measures Directive No. 5] Regarding the right to register copyright, the 18th President of the Republic of Korea, Yi Woo Sung, appreciated his sincere efforts as president President Park fulfilled his duties on his behalf, The local tranquility mitigation measures are communicated verbally as follows. Emergency Measures Directive No. 1 In order to deliver a stronger military response strategy than the nuclear counterpart capable of meeting the nuclear frenzy of North Korea's Kim Il Sung within a radius of three thousand kilometers with a base point of one point of the iron triangle, I will dispatch your subordinates to Pusan and receive my response strategy guide. Emergency Measures Order No. 2 A statement of the same level as the Kim Il Sung Appeal in the case of the Panmunjom Mirror Tree Axs incident in 1977 was given to the Blue House by the North Korean leader Kim Il Sung as well as his followers to abandon their military rights and to join the peace process pursued by humankind all over the world. It is hereby declared that the Northeast Asian Peace and Coexistence Treaty treaty document and amendment of the Constitution shall be made at the time of delivery, and the signing of the heads of state shall be completed in the memorandum of agreement of the ratification treaty. Emergency Measures Order No. 3 In accordance with the urgent measure directive No. 2, the election of the National Assembly members will be postponed after August 15 of the same year in accordance with the promotion of the social stabilization measure. Emergency Measures Order No. 4 I will receive my measures for resolving the financial cliffs of the second quarter without any apparent outward appearance as any countermeasures against the shutdown of the Kaesong Industrial Complex. Emergency Measures Order No. 5 In order to overcome the turbulent political, economic, cultural and social order and achieve a just society, the government will quietly carry out its best efforts.

2013.04.09. 12:20 Korea's 18th President of the Unification 1577-1365 / 02-2100-5736 / 1577-0606 The following is a translation of the Agreement Agreement document (the following). [Unified Korea Presidential Emergency Action Directive No. 18, No. 05] Copyright registration rights described 70 years of the 18th President of Yiwu united Korea President Park Dae on behalf of my sincere gratitude for the hard work while being dependent on their duties in the deepening gailcheung the heightened tension in Northeast Asia North Korea nuclear threat oral delivery of local stress mitigation measures as described below. Urgent Action Directive No. One Kim Il Sung of North Korea Samchully as a main reference point within a radius of a point on the demilitarized zone of the Iron Triangle, for the peace of your world, to receive a response to my response to the strategy strategy of thy subordinates. Urgent Action Directive No. 2 Aspen Panmunjom is a member of the Kim Il Sung in North Korea, as well as his followers abandoned in the United States. The military forces and the right to declare a permanent Northeast Asian peace and co-existence agreements treaty document and the proposed amendments to the time of delivery to the signing of the State of Memorandum of agreement between the countries of the bijunan international treaty. Urgent Action Directive No. 3 In accordance with the Stabilization Measures in accordance with the Emergency Measures Directive No. 2 since August 15 the same year, the National Assembly election jaeboseon. Urgent Action Directive No. 4 The measures to be taken in a financial cliff to eliminate the second quarter of the surface without ever expressing any countermeasures according to the discontinued operations in Kaesong. Urgent Action Directive No. 5 To break the political, economic and social order, and culture, and to implement and achieve social justice and to make every effort to silence government. 09/04/2013 12:20 unified Korea is the 18th President of dominance 1577-1365 / 02-2100-5736 / 1577-0606 Northeast Asian New Korea Constitution Part 1 ............................................... .............One CHAPTER I Total Basic Strength of the Constitutional System .................................... 6 Chapter 2 Rights and Freedom of Individuals and Citizens Chapter 3 Composition of the Commonwealth ............................................... .... 9 Chapter 4 President of the Republic of Korea, Northeast Asia .................................. 16 Chapter 5 Northeast Asian New Korean Congress ... Chapter 6 Northeast Asian New Korean Cabinet ................................... 27 Chapter 7 Judicial branch ............................................. ..... 30 Chapter 8 Local Autonomy ............................................. ..... 33 Chapter 9 Revision of the Federal Constitution and Review of International Law CHAPTER 10 COMMITTEE SELECTION COMMITTEE ....................................... 43 Chapter 11 Establishment of Northeast Asian Nations Organization ............... 49 Part 2 ............................................... ............ 50 Termination of Detailed Rules and Transitional Rules Northeast Asian New Korea Constitution [Enforcement Decree 4346 (November 22, 2013)] [Northeast Asian New Constitution No. 01, Revised All] specialty We formed hundreds of millions of multi-ethnic nationals of multiple nations formed in the territory of the Northeast Asian neo-Confucian Commonwealth of Peace. We are the descendants of God and the descendants of Dangun, who will restore 85 million homosexuals We Koreans should reflect deeply on the problem of the liquidation of the past history of World War II and the despair of the 6.25 era of justice and brotherhood as a justice and brotherhood based on the mission of democracy and peaceful unification of the motherland, And to deny all social infirmities and injustices of the spread of arms arising from the heightened tensions between the parties to the territorial disputes and to confirm the rights and freedoms of individuals and the peace and consent of the Korean people of Northeast Asia, A new era of non-proliferation of disarmament, By preserving the national unity, by further consolidating the free and democratic basic order based on self - harmony and harmony, we are able to equalize opportunities in all areas of society and culture in politics and economy, starting from the universal principles of equality of rights and national self - determination By fulfilling our responsibilities and obligations in accordance with the freedom and right to exercise our abilities in the best possible way, we will contribute to the peaceful coexistence of Northeast Asia, And to secure the safety, freedom, and happiness of our descendants forever. In the analog civilized society, the digital civilization has been enshrined in our civilization society, commemorating our two hands and commemorating our ancestors who have conveyed our faith in peace and love to our country as much as the earth. Thinking power of new concept for collective security guarantee Under the control of the International Peacekeeping Force, which guarantees the well-being and prosperity of the newly formed Northeast Asian neo-Confucian Federation, we recognize that we are a member of the world society with responsibility for our country before present and future generations. The revised Constitution was revised by a referendum at the same time by a majority of local government congresses formed by the common fate of peacekeeping forces. After the revision of the Constitution, the Northeast Asian neighbors Adopt a peaceful coexistence treaty treaty document and a revised constitution; Part 1 Chapter 1 Basic Total Rule of the Constitutional System Article 1 ① Northeast Asia The new Korean Federation, the Republic of Korea, is the Democratic Federal law country in Northeast Asia, which has a form of republican administration, and the same name as the Republic of Korea and the Republic of Korea in Northeast Asia. ② The sovereignty of the Republic of Korea lies with the people, and all power comes from the people. ③ The people and the workers of all power organizations shall be determined and executed by the main and special relationship. Article 2 ① Northeast Asia The requirements for becoming a national of the Republic of Korea, the Republic of Korea, shall be laid down by law. ② The State shall be obliged to protect the overseas Koreans by the law. ③ Individual rights and freedoms have the highest value. ④ It is the duty of the state to recognize, adhere to, and defend the rights and freedoms of individuals and citizens. Article 3 ① Northeast Asia The people of the new Korean Federation are the owners of the new Korean sovereignty and the only source of power. ② Citizens exercise their power either directly or through power organizations and municipalities. ③ National referendum and free election are the best direct power exercise by the people. ④ In the new Korean Federation, nobody can steal state power without obtaining my consent, and the act of seizure or acquisition of power is subject to federal law. ⑤ Northeast Asia The Korean Confederation, the territory of the Republic of Korea, includes the inner territory of Samchully and the territorial sea within the range of 2,400 KM consisting of a radius of 1,200 km from the base point of Northeast Asia in the center of the iron triangle, Within the scope of Samchully internal territory and territorial sea, the area that has been alive and dead for 70 years and whose descendants have 300 years of rights shall be absolutely without any permission or consent of the President of the Republic of Korea, Each local government implements military boundary missions after obtaining permission and approval under the control of the International Peacekeeping Force in the area of Northeast Asia 3000, which can not carry out military and military actions and has a radius of 1200 km from the base point of Northeast Asia 1. Article 4 The sovereignty of the new Korean Federation extends to the entire territory within the Union. ② The new Korean federal constitution and federal laws are the highest law in the new Korean federal territory. ③ The new Korean Federation will never guarantee the territorial integrity and inviolability. ④ The new Constitution and federal laws of the Commonwealth of Nations adopt the highly developed Northeast Asian Peace and Coexistence Treaty Treaty Convention and amendments to the Constitution. do. ⑤ The new Korean Federation will establish a new peaceful new Korean state in a short period of time, and establish and pursue a peaceful policy based on a free democratic basic order. Article 5 The new Korean Federation strives to maintain international peace and denies invasive warfare. (2) The new Korean Confederate Armed Forces shall be replaced by an international peacekeeping force, and shall carry out the sacred duties of national security and national defense, and their political neutrality shall be observed. ③ The new Korean Federation is composed of republics, provinces, provinces, federal municipalities, autonomous provinces, autonomous provinces, and they are the subjects of the federal government with equal rights. ④ The republic has its own constitution and laws. Local, state, federal, municipal, and autonomous regions have their own constitution and statutes. (5) The federal stay of the new Korean Federation is based on the national unity, the unity of state power, the division of competence and authority between federal and federal power organizations, and the equality and self-determination of the peoples in the Union. ⑥ In relation to federal power organizations, all constituents of the new Korean Federation are mutually equal. Article 6 ① Treaties promulgated and promulgated under the Constitution of the New Korean Federation and generally accepted international laws have the same effect as domestic law. (2) Foreigners of the new Korean Federation shall be guaranteed their status by international law and the provisions of the Treaty. ③ The citizenship of the new Korean Federation shall be acquired or suspended in accordance with federal law and shall be single and equal regardless of the reasons for acquisition. ④ All nationals of the new Korean Federation shall enjoy all the rights and freedoms set forth in the new Korean Constitution within their territories and have equal obligations. ⑤ The citizens of the new Korean Federation shall not be deprived of their citizenship or the right to change their nationality. Article 7 ① The civil servants of the new Republic of Korea are volunteers for the people as a whole and are responsible to the people. (2) The status and political neutrality of the new federal officials shall be guaranteed by law. ③ The new Korea Federation is a democratic social state, and the policy of the new Korea Federation aims to create an environment that guarantees a valuable life and free development of the individual. ④ In the new Korean Federation, the labor and health of the people are protected, the minimum wage is secured, the national support for the family, maternity, child, the disabled, the disabled and the elderly is guaranteed, the social service system is developed, Allowances and other social protection are guaranteed. Article 8 ① In the new Korean Federation, the establishment of political parties is free, and the plural party system is guaranteed, but the political party can never be a member of the National Assembly and the president. ② In the new Korean Federation, the political party should have a democratic organization and activities, and have the necessary organization to participate in the political formation of the people. ③ In the new Korean Federation, political parties can not be protected by the State as prescribed by law, and the state can not subsidize the current necessary for the operation of political parties as prescribed by law, and the political party is a social organization participating in the formation of political will of the people. Setting. ④ In the new Korean Federation, if the purpose or activity of a political party violates the democratic basic order, the government can bring the case to the Constitutional Court and the party is dissolved by the judgment of the Constitutional Court. ⑤ In the new Korean Federation, the terms of the people other than the government of the people elected by the people shall be used, but the names of the individuals shall be written at the head of the government and the governments, ⑥ In the new Korean Federation, free movement of single economic power, goods, services and capital goods, support of competition and freedom of economic activity are guaranteed. ⑦ In the new Korea Federation, property of ownership, state ownership, ownership of the municipality and other forms of ownership are recognized and protected equally, but forests, The State grants the landing rights and does not grant the real estate registration system. Article 9 ① In the new Korean Federation, efforts should be made to develop the succession of the traditional culture of my people and to promote the national culture. (2) In the new Korean Federation, land and other natural resources are used and protected as the basis for the lives and activities of ethnic Koreans living in the area of the new Korean Federation. ③ In the new Korean Federation, land and other natural resources can be privately owned, state owned, owned by the municipality and other owned forms. Article 10 ① In the new Korean Federation, all people have dignity and worth as human beings, and have the right to pursue happiness. The State has the obligation to identify and guarantee the non-inviolable human rights of individuals. ② The new state power of the Republic of Korea shall be exercised based on the division of legislative, administrative and judicial powers. Legislative, administrative, and judicial institutions are mutually independent. ③ The new powers of the Korean Federation will be exercised by the president, the federal parliament (federal council and national council), the new federal government, and the new federal judiciary of the Republic of Korea. ④ In the subjects constituting the new Korean Federation, state power is exercised by the power organizations formed by them. Article 11 The distribution of powers between the new federal government and the new federal constitutional body is governed by other treaties on the division of this Constitution, federal treaties and powers. ② All citizens of the new Korean Federation and all social groups are equal before the law. No person shall be punished by sex, religion or social status in all areas of political, economic, social and cultural life. ③ In the new Korean Federation, the social special class system is not recognized and can not be created in any form. A prize of merit, etc. shall be valid only to the person who has received it, and no privilege shall be granted. Article 12 ① Everyone in the new federal Korea, including the new Korean federal law, which guarantees that all citizens of the Republic of Korea have the freedom of the body and marry when they are at least 20 years of age without any reason. Restriction. Seizure. Shall not be searched or interrogated and shall be punished unless by law and appropriate procedures. No security disposition or forced labor. ② In the new Korean Federation, local autonomy is recognized and guaranteed. Local autonomy is carried out on its own within the authority of each subject. Local autonomous organizations are not included in the system of state power organizations. Article 13 ① The diversity of ideologues is allowed in the new Korean Federation. ② No ideology can be defined as a national ideology or a mandatory ideology. ③ In the new Korean Federation, pluralism and multiple political parties are allowed. ④ All citizens of the New Republic of Korea shall not be prosecuted for acts that do not constitute an offense under the Act of Act, and shall not be repeatedly punished for the same offense. ⑤ All citizens of the new Republic of Korea shall not be subject to the right of suffrage or deprivation of property rights by retroactive legislation. ⑥ Every citizen of the new Korean Federation shall not suffer disadvantageous treatment due to the acts of his kin, not his own actions. However, in order to change the foundation of the new Korean Constitution or to create a social organization that destroys the unity of the Union, to create an armed force for national security and to incite social, racial and regional antagonism Establishment and activities of organizations are prohibited, and the blood relations that violate them can not be appealed to the state even if the 3 rd and 9 th groups are destroyed. Article 14 The new Korean Federation does not have a national religion, and no religion can be established as a national religion or a mandatory religion. ② Religious groups are separated from the state and are equal before the law. Article 15 The new Korean Constitution has the highest legal value and has a direct effect on the territory of the new Korean Federation. The laws and other laws adopted in the new Korean Federation should not conflict with the Constitution of the new Korean Federation. ② State power organizations, municipalities, public officials, ordinary citizens and other organizations are obliged to comply with the new Korean constitution and laws. ③ All laws are published and laws that have not been promulgated have no effect. The norms and laws relating to the rights, freedoms and obligations of citizens shall not be effective unless promulgated for universal notice. ④ The universally recognized principles and norms in international law and the international treaties concluded by the new Korean Federation are part of the new Korean federal legal system. International treaties take precedence over new Korean federal laws. Article 16 ① The contents of this chapter constituting the basic constitution of the new constitution of the Republic of Korea shall not be amended except in accordance with the procedures provided for in this Constitution. (2) No provision of this Constitution shall be contrary to the foundation of the new Korean constitutional system. Chapter 2 Rights and Freedoms of Individuals and Citizens Article 17 ① In the new Korean Federation, the universally recognized principles and norms of international law and this Constitution recognize and guarantee the rights and freedoms of individuals and citizens. ② The basic rights and freedoms of an individual shall not be deprived and shall be granted to all citizens from birth. ③ The exercise of rights and freedoms of individuals and citizens shall not be a violation of the rights and freedoms of others. Article 18 The rights and freedoms of the individual and the citizens of the Republic of Korea shall have a direct effect and shall define the meaning, content and application of the law, the legislative and executive branch activities, and the activities of the local autonomous regions. Article 19 ① Everyone in the new Korean Federation shall be equal before the law and trial, everyone shall have freedom of conscience, the individual shall not be infringed by the freedom of housing, and when seizing or searching for housing, the court shall issue a warrant issued by the judge shall. (2) The State shall ensure that basic rights and freedoms of individuals are not discriminated against by gender, race, language, origin, place of residence, religion, social group, or any other reason. ③ Men and women have equal rights and freedoms and equal opportunities to realize them. Article 20 ① Everyone in the new Korean Federation shall have the right to life, freedom of residence and transfer, freedom of privacy and freedom of choice, free choice of occupation, freedom of religion, freedom of religion Diplomacy is not recognized, and religion and politics are separate. (2) The death penalty may be instituted as an exceptional measure for serious crimes under federal law until the death penalty is abolished and the defendant shall be entitled to hear the case at the trial in which the jury participates. ③ All citizens have freedom of speech and press, freedom of assembly and association. ④ Permission, censorship and permission for assembly and association of press and publishing shall not be recognized. Article 21 ① The dignity of the new Korean federal human being is protected by the state and nothing can undermine it. ② No one should undermine human dignity through torture, coercion, corporal punishment, or other harsh actions. No one shall be subjected to medical, scientific, or other experimentation without voluntary consent. (3) The matters necessary for ensuring the facilities standards of the communication and broadcasting and the function of the newspaper shall be determined by Act. ④ Press and publishing should not infringe the honor or rights of others, public morals or social ethics. ⑤ If the press or publication violates the honor or rights of another person, the victim may demand compensation for the damage. Article 22 ① Everyone in the new Republic of Korea shall have freedom of speech and arts while protecting the rights of authors, inventors, technologists and artists as laws and have freedom and inviolability of the body. ② Arrest, detention and imprisonment shall be permitted only by a court decision and shall not be detained for more than 48 hours until a court decision is reached. Article 23 ① Everyone in the New Republic of Korea shall have the right to privacy, the confidentiality of himself / herself and the family, the right to protect his honor and reputation, and the property rights of the individual shall be guaranteed. Its content and limitations shall be determined by law. (2) Every individual shall have a right of confidentiality regarding correspondence, telephone calls, mail, telegraph and other means of communication, and the exercise of property rights shall be made compatible with public welfare. (3) Acceptance or use of property rights by public necessity or restriction of this right shall be permitted only by a decision of the court, and compensation shall be provided by law, but with due compensation. Article 24 ① Collection, preservation, use and dissemination of information on the privacy of the new Korean Federation is not permitted without my consent. ② National and local autonomous bodies and their directors are obliged to ensure that all individuals have access to documents and materials directly related to their rights and freedoms to the extent permitted by law. Article 25 ① Everyone in the New Republic of Korea shall have the right to vote and to hold office as prescribed by law. ② Housing is inviolable. No one has the right to invade a property against the intent of the resident unless specified in federal law or determined by the court. Article 26 ① Everyone in the new Korean Federation shall have the right to determine his national affiliation and shall not be forced to make a decision on it. ② Everyone has the right to freely choose the language of use for the use, transmission, education, learning and creation of the mother tongue. (3) The citizens of the Republic of Korea shall have the right, individually or collectively, to make a written appeal to the national authorities and local self-governing bodies as prescribed by Act, and the State shall have the obligation to examine the appeal. Article 27 ① Everyone in the New Republic of Korea shall have the right to a trial under the laws of the Constitution and the law. ② A citizen who is not a military or civilian shall, in the territory of the Republic of Korea, except in the case of serious military and confidential information, prejudice, superstition, toxic food supply, Shall not be tried. ③ Every individual has the right to a speedy trial. A criminal defendant has the right to a public trial without delay, unless for a good reason. ④ The defendant is presumed innocent until the guilty verdict is confirmed. (5) A victim of a criminal case may make a statement in the court proceedings of the case under the conditions as prescribed by Act. ⑥ A person who has been detained as a criminal suspect or a criminal defendant may file a legitimate compensation to the state as provided by law when he / she is dispossessed by the law or is found not guilty. Article 28 ① All persons legally resident in the new Korean territory have the right to free transfer and the right to choose the place of residence and residence. ② All individuals are free to move beyond the borders of the new Korean territory, and the new Korean citizens have the right to return freely to the new Korean Federation. (3) The right to freedom of conscience, freedom of religion, the right to belief in one's individual beliefs, the right not to believe in any religion, and the freedom to choose, believe and disseminate other beliefs other than religion Is guaranteed. Article 29 ① Freedom of thought and expression is guaranteed for all new Koreans. (2) Promotion or propaganda that causes social, racial or religious antagonisms is not permitted and propaganda for social, racial, religious or language superiority is not permitted. ③ No one is forced to express or reject individual ideas and beliefs. ④ Every individual has the right to acquire, produce and disseminate information freely in a legitimate way. The list of information classified as a state's confidentiality is governed by federal law. ⑤ The freedom of reporting is guaranteed within the new Korean territory and censorship is prohibited. Article 30 ① Every individual has the right to association to protect his or her interests. Freedom of social activities is guaranteed. ② No one is forced to join or withdraw from society. (3) A citizen who has suffered damage due to illegal acts of a public official may legally reimburse the state or public organization for compensation as stipulated by law. In this case, civil servants' own responsibility is not exempted. ④ In case of military, civil service, police officer or any other person determined by the law, compensation for damages caused by illegal acts of public officials to the state or public organizations other than the compensation prescribed by law can not be claimed for damages incurred in connection with execution of duties such as combat and training. ⑤ A citizen who has suffered damage to life or body due to the criminal act of another person can receive the structure from the state as prescribed by Act. Article 31 (1) The citizens of the Republic of Korea shall have the right to peacefully hold assembly, demonstration and picket activities without any weapons of commercial origin. The blood relationship with the people who violate it can not be appealed to the state even if the 3 to 9 people are destroyed. ② Every individual has the right to receive equal education according to his / her ability. And the obligation of the guardian to receive at least higher education and education prescribed by law. ③ Compulsory education is free. ④ Independence, professionalism, political neutrality and autonomy of education are guaranteed by law. ⑤ The State shall promote lifelong education. ⑥ Basic matters concerning educational system including school education and lifelong education, its operation, education finances and the status of teachers are determined by Act. Article 32 (1) The citizens of the Republic of Korea shall have the right to participate in national affairs through representatives or directly. (2) The new Korean citizens have the right to vote and the right to vote in national and municipal organizations and to participate in the referendum. ③ The new Korean people are not obliged to participate in the election for the people whose freedom is restricted or incompetent according to the judgment of the court. ④ The new Korean people have equal rights to participate in official affairs. ⑤ The new Korean people have the right to participate in the trial. Article 33 ① New Korean workers have the right to collective bargaining, collective bargaining and collective action in order to improve working conditions. ② The employee who is a civil servant of the new Korean Federation shall have the right of association, collective bargaining and collective action only to the person prescribed by law. ③ The right to collective action of workers engaged in major defense industries prescribed by the laws of the Republic of Korea may not be restricted or recognized by the law. ④ The new Korean people have the right to work. The State shall endeavor to promote the employment of the workers and guarantee the appropriate wages in a socio-economic way and shall implement the minimum wage system as stipulated by law. ⑤ The new Korean people are obliged to work. The State establishes the contents and conditions of the obligation of work in accordance with the principle of democracy. ⑥ The new Korean nationals are required by law to ensure the dignity of human beings. ⑦ The new Korean nationals receive special protection for women's work and are not subject to unfair discrimination in employment, wages and working conditions. ⑧ The new citizens of the Republic of Korea receive special protection for their work. ⑨ The citizens of the Republic of Korea shall be given the opportunity to work first by virtue of law as prescribed by law. Article 34 ① The new Korean people have the right to live a human life. ② The new Korean federal state has an obligation to promote social security and social welfare. ③ The new federal state shall endeavor to improve the welfare and rights of women. ④ The new federal state is obliged to implement policies to improve the welfare of the elderly and youth. ⑤ Persons who are not capable of living due to physical disabilities, sickness, old age or other reasons in the new federal state shall be protected by the State as prescribed by Act. (6) The new federal state shall endeavor to prevent disasters and protect the nation from the danger. ⑦ Every individual has the right to use his or her property and ability for business or business activities that are not prohibited by law. ⑧ No economic activity is allowed for unfair competition or monopoly on all individuals. Article 35 ① All individuals in the new federal state shall have the right to live in a healthy and pleasant environment, and the nation and the people shall endeavor to preserve the environment. ② The contents and events of the environmental rights of the new federal states shall be determined by law. ③ The state should endeavor to provide comfortable living for all citizens through housing development policies. ④ Private property rights of the new federal state are guaranteed by law. ⑤ Everyone in the new federal state has the right to seize, treat and use the property on his own or in association with others. ⑥ No one of the new Korean federal states shall confiscate his property without the court 's decision. Forcible acceptance of property according to the needs of the state can be done under the condition of equal compensation in advance. ⑦ The right to inherit property of the new federal state is guaranteed. Article 36 ① The marriage and family life of the new Korean federal states shall be established and maintained on the basis of individual dignity and equality of fostering, and the State shall ensure this. (2) The new federal state shall endeavor to protect the motherhood. ③ All citizens of the new federal state shall be protected by the State. ④ Individuals or groups of new Korean federal states have the right to privatize land. ⑤ The use and disposition of natural resources and land can be freely carried out without violating the rights and legitimate interests of others without damaging the environment of the new federal state. ⑥ The conditions and procedures for the use of land in the new federal state are determined by federal law. Article 37 ① In the new federal state, the freedom and rights of the people shall not be neglected for reasons not listed in the Constitution. (2) All freedoms and rights of the people may be restricted by law only when necessary for national security, order maintenance or public welfare, and even when restricted, they can not infringe the intrinsic intent of freedom and rights. ③ Free labor is guaranteed. Everyone has the right to freely use his or her labor capacity and to freely choose between work and labor. ④ Forced labor is prohibited. ⑤ Every individual shall work under the guaranteed conditions of a safe and risk-free workplace, and shall have the right to be paid less than the minimum wage prescribed by federal law without any discrimination and to be protected from unemployment. ⑥ Individual and collective disputes settled by federal law, including strikes, are permitted. ⑦ Every individual has the right to take a rest. Workers who work under a labor contract are guaranteed working hours, holidays, holiday holidays and annual leave as determined by federal law. Article 38 ① In the new Korean federal states, hats and families are protected by the state. ② Protecting and nurturing the child is an equal right and obligation of the parents. ③ Workers who have reached the age of 18 must give parents who have no workforce. Article 39 ① All individuals in the new federal state are entitled to social security as prescribed by law for the elderly, illness, disability, death of the dependent, and upbringing of the child. ② National pensions and social allowances are set by law. ③ Creation of forms for voluntary social insurance or supplementation of charity or social security is recommended. Article 40 ① All individuals in the new federal state have the right to housing. No one can unjustly deprive a residence. ② Housing construction of national or municipal institutions is recommended to guarantee housing rights. ③ For the people who are inferior to the law, the law of the state, local governments, and other housing assets, the housing can be provided free of charge or with low rent. Article 41 ① Everyone in the new federal state has the right to health care and medical treatment. The medical care of the state or municipal governments is free of charge to the people, and the related costs are covered by the state budget, premium payments and other funds. ② In the new Korean Federation, measures are taken to develop national, local government and private health systems, and activities for individual health protection, physical culture development, and sports ecology epidemic prevention are recommended. ③ The acts that threaten the health and life of an individual and the act of concealing these facts are subject to liability under federal law. Article 42 Everyone in the new Korean Federation has the right to receive information about the environment, to have a right to live in a good environment, and to claim compensation for loss of property or health caused by environmental misconduct. Article 43 ① Everyone in the new federal state has the right to education. (2) The state has the right to receive free education for elementary school education, elementary education, and secondary vocational education in the ordinary educational institutions and enterprises of local governments. ③ Every individual has the right to free higher education, which is carried out by the state, local governments and enterprises, through competition selection. ④ Basic Regular education is an obligation. A parent or guardian shall ensure that the child receives basic regular education. ⑤ The new Korean Federation sets the national education level and supports various types of education. Article 44 ① All forms of creative activity and professions, including literature, art, science and technology, are guaranteed to all individuals in the new federal state. Intellectual property rights are protected by law. ② All individuals have the right to participate in cultural life, to use cultural facilities and to access cultural heritage. ③ Every individual has a duty to preserve historical and cultural heritage and to preserve historical and cultural monuments. Article 45 ① Every individual in the new federal state guarantees the protection of the state against personal liberties and rights. ② All citizens have the right to protect their rights and freedoms, unless the law restricts them. Article 46 ① All individuals in the new federal state are guaranteed legal protection of individual rights and freedoms. (2) Decisions or actions of state agencies, local governments, civic groups, and public officials may be brought before the courts. ③ All individuals have the right to file an international case against the protection of individual rights and freedoms in accordance with the international treaties concluded by the new Korean Federation when there is no national protection against the individual rights. Article 47 ① All individuals in the new federal state shall not be deprived of their right to be tried by courts and judges. (2) A criminal suspect shall have the right to a trial under the jurisdiction of the juror if federal law provides. Article 48 ① Everyone in the new federal state is entitled to the right to judicial assistance. If provided for by law, legal protection is provided free of charge. (2) All persons arrested or detained shall have the right to seek counsel from the point of arrest or detention. Article 49 All individuals in the new federal state shall be considered innocent until convicted by a court of justice for all individuals indicted for criminal offenses. ② The accused and defendant are not obliged to prove their innocence. ③ Uncertain consultations about the accused will be interpreted favorably to the accused. Article 50 ① No one shall be convicted of duplicate of the same offense. ② Evidence obtained in violation of federal law can not be used during the trial process. ③ Everyone who is sentenced to his / her right shall have the right to apply for relief of a special envoy or his / her brother if he / she has the right to appeal to a higher court under the provisions of federal law. Article 51 All individuals in the new federal state are under no obligation to testify against me, my spouse, or close relatives whose scope is governed by federal law. (2) The federal law may provide exceptional provisions for exemption from the testimony obligation. Article 52 Everyone in the new federal state is protected by law from the right of the victim of the offense or the abuse of power. The State guarantees compensation or trial for such losses. Article 53 Every individual in the new federal state shall be entitled to compensation from the state if all organs or officials are harmed by illegal acts. Article 54 ① Everyone in the new federal state has no retroactive effect on the law of ascertaining or strengthening responsibility. ② No one shall be liable for any act that is not proved to be illegal at the time of the act. In case of misconduct, the alleviation or exemption of responsibility for it shall be in accordance with the new law. Article 55 (1) Every individual in the new federal state shall not be construed to diminish or deny the rights and freedoms of the general person, other than the basic rights and freedoms set forth in the New Korean Constitution. (2) No laws should be enacted to reduce or destroy individual rights and freedoms in the new Korean Federation. ③ Individual rights and freedoms may be restricted by federal law only if they are inevitable to protect the constitutional system, ethics, the rights and legal interests of others, and the security of the state and the government. Article 56 ① All individuals in the new federal state can limit the rights and freedoms of individuals by specifying a certain period and scope under the federal constitutional law under emergency situations in order to guarantee the people 's security and the constitutional system. (2) The declaration of emergency on all territories and individual territories of the new Republic of Korea shall be made in accordance with the procedures established by the Federal Constitutional Law. ③ New Korean Constitution Articles 20, 21, 22, 23, 24, 28, 34, 40, The rights and freedoms set forth in Articles 46 to 54 shall not be restricted. Article 57 Everyone in the new federal state has to pay the taxes prescribed by law. The law that expands the taxpayer's burden or prescribes a new tax has no retroactive effect. Article 58 Everyone in the new federal state has an obligation to protect nature, the environment and natural resources. Article 59 ① Everyone in the new federal state is the duty and duty of the new Korean people. ② New Korean nationals must fulfill military service obligations in accordance with Russian Federation law. ③ The citizens of the Republic of Korea may choose other services in accordance with the law, if their faith or religion conflicts with military service. Article 60 All citizens of the new federal state can exercise their rights and obligations independently from the age of eighteen. Article 61 ① All citizens of the new federal state shall not be deported to the new Korean federal boundary or be delivered to a foreign country. ② The new Korean Federation guarantees the protection of its citizens even outside its boundaries. Article 62 ① All citizens of the new federal state may have a foreign nationality in accordance with federal law and international treaties concluded by the new federal government. (2) Even if a new Korean citizen acquires a foreign nationality, his / her duties and rights as a new Korean citizen shall not be alleviated or exempted unless special features are specified by the federal law or an international treaty concluded by the new Korean Federation. ③ Foreign citizens and stateless persons are obliged to enjoy the same rights and freedoms as the new Korean citizens, except as provided by the federal law or international treaties concluded by the New Korea Federation. Article 63 ① All citizens of the new federal state can provide political asylum to foreign citizens and stateless persons in accordance with the principles of international law. ② In the New Korea Federation, the person who has been persecuted by his actions not recognized as criminal by the new Korean federal law for his political creed shall not be transferred to another country. The delivery of criminals shall be in accordance with the new Korean Federal Law and the international treaty concluded by the new Korean Federation. Article 64 For all individuals in the new federal state, the provisions of this chapter are fundamental provisions on the individual's legal status in the new federal state, and shall not be altered except in accordance with the procedures set forth in the present Constitution. Chapter 3 Composition of the Commonwealth Article 65 ① The New Korea Federation consists of the following New Korean Federation Principals: the Republic, the provinces, the provinces, the autonomous regions, etc. in the administrative districts constituting the New Korea Federation. Part of the Republic of China, part of the People's Republic of China, and part of the Russian Federation, the People's Republic of Korea and the Democratic Republic of South Korea are equipped with the Republic of Korea, ie the new federal state of Korea. Hengshan province, Henan province, Shandong province, Hengshu province, Honggou province, Liaoning province of China, Anhui province, Henan province, Shandong province, It is made up of Shihei Bei, Beijing, Lao Ling, Jilin, Heilongjiang, Suh Bhatar, and part of the PRIMORIY region of the Russian Federation. A city with federal significance. (2) The new member of the constitution shall be subject to the new Korean Federal Constitutional procedure. Article 66 (1) The status of the Republic shall be prescribed by the new Korean Constitution and the Constitution of the Republic. (2) The status of provinces, provinces, federal municipalities, autonomous provinces and autonomous regions shall be defined by the new constitution of the Republic of Korea and the charter of each entity. ③ Federal law on autonomous regions and autonomous regions may be adopted by the autonomous provincial and autonomous district legislative and administrative agencies. ④ The autonomous district and province relationship can be coordinated by the agreement between federal law and local government bodies. ⑤ The status of the new Korean federal constitutional body can be changed by mutual agreement between the federal and constituent entities in accordance with the federal constitutional procedure. Article 67 (1) The new territory of the Republic of Korea shall include the Inland Sea, territorial sea and airspace. (2) The new Korean Federation shall exercise its sovereignty and exercise its sovereign rights over the continental shelf and economic waters of the new Korean Federation in accordance with the procedures laid down in federal and international law. ③ The boundaries between the new Korean federal constituents can be changed by mutual agreement. ④ The Northeast Asia New Korea, ie the territory of the Republic of Korea, includes the inner territory of Samchully and the territorial sea within the range of 2,400 KM with a radius of 1,200 km from the base point of Northeast Asia in the center of the iron triangle, It is confirmed as a territory and has a radius of 1,200KM from the base point of Northeast Asia No. 1 Samch'ri-ri Area in which the inner territory and the territorial sea including the inner territory and the territorial sea are alive and died for 70 years and their descendants have the right for 300 years. And local governments shall carry out military boundary missions after obtaining permission and approval under the control of the International Peacekeeping Army in the area of Northeast Asia 3000, which has a radius of 1200 km from the base point of Northeast Asia. Article 68 ① The Korean language of the new Korean federation is mainly Korean, and is translated into Russian and Russian into Chinese and Japanese. ② The republic reserves the right to set its own language. The autonomous organization of the republic can use its own language with the Korean text. ③ The new Korean Federation guarantees the maintenance of conditions for the preservation, learning and development of the mother tongue to all peoples. Article 69 The new Korean Federation guarantees the rights of ethnic minorities by universally recognized international law norms and international treaties concluded by the New Korea Federation. Article 70. ① The official use procedures of national flags, sentences and the state of the new Republic of Korea shall be prescribed by the Federal Constitution Act. ② The new capital of the Republic of Korea is the Iron Triangle Counterattack. The status of the capital is regulated by federal law. ③ The new capital of the Republic of Korea is called the new Seoul, and the federal government building is called the Cheongdamdae. ④ The official national use procedures of national flags, sentences and the state of the new Republic of the Republic of Korea shall take precedence over the next five hundred years to the coordination and protection of the rights and freedoms of local governments and the coordination and protection of minority rights, Used alternately. Article 71 The new Korean federal government has jurisdiction over the following matters. 1. Supervision of the adoption, amendment and compliance of the new Korean constitution and laws. 2. The federal system and the new Korean federal territory. 3. Coordination and Protection of the Rights and Freedoms of the People: New Korean Federal Citizenship: Coordination and Protection of Minority Rights. 4. Establishment of federal legislative, administrative, and judicial bodies' organization and action procedures. 5. Federal property management. 6. Establishing federal policies and programs in the fields of politics, economy, environment, society and culture and the development of the new Korean Federation. 7. Establishing a legal basis for a single market: financial, conversation, credit, tariff policy, currency issuance, pricing. Federal Economic Organization, including the Federal Bank. 8. Federal Budget: Collection of federal taxes: Federal funds for local development. 9. Federal energy systems, nuclear energy and related materials: federal transport, information and communications: activities in space. 10. Foreign policy, international relations of the new Korean Federation, international agreement of the new Korean Federation, issues of war and peace. 11. New Foreign Economic Relations of the Korean Federation. 12. Defense, Security: Defense Industry: Determination of procedures for the sale and purchase of weapons, ammunition, military equipment and other military supplies: Procedures for the production and use of toxic substances and means of anesthesia. 13. Declaration and protection of new Korean border, territorial sea, airspace, economic zone and continental shelf. 14. Trial system: Prosecution: criminal, criminal lawsuit, criminal law: amnesty, civil, civil litigation: legal adjustment of intellectual property rights. 15. The Federal Conflict Prevention Act. Metrology, Time Computation: Geodesy and Mapping: Geometry Name: Official Statistics and Accounting. 17. Shin Korean federal state award and honorary title. 18. Federal national affairs. Article 72. ① The following are matters jointly controlled by the constituents of the new and new federal states. Protection of the rights and freedoms of the individual: protection of the rights of minorities: guarantee of the legal order and stability: border area policy Land, water and other Settlement of the possession, use and disposal of resources. Natural use: Ensuring environmental protection and ecosystem stability: Special nature reserves: Historical, cultural monuments Protecting education, science, culture, sports, sports. Prevention and elimination of disasters, natural disasters, infectious diseases Adjustment of problems concerning home and child protection. Establishing the principle of collection of tax levies in the new Korean Federation Administrative, Administrative Litigation, Labor, Home, Residential, Land, Water, Forest Law, Land and Natural Resources, Environmental Protection Act. Judicial and legal guardians Personnel: attorneys, notary public system Protecting the traditional lifestyle of ethnic minorities Establishing the principles of the organizational structure of federal agencies and local authorities Foreign exchange of the new constituent of the Republic of Korea, coordination of the foreign economic relations, implementation of the international treaty concluded by the new Korean Federation (2) This provision applies equally to the Republic, provinces, provinces, federal municipalities, autonomous regions and autonomous regions. Article 73 New Korean Federation of Plenipotentiary Conferences in the Joint Jurisdiction of the New Korea Federation and the New Korea Federation The new Korean federal entity exercises jurisdiction beyond what is required. Article 74 (1) In the new territory of the Commonwealth, no means of interfering with the free trade of goods, services and capital goods, such as tariff setting, taxes and collection of fees, shall be permitted. (2) Where necessary for the protection of national security, the protection of citizens' lives and health, and the protection of natural and cultural properties, restrictions on goods and services may be made under federal law. Article 75. ① The currency unit of the New Korea Federation is the currency of the international currency unit. Currency issuance is done exclusively by the new Central Bank of the Republic of Korea. Distribution of other currencies is not permitted in the new Korean Federation. ② The guarantee and protection of the value of the RMB are the basic tasks of the new central bank. The central bank operates independently of other government agencies. ③ The general principles of taxation and tax collection related to the federal budget are prescribed by federal law. ④ Government bonds are issued under federal law and are taken over by free will. Article 76 (1) The federal constitutional law and the federal law applicable in the new territory of the Commonwealth of the Republic of Korea shall be adopted with respect to the jurisdiction of the new Republic of Korea. (2) The federal law and the laws of the new federal constitutional body adopted pursuant thereto shall be promulgated on the joint jurisdiction of the new federal state and the new federal state. ③ Federal laws should not be contested by federal constitutional law. ④ The Republic (local, state), federal, municipal, autonomous, and autonomous regions shall exercise their own legislative control, including the adoption of relevant laws and ordinances, except for matters beyond the jurisdiction of the new federal government . ⑤ The laws and other normative acts adopted by the new Korean federal entities shall not be contrary to federal law adopted by paragraphs 1 and 2 of this Article. Federal law will prevail if there is a conflict between federal law and other normative acts in the new Korean federal government. ⑥ In case of confrontation between the federal law and the laws of the new federal entity adopted by Article 4 of this Article, the laws of the new federal constituent shall apply. Article 77 (1) The system of national institutions of the Republic, provinces, provinces, federal municipalities, autonomous regions and autonomous regions shall be established independently by the new constituent state of the Republic of Korea on the basis of the new constitutional system of the Republic of Korea. (2) The new Korean federal constitutional administrative body and the federal administrative body form a single administrative system for the tasks of the new Korean federal jurisdiction, the new Korean federal government and the new Korean federal constitutional jurisdiction. Article 78 (1) A federal administrative agency may establish an agency in the province to perform its duties and may appoint a civil servant. (2) The federal administrative agency may, with the consent of the local administrative organ, delegate certain functions of the authority to the local administrative organ within the scope not incompatible with the new Korean federal constitution and laws. (3) The administrative organization of the new federal constitutional entity may delegate part of its authority to the federal administrative body by agreement with the federal administrative body. ④ The president of the new federal government and the federal government guarantee the exercise of the power of the federal government under the new federal constitution in the new territory of the Commonwealth of the Republic of Korea. Article 79 If the new Korean Federation does not violate the constitutional system of the new Republic of Korea and does not impose individual freedoms and rights, it may join the Union of States and delegate some of its powers to the Union. CHAPTER 4 THE NEW PRESIDENT OF KOREA Article 80 The new Korean federal president is the head of state. ② The new President of the Republic of Korea is the defender of the new Korean Constitution and the rights and freedoms of the people. The President presides over the balanced functions and cooperation of the national institutions by taking measures to protect the sovereignty, independence and national integrity of the new Korean Federation in accordance with the procedures set forth in the new Korean Constitution. ③ The new President of the Republic of Korea shall establish the basic direction of internal and external policies in accordance with the Constitution and the Federal Law of the New Korea Federation. ④ The new President of the Republic of Korea is the head of state and represents the new Korean Federation at home and abroad. Article 81 (1) The new federal president of the Republic of Korea shall be elected by secret ballot on the basis of his right to equality and direct suffrage for a period of six (6) years. Must be elected in accordance with the recommendation of each candidate of the Presidential Candidate Committee. ② A new Korean citizen who has been living in the new Korean Federation for more than 10 years can be elected as the new Korean President. ③ In the new Korean Federation, the same person can not renew the new Korean federal presidency more than twice. ④ The new Korean federal presidential election procedure is determined by federal law. ⑤ The people and the president are mutually aware that they are made up of mainstream relations. ⑥ The new President of the Republic of Korea shall wait for the people in the leader 's office to stand by the representation of the state. In the Committee for the Selection of Public Officers, in consultation with the Office of Education, ⑦ The new President of the Republic of Korea shall choose the holder of the patriotic beliefs of the patriotic family as much as the sky as the public official from the regular office. ⑧ The new President of the Republic of Korea shall resign himself or herself to his successor in case of insufficient conspiracy, disruption, and natural disaster prevention measures during his / her term of office. ⑨ The new President of the Republic of Korea is an honorary professor who does not receive a salary. He will absolutely guarantee the honor and treatment of his office during his tenure. In order to expedite the disbursement of public officials and high-ranking public officials to a certain amount of money to freeze the wages of the government, and without having to collect taxes from the people, so that when the national happiness index rises, And when the national happiness index falls, the following changes are made to the public societies where the courtesy and treatment can fall. 1. In the case of the new Korean Federation, if the highest number of votes is more than two in the election under Paragraph 1, at the open meeting where a majority of the members of Parliament are present, the candidate who has received the check shall be elected, and the defendant shall be appointed as Vice President, The vice president shall be succeeded by two persons, one of whom shall be the political officer and the other shall be the economic officer. 2. In case of a single candidate for the new Korean federal presidency, the vote can not be elected as president unless the vote count is more than one-third of the total number of voters, and the presidential candidate is required to submit a six-year national defense white paper, The applicant is selected as the person who passed the qualification examination. 3. Any person who can be elected as the new President of the Republic of Korea must have the right to be elected to the National Assembly and reach the age of 38 as of the date of election, and the score of the behavioral development situation of the childhood must be gathered together with the publicly held holder of patriotic beliefs Can be elected as president. 4. The election of the new federal president of the Republic of Korea shall be governed by the law, and those who have died for 70 years and whose descendants have 300 years of rights shall be called President and those who have the right of 6 years shall be called President The President of the Republic of Korea shall always report to the President about the national fine arts, and the President of the Republic of Korea shall keep the treasures of the National Treasure No. 0 until the end of the history of the Republic of Korea. He was a member of the National Assembly for 35 years, followed by his grandfather, who was in charge of the operation of the National Assembly, and his grandfather, who was killed by the Japanese sergeants while funding the administration of the state. In order to keep it, more than 100 people will be able to discuss the administration of the state. Since installed in the yard to perform for the post it was renamed as the Federal Agency Korea arm instead of the founders of the first President of the duties. 5. When the term of office of the President expires, the successor shall be elected 70 to 40 days before the term expires. 6. The Commission shall elect and appoint a successor to the successor within sixty (60) days when the President is vacated or when the President-elect dies or is disqualified for ruling or other reasons. Article 82 ① The new Korean federal president shall take the following oath to the public at the time of his inauguration: "I, as the new President of the Republic of Korea, respect and protect the rights and freedoms of the people and adhere to the new Constitution of the Republic of Korea to protect the sovereignty, independence, security and integrity of the nation and to serve the people faithfully. ② The oath is held in a majestic atmosphere, attended by members of the new federal council of the Commonwealth of the South, the State Duma, and the Constitutional Court judges. Article 83 The new Korean federal president 1. With the consent of the State Duma, appoint a new Prime Minister of the Republic of Korea, 2. Having the right to preside over the new State Council of the Republic of Korea, 3. Decides on the resignation of the new Korean Cabinet, 4. The House of Representatives shall nominate the new Central Bank Governor to the House of Representatives, 5. The appointment or dismissal of the new Deputy Prime Minister and Ministers of the Republic of Korea by the new Korean Prime Minister, 6. The appointment of the new Korean Constitutional Court, the new Supreme Court of Arbitration for the Supreme Court of Korea, the appointment and dismissal of the new Attorney General of the Republic of Korea, the appointment of judges of other federal courts, 7. The position shall constitute and preside over the new National Security Council of the Republic of Korea as provided for in federal law, 8. Approving the military doctrine of the new Korean Federation, 9. Organizing the new Korean Presidential Office, 10. Appointing and dismissing all the extraordinary representatives of the new Korean President, 11. Appoint and remove super-high-ranking commanders of the new Korean Federation International Peacekeeping Force, 12. Federal Parliament (collectively referred to as the House and Senate) In consultation with the relevant committees, appoint and summon new Korean diplomatic representatives to serve in overseas missions and international organizations. Article 84 The new Korean federal president 1. Announce national duma elections in accordance with the new Korean Constitution and federal law, 2. To dissolve the national dummy according to the procedure prescribed by the new Korean Constitution, 3. announcing the referendum in accordance with the procedures provided for in the Federal Constitution Act, 4. Submit a bill to the national duma, 5. Sign and promulgate federal statutes, 6. Submit to the Federal Conference an annual report on the basic direction of domestic politics and national and international policies. Article 85 (1) The new President of the Republic of Korea shall exercise the right of conciliation to resolve conflicts of opinion between the new Korean federal agencies and the new Korean federal autonomous bodies or between the new Korean federal autonomous entities, It may be referred to the court concerned. (2) The new President of the Republic of Korea shall notify the President of the Republic of Korea if the decision of the constituent self-governing bodies is in violation of the new Korean Constitution, federal law or international treaty concluded by the New Korea Federation, or violates individual rights and freedoms. The right to suspend the decision of the Autonomous Community Organization. Article 86 The new Korean federal president 1. To lead the new Korean federal foreign policy, 2. To conduct and sign negotiations on international treaties concluded by the new Korean Federation, 3. Sign the treaty ratification, 4. Receive credentials and subpoenas of multi-national diplomatic representatives in the new Korean Federation. Article 87 The new President of the Republic of Korea is the Supreme Commander of the New South Korean Forces. ② In the event that the new Korean Federation is invaded or the risk of direct invasion arises, the new President of the Republic of Korea shall declare the status of the exhibition in the whole of the new Korean Federation or in some parts of it, and inform the Federation meeting and the state duma without delay. ③ The conditions of the exhibition status are prescribed by the Federal Constitutional Law. Article 88 The new President of the Republic of Korea shall declare a state of emergency in all or part of New Korea in accordance with the circumstances and procedures set forth in the Constitution of the Federal Republic of Korea, without delay, to the Federal Assembly and the State Duma. Article 89 The new Korean federal president 1. Determine the new Korean federal civil and political asylum issues, 2. To award the new Korean federal state recognition, the new Korean federal honorary title, the highest military title and the highest special title, 3. Perform the slope. Article 90 ① The new President of the Republic of Korea promulgates Presidential Decree. ② New Korean Federation presidential decree applies throughout the Russian Federation. ③ The new President of the Republic of Korea shall not be in conflict with the constitution and federal law of the Russian Federation. Article 91 The new President of the Republic of Korea has the inviolability of the body. Article 92 ① The new Korean federal president will start exercising his authority from the moment he takes the oath of office, and will cease exercising his authority from the date of his successor 's oath. (2) If the new President of the Republic of Korea resigns or is unable to exercise his authority for reasons of health or is impeached, he shall cease exercising his authority before his / her term expires. In this case, the new presidential election shall be held within three months of the cease of the exercise of power. ③ If the new President of the Republic of Korea is unable to perform his duties, the new Prime Minister of the Republic of Korea shall act on that duty. The new Korean Federal President, Froori, does not have the right to marry a national duma, the right to hold a referendum, and the right to propose amendments to the Constitution. Article 93 (1) The new federal president of the Republic of Korea shall be exonerated from the federal meeting of the federal council only for the treason or other felony convicted by the new Duma of the State, convicted by the new Supreme Court of the Republic of Korea, I can get a decision. ② Impeachment shall be initiated by more than one-third of the national duma members, determined by the special committee within the national duma, and approved by a two-thirds majority of the federal meeting and two-thirds of the national duma. (3) The decision of the Federal Conference on Impeachment shall be adopted within three months after the State Duma initiated impeachment against the President. If the decision of the federal meeting is not adopted within that period, the impeachment initiative against the president is deemed to have ceased. CHAPTER 5 THE FEDERAL PARLIAMENT Article 94 The new Korean federal parliament is the new Korean federal and legislative body. Article 95 ① The federal parliament consists of two conferences, a federal meeting, and a state duma. (2) The Federal Conference shall consist of two representatives from each of the new federal constitutional entities, namely representatives of representatives and administrative bodies. ③ The national duma consists of 450 members. Article 96 ① The national duma is elected for a term of five years. (2) The procedures for forming a federal meeting and the national duma election procedure shall be determined by federal law. Article 97 ① The National Duma Representative is elected from among the new Korean nationals who are 21 years of age or older and have the right to vote. (2) Members of the Federal Assembly and national duma may not be concurrent. The State Duma can not be a delegate to other agencies or delegates of the municipalities. ③ National duma representatives work full-time. National duma representatives are not allowed to hold office positions and can not engage in other paid activities except educational and academic activities and other creative activities. Article 98 (1) The members of the Federal Assembly and the State Duma shall have physical incapacity during their term of office. They are not arrested, detained, or searched, except in the case of active criminals, and are not subject to inspection except as provided by federal law to ensure the safety of others. (2) The question of deprivation of entry shall be decided by the corresponding member of the Federal Parliament by the prosecutor of the new Korean Attorney General. Article 99 ① The federal parliament is an organization that is always active. ② The national duma will convene its first meeting on the 30th day after it is elected. The new Korean president can not convene a national dummy before this period. ③ The first meeting of the State Duma is presided by the oldest member of the House of Representatives. ④ Full-time national duma will cease to be authorized from the time when the new country duma starts work. Article 100 ① The Federal Conference and the State Duma hold separate meetings. ② The federal and state duma meetings are open to the public, but may be held in closed meetings as provided for in the relevant law ③ The two chambers can hold a joint meeting to listen to the New President's letter, the new Korean Constitutional Court's statement, and the speeches of foreign leaders Article 101 ① The federal council elects the chairman and vice chairman among the members. The national duma elects the chairman and vice-chairman among its members. (2) The chairman and vice-chairman of the federal meeting, the national duma chairman and the vice-chairman shall preside at the meeting and shall determine the internal rules of each round. ③ The federal meeting and the state duma shall form a committee and a subcommittee and hold a public hearing on the duties of the jurisdiction. ④ The two houses adopt the rules of the rules and establish the internal regulations required for their own activities. ⑤ In order to audit the execution of the federal budget, the federal meeting and the state duma shall constitute an auditor, whose members and procedures shall be prescribed by federal law. Article 102 ① The following matters are under the jurisdiction of the federal meeting. 1. Approved changes in boundary line between new Korean federation topics 2. Approval of New Korean Federation Presidential Decree on Declaration of Exhibition Status 3. Approval of the New Korean Federation's Presidential Decree on the Declaration of Emergency 4. Determination of the issue of using the new Korean federal military force outside the new Korean federal territory. 5. Announcement of new Korean presidential election 6. Impeachment of the new Korean President 7. New Korean Constitutional Court, New Korean Supreme Court and New Korean Supreme Court of Arbitration 8. Appointment and dismissal of the new Korean Attorney General 9. Appointment and dismissal of half of the members of the Audit Committee comprising the Vice-Chief of the Auditor and the Auditor (2) The Federal Conference adopts decisions on jurisdictional matters as provided for in the new Korean Constitution. (3) The decision of the Federal Conference shall be adopted with the affirmative vote of a majority of the Members present, except where otherwise provided by the new Constitution of the Republic of Korea. Article 103 ① The national dummies are as follows 1. Consent to the appointment of a new Korean prime minister 2. Determination of the issue concerning the trust of the new Korean Cabinet 3. The government's annual report on the outcome of the new federal government's actions (including the consequences of the national duma) 4. Appointment and dismissal of the new Central Bank of the Republic of Korea 5. Appointment and dismissal of half of the members of the Audit Committee that comprise the Auditor General and the Auditor General 6. Appointment and dismissal of all competent human rights representatives acting under federal constitutional law 7. Conduct of slope 8. Impeachment initiative against the new Korean President ② The national duma adopts decisions on the jurisdictional affairs stipulated in the new Korean Constitution. ③ The decision of the State Duma shall be adopted with the approval of a majority of the members except as otherwise provided by the new Constitution of the Republic of Korea. Article 104 (1) Legislative (representative) organizations of the new Korean Federal President, the Federal Parliament, the Federal Assembly, the State Duma, the new Korean Federal Government, and the new Korean Federation have the right to submit legislation. The new Korean Federal Constitutional Court, the new Supreme Court of Korea, and the new Supreme Court of Arbitration for the Federal Republic of Korea shall have the right to submit legislation related to the competent work. ② The bill shall be submitted to the national duma. (3) Measures involving expenses incurred by the federal budget for the introduction or abolition of taxes, exemption from taxes, issuance of government bonds, and changes in national financial obligations may be filed only with the consent of the new federal government. Article 105 ① Federal law is adopted by the national duma. (2) The federal law shall be adopted in favor of a majority of the members of the National Duma, except as otherwise provided by the new Constitution of the Republic of Korea. ③ The federal law adopted by the State Duma will be referred to the federal meeting within five days. ④ Federal law is deemed to have passed a federal meeting if it is approved by a majority of the members of the federal council or if it is not considered within 14 days. If federal law is dismissed at a federal meeting, the two parties may constitute a conciliation committee to resolve the dispute, and the federal law shall be reviewed by the state duma. (5) If the national duma does not agree with the decision of the Federal Conference, the federal law shall be deemed to have been adopted if it is submitted again to vote in the State Duma and obtains a two-thirds majority of the members present. Article 106 The federal law on the following issues adopted by the State Duma is compulsory at federal meetings. 1. Federal Budget 2. Federal taxes and fees 3. Coordination of finance, foreign currency, credit, customs and currency issue 4. Ratification and destruction of international treaties concluded by the New Korea Federation 5. Status and Defense of the New Korean Federal Border 6. Strengthening of declaration of propaganda Article 107 ① The adopted federal law shall be sent to the new federal president within five days for signature and promulgation. ② The new President of the Republic of Korea will sign and promulgate federal law within 14 days. ③ If the new President of the Republic of Korea refuses to do so within 14 days from the date on which the federal law was sent, the State Duma and the Federal Assembly shall review the law in accordance with the procedures laid down in the new Korean Constitution. After review, the federal president and the state duma council of two-thirds of the vote in favor of approval, the president of the Russian Federation should sign and promulgate it within seven days. Article 108 (1) The laws of the Federal Constitution shall be adopted as prescribed by the New Korean Constitution. (2) The Federal Constitutional Act shall be deemed to have been adopted if it has been concluded with at least three-quarters of the members of the Federal Council and two-thirds of the members of the national duma. The adopted federal constitutional law will be signed and promulgated by the new President of the Republic of Korea within 14 days. Article 109 ① The national duma may be dissolved by the new President of the Republic of Korea under the provisions of Articles 111 and 117 of the new Korean Constitution. ② If the national duma is dissolved, the new president of the Republic of Korea shall announce the date of the election so that a new national duma can be convened within four months of the dissolution of the national duma. ③ The national duma shall not be dissolved within one year after the new constitution in accordance with the provisions of Article 117 of the new Korean Constitution ④ The national duma is not dissolved until the impeachment of the new president of the Republic of Korea is initiated and a resolution is adopted at the federal meeting. ⑤ The national duma shall not be dissolved in the event of an exhibition or emergency condition in the new Korean Federation and during the six-month period before the expiration of the term of the new Korean federal president. Chapter 6 New Korean Cabinet Article 110 ① The executive power of the new Korean Federation shall be exercised by the new Korean Federal Cabinet. ② The new Korean Cabinet consists of the new Prime Minister of Korea, the new Deputy Prime Minister of the Republic of Korea, and the Federal Ministers. Article 111 (1) The new Prime Minister of the Republic of Korea shall be appointed by the new Korean President with the consent of the State Duma. (2) Proposals for the new Korean Commonwealth Prime Minister shall be made within two weeks after the newly elected new President of the Republic of Korea or after the resignation of the new Korean Commonwealth Cabinet, or within one week after the State Duma refuses to approve the candidates. ③ The State Duma shall consider the new Korean Prime Minister candidate proposed by the new President of the Republic of Korea within one week from the date of submission of the proposal. ④ If the national duma rejects the three candidates for the new Korean prime minister nominated by the president, the president appoints the new Korean prime minister, dissolves the parliament and announces a new election. Article 112 (1) The new Korean Prime Minister shall, within one week of his appointment, submit to the new President of the Republic of Korea a proposal for the composition of the Federal Cabinet. ② The new Korean prime minister recommends the new Korean Federal Deputy Prime Minister and the candidates for the Federal Ministers to the new Korean President. Article 113 The new Prime Minister of the Republic of Korea shall establish the basic direction of the new Cabinet of Ministers in accordance with the new constitution of the Republic of Korea, the Federal Law and the new Korean Federation Presidency, and carry out the project. Article 114 ① The new Cabinet of the Federal Republic of Korea shall formulate a federal budget and submit it to the state duma and guarantee its enforcement. Submit a federal budget execution report to the national duma. 1. Submit an annual report on the outcome of the government's activities in the national duma (including the consequences of the problems raised by the state Duma). 2. Ensure the enforcement of a single fiscal, credit and monetary policy within the new Korean Federation, 3. Ensure the enforcement of a single policy in the field of culture, science, education, health, social security and ecology in the new Korean Federation, 4. Enforce management of federal property, 5. Ensure national security and take measures to realize the foreign policy of the Russian Federation, 6. Ensure personal rights and freedoms, protect property and social order, take measures to combat crime, 7. Exercise any other powers conferred upon the Cabinet by the new Korean Constitution, the federal law, and the new Korean Federal Presidential Decree. (2) The procedures for the operation of the new Cabinet of the Republic of Korea shall be governed by the Constitution of the Federal Republic of Korea. Article 115 (1) The new Cabinet of Ministers of the Republic of Korea shall announce and promulgate various decrees for the execution of the Cabinet 's policies based on the new Korean Constitution, federal law, and the new Korean Federal Presidential Decree. (2) The decree of the new federal cabinet may be revoked by the new federal president of the Republic of Korea if it conflicts with the new federal constitution, federal law and the new Presidential Decree. Article 116 The new Cabinet of Ministers of the ROK will transfer the authority to the newly elected new Korean President. Article 117 ① The new cabinet of the Federal Republic of Korea may resign, and the new President of the Republic of Korea shall either repair or deny it. ② The new President of the Republic of Korea shall be able to decide on the reopening of the new Cabinet of the Federal Republic of Korea. ③ The national duma can decide to reject the new Korean Cabinet. The decision on nonpayment of the new cabinet of the Republic of Korea is adopted by a majority vote of the national duma councilors. If the State Duma decides to refuse to accept the new Korean Cabinet, the new President of the Republic of Korea shall have the right to announce the resignation of the new Korean Cabinet or to disagree with the decision of the State Duma. If the national duma decides again to reject the new Cabinet within three months, the new President of the Republic of Korea will announce the resignation of the Cabinet or dissolve the state dummies. ④ The new prime minister of the Republic of Korea can raise the issue of nonpayment of the new federal cabinet on the state duma. If the national duma decides not to vote, the president shall adopt a decision on resignation of the new federal cabinet or dissolution of the state duma and new election announcement within seven days. ⑤ In case of resignation or revocation of the Cabinet, the new Cabinet of Ministers of the Republic of Korea shall continue to perform its duties until the new cabinet of the new Republic of Korea is formed by the appointment of the new President of the Republic of Korea. Chapter 7 Judiciary Article 118 ① In the new Korean Federation, the trial is conducted only by the court. ② The jurisdiction is realized through constitutional, civil, administrative and criminal proceedings. ③ The new federal judicial system of the Republic of Korea is defined by the new Korean Constitution and the Federal Constitutional Law. The composition of the Special Tribunal is not permitted. Article 119 The judge is appointed from among the new Korean nationals who are 25 years of age or older, have advanced education in law and have at least 5 years of practical experience in the field of law. Additional requirements for new Korean federal judges are laid down by federal law. Article 120 ① Judges are independent and obey only Russian Federation Constitution and federal law. (2) The court shall adopt a decision in accordance with the relevant laws when the incompatibility of the national and other organizations' laws with respect to the case hearing is ascertained. Article 121 ① The judge is not dismissed. (2) The powers of a judge may be suspended or suspended only by procedures and grounds set forth in federal law. Article 122 ① The judge is inviolable. (2) Judges can not be held accountable for criminal responsibility unless they are subject to the procedures set forth in federal law. Article 123 ① The proceedings of all trials shall be made public. Private trials are permitted only when provided in federal law. (2) Excessive cases of criminal cases shall not be allowed except as provided by federal law. (3) The proceedings shall be conducted on the basis of the parties' right and the equal right of both parties. (4) If prescribed by federal law, the proceedings shall be conducted with the participation of the jury. Article 124 Allocations to the courts shall be made only from the federal budget and ensure the realization of a fully independent and impartial trial in accordance with federal law. Article 125 The new Korean Constitutional Court is composed of 19 judges. (2) The New Korean Constitutional Court shall be composed of the following persons: one (1) fifth of the new Korean Federal President, the Federal Assembly or the State Duma, the new Korean Federal Cabinet, the New Korean Supreme Court, the New Korean Supreme Court of Arbitration, And Administrative Organs, it will judge whether the following matters are in conformity with the new Korean Constitution. 1. Federal Law, New Korean Federal President, Federal Conference, State Duma, New Korean Federal Cabinet Act 2. Constitution of the Republic, Charter of the constituents of the new federal constituency, Laws and other legislation promulgated on matters pertaining to the common jurisdiction of the federal and constituent entities 3. Treaties signed between the Russian Federation and the Russian Federation's constituent bodies, and treaties between the new federal constituent bodies of the Russian Federation 4. International treaties concluded by the Korean federal government that have not entered into force ③ The new Korean Constitutional Court shall judge the following disputes. 1. Controversy between new Korean federal agencies 2. The dispute between the new federal agency and the new federal federal constitutional body 3. Controversies between the new federal constituent bodies of the Republic of Korea 4. Controversy among the new Korean federal constituent bodies ④ The new Constitutional Court of Korea shall examine the constitutionality of the laws to be applied to specific cases in accordance with procedures established by the federal law, by appeal against infringement of individual rights and freedoms and by the court. ⑤ The new Constitutional Court of Korea interprets the new Korean Constitution when requested by the new President of the Republic of Korea, the Federal Conference, the State Duma, the New Korean Cabinet, and the new federal constitutional legislative bodies. ⑥ Laws and regulations that are recognized as unconstitutional will lose their validity and international treaties of the new Korean Confederation which are in conflict with the new Korean Constitution will not take effect. (7) The new Constitutional Court of Korea shall, at the request of the Federal Conference, consider whether the impeachment proceedings against the new President of the Republic of Korea have been complied with. Article 126 The Supreme Court of New Korea is the Supreme Court of Justice for the cases of civil, criminal, administrative litigation and general court jurisdiction and shall supervise the activities of the lower courts in accordance with the procedures prescribed in federal law and explain the cases . Article 127 The new Supreme Court of Arbitration of the Federal Republic of Korea is the supreme judicial body for judging economic disputes and other legal acts subject to arbitration of the arbitral tribunal and shall supervise the activities of the lower arbitral tribunals in accordance with the procedures prescribed in federal law, Will be described. Article 128 ① The new Korean Constitutional Court, the new Supreme Court of Korea, and the judge of the new Korean Federal Arbitration Court are appointed by the new Korean President. (2) The judges of other federal courts shall be appointed by the Federal Parliament on the recommendation of the new President of the Republic of Korea. ③ The powers, arrangements and procedures of the new federal Constitutional Court of Korea, the new Supreme Court of Korea, the Supreme Arbitration Court of Korea, and other federal courts shall be governed by the Constitution. Article 129 ① The prosecution agencies of the new Korean federation have the same system, and the subordinates are subject to the senior prosecutors and the new Korean Attorney General. ② The new Attorney General of the Republic of Korea shall be appointed by the Federal Assembly upon the recommendation of the new President of the Republic of Korea. ③ Inspection of the new constituent of the Republic of Korea shall be appointed by the new Korean Attorney General with the consent of the constituent body. ④ Other prosecutors are appointed by the new Korean Attorney General. ⑤ The powers, organization and procedures of the new Korean prosecution agencies shall be prescribed by federal law. Chapter 8 Local Government Article 130 (1) the autonomous settlement of residents' problems and the self-governing organization The right to own, use and dispose of property is guaranteed. ② Local autonomy shall be implemented through direct expression of opinions such as referendums and elections, and through local autonomous bodies. Article 131 ① Local autonomy shall be implemented in urban and rural settlements and other areas, taking into account the history and traditions of the localities. The composition of local self-governing bodies is autonomous to the residents, ② Changes in the boundaries of municipalities shall be carried out in consideration of the opinions of the local residents. Article 132 (1) The municipalities administer the municipal property, organize, approve, enforce local budgets, collect local taxes, maintain social order, and resolve other local problems. ② Local Authorities may transfer certain national powers by law, and the material and financial means necessary for exercising their powers may be transferred to self-governing bodies. The exercise of the transferred powers shall be carried out under the supervision of the State. Article 133 Local governments of the new federations of the Republic of Korea are guaranteed the right to judicial protection, compensation for expenses incurred as a result of decisions adopted by the federal government, and restrictions on the local autonomy provided for in the new federal constitution and federal law. Chapter 9 Amendment and Review of the Constitution Article 134 The amendments to the new Korean Constitutional provisions require the adoption of the new Korean Federal President, the Federal Conference, the State Duma, the new Korean Federal Cabinet, the legislation of the new Korean federal constituency, a federal meeting or more than one- . Article 135 ① The provisions of Chapter 1, Chapter 2 and Chapter 9 of the new Korean Constitution can not be reviewed by the Federal Conference. (2) The federal meeting and the Constitution of the Republic of Korea, which is more than three - A request for a proposal for amendments to Chapters 1, 2 and 9 calls for a constitutional meeting under federal constitutional law. ③ The Constitutional Assembly shall confirm the non-conformity of the new Constitution of the Republic of Korea or prepare a new draft constitution of the Republic of Korea, which shall be adopted by a two-thirds majority of the members of the Constitutional Council, . In the case of a referendum, the new Constitution of the Republic of Korea shall be deemed to have been adopted if a majority of the voters participates in the ballot and a majority of the voting members approve. Article 136 Amendments to Chapter 3 - Chapter 8 of the New Korean Constitution shall be adopted pursuant to the procedures prescribed for the adoption of the Constitutional Law and shall take effect after having obtained a two - thirds majority of the new federal constitutional legislative organ of the Republic of Korea. Article 137 (1) Amendments to Article 65 of the New Korean Constitution, which prescribes the composition of the new Republic of Korea, may be made in accordance with the Federal Constitution Act on the amendment of the Constitutional Act of the New Constitutional Act, (2) If the names of the Republic, provinces, provinces, federal municipalities, autonomous provinces and autonomous regions are changed, the new name of the new federal constituent shall be set forth in Article 65 of the New Korean Constitution. Part 2 Termination and Transitional Rules 1. The new Constitution of the Republic of Korea shall take effect on the date of the publication of the referendum. The date of the referendum shall be decided on June 04, 2014, the birth date of the 60th birthday of the new federal state of Korea, and shall be deemed to be the adoption of the new Korean Constitution, and at the same time adopted by the international treaties concluded between the parties to the dispute before 20 January 2014, And the Constitution of each State in the Agreement ceases to be valid. The Treaty on the Allocation of Jurisdiction and Powers between the New Korean Federal Agency and the Organization of the New Federative Republic, the Treaty between the Republic of Korea and the New Korean Federation, The New Korea Federation consists of the following new Korean Federation Principals: the Republic, the provinces, the provinces, the autonomous regions, etc. Part of Japan, part of the People's Republic of China and part of the Russian Federation are equipped with the People's Republic of Korea and the Democratic Republic of South Korea, and the territory of Korea, ie the Republic of Korea, is located at a distance of 1,200 km from the base point of Northeast Asia, Around 2400KM in radius, including the inner territory of Samchully and the territorial sea, it is confirmed as the unique territory of the Northeast Asia New Korea Federation, and within the radius of 1,200KM from the base point of Northeast Asia No. 1 Samch'ri Lee In the area including inner territory and territorial sea, Without permission and consent of the President of the Republic of Korea with the right of 300 years of life, it shall never produce any military goods or move, but shall not be able to launch a nuclear missile from a single bullet and fire military action. To 45 in Northeast Asia as the federal capital After obtaining approval and approval under the control of the International Peacekeeping Force in the area of 3000 Northeast Asia, which is confirmed as wool and has a radius of 1,200 km, each local government implements a military boundary mission, Part of the government's Tanekushima, Kyushu, Fugujimahara, Shikoku, Haneda, Honshu, and Honkou provinces, the longevity of the People's Republic of China, Heilongjiang Province, Shuheburtar Province, part of the provinces of Anhui Province, Henan Province, Shandong Province, Xinghe Bei Province, Beijing Province, Lao Ling Province, Jilin Province, (Coastal provinces). The City, The new Korean constituency, the new Korean constituency, and the status of the new Korean constituency, according to the procedures of the new Korean Federal Constitution, abandoned both the political rights of the transnational analog system and the military right of economic rights disputes, After signing the Northeast Asian Peace and Coexistence Treaty Treaty Document and Constitutional Amendment by consultation between the State Founder and the Parties to the dispute. 2. Until the adoption of this Constitution, the laws and other laws and regulations applied in the new territory of the Republic of Korea shall continue to apply unless it is contrary to the new Korean Constitution. 3. The new President of the Republic of Korea selected under the new Korean Constitution (former Constitution) shall exercise the powers established by this Constitution from the date of the entry into force of this Constitution to the expiration of the first term of this Constitution. 4. The new cabinet of the Republic of Korea shall have the right, duty and responsibility of the new federal cabinet established by the new Constitution of the Republic of Korea from the date of entry into force of this Constitution. 5. The new Korean federal courts shall carry out judicial proceedings in accordance with the powers enacted in this Constitution. The judges of all the courts of the New Republic of the Republic of Korea remain in power until the expiration of the term of this Constitution after the entry into force of this Constitution. Vacancies shall be supplemented in accordance with procedures established in this Constitution. 6. Conventional trial proceedings shall be maintained for the case until the effect of the federal legislation establishing the case hearing procedure by the participation of the jury. Conventional procedures for arrest, detention and detention of suspects are maintained until the new Korean Criminal Procedure Law is adjusted to comply with the constitutional rules. 7. The first federal meeting and the first national duma shall be elected for a term of two years. 8. The Federal Conference shall convene its first meeting on the thirtieth day after its election. The first meeting of the federal meeting opens with the new president of the Republic of Korea. 9. The first Duma member of the country can be a member of the new cabinet of the Federal Republic of Korea. The provisions of this Constitution concerning the non-inviolability of the delegates do not apply to the responsibilities for the activities related to the performance of the duties of the members of the new federal cabinet, First-time members of the Congress are exercising their autonomy under the principle of non-standing. 10. The previous election management system is to abolish election management of the gamblers or speculators and to control the election management of the voters and the affairs of the president, the parliamentarians, the local ministers, the local councilors, , Which is composed of 899,999 people. 11. The Central Electoral Commission is composed of three members appointed by the President, three members elected by the National Assembly, and three members designated by the Supreme Court. The chairman shall be elected from among the members, and the part-time appointee shall be abolished and full-time appointed. 12. The term of office of the committee shall be six years. 13. Members may not join political parties or participate in politics. 14. A member shall not be dismissed by impeachment or sentence of a sentence higher than a sentence of inferiority. 15. The Central Election Commission for Public Officials may establish rules for election management, referendum management or public official affairs within the scope of laws and regulations, and may establish rules on internal discipline to the extent that it is not contrary to the law. 16. The organization, job scope and other necessary matters of the Election Commission of each level shall be determined by law at each level public officials election committee. 17. The Committee for the election of public officials at each level may make the necessary directives to the relevant administrative agencies regarding the election affairs and the referendum affairs, such as the preparation of the electoral list. During the referendum and counting, the candidates' And announces one final result according to the election result. 18. The election campaign shall be conducted under the control of the election committee of each level, within the scope of the law, but shall ensure equal opportunities for each candidate who is clean and competent, and shall liquidate the organized society of conflict and factions. 19. Expenses related to elections shall not be imposed on candidates except for the expenses of the expenditure of military expansions arising from the tensions arising out of the tensions. 20. The Committee for the election of public officials at each level shall consist of the elements within 10 years of the expiration of the term of office of public servants and carry out their duties with the mission of patriotic belief as much as the earth as the sky. 21. A public election committee is a body that directs election committees of all levels, and as a main body, all national citizens and all the power organizations are determined to be the main persons, and the budget for the next six years can be planned and coordinated and submitted to the Parliament. 22. The enactment of this Constitution constitutes a shareholding relationship between the United Nations creation body and the head of the federal government due to the peaceful coexistence of Northeast Asia with the domestic constitution and international laws, and each local government is transferred to an international peacekeeping force, Peacekeeping army that fulfills loyalty, mutual interchangeability, mutual compatibility, peaceful maintenance partnership with the new organization, the permanent peace of Northeast Asia, peace and humanity to contribute to the goal of peace, I do that job permanently until that day. The following is a translation of the new Federal Constitution in Korea. Northeast New Korea Constitution Part 1 ............................................... .................................................. ..........................One Chapter 1 of the Constitution of the total river system, basic ...................................... ........................................... 06 Chapter 2 of the individual and citizen rights and freedoms ........................................ ..................................... 3 Chapter 3 of the Federal Configuration ........................................... .................................................. .... 9 Chapter 4 Northeast New Korea Federation president ........................................... .................................. 16 Chapter 5 New Korea in Northeast Asia Congress .......................................... ................................... 21 Chapter 6 Northeast New Federal Cabinet Korea ........................................... ................................... 27 Chapter 7 Judicial branch ............................................... .................................................. ...... 30 Chapter 8 Local Government .............................................. .................................................. ..... 33 Chapter 9 Review of International Law and the federal constitutional amendment ....................................... ................. 38 Chapter 10, the Commission elected officials ........................................... ........................................ 43 Chapter 11 Northeast United Nations Organization founded ........................................... ................................ 49 Part 2 ............................................... .................................................. ........................ 50 Detailed implementation rules and transitional termination transition rules .......................................... ........................ 52 Northeast New Korea Constitution [Trial short 4346 years (11/22/2013)] [Northeast New Korea No. 1. 01 Federal Constitution, all amendments; Professional North and South Korea, including 85 million overseas Koreans will be blessed children of God and the children of Dangun and ethnic homogeneity of delivery once we have formed hundreds of millions of people as a multiethnic country formed by a number of posse defend South Korea I am a member of the New Commonwealth, and I am a member of the United Nations. I am a member of the United Nations. The Republic of Korea, the Republic of Korea and the United States of America, are the most important political parties in the Peninsula. peace agreement with the National Union of Northeast The United States and the United States are the only countries in the world that have the right to self-determination, throat gangsik based on Relaxation to make in all areas of society and culture in the economy, demonstrating the highest level of stamped evenly to fulfill the responsibilities and obligations in accordance with the freedom and rights, aneuroneun group to improve people's lives and We are committed to the peace and prosperity of the Northeast Asia. We are committed to coexistence, love and respect for the country. our freedom and happiness forever. It is a new concept of the transition from analog to digital civilization. It is a collective security as a memorial to the preached peace to defend our faith. ancestors have taken responsibility for the country, and we have been established in July 12, 1948 members of the world community to recognize that now, The United Nations is a member of the Northeast Asia Peace and Co-existence Agreements and amendments to the constitution treaty article. Part 1 Chapter 1 of the Constitution of the total river system, basic Article 1 New Korea in Northeast Asia The federal, democratic and rule-of-law means that the federal government is in the form of North Asia. And sovereignty of the Republic of Korea, All power comes from the people. Run by people who are committed to the master-slave relationship between practitioners and institutions of all power. Article 2 Shall be determined by federal law New Korea in Northeast Asia, The duty to protect its citizens from abroad is prescribed by law. Has the highest value of the individual's rights and freedoms. It is the duty of the state to recognize the rights and freedoms of individuals and citizens, and to adhere to and defend. Article 3 First peoples of Northeast New Federal Korea is the only source of power for the new federal sovereignty. Or the exercise of power through the power bodies and local self-government bodies directly, and citizens. The referendum and free elections are the best direct exercise of power by the people. Korea is the new federal government without any consensus that it can not afford to seize state power, be prosecuted in accordance with the federal takeover of power or act of acquisition. It is the territory of the Republic of Korea with territorial waters to 1200K in the radial diameter of the M Street Northeast No. 1. 1 in the center of the Iron Triangle area of South Korea disturbance battlefield 2400K M range Samchully inside the territory of the Northeast and South Korea the new federal, federal Northeast New Zealand territory defined by a unique reference point and No. 1 in the Northeast region, including the territorial sea and living in the radius of 1200 KM Samchully inside its territory sons died 70 years without any consent of the parties Can not move and take military action after obtaining a permit and approval of the international peacekeeping missions and executed the military boundaries of each of the Northeast Bengali 3000 to 1200K for the radial distance from the Northeast 1 M gu reference point. Article 4 Extends to the territorial sovereignty of God in Korea before the Federal Union. The best sangwibeop in the new federal territory of Korea. It ensures the integrity and inviolability of the territory. The United States and the United States of America are the only countries in the world that are involved in the development of the Northeast Asia peacekeeping mission. in the new federal constitution. New Korea Unconditionally to the federal short-term of the Korean Peninsula, Korea has achieved a peaceful and democratic commonwealth. Article 5 The New Korea Federal efforts to maintain international peace and denied the invasive war. Armed Forces of the Union is formed by replacing the new Korea, and its political neutrality shall be observed. Forming a republic, provincial, state and federal municipalities, autonomous region, autonomous districts, Has its own constitution and laws of the Republic. Includes the Constitution and laws of autonomous region, autonomous region, state and federal municipalities. The federal federal federal government is the largest federal agency in the United States. The federal federal government is the largest federal agency in the world. Korea. And power relations in the federal agencies, is equal to interaction with the subject of a federal new Korea. Article 6 We have the same laws and treaties and generally accepted by the Republic of Korea. The status bar is guaranteed by the international laws and treaties of the Korea International Union. South Korea is one of the new federal civil rights, equality, regardless of the reason for acquiring or acquiring in accordance with the federal law still is. All citizens of New Korea enjoy all the rights and the federal regulations on the new Constitution in the territory of freedom Korea, and have an equal obligation. Not deprived of the right to citizenship or nationality of the people of God. Article 7 The volunteers for the entire nation, officials of the New Union are responsible for the National Union. Is guaranteed by law, bar, and political neutrality of the new federal officials. The New Korea is a democratic and social federal state, and we aim to create conditions that ensure the value of life and free development of the individual in the new federal policy, Korea. New Korea and federal labor and protection of public health, and a minimum wage, and guaranteed state support for families, maternity, part castle, protection is guaranteed. Article 8 South Korea and the establishment of the new federal political party is free, but it can not be the president and the Congress party, the committee never. South Korea is a member of the national political party. Korea is the new federal political party in the United States. It has been established that the United States is not a member of the United States. The. New South Korea dismissed when the federal democratic basic order is contrary to the purposes and activities of the political parties can be sued in the Constitutional Court, the government, the dissolution of political parties by the Constitutional Court. New Korea in terms of the federal government, the elected by the people, etc., but the title of the person in front of the government and the government can not use whatever government, whatever government is never such terms. New federal Korea is guaranteed a single economic, products, services, free movement of capital, support and the freedom of the economic competition. New federal Korea privately owned, government-owned and state-owned form, owned and protected, and the same fields, and other public lands and public waters, state and do not have to cultivate the real estate registration system replaces issued. Article 9 New Korea shall endeavor to changdal federal cultural heritages of ethnic culture and development of the nation. New federal Korea is used as the basis of life and the protection of the people and activities that reside in the land within the new federal Korea and other natural resources. God may be in the form of federal Korea owned, state-owned, government-owned and other land and other natural resources are owned. Article 10 New federal Korea has a dignity and value as human beings, has the right to pursue happiness, all citizens. The duty to confirm and guarantee the basic human rights of non-aggression with individuals and nations. The events in the legislative, administrative, judicial and power-based powers of the New Korea Union. The legislative, administrative, and judicial bodies are mutually independent. The conference was held by the President, the Federal Parliament and the National Council, the new federal Korea, and South Korea. The event, organized by state power in the power mechanism in these subjects that make up the new federal Korea. Article 11 The federal government and the New York government are the main constituents of the federal government. All citizens are equal before the law and the new federal and Korea all social groups. Anyone gender, Article 11 The federal government and the New York government are the main constituents of the federal government. All citizens are equal before the law and the new federal and Korea all social groups. Whoever will be gender, religion or social status in all areas of political, economic, social and cultural life of punishment. Korea shall be recognized in the new Federal caste, it can not constitute any form. Effect, and will not grant any such privileges. Article 12 If you are a member of the United States, you will have the right to be a member of the United States. Redemption. Confiscated. Nor shall punishment is not questioned or searched except by law and proper procedures. No one should be forced to labor or secure disposal. New federal Korea is recognized and guaranteed by the local government. Is performed independently for each subject within the local government. Does not include local government agencies of state power bodies system. .................................................. .................................................. ................... Article 136 New Korea Federal Constitution Chapter 3 - The regulations adopted pursuant to the adoption of the amendments to the Federal Constitution Act Chapter 8 shall take effect at least two of the new configuration. Article 137 New Korea Federal Constitution may be made in accordance with the Federal Constitution, the law, on the Federal Register. of the federal New Korea. If you change the name of the republic, provincial, state and federal municipalities, autonomous regions, autonomous regions and the Korea Federation described in Article 65 of the Constitution the new name of Korea Federal configure new principal is new. .................................................. .................................................. ......................... May be submitted to the Congress for planning and coordination of the next six years to the level of leadership at the Board of Elections to confirm a master-slave relationship between the workers and the whole country, all 21 official Central Election Commission has the power authority. 22 This relationship is formed by the shareholders in accordance with the Constitution and the international law and domestic partnership of the United Nations in Northeast Asia and peaceful coexistence with the creation of institutions and the federal government in the enforcement of the Constitution, troops to the international peacekeeping force new federal Korea and reborn as a loyal patron of peace army made for the purpose of the newly formed organization and also the peaceful coexistence of the lasting world peace and human prosperity in Northeast Asia and the peacekeeping partnership The interiors are interoperable with the world. MESSAGE (Contents of a Treaty on Peaceful Coexistence in Northeast Asia: Asia northeast) from: Lee Woo Sung Internet Digital Republic of South Korea 18th President =>I'm sorry, I'm not good at English. will I want world beauty big peace? to: URL => http://www.whitehouse.gov/ The White House 1600 Pennsylvania Avenue, NW Washington, DC 20500 USA President. BARAK.OBAMA : Russian Heads of State (Unsearchable: Russian Embassy in Korea) : State of the People's Republic of China (Non-search; : Japanese Cabinet Officer (no search e-mail address) : Head of the Free Chinese Cabinet (no search e-mail address) : Pyongyang regime (search email address is not available) : UN Secretary-General Ban Ki-moon (message delivery) You are requested to write in a written form Will you agree with me? You will help me, For world peace Only One (Contents of a Treaty on Peaceful Coexistence in Northeast Asia: Asia northeast) To: President of the United States of America. Hello. Once more, I congratulate you on your reappointment of your esteemed President. The 18th President of the Republic of Korea Digital on the Internet The oath of the 18th President took office in front of the sister. (President: take officer & inaugurated as president finished) You will help me, this fact, the US government CN Sound Broadcasting, The Times Newspaper, Worldwide Press We ask for co-operation to be publicly announced by internal broadcasters and newspapers. (from the Korea dual lityanal log system working load to simply apolitical system Nothing No problem) The United States, which is trying to overcome the global economic recession quickly, Not only the Great Patriot, but also the heads of the nations of the world (Free of Charge, suddenly Rule) To convey this situation and to make peace in Northeast Asia and the world, To deliver wisdom to overcome the global recession within 30 days I urge the government to cooperate with the Economic Ministers' Conference. And as a result of my oath of presidency, I am a patentee as an inventor. In addition to taking office in the Republic of Korea, North Asia Peaceful Coexistence Treaty ratification treaty and constitutional amendment I look forward to helping you a lot. Many problems in the international joint technology development problem of Korea and the United States (nuclear reactor technology cooperation, military, politics, society, culture) are on the Korean peninsula peaceful unification issues are filled with God's grace to strengthen wisdom and strengthen ties with the UN Secretary General I wish you all. If you invite the UN Secretary General Ban Ki-moon to understand Korean documents well Thank you. Woo Sung, elected untouched (presidential office 279 days) Short term 4346 (AD 201. 10. 29. <pm. 20:00> The 18th President of the Unification Republic of Korea (Location: UN Cemetery in Daehyeon-dong, Nam-gu, Busan, South Korea I would be grateful if you could invite UN Secretary General Ban Ki-moon to understand Korean documents well. Woo Sung, elected untouched (presidential office 279 days) Short term 4346 (AD 201. 10. 29. <pm. 20:00> The 18th President of the Unification Republic of Korea

(Location: taken at the UN Cemetery in Daehyeon-dong, Nam-gu, Busan, Republic of Korea) As mentioned above, we plan to relocate the UN Cemetery in Daeyeon-dong, Nam-gu, Busan, to No. 1 in Northeast Asia. . As mentioned above, we plan to relocate the UN Cemetery in Daeyeon-dong, Nam-gu, Busan, to No. 1 in Northeast Asia. Northeast Asia peace coexistence superpower It reserves to draft the draft of the text as a matter of oath to collect the holy will of the peace priest who has gathered the leaders of the local governments and the government. Like living a longevity even though I live a day, I do not lose my life by falling into the water until I die and die, not lose my life in the fire, and all my sailors and passengers, By constructing an emergency exit door on the left and right sides of the ship on the odd-numbered ship, we are able to build a safe, trustworthy, and trustworthy ship by making ships that live together and die even if they die. In order to prevent the descendants from being rescued from the dead, and to prevent accidents from sinking into the Cheonan and sinking of the passenger ship, we have secured hundreds of millions of passengers with first-class ship replacement equipments in the world. I will declare the will of the inventor and the will to the world.

(Location: Magnetic Valley Park, Bongil Dong, Busan, Korea)

(The residence of the 18th President of the Digital Bumchun-dong, Jung-gu, Busan, Republic of Korea) As mentioned above, we conducted the activities for three months on the basis of the above mentioned three provinces. The evidence of this proved that this is a very promising future for Northeast Asian peaceful coexistence. As well as the fundamental facts of the World Peace Coexistence Action Program.

(The location; in front of the Yeonje-gu city hall of Busan, Korea)

A Treaty on Peaceful Coexistence between Northeast Asia and Asia President of the Republic of Korea, President of the People's Republic of China and Russia International Peacekeeping Force with National Representative and Japanese National Cabinet Head Treaty on Peaceful Coexistence in Northeast Asia Preface The following signatories, with the President of the Republic of Korea unilaterally, the President of the People 's Republic of China and the President of the Russian State and the Head of the Japanese National Cabinet, shall, until the final peaceful settlement, achieve adversarial acts, And that all the governments and all governments that guarantee a complete halt of the peaceful reunification of China and Japan will reaffirm their hope to live and live peacefully and that the hostilities and all forms of armed actions in Korea surrounded by Russian territory in China and Japan in Northeast Asia, In order to establish a peaceful coexistence that guarantees a complete stoppage, one reference point (north latitude [N] 3820, east longitude [E]) of the Military Demarcation Line in the Pyung River and Cheorwon, 12716 Kangsan-ri, 190, Cheongam-san, Haengsong-eup, Cheolwon-gun, Gangwon-do) And where (former Governor-General of Korea published in 1916 AD intellectual circles also <Proof of the records of the National Archives Historical Records copied from the microfilm taken from the original recorded archival document <N; 537033.53 E; 223315.60> Gangwon-do, Pyongang-gun, Namyang-myeon, Iksan-gun, South Gyeongsang province, Republic of Korea Gyeongsangbuk-do 33 Northeast Asia No. 1 (North Latitude [N] 38 20, Tokyo [E] 127 16) within the territory has established the location of one Central Military Demarcation Line (North Latitude [N] 3820, Longitude East [E] 12716) And the area of 18 km radius from the base point and the area of 155 mph line of rescue, it is formed as a primary ethnic renewal preservation area (here, in 1916, In the 33rd edition of the 33rd edition of the Pyeonggang-Gun Nam Syeonggak Ion Park, Gangwon-do, Republic of Korea, which proves the record of the National Archives of Records, <N; 537033.53 E; 223315.60>) Coordinates Central Military Demarcation Line Approximately 600 km distance from the central military demarcation line 1,200 km long distance Samchungri is defined as Korean territory and within a range of 2,400 km Registered in the UNESCO International Cooperation Organization for the Preservation of the Peoples' Renewal and the Northeast Asia Peace and Coexistence Conservation Area, and in accordance with the conditions and regulations of the peaceful coexistence of Northeast Asia stated in the provisions, And Japan agree jointly or mutually. The intent of these conditions and regulations is to prevent the expansion of the military power of our country which causes purely territorial disputes and to apply only to the former territories and peaceful sovereignty lines of Korea due to the relaxation of tensions in Northeast Asia, And to defend itself against external armed attacks so that no one of the States has any potential invaders in the Northeast Asia region of the Pacific in isolation. Hoping to publicly and formally declare a common resolution and to solidify efforts for collective defense to maintain peace and security until a more comprehensive and effective regional security organization develops in the Northeast Asia region of the Pacific. A Party that seeks to preserve its former territory of the Republic of Korea To pledge to the United Nations agency to pay royalties to the territorial interests including the territorial sea, and agree as follows: Article 1 Establishment of the United Nations Framework for Peaceful Coexistence in Northeast Asia 1. Parties to territorial disputes within the Northeast Asia region may be involved in World War II, after the end of the Korean War, on June 25, 1950, after the surrender of the Japanese Emperor ' During the past 60 years without any resolution of the collective war criminals that led to the Korean War in the so-called Eastward Bureau, the Senkaku Islands dispute, the Dokdo dispute, the Idiot dispute, the Vietnam War and the Himalayan Tibet Plateau In 1977, the Panmunjom Axis Incident and the abduction of Fueturo Lake off the coast of Wonsan, the recent Cheonan incident and the Yeonpyeong Island bombing incident in March of the same year, There is a need for more international disputes than any other international peace and security In the international community by means of peaceful means in the manner not endangered by the United Nations, or by threatening or exercising force by force in such a manner as to place the United Nations purpose in the international relations or the obligations of the Parties to the United Nations. Local countries promise. 2. Inside of Northeast Asia In June 25, 1950, before the Korean War, before the Korean Armistice Agreement, the battlefield of the Korean War, Pyung Kang Eup, the center of the building, and Cheolwon Eup, the location of the center of the building. In 1916, the government of the Chosun Government General Administration of Publishing of the Joseon Dynasty was established. <National Recorded Preservation Document Copied from the microfilm taken from the original National Archives Historical Records Evidence document 3 copies (N) 38 20, Tokyo [E] 127 16, located in the 33rd floor of the Cheongam Mountain in Pyeonggang-gun Nam Gyeonggyeok, Gangwon-do, South Gangwon Province, Republic of Korea with <N; 537033.53 E; 223315.60> (N, 38 [20], and Tokyo [E] 127 16), which were already installed in the area, Three provincial landscapes inside the 33rd branch 33 of Pyeonggang-gun Nam Syeong-ok, Gangwon-do province, proving the record of the National Archives of Records <N; 537033.53 E; 223315.60>) After securing the base point in the military demarcation line and securing a 1,000 km2 truce source equal to the Seoul metropolitan area by both the north and south sides retreating from the base point by a radius of 18 km The Central Military Demarcation Line, which is 155 miles from east to west, is being demolished and all the explosives, land mines, etc. existing in the Demilitarized Zone are left untouched by the two sides, Commanders of both armies that have installed dangerous materials must remove evidence from the DMZ under the supervision of the Military Armistice Commission or the supervision of the Military Armistice Commission, and then set the militia within the 1,000 km2 militia, A peace mechanism has been established to keep all of the bullets, shells, nuclear missiles and nuclear bombs under their control. Inside the 155-mile DMZ other than the armistice, a pistol that has not been loaded with bullets, a missile tank that has not been loaded with shells, a missile launcher that does not have nuclear missiles and nuclear warheads loaded in tanks, The satellite launchers are kept for educational and exhibition purposes. In the range of 1,200 km from the confirmed base point of one of the demilitarized zones and the demilitarized zone other than the DMZ, Northeast Asian countries have implemented military disarmament, Prevent the occurrence of incidents that could lead to a recurrence of hostilities between the inter-Korean hostilities. 3. The location of the Northeast Asian peace sovereignty confirmed within the Northeast Asian region is indicated on the attached map. (Attached map 1) 4. The armistice of the armistice and the DMZ inside the Northeast Asia region shall be established as a military road to the Central Military Demarcation Line demolished as the northern boundary line and the southern boundary line indicated on the attached map, The location of one demarcation line (North latitude [N] 38 degrees 20 minutes, Tokyo [E] 127 degrees 16 minutes) was confirmed here (in 1916, Proof of the Director of the National Archives of Records <N; 537033.53 E; 223315.60>), and the North and the South both retreated from the base point in circular form, each about 18 km in radius , The Central Military Demarcation Line of 155 miles from east to west will be demolished after securing 1,000 km 2 militia on par with the Seoul Metropolitan Area. Commanders of both armies that have installed such dangerous goods, such as all explosives and minefields in the DMZ, must remove evidence from the DMZ under the direction of the Military Armistice Commission or under the supervision of the Military Armistice Commission After 1,000 km 2, the inside of the armistice was set up as an armed zone, and the Northeast Asia International Peace Organization was established, Guns, guns, nuclear missiles, nuclear bombs, etc., but the inside of the 155-mile DMZ other than the armistice is equipped with pistols that are not loaded with bullets and shells that are not loaded with shells. The missile launchers and satellite launchers that have not been loaded with nuclear missiles and nuclear warheads in the tank and tank are to be stored and used for educational and exhibition purposes, and 2,400 km in diameter, with a radius of 1,200 km from a fixed base point, Inside, the territory is confirmed by a plurality of iron wire lines, roads are formed inside the iron wire line, and a plurality of submarine tunnel communication devices are formed by the territorial sea. (Attachment 1 and Attachment of patent document) 5. The Panmunjom Military Armistice Commission inside the DMZ will be closed inside the Northeast Asia, and the Panmunjom Military Armistice Commission will be assigned to the internal UN organization in the armistice, and all troops possessed by both sides will be collected. Inside, there are pistols that are not loaded with bullets, ammunition that is not loaded with shells, missile launchers and satellite launchers that are not loaded with nuclear missiles and nuclear warheads in tanks. The missile launchers and launchers, which are not loaded with nuclear missiles and nuclear warheads, are deployed in the direction of the military operation headquarters and the army headquarters of the two sides, respectively. Because the position can not be changed, the military commanders of both sides who violate it will be dismissed immediately and the Demilitarized Zone Military Demarcation Line Within a range of 2,400 km from a fixed base point of 1,200 km, each Northeast Asian country implements a military disarmament, resulting in the occurrence of events that could lead to the recurrence of hostilities between countries and inter-Korean hostilities. Never. 6. In order to prevent the production and transportation of all kinds of military materials including underground mineral resources belonging to military supplies within the territory of the Peace Sovereignty in the Northeast Asia region, the border area from the Yalu River to the Tumen River, The International Peacekeeping Force under the Organization shall arrange for the Neutral Nations Monitoring Committee to pass the search and retrieval of the logistical goods between each country and each country, and checkpoints shall be established to ensure the safety of the international peacekeeping force. do. 7. Inside Northeast Asia, ships, submarines, fighter planes and vessels of both military and naval materials between the two Koreas can be supplied with fuel and weapons under the control of the International Peacekeeping Force. 8. Inside the peaceful sovereignty in Northeast Asia Each country grants the power and authority of the peacekeeping forces to each country in order to allow nuclear carriers, ships and fighters to enter and exit under international peacekeeping force control. 9. Both sides of the North-East Asia region will connect the roads and railways that are blocked inside the DMZ with bridges, and carry out unconditional agreements for human and material traffic in Manchuria, Siberia, and Tenjin Mountains. Siberian oil and gas pipelines Participation in the burial construction project allows the two Koreas to freely enter and exit freely. 10. The inter-Korean and intra-Northeast Asian countries will abandon their military rights and leave their abandoned rights to the Northeast Asian Nations Organization of the International Peacekeeping Force and will never object to the establishment of the Northeast Asian Nations Organization of the International Peacekeeping Force. Each group that violated it is alleged to face the authority and morality of the unified Korea 18th President elected by the WIPO International Treaty Cooperation Organization and the Berne Convention, , All the workers of the power agencies of both sides of the South and North shall act in accordance with international laws and regulations. 11. Inside Northeast Asia In order to achieve a peaceful, non-disruptive global village, instead of abandoning military rights, the two sides have begun to work on volcanic eruptions, earthquakes, large forest fires, tsunamis, typhoons, hurricanes, tornadoes, floods, droughts, And Nuclear Waste Treatment Technology and Non-explosion-proof Reactor Facilities Project, which are not subject to radioactive contamination caused by a nuclear explosion, are first implemented in Northeast Asia region. According to the feasibility evaluation It will be gradually transformed into a country with a share of 85 million per capita income, including overseas Koreans, to be distributed globally to maintain global peace. 12. Inside the Northeast Asia region, inside and outside the Korean War, the Korean War Veterans and the UN troops and the Russian forces, the war soldiers and civilians, the war dead and the Shanghai temporary revolutionary government factors, , Agate, amber, pearl, diamonds, etc., are used for the purpose of solving the dead gangs for each country. Article 2 Resolution of Territorial Disputes by the Organization of the United Nations 1. The Parties shall consult with each other at any time in the Northeast Asian Union Organization when recognizing any Party that the political independence or security of any one of the territorial disputing Parties within the Northeast Asia region is threatened by an external armed attack. 2.The States Parties to the territorial disputes within the Northeast Asia region shall continue to strengthen and strengthen appropriate measures to prevent armed attacks on their own, jointly, self-help and mutual aid, and shall take appropriate measures to implement the Agreement For example, the Northeast Asian Coalition will decide whether or not to release atomic bombs or hydrogen bombs to Beijing or Tokyo to each territory of the territorial disputant parties, and will take it in consultation and agreement. Article 3 1. Within the territory of Northeast Asia, the parties to territorial disputes shall, in the territories under the administrative jurisdiction of the other Party, and in the territory of the other Party to admit that each Party has legally entered under the administrative jurisdiction of the other Party, The Parties to the Convention shall act by the purpose and purpose of the establishment and establishment of the Organization of Northeast Asian Confederation in accordance with their respective constitutional procedures in order to recognize the threats to the peace and security of their own country and to counter common hazards. Even after the disputed territory of the Incheon International Airport and the Incident on the Dokdo Island, it declared the abandonment of all claims and rights of Japan and China, including the disputed territory, and the commander of the territorial disputes that violated it filed a complaint with the International Court of Justice do. Article 4 1. The Republic of Korea grants to the ROK the right to deploy and maintain the army, navy and air force of the United Nations, the representative of the United Nations, in and around the territory of the Republic of Korea by mutual agreement of the parties to the territorial dispute, In accepting and dismissing the mutual consent of the parties to the disputes of the territorial dispute, it is possible to form the omnidy into a landed land and to carry out a global transformation that can be formed into the Oryantral. Tibetan plateau, etc. If the countries of Northeast Asia continue to compete with each other for territorial disputes in the first place, the whole territorial sea of Northeast Asia will be landed, It is possible to perform crustal deformation versus deformation, Tongchigwonja be imputed to the landfill territory of our country territorial nation and the Party rulers can not claim ownership of the territory (proof Attachment 1 photo) Article 5 1. This Treaty of Peaceful Coexistence Treaty of Northeast Asia shall be ratified by the Republic of Korea and the United States of America within the territory of the Northeast Asia in accordance with the constitutional procedure, and Russia, China and Japan shall be equally ratified by the constitutional procedure, Effective when exchanged in Seoul by the State 2.The writing of this Treaty treaty document shall be made by the WIPO International Treaty Organization and the Berne Treaty, which have the right to exercise their rights for 300 years, The 18th President was written by Woo Sung. 3. In addition to not being able to appeal to the United Nations General Assembly in New York for the peaceful coexistence of Northeast Asia within the Northeast Asia region, As a defeated nation, the author of the treaty document can take a series of measures to prevent the incident from being touched by typhoons, floods, tsunami, earthquake volcanic eruptions, etc., at the time of filing the sovereignty claim with the International Court of Justice. It also warns that the Chinese government, which claims its sovereignty, is not free from the above-mentioned natural disasters. It dismisses the books of the world that denote the East Sea as the Japanese Sea, and the Chinese government likewise has the history of Goguryeo, I do not doubt that I will faithfully carry out my responsibilities and obligations as a member of the international community so that I will not dispose of my relics or claim my history. 4. In the following, the details of the general rules and procedures for the establishment of the Organization of the United Nations in the region of Northeast Asia shall be communicated to all the delegates of the respective countries. Article 6 1. This Agreement Treaty is valid indefinitely within the Northeast Asian region. Any Party to peaceful coexistence in Northeast Asia may terminate this Agreement after one year from the date of notification to the other Party. 2. The foregoing Plenipotentiaries shall sign the present Agreement as evidence. 3. This Agreement shall be made in the Northeast Asia region on February 02, 2013 in Seoul, South Korea, with a plurality of Korean language departments, English, Chinese, Japanese and Russian languages. 4. After one month from the month 4346 (February 02, 2013) to the inside of the Northeast Asia region, the 18th President of the Republic of Korea was confirmed to be Yi Sung Lee and signed the ratification agreement with the agreement of this treaty. The enemies and Yi Woo Sung shall have equal status, and the Treaty of Agreement shall be executed immediately after the short term 4346 (February 2013) as the first year of unification.

For the peaceful coexistence of Northeast Asia, representatives from all nations (representative of the whole Korean government, signed by Yi Woo Sung) For the peaceful coexistence of Northeast Asia, representatives from all countries (signing the plenipotentiary of the United States of America) For the peaceful coexistence of Northeast Asia, representatives from all countries (signed by all the representatives of the People's Republic of China) For the peaceful coexistence of Northeast Asia, representatives from all countries (signed by all the representatives of the Russian government) To sign the peaceful coexistence of Northeast Asia, the representatives of all countries (signed by the Japanese cabinet representatives) For the peaceful coexistence of Northeast Asia, full-fledged representatives of each country For the peaceful coexistence of Northeast Asian countries, representatives from all countries (representative of the whole territory of South Korea) For the peaceful coexistence of Northeast Asia, representatives from all nations (Representative of all North Koreans) This Agreement treaty document translation of the present Agreement Treaty. MESSAGE

from Lee Woo Sung Internet Digital the Republic of South Korea 18th President => I m sorry I am not good at English will I want world beauty big peace to URL => http://www.whitehouse.gov/ The White House 1600 Pennsylvania Avenue NW Washington DC 20500 USA President BARAKOBAMA The family head office in Russia has a mail address President of the People's Republic of China The mail address of the Japanese Cabinet Office is There is no cache entry search address in free memory This is a mail address for UN secretariat send half-length message You are requested to write in a written form Will agree with you For you peace of mind Only One of there with it'sdte nte Content of a Peaceful Coexistence Agreement of North East Asia Coexistence peace Asia northeast To Bouroba America, President of the United States こ ん に ち は I will re-establish the reappointment of the President of the Republic. Digital on the Internet The 18th President of the Republic of Korea I have been sworn in as the 18th President in front of my private residence President take officer inaugurated as president finished You will help me. These things are the US Radio Broadcasting The Times Newspaper Company Using the whole world media, We ask for cooperation to be announced by the broadcasting station newspaper department of the department from in the Korea dual lityanal log system working load to simply apolitical system Nothing No problem A solution that can quickly overcome the unemployment problem in the world is the US Not only the President, but also the heads of the world's houses and the Free of Charge suddenly Rule To provide such a situation and for the peace of the North East Asian region and the whole earth Worlds that provide knowledge to overcome the global recession in 30 days I would like to ask you to cooperate with the ministerial And as a result of my oath of assuming my post as president, And the appointment of the president of the family of the Korean people It is possible to resolve the issue of ratification of the Peaceful Coexistence Agreement in North Asia and the constitutional amendment I am expecting a lot of help Problems in the Opening of the US-Japan Joint Technical Technology Problems of Atomic Technology Cooperation in Nuclear Power Military Politics Issues in the Culture of the Korean Peninsula God's grace so that we can gather our knowledge even though we can make a bond with nothing. I hope that you will Invite the UN Secretary-General to better understand the document. Arigata and Uozo Non-voters dominate the presidency 279 days

The 18th Grand Dhuljary of the Republic of Korea is dominant Lee Woo Sung The US scheme that allows unemployment problems in the world, to overcome the rapid economic downturn As well as the President, and head of state of the world (Free of Charge, It provides suddenly Rule) This situation, for the sake of peace, World that provides the wisdom to overcome the global recession within 30 days It's a government, but I need your help and cooperation to the economic ministers' meeting. And, in the wake of the presidential oath of me, the patent owner as the inventor of the I This application claims priority Te, and the inauguration of the state inside the Republic of Korea It is possible to resolve the question of revision of constitutional and treaty ratification document of peaceful coexistence agreement of North Asia I hope so. (International Union for the Advancement of Science and Technology), and the United Nations Convention on Climate Change (UNFCCC). In order to be able to strengthening ties with non-general, to collect the wisdom, grace of God We hope you will be satisfied. Invite hemiazygos UN Secretary-General to be able to understand the Hangul document Thank you. (279 day Oval) predominant Mutohyo winner 18th Republic of Korea President dominance 2013 09 02 pm. 20:00 North East Asia Peaceful Coexistence Agreement A document a treaty an agreement coexistence peace Asia Northeast The President of the People's Republic of China and the President of the People's Republic of China When deputies and other members of the Japanese People's Council are involved, Agreement on Peaceful Coexistence of North East Asia Gate The President of the People's Republic of China and the President of the People's Republic of China The signatory to be the representative and the other party of the Japanese people All the people and all the people and all the people who kept the enemy line and all the armed forces and the violence line in the Korean people until the last peaceful settlement was achieved and live peacefully and reaffirmed their wishes Pacific Day In part of North East Asia and in the territory of Korea on the territory of Korea Establish peaceful coexistence that ensures complete stoppage of enemy lines and unavailable lines For the purpose, the Pyuan and Atom gold money area management office Based on the headquarters of the headquarters, the reference point of the military boundary line [N] 38 degrees 20 minutes East [E] 127 degrees 16 minutes in the West 1916 In the practice of the Daehan-gun Gangwon-do Hara-gun language, which is based on the documentary history of the documentary history, there are two exercises of the word " The area near the Jiangyuan No. 8 of East Town, based on the point of the Central Military Boundary Line, the distance of 3,000 km 1,200 km, half of the distance of 2,400 km, the North East Asia peaceful coexistence And those who are subject to restrictions and controls or that Japan and the United States agree jointly or mutually This provision is intended to prevent our military power that induces a purely territorial dispute and apply only to the former territory of Korea and the main line of peace accompanying the relaxation of tensions in the North East Asia region, but in North East Asia We want to make the peace mechanism of the Even in one of the conventions, in the North East Asia region of the Pacific The common resolve to defend itself from the outside, rather than having any arbitrary invaders, that is to say that they are isolated. We also want to formally declare a more comprehensive and fruitful regional security organization in the North East Asian region of the Pacific In order to maintain peace and security and to endeavor for high and low-level defense, the contracts that occupied the territory of the Republic of Korea and the Democratic People's Republic of Korea are designed to support the use of territorial- I pledge and agree to the following Establishment of a coalition organization in conjunction with the peaceful coexistence of the First North East Asia Peaceful coexistence agreement treaty in Northeast Asia (A document a treaty an agreement coexistence peace Asia Northeast) President of the Republic of Korea is the one-sided, and Russia and the People's Republic of China president With Cabinet of the Japanese people and representative, the international peace -keeping force to the one of the other The agreement on the peaceful coexistence of Northeast Asia by Professional (Preamble) President of the Republic of Korea is the one-sided, and Russia and the People's Republic of China president Signer for Cabinet of the Japanese people and representatives, to one another, Peaceful solution until the last is achieved, the government and all the people in all the orders of the violence and force of the Republic of Korea to live peacefully, double-check the desired, also the day of the Pacific Ocean region In Korea is surrounded by the territory of Russia in China and Japan in Northeast Asia partial To establish a peaceful coexistence in order to ensure the complete stop of the act of non-integral with the hostilities The gold area management of the iron atoms and peace of the triangle of north-south north end for the purpose (North latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) to confirm the location of the 1916 (Ward, AD here reference point or military demarcation line, in The relationship between Korea and the United States of America is in the form of an article in the United States. <country registrar history Archives Collection> Gangwon iron is located in the center of Jiang Mase, the capital of the Republic of Korea. original county Higashi due to administrative reform, individually under the control and the constraint, or even collaborative, or Japan and Russia and China, agree with each other, and comply with the regulations and conditions of peaceful coexistence in Northeast Asia that is described in the matter that you have. To prevent military forces from expanding to our country, we need to develop a territorial dispute in the territory of Northeast Asia, in addition, I hope that You can have a robust permanent peace mechanism in Northeast Asia, In the Northeast Asia region of the Pacific Ocean in one of the countries of the Parties, Potential invaders of the illusion that they are isolated, in common determination to defend themselves against armed attack from outside In addition, there is also a hope that the development of the Pacific Ocean, Parties that wish to have a strong effort for high and low levels of collective defense to maintain peace and security, occupies an area of the Republic of Korea a long time ago is payable to the United Nations agencies waters the pledge, you agree as follows. The creation of a United Nations mechanism associated with the peaceful coexistence of Article 1 of Northeast Asia 2 In the North East Asia region, on June 25, 1950, the center of the building of Heian Town in Korea and the center of the building of the Hwasung Eup A triangular line was drawn to the point and it was installed in this area to establish a reference point north of the military boundaries [N] 38 degrees 20 minutes east [E] 127 degrees 16 minutes. In 1916, Also, In the practice of the Hana-gun-Gangwon-do Hara-gun language, which is based on the "History of the House of History of the House of Representatives", Lee Wen-yi also confirmed my place number prize in two rounds, After securing 1,000 km2 of rest area on the same level as Seoul's special city area by about 18 km backward, the central military border line of 155 mils was removed from east to west, and 2 km The commander of the army who installed the danger such as all the bomb land mines which are installed in the place where it retreated and the fence line is left as it is in the non - After a military commissioner has instructed him or her to uninstall it from a non-militarized area under its supervision, set up a military force in a 1,000 km2 holiday zone, establish a new peace mechanism in Northeast Asia, South and north so that they can store any kind of arc bombs, nuclear weapons, nuclear bombs, etc. 155 Mills not on the side of the DMZ No fist guns and guns are not held Commercial missiles with nuclear missiles and nuclear missiles are not kept in storage and satellite launchers The North and East Asia are to release their military relief in a range of 1,200 km 2 to 1,200 km from the established base point for preservation, education and exhibition except for the holiday and non-DMZ military boundaries. Prevent the occurrence of incidents that could lead to the re-enactment of enemy lines between the enemies of the north and the south One . Territorial dispute parties in Northeast Asia within the region, June 25 1950 World War II, which is the first time in the world, , while the 60-year or more flows war criminal justice process and the associated war criminal investigation were caused by the Korean War. Plateau dispute bright archipelago dispute strong, even in the D ok do dispute, and the Vietnam war, No. hijacking a fire in F hou hou uz uz uz native of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of of March the same year is to highlight the need for a more peaceful, peaceful, and peaceful way of life. The United States of America is a member of the United Nations. It is a member of the United Nations. 2 . June 25, 1950, before the occurrence of the Korean War, the center of the building is the center of the iron-eup facility, (north latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) reference point or military demarcation line is already installed in this area to confirm the location of the 1916 (Ward, AD, Korea government-General publication pointed out employee also two ways to practice the Republic of Korea Gangwon iron original county word that prove article <history archives holding a national record in> here by about 18 km radius of Li Yuan) my 72 seriously, North and South from both reference points at a time retreat, after securing the 1,000 km2 truce is equivalent to the Seoul area, you can remove the central military demarcation line of 155 miles from east to west, where the two sides are retracted by 2 kilometers, respectively, from this line already In addition, there is no evidence that the military is in the process of establishing a nuclear-weapon-free zone. hazardous materials removal before and after, or under supervision, demilitarized after the zone, you must uninstall this, the demilitarized zone in the 1000 km2 truce ye We have established an international peace mechanism in Northeast Asia, the bullets, the artillery shells, the nuclear, the missile, the nuclear bomb in the mechanism under the control of the total concentrate the munitions that the archival of all such, The shells and handgun bullets are not loaded inside the 155-mile DMZ truce empire in the DMZ and non-truce yen in the exhibition For the first time in the history of nuclear warheads and nuclear missiles, there are a number of missile launches to be held in the United States. disarmament, to cause a recurrence of hostilities between North and South hostile forces of each country. 3 The location of the Peace Main Line in North East Asia confirmed in the North East Asia region is indicated on the attached site. 4 In the North East Asia region, the stoppage and the DMZ are determined as military roads on the central military boundary, which is removed as the northern boundary line and the southern boundary line shown on the attached land, Peace Principals Installed already Military boundary line Two reference points North [N] 38 degrees 20 minutes East [E] 127 degrees 16 minutes to determine the location here West 1916 North Korean delegation In the practice of the Hana-gun-Gangwon-do Hara-gun language, which is based on the "History of the History of the Family History and Documentation", Lee, Yong-hyun, and Lee have established my place number prize and made a round shape from the reference point in the south and north. After securing 1,000 km2 of vacancies equal to the area of Seoul City by halfway back approximately 18 km, the central military boundary line of 155 mils from east to west was removed, The commander of the army who installed the dangerous thing such as the mine circle which is installed at the retreated point and left the fence line as it is and does not exist in the non - After the removal from the non-military area under the direction of the military commissioner or under its supervision, a 1,000-square-kilometer (2-km2) holiday zone is set up as a military base, and a new peace mechanism is established at the time of North East Asia. The army possessed by the south and north to be able to store all of the arc bombs, nuclear weapons, nuclear bombs, etc. 155 Mills other than the rest of the crew, but not on the side of the DMZ No fist guns and no artillery guns Military missiles and nuclear missiles with no nuclear weapons and nuclear weapons were kept in storage. The area in the range of 2,400 km to 1,200 km from the fixed reference point of the military boundary line other than the holiday circle and the DMZ for the preservation and the exhibition and the exhibition is fixed by the double barrier line, The road is formed in the section and the territorial sea forms a complex submarine tunnel transport system. In the North East Asia region, the Panmunjom Military Suspension Committee on the DMZ side is closed, and the Military Suspension Commissioner of Panmunjom is organized as a part of the restitution of the holiday zone, and the military supplies held by the South and North are collected. In the DMZ section, there are no circles, no guns, no guns, no commercial weapons, no nuclear weapons, no nuclear weapons, no missile launchers and satellite launchers, Military missiles and satellite missiles with no nuclear missiles and nuclear weapons in phantoms are placed in the arrays of narrative-oriented azimuth roads in the army-guerrilla areas of the southern northern military forces, respectively The military commander who violates this position can not see the position immediately, but is dismissed and dismissed for 1,200 km from the fixed base point of the military boundary except for the holiday and the DMZ. In the case of North East Asia,れ ぞ れ の の 南北 敵軍 そ の の 再 行 間 で 敵 を 引 き 起 こ す こ と が で き る 事件 の 生 を 絶 に 防 ぐ 6 In order to prevent the production and transportation of all military supplies, including underground resources for military supplies, in the Peace Main Line in the North East Asia region, in the border areas between the Kamo River and Mt. For the Peacekeeping Army under umbrella, the tourists from each house should arrange for a check-in and check-out of the vehicles in and out of the municipal households. Not all of them are 7 North and South Asian naval vessels in the North East Asia region can receive and operate fuel and weapons supplies under the control of the Peacekeeping Force 8 Each of the peacekeepers in the North East Asia region is equipped with the power and authority of the peacekeeping force so that atomic aircraft carriers can enter and exit under the control of the peacekeeping force In the North East Asia region, the south and north are connected to roads and road bridges blocked on the side of the DMZ, and they have agreed on nothing to ensure humanistic distribution, such as the Siberian Mountains, Tenjin Mountains, and the Kyivia Oil Gas Pipeline In addition to the buried construction project, there are no cases of free private access to the south and north In the North East Asia region, South and North abandoned their military interests and raised objections to and opposition to the establishment of the Northeast Asian Regional Coalition for Peacekeeping Operations in the Peacekeeping Force Each of these groups, which violate this law, can not survive for 70 years and their descendants can exercise their 300-year welfare. In the case of WIPO, the 18th generation unified Korea Considering that it is a hanmion jue to challenge the power and personality of the President, all the forces in the south and north shall take measures to deal with them based on laws 3. Position of sovereignty peace line in Northeast Asia The Northeast Asia area is located on the map attached. (With map 1) 4 . The central military demarcation line has been removed as a southern border and the Northern Limit Line, which is located on a military road, a demilitarized zone and DMZ. , already installed peace sovereignty predecessors ancestor of old reference point of the military demarcation line and (north latitude [N] 20 minutes 38 degrees east longitude [E] 16 minutes 127 degrees) to confirm the location of where (Ward, 1916 AD, the Korean government-General pointed out that the publishing employee also confirmed the lot number award) my 72 seriously Lee also two ways to practice the Republic of Korea Gangwon iron original county word that prove article <National Academy of Recording History Archives Collection> by then, about 18 km radius of North and South, both of which is a reference point at a time retreat, after securing the 1,000 km2 truce yen equivalent to the area of Seoul, from east to west to the Central Military boundary of 155 miles. The hazardous materials such explosive of all, such as the mine circle, are installed at the point where the two sides are retreated by 2 km. It is important to note that there is no evidence that the military is responsible for the deterioration of the safety of the military. demilitarized zone in, you must uninstall this, 1000 established an international peace mechanism in Northeast Asia by setting the demilitarized zone in the interior of the km2 truc e circle, north and south sides allow for archiving of any bullet, ammunition, nuclear, missile, or nuclear bomb in the underground control, so total centralizing munitions held, but for the shells and handguns not loaded the bullet inside the 155 miles The DMZ is located in the DMZ and non-demilitarized areas of the Demarcation Line. The DMZ is located in the DMZ and non- Truce yen in the exhibition to save and save the satellite launch pad and missile launch device inside the iron fence line, to form a road to confirm the iron fence lines, the waters to form a submarine tunnel transport units. (Patent document and accompanying map 1 attached) 5. Military Armistice Commission in Panmunjom is the property of the United Nations organization, which is located in the North East of South Africa. The DMZ's truce employee is not only loaded, storage stores, satellite launch pads, and missile launchers that have nuclear warheads and nuclear missiles. and South both keep each, such as satellite launch pad and missile launchers that nuclear warheads and nuclear missiles are not loaded into the tank, Foshin, include Forbidden Zone, army of North and South collection point orientation road respectively the military supreme command summary area of strategy summit area, and the position change absolut In the DMZ and the Non-Demilitarized Zone (DMZ), North Korea is a member of the Democratic People's Republic of Korea (DPRK). to carry out military disarmament, between North and South hostile forces of each country to prevent the occurrence of an event that can cause a recurrence of hostilities. 6. Inside the peace Sovereign lines, in order not to be able to produce the munitions of any kind, containing mineral resources belonging to munitions, each inter-state, carry-out, the vehicle, travelers each between nations, place a neutral monitoring committee to pass for the United Nations Organization under international peacekeeping force, we have established a checkpoint, international peacekeeping force. 7. Ship munitions of both North and South, submarines, fighters, vessels will be able to operate a fuel and weapons under the control of the international peacekeeping force under the umbrella in the Northeast Asia region. 8 . The inside of the peace sovereignty line, nuclear-powered aircraft carrier, ships, fighters enter the international peacekeeping force under control, to be able to exit each country, power and authority of the peacekeeping forces in each country in Northeast Asia area I grant . 9. The north and south sides of the DMZ, for human and physical distribution, and agreed to unconditional Manchuria wilderness, Siberia, and Tenjin private unconditionally to participate Siberian oil, the gas pipeline buried construction business with fulfillment. 10. The North and South sides of the Northeast Asia United Nations Organization of the International Peacekeeping Force in the United States of America Northeast Asia is the largest city in the world. It is the largest city in the world and the largest city in the world. a Hanmyonju ~ e to challenge personal rights and authority of the 18th president of a unified Korea, to crack down on law on the basis of international law, all power agencies workers in both North and South. In the North East Asia region, South and North have to abandon their military interests in order to achieve a peaceful, no-disaster earth village. Volcanic eruption earthquakes Large-scale volcanic events and typhoons. Hurricane floods Dust, sand, The nuclear technology and the explosion-prevention type atomic equipment business, which are not contaminated by radioactive contamination due to the hydropower control facility and the nuclear bomb that can be quickly overcome, are mainly applied in the North East Asia region, It is important to note that the number of foreign residents in the world who are living in a peaceful and sustainable manner in the global village will increase to 85 million people, including 100 million dollars. 12 In the North East Asia region, there are South and North Korean soldiers in the stoppage area, civilians such as army soldiers in the army of the United Nations and the United States of America, and militants of the Shanghai extraordinary revolutionary government, It is made of glass, agate, amber, beads, diamonds, and other materials that are used to heal dead souls. 11. The north and south sides, a volcanic eruption in order to achieve a peaceful accident-free global office, to the military right, earthquake, wildfire large, rice, and typhoons oysters, hurricane, tornado, flood in Northeast Asia area, the explosion prevention reactor equipment business and processing technology of nuclear waste and the flood control device that can overcome quickly natural disasters drought, yellow sand, scorching heat, and cold wave, radioactive contamination caused by nuclear explosion is not conducted in Northeast Asia area I would like to extend my sincere appreciation to the people of the country for the first time. I would like to express my gratitude to the people of the country. income level per capita. (With and Annex) 12. Dignitaries such as War Memorial of Shanghai extraordinary revolutionary government and civilian war dead, including Chinese military officers and soldiers in war warrior Russian army and UN troops and Korean war warrior soldiers both North and South of the cease-fire Circle in the Northeast Asia, within the region, will be the heaven of souls that have been formed in the Great Lakes, silver, glass, agate, amber, pearl, or diamond. (With and Annex) Territorial Dispute Resolution by the Second Com- munity 1 Whatever the political or security situation of one of the territorial disputes in the North East Asia region is threatened by external armed attacks, the parties will consult each other in the North East Asian Union 2. The territorial dispute in the North East Asia region shall be implemented jointly by the appropriate measures to prevent the armed aggression by self-help and mutual aid, The North East Asia Coalition, which includes examples of appropriate measures, decides whether or not to drop atomic bombs and water bombs in areas of territorial disputes in Beijing and Tokyo, and considers them as consultations and agreements Third (1) Territorial disputes in the North East Asia region shall be subject to the provisions of the other Contracting Parties in the future territories where the territorial contracts under the ships of the other Contracting Parties shall legally enter and enter under the vessels of the other Contracting Administrations In the Pacific region, due to the purpose and purpose of establishing and establishing a North - East Asian federation in their respective constitutional procedures in order to recognize the danger of armed assa - tism and the risk of its own peace and security, Declares that the dispute will abandon all claims and interests in Japan and in the region including the disputed territory even if the territorial dispute area is in the islands' Fourth 1 It is the agreement of the territorial disputes in the North East Asia region that the Republic of Korea, which is the representative of the United States of America, agrees that the Army Navy and the Air Force of the United States of America should be deployed in close proximity to the territory of the Korean people. The United States of America accepts this and agrees to disagree or dismiss each other's consensus on territorial disputes that the five oceans should be formed on the six continents formed on land and formed into the five greatest states of the six provinces As an example, the Tibetan Plateau of Himaraja will be able to carry out the shape of the earth. In the case of Tohoku Aijia, the mainland, The responsibility of the ship of the hand is given to each ruler, and the buried territory is the territory of the territorial dispute and the rulers of that contract own the territory. It can not be asserted. Fifth (1) The Agreement on the Peaceful Coexistence of North East Asia should be ratified by the constitutional authority of the Republic of Korea and the United States of America in the North East Asia region, and ratified by the Constitutional Court of Japan And that the instruments of ratification should be exchanged in "Soul" The preparation of the agreement document is based on the WIPO Incentive Mechanism and the Benchmark of the WIPO, in which the descendants can exercise their 300-year wages in the North-East Asia region, The 18th President of the Unification Republic of Korea The territorial dispute resolution scheme by Article 2 of the United Nations Organization One . It is important to note that the Northeast Asian region is not a member of the Northeast Asian region, but it is a member of the Northeast Asian region. Asia Union. 2 . It is the intention of the United States, the United States, the United States, and the United States of America to promote the peace and stability of the Asia-Pacific region. The bombing of atomic bombs in the Tokyo metropolitan area is a major step forward in the development of the atomic bomb. consultation and consensus. Article 3 One . Territorial dispute parties in the Northeast Asia region within the territory of the Party of the inland in the Pacific Ocean region of the Pacific Ocean It is noteworthy that in the past, there has been a great deal of conflict between the two countries in the Asia-Pacific region. The disputed area of the disputed territory of China and the disputed territory of the People's Republic of China is the territory of the People's Republic of China. Article 4 One . The United States of America is a member of the United Nations, the Navy and the Air Force, and the United States is the territory of the United States. Parties to the dispute in the Northeast Asia region are the United States, the United States, the United States, and the United States. of the six continents, the mobile whole plateau Himalayan; Northeast Asia is a region that has been passed on to the ruler of the country, has been the land of the waters of Northeast Asia If you are a member of the United States of America, you should be aware of the fact that you are a member of the United States. (Two proven materials attached photo) Article 5 One . The United States and South Korea in the Northeast Asia region must treat the peaceful coexistence agreement of this Northeast Asia, which should be ratified in the constitutional processes of some countries Russia, China, Japan should come, come into force when the instrument of ratification has been replaced with "Seoul" in multiple countries 2 . The preparation of this treaty document, died in '70 to the disaster recovery technology, and the republican plant of the Republic of Korea in the Northeast Asia area, Berne and WIPO treaty Organization of the Treaty Organization that any of its descendants to exercise 300 years right 18th president of the unified Korea, which is elected by the treaty has created predominantly. 3 The representatives of the North and East Asia in the North East Asia region can not appeal to the Nuclear Power for the purpose of peaceful coexistence in North East Asia. In particular, As a result of the defeat of the world's greatest earthquake victims, when we filed an appeal to the judicial court for three days, a series of measures could be taken against the typhoon, the flood, and the earthquake and volcanic eruption. Although the author of the document may warn them that the Japanese government is not free from the natural disasters mentioned above, even if they are able to enforce their territorial rights, the World Book Book marked the Sea of Japan as the Sea of Japan is discarded It is no surprise that the central government is also committed to fulfilling its responsibilities and obligations as a member of the company when it does not want to dispose of water in Goguryeo and Balhae hundreds of historical sites or distort history 4 Notification to all future representatives of detailed future rules, structure and operation methods in connection with the creation of a cooperative group in the North East Asia region Sixth The Agreement may terminate this Agreement one year after notification to any other Contracting Party in any one of the peaceful coexistence of North East Asia, which is indefinitely in North East Asia All members of more than one shall sign the agreement of this agreement The three - part agreement was made in North East Asia on February 02, 2013 in Dae - jin Min - su, "Soul", in two different languages, 4 In the North East Asia region, the creation of the agreement and the ratification and signing of the agreement that the 18th President of the Republic of Korea was awarded to the United States, The provisions of this Agreement shall be enforced immediately 3. Not only can not we challenge the General Assembly United Nations "New York" for peaceful coexistence in Northeast Asia, in particular, representatives accompanied North Korea It is not easy to say that Dokdo is so much the same as it is in Japan, but it is not the same as it is in Japan. of the treaty, of a series of measures. In addition, the Chinese government has stated that there is no place to sternly warn that it is not free from natural disasters described above, It is not the only way for us to be able to make a difference in our lives. We will not be able to do that. international community. 4 . Or less, such as how to configure and operate with the general rules of the United Nations in the Northeast Asia area, I will inform the country of plenipotentiary representatives of the future. Article 6 One . The agreement treaty is indefinitely in the Northeast Asia region. It is possible that after the notice of the contracting State of one of the peaceful coexistence of Northeast Asia and to stop this treaty a year later. 2 . Plenipotentiary of the evidence as described above, to sign a treaty of this agreement. 3. February 02, 2013, in the Republic of Korea "Seoul", door country arts of all dispute in Northeast Asia, English, Chinese, door of Japan, the second-place finish in 4 . Throughout the ratification and the signing of the treaty, the Convention has been established in the Towson, the efficacy equivalent of the dominance of the state of each country to the 18th President of the Republic of Korea in the Northeast Asia area, the Convention of this agreement shall come into force immediately. For the peaceful coexistence of North East Asia, the signatures of all United States Commanders

Republic of Korea All Representative Signature All representatives of the People's Republic of China Representative Signature of the Government of Russia Representative Signature of the Japanese Cabinet Free Representative Signature Representative Signature of All North Korea 1 Attachment and Attachment (United States UN commander in chief, signature) countries plenipotentiary representative for peaceful coexistence in Northeast Asia

(South Korea plenipotentiary representative, signed Lee Woo Sung) (People's Republic of China plenipotentiary representative, signature) (Gu ~ ongu ~ on Russian government representative, signature) representative associated with Cabinet (Japan, signed (representative with free china, signature) (representative with North Korea all-powerful, signature) (Attached as Appendix # 1) The following is a Chinese translation of this Agreement, the treaty document. Affix

Self is (李) Wo (聖) The 18th covenant intercourse => I am unemployed I wish world beauty big peace URL => http://www.whitehouse.gov/ White 1600 夕 法 尼 大道 NW 盛 特 美 20500 BA K. RAOBAM 俄斯 家 先首 无 No E-mail 地址 搜索 People's Republic of China E-mail 地址 有 搜索 家 Japan No E - mail 地址 搜索 Free of charge approval E - mail 地址 搜索 E - mail address 合 秘 范 gimun news ES Requested Formal Sewer Consent ES 大 我 心 心 的 平平 ES Assist World Peace ONLY ONE DET ENTE North Peace Co-operative Capacity Northern part 下 美 美 布拉迪斯拉 五 阿拉巴 Landlord Respect for importance Secondary appointment First re-orientation Display celebration 18 days in upper-character jocholhage 我 的 我 的 姐姐 在 前面 的 18 已 完成 宣克 Inauguration Inauguration of company 我 的 一事 美 政府 播 CN All-around media Citizen demand cooperation lityanal Hishi system engineering work non-governmentalization system possession Sileopnan World decline Rapid approaching 可以 克服 美 Worldwide dispatch Suddenly, the first world peace World Over 30 Cities Unable to Overcome Decline Wisdom World Board of Trustees Very high-level Japanese-oath affidavit 典 典 典 典 典 典 具 具 North-eastern equality and peace agreement Multi-purpose subscription 美 合工 的 nuclear antidistrict cooperating politics politics corporation culture peace one-sided 七 半 多多 的 四 四 opposite anti gimun Non-Japanese-Japanese Strength Collecting Wisdom Prayer 了 更好 地 understanding statement 文件 合 秘 邀 一 半 gimun Mutupyo public room 279 small Huichong 2,013 09 02 20:00 pm. : Lee Woo Sung Northern peaceful co-operative coexistence Hirasu north Intermediate People's Republic of China 胡 和 俄斯 Japan House Foreign Affairs Committee Northern Peace Preamble Intermediate People's Republic of China 胡 和 俄斯 Japanese-Japanese family The most peaceful solution to the problem is jeokin. Part Northern Japan Japanese 俄斯 土 包 Nemutake Line Completion Stop Line Triangular purpose north end north north peace The MDL group in the present situation is divided into three areas: myeonsamuso 1 point [N] 38 degrees 20 minutes [] 127 degrees 16 minutes <Increase of the draft of the house plan> Stable Gangwon-do Gangwon-do Gangwha-ri Guei 72 Yoshiyuki Unknown System Administrative Reform Multi-residency 1965 Role-based Republican Gangwon- Inquiries about the dispute of the ruling party of the ruling party of the ruling Communist Party of the People 's Republic of China Consensual In the case of North Korea, the North Korean territory, the North, the West, the South, the West, the Peaceful, the Democratic, the Democratic, the Democratic, the Democratic, Family home north Pacific 孤 isolation 幻 也 有 反 反 武 攻 的 共同 心之外 有 有 任何 的 侵略 者 public self Hope Formalization in the Pacific North Pacific Peace, Security, and Efforts to Extend Distance, Strengthening Security, Preservation, Earth Covering, Earthquake Protection, Private Use, The first North Korea-based system of peaceful coexistence 1 The north is an earthquake, the earth is possible The second world osaka gobbledo The other is the Japanese emperor's surrender The postmortem Junior 25 June 1950 之 前 の 所 的 例如 的 分公司 的 致 生 集 集 同 生 生 jeonbeomja jeonbeomja 60 years 有 任何 法法 在 蔵 年 year owing to the flow sensor KAGU group 之 中 解 使 突 越 越 南 和 在 喜 拉 雅 西藏 高原 和 其他 地方 弱 大 在 1977 全部 板 店 Ax 事 合 本地 地 通 火 岸 海 波 多 黎 黎安 p p p p p p p 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 最近 和 和 和 和 和 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同 同Animal Biotechnology Biotechnology Biotechnology Offensive Biotechnology Armed Forces or Armed Forces Avoidance Implementation Second Preliminary June 25, 1950 Mid - Century North Korea Peaceful Central Center Position Uniform Architecture Uwara Architectural Center Blinds Center Point Position 1 2 Triangulation 1 Thoughts Area 是 已 安 的 事 分界Degree [N] 38 degrees 20 minutes [] 127 degrees 16 minutes Positional region Kyushu Kogen 1916 year Grade Government general 也 指 出 出版 <History of House Planning> Gangwon-do, Lee, Eul-Eun, Yong-Ji, Yang, Ji-2, Kang, 72, Unknown, North Korea, North, South, Formal Decline, 18 Public, Uniform, Semi- 155 days after the end of the first year of independence, the central area of MDL 已 方 在 一点 上 安 安 的 2 公里 和 的 non - possessed 爆 电物 在 山 得 包括 在 安 些 之一 的 指 指 方 后 的 除除In the case of a shutdown, the 1,000 - square - kilometer long - distance subway system will be used for emergency shutdowns. Dukyung coal mine sikidoe 155 里里 DMZ 里面 的 子 是 不 加 不 加 手 和 buried Pau 坦克 有 Nuclear atom nuclear weapon equipment conservationist astronomical weapons, Public Location: 北 北 家 半 1,200 公里 机 的 北南 南 的 每 一家 和 那 之 的 事行 的 范范 可以 致 一 的 行 行 事件 的 生 防 防 三 北 北 地 的 平平 立立 主 所 是 相同 的 如 附 註 表 1 附近 Four Hokkaido Demilitarized Zone (DMZ) 里面 的 武 时间 附件 地 北海 南 和 南部 地圖 地毁 毁 中央 Central Disciplinary Division MDL 作 一事 道 老 的 老性 的 主 我 的 祖上 和平 1 是 已 安 在 事 分界 MDL 一 考点 度[N] 38 degrees 20 minutes [E] 127 degrees 16 minutes Position 9 Kyoho 1916 Government official publication 原 原 colle colle colle colle colle 72 72 72 72 72 72 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得 得The deadline for withdrawal is 155years. Nishiwa Central Committee MDL 已 方面 後 2 分 2 公里 通 withdrawal 一点 点 安 合 Sum DMZ 炸 在 山 如 安 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照 照A 1,000 - square - kilometer land in hand Non - disruptive intermittent stoppage Discharge after enforcement Downstream New peace settlement system North - korea Nuclear explosion Equal reserves Retained Ownership 北 南 方 行 所 か な い 省 省 聚集 sikidoe 的 一155 Unregistered Unemployed DMZ Unavailable Unavailable Unincorporated Pau Unconsolidated Nuclear Nuclear Radiation Unavailable Minority Starfire Unrefined Units Gain Ratio Minority DMZ Medium Unity 1,200 Public Considerable range 2,400 km Arrival multidirectional roadway road traffic water formation stationary formation multiple formation cheolchaekseon boundary 1 5 DMZ station in North Area DMZ station Inquiries SZK SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZZ SZ Pau 坦克 Nuclear beam radiator 射 器 和 星 店 Other 其 Other person retention 1 每 包括 方面 克克 Nuclear non-nuclear radiator Asterisk etc. 4 10 4 New 4 九 九 事 事件 全 般 北 北 和 南 全方 和 志 二 周 二 房子Water Flow Rate General Area Total Unavailable Road Direction Position Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction Direction武 武 的 之 的 渡 和 Mutual action possible Miscarriage Incident prevention 六 北 地 的 平平 主 主 主 主 主 主 主 主 主 主 主 主 主 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以Provided security Seven Hokkaido North and South Rear Side Fire Vessel Ship Submarine Fuel Weaponary Combined Control System 八 每 家 的 主 每 家 的 力 和 和 威 和 和 部 的 nuclear-powered voyeur 机 机 entry 退 退 和 和 部 的 控制 下 北地 的 平平 旨事 然 的 Nishi - ku Minami - ku, Nonshu - ku, Nishi - ku, Nishi - ku, Naka - ku, Naka - ku, Tokyo, 10 北美 北美 和 南美 都 事 和 在 美美 和 competence 在 利 利 和 有的 美 合 合 competence 在 建立 反 和 反 也 有 提出 每天 的 生命 死 和 70 年 的 孩子 300 年 伯尼 公 18 一 的 challenge和 最 最 最 利 利 利 利 利 利 利 利 利 利 利 利 利 u dan u u u u u u u u u u u u u u u u u u u u u u u u u 11 Hokushin North-South Peaceful Local Accident Benefit Global Volcano Earthquake Wildfire Daizuwada U. Amount Taiwan Flood Drought Ash-edge High Cryogenic Sky Overcame Overcome Natural Hazard Radioactive Dyestuff Causative Nuclear Bacteria Nuclear Technique Non-nuclear Explosion-proof Major 是 在 北 地 quick 行 行 部 按照 行步 行动 性 究到 到到 所有 Earth Village Holding Global Peace Right DAET 850,000 Overseas People 均 均 入 入 入 入 入 水平 水平 水平 水平 水平 水平 星 星 星 星 星 星 12 North-South Military Accomplishment South-North Military Academy Combined Division Japanese Central Liaison Japanese Private Death Comprehensive Military Service Soldier wiryeongtap Prosodic Government Revolutionary government ohdaeyang Distribution Ryukyu Amateur Amber Chinju Stone 是 由 捐 了 治 要 建立Use Onyoshi Secondary soil settlement system 1 North Korean Political or Security Commitment 1 External Land Commitment Ordinance Officer Position Officer Position Officer North Korea (2) North Korea 's territory and territorial integrity, (1) uniqueness, (2) self - reliance, (2) non - cooperation, (3) violence, (4) violence, Atomic or nuclear Beijing agreement or agreement Third 1 North-eastern 其他 一个 管理 的 土 和 代 下 的 里 土 其他 第一 回 法 法 可 可 deuleogatdago 在 Pacific Ocean 其他 家 土 的 管理 下 下載 其他 Peace and Security Co-operative Countermeasures Purpose Japanese Won Won Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Wonkwon Fourth 1 Arrival method Mutual agreement North territorial land Representative Aichi Prefecture Air division Republican / Japanese Republican / Equivalent / / / / / / / / / / / / / / / / / /六星 期 到 六星 期 就 可以 形 一 一 全球 ohdaeyang 的 形 可以 行 例 如 拉雅 山 的 行 和 藏 高原 直点 woogong; 愚 公 移山 和 北 家 主 是 在 北 地 的 土端 他 haenghamyeon 的 所有 水域 海 到 大大 可以Line large-scale globally-handed-for-marriage-marriage- Fifth (1) Peaceful coexistence (2) North Korea (2) Prosperity (2) Laws of ratification (3) Laws of ratification (4) Two - tiered Constitutional Territory Republican Territory Globalization Master Chief Rescue Movement of Defense 70 70 Years of the Past 300 years Other Dynasties Exercise of World Intellectuals 伯尼 公 第 18 Uniform Construction Three Freely Arrived North and Central China Representative Representative Unity North Korea Coexistence and Peaceful Coexistence Unconsiderable Prosperity Significantly Nihongi, Wakamatsu Anger 怒 了 一 一 一 以 以 以 以 以 以 本 本 本 本 本 本 本 和 和 和 和 和 和 和 和 和 和 和 和 和 和 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界 世界A warrant for warranting a warrant of war or a distortion of war history (Iv) Notification of all the representatives Sixth 1 Infinite North Territory Possible Unsigned Notification Notification Subsequent Other Other Uncontrolable After One Year Northern Territorial Peace Parity Signing of all representatives of the two secretaries San Iryo Area February 2, 2013 The castle possessed by each castle The Liaison Table 俄斯 在 北部 和 和 英 中 日本 句 如面 面 四 洲 北部 在 18 日 に 螺栓 的 城堡 了 下 Ritten ratification agreement 建築 每 家 和 主 的 等等 地位 和 本 文 文件 需要 的 效果 立效 Every North Pacific Peace Co-ordinate All Representative

Lee Woo Sung Representative of the People's Republic of China gwongwon 俄斯 Government Representative Office Representative of Japan External Free Demand Representative Medium Representative of North Korea 什 的 附件 1 附件 [The 18th President of the Unification Korea Emergency Measures Directive No. 5] Regarding the right to register copyright, the 18th President of the Republic of Korea, Yi Woo Sung, appreciated his sincere efforts as president President Park fulfilled his duties on his behalf, The local tranquility mitigation measures are communicated verbally as follows. Emergency Measures Directive No. 1 In order to deliver a stronger military response strategy than the nuclear counterpart capable of meeting the nuclear frenzy of North Korea's Kim Il Sung within a radius of three thousand kilometers with a base point of one point of the iron triangle, I will dispatch your subordinates to Pusan and receive my response strategy guide. Emergency Measures Order No. 2 A statement of the same level as the Kim Il Sung Appeal in the case of the Panmunjom Mirror Tree Axs incident in 1977 was given to the Blue House by the North Korean leader Kim Il Sung as well as his followers to abandon their military rights and to join the peace process pursued by humankind all over the world. It is hereby declared that the Northeast Asian Peace and Coexistence Treaty treaty document and amendment of the Constitution shall be made at the time of delivery, and the signing of the heads of state shall be completed in the memorandum of agreement of the ratification treaty. Emergency Measures Order No. 3 In accordance with the urgent measure directive No. 2, the election of the National Assembly members will be postponed after August 15 of the same year in accordance with the promotion of the social stabilization measure. Emergency Measures Order No. 4 I will receive my measures for resolving the financial cliffs of the second quarter without any apparent outward appearance as any countermeasures against the shutdown of the Kaesong Industrial Complex. Emergency Measures Order No. 5 In order to overcome the turbulent political, economic, cultural and social order and achieve a just society, the government will quietly carry out its best efforts.

2013.04.09. 12:20 Korea's 18th President of the Unification 1577-1365 / 02-2100-5736 / 1577-0606 The following is a translation of the Agreement Agreement document (the following). [Unified Korea Presidential Emergency Action Directive No. 18, No. 05] Copyright registration rights described 70 years of the 18th President of Yiwu united Korea President Park Dae on behalf of my sincere gratitude for the hard work while being dependent on their duties in the deepening gailcheung the heightened tension in Northeast Asia North Korea nuclear threat oral delivery of local stress mitigation measures as described below. Urgent Action Directive No. One Kim Il Sung of North Korea Samchully as a main reference point within a radius of a point on the demilitarized zone of the Iron Triangle, for the peace of your world, to receive a response to my response to the strategy strategy of thy subordinates. Urgent Action Directive No. 2 Aspen Panmunjom is a member of the Kim Il Sung in North Korea, as well as his followers abandoned in the United States. The military forces and the right to declare a permanent Northeast Asian peace and co-existence agreements treaty document and the proposed amendments to the time of delivery to the signing of the State of Memorandum of agreement between the countries of the bijunan international treaty. Urgent Action Directive No. 3 In accordance with the Stabilization Measures in accordance with the Emergency Measures Directive No. 2 since August 15 the same year, the National Assembly election jaeboseon. Urgent Action Directive No. 4 The measures to be taken in a financial cliff to eliminate the second quarter of the surface without ever expressing any countermeasures according to the discontinued operations in Kaesong. Urgent Action Directive No. 5 To break the political, economic and social order, and culture, and to implement and achieve social justice and to make every effort to silence government. 09/04/2013 12:20 unified Korea is the 18th President of dominance 1577-1365 / 02-2100-5736 / 1577-0606

Disclosure of the Invention Disclosure of the Invention The present invention has been made in order to solve the above-described problems, and it is an object of the present invention to provide a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, In this case,

[0003] In the conventional distribution and dispensing apparatus for a reactor facility of a nuclear power plant,

It is composed of boiling water reactors and pressurized water reactors that use water in general, and power reactors are mainly used in light water reactors. Nuclear power plants equipped with pressurized water reactors in boiling water reactors and multipurpose hot gas paths and new type Nuclear power plants equipped with high-speed multiprocessor reactor facilities are connected to the land and the island area by the conversion road. As a result of the natural occurrence of typhoons, earthquakes, tsunamis, forest fires, ash and volcanic ash before and after the volcanic eruption This often indicates a situation in which reactor facilities are detonated from conventional natural disasters and nuclear power plants are shut down.

As shown in Fig. 1, during the operation of the conventional nuclear power plant in the conventional nuclear power plant, when each of the existing nuclear reactor facilities is close to each other The chain explosion of nuclear fuel has a great influence on the safety of nuclear power plants.

The present invention relates to a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, and more particularly, Dual structure block tank Dust collector or double tube structure Capsule type Dual structure storage tank provided in multiple reactor facilities and a tunnel installed in the cooling water and loess mixture of fuel control detonation control products connecting each part of the nuclear waste treatment shield And a floating tank of a small, medium and large sized marine nuclear hydroelectric power plant is installed in the river estuary and the ocean to provide double structure storage tanks for the nuclear waste disposal shielding device for nuclear power plant operation. And firepower Nuclear reactors connected to a number of pumps and valve generators to control nuclear fuel leakage The waste disposal system is equipped with the control of nuclear waste disposal from the estimation of the global village to the river estuary and the sea. Hydroelectric generators are installed in wind turbines and thermal power generators for alternative power generation of nuclear power plants. Nuclear power plant Nuclear waste processing unit Electricity production Manufacturing department and traffic transportation part of construction machine to adjust the position of control shaft Power transmission part to transmit power to nuclear power plant Operation of safety control of power plant Production electric part and electronic control device Construction machine control Of the nuclear waste disposal facility of a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting the execution of the nuclear waste disposal treatment for the continuous operation of the nuclear power plant excluding the influence of the natural disaster by the disaster prevention device As a result,

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a marine nuclear hydroelectric power plant having a dual structure block tank dust collector constituting a distribution input device of a nuclear reactor waste treatment facility,

Marine Nuclear Hydroelectric Power Plant for guaranteeing the operation of nuclear power plant nuclear reactor hydroelectric power plant nuclear power hydroelectric power plant from the strong wind wave is installed as lifting deck hull deck top (SDU) at the upper 40M sea level (SLL) For the safety, marine nuclear hydroelectric power plant facilities equipped with dual structure block tank dust collectors, which are installed at pylon block tank bridges at one location with 0.5km spacing, and constructed at floating deck hull deck deck,

(SLL) Top Nuclear Waste Disposal System Double Structure Block Tank Pipeline Bridge with Maritime Tunnel Traffic System In the middle of the connecting position with a fixed lifting deck deck deck Since it separates the power station located at the upper part (SDU) and the emergency shelter of the sailing vessel, it is necessary to supply the pollution-free power supply to each region of the world as the nuclear power generation device and the hydroelectric power generation device from the ocean,

The power supply line constituting the inside of the dispensing apparatus main body of the nuclear waste disposal facility of the marine nuclear hydroelectric power plant having the double structure block tank dust collector is connected to the nuclear waste disposal apparatus dual structure block tank bridge marine tunnel transportation device The rescue vessels of the Nuclear Waste Disposal Facility of the Marine Nuclear Hydroelectric Power Plant equipped with dual structure block tank dust collectors, while resuming power supply to each country, The United States and the United States agree to dispose of nuclear bombs at all, and in the land territory,

A large number of countries with nuclear weapons located around marine nuclear power plants that constitute a distribution input device for a reactor facility for nuclear waste disposal of marine nuclear hydroelectric power plants with dual structure block tank dust collectors are dual structure block tank dust collectors Of nuclear waste water treatment plant of nuclear marine nuclear power plant with a nuclear waste disposal unit; a nuclear waste treatment connection structure constituted inside the main body of the nuclear waste disposal unit; a dual structure block tank pipe bridge;

It is equipped with a satellite and space rocket to prepare a nuclear waste disposal device as a satellite launch pad and a space rocket launch pad to prevent the damage of natural ash, earthquake, tsunami, forest fire, ash and volcanic ash before and after the volcanic eruption. ,

In the distribution input device of the marine tunnel traffic apparatus constituting the prevention of the flood drought,

Submarine line injection nozzle connection and submarine line injection nozzle constituting distribution input device of marine tunnel traffic device are equipped with submarine line wiring. Nuclear waste treatment double structure block tank is equipped with distribution input device of marine tunnel traffic device, Providing pre-treatment for nuclear waste treatment equipment,

Marine Nuclear Hydroelectric Power Plant, which constitutes the distribution input device of the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

Space science production equipment and deep sea exploration Dual structure for nuclear waste disposal of transportation equipment replacing offshore vessels to supply the production power of wind power generator and hydropower generator to the global village for oil energy excavation equipment to mineral resources and natural gas energy resources Block Tank Pipe Bridge Marine Nuclear Hydroelectric Power Plant is provided as a connection structure of the marine tunnel traffic device,

Installed on the circumference of the existing reactor 4th wall vessel container in preparation for the shutdown of the reactor facility and before and after the explosion of the reactor facility, the double structure block tank dust collector is installed to eliminate the shutdown of the reactor facilities and maximize the explosion prevention of the reactor facilities. In addition,

In the marine nuclear power hydroelectric power plant, the installation position of the nuclear power plant located at the upper 40m above sea level excluding the natural disaster from the natural disaster and the weather condition restriction as the disaster prevention device is set in the anchor and the anchor chain of the mooring device, It is equipped with pump and valve of machine and buoyancy control device for diving control and adjusts the installation position to provide the distribution and input device of nuclear power plant reactor facilities which excluded the effect of earthquake and tsunami by disaster prevention device,

In the anchor and anchor chain of the mooring device, it is equipped with the key bed, the drilling machine and the pump and valve of the buoyancy control device for diving control, and the installation position is adjusted so that the influence of earthquake and tsunami is eliminated. A double structure block tank dust collector which constitutes the distribution input device of the reactor facility constitutes the culmination of the explosion of the reactor facility and prevents environmental pollution caused by nuclear waste,

A double structure block tank to control the nuclear fuel radiation leakage to prevent the explosion of the reactor facility in the nuclear fuel chamber. The nuclear reactor of the nuclear reactor of the nuclear power plant with the dust collector. Long half-life with long-lasting cooling systems for the permanent disposal of nuclear wastes for thousands of years is a long-lasting half-year for dual-structured block tank dust collectors with cooling storage, which constitutes a permanent disposal of long- In a distributing / dispensing apparatus for a nuclear reactor facility,

A double-tubular drum containing nuclear waste is constructed with a ship and a double-tubular drum transport containing nuclear waste in the buried area.

It constitutes the positioning of a double tubular drum containing nuclear waste at the top of the barge deck deck with space rockets and space rocket launchers,

It has a space rocket at the top of the barge deck deck and constitutes transport of nuclear waste to the outer space,

Nuclear waste is converted into another material by fission in a distributing device of a nuclear reactor facility equipped with a dual structure block tank dust collector,

Construction of nuclear waste is carried out by double structure block tank bridge bridges so that nuclear waste can be buried in the polar ice glaciers,

A double structure block tank structure that maximizes the operation of the reactor facilities of a nuclear hydroelectric power plant constructed by the bridge piers of the double structure block tank bridges built in the nuclear power plant. Marine Nuclear Hydroelectric It is an object of the present invention to provide a dispensing apparatus for a reactor facility for nuclear waste disposal of a power plant.

In addition, according to the present invention, there is provided a dual structure block tank dust collector constituting construction designing processes of nuclear explosion countermeasures suitable for a distribution input device of a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector The distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric plant,

A marine nuclear hydroelectric power plant located at the top of the deck top deck (SDU), consisting of the interior of the distribution input unit of the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant with the dual structure block tank dust collector, The upper 40m of sea level is the height of the passage of the violent storm surge and general marine vessel and marine iron structure sailing vessel. It prevents naval vessel collision and the treatment of nuclear waste of marine nuclear hydroelectric power plant with bridge bridge and pipe bridge and dual structure block tank dust collector. It is a minimum height considering the minimum height when repairing the distribution facility of the nuclear reactor facility. It is composed of a bridge block tank pipe bridge at the depth of 10km at the depth of the sea with the pipe bridge connection of 500m double structure block tank unit. Are also connected to the pipe bridge of the 500m double structure block tank unit so as to withstand the deep water pressure It consists of one needle control devices,

Nuclear power plant nuclear waste water treatment plant equipped with a dual structure block tank dust collector Nuclear waste treatment facility for nuclear waste disposal with the dispensing device of nuclear waste treatment facility consisting of the inside of the dispensing unit The KSD 3705 hot-rolled stainless steels, which is a steel material for providing the distributing and dispensing apparatus of the steel,

In the floating type poisoning dispenser equipped with the construction machine constituted inside the dispensing apparatus main body of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

There is a distinction between fixed lifting poisons and fluid lifting poisons,

In addition to the lifetime of the lifting dock, it is composed of KSD 3705 hot-rolled stainless steels made of steel to support the deck deck up to the time of repair, and the core of the marine nuclear hydro- Dispensing of reactor facilities for waste disposal The ship is equipped with all-weather operation which is composed of the inside of the main body and the land area which is composed of the island area and the island area. To create a substitute effect,

Nuclear waste treatment of transportation equipment facilities replacing offshore vessels and aircrafts. Double structure block tank pipe bridge. Distribution unit of marine tunnel traffic equipment. Double structure block connected to connection structure. Marine Nuclear Hydroelectric Power Plant with dust collector ,

Exhaust gas outlet which is the same as the dust collector of the exhaust gas facility which is prepared to withstand the natural disaster of the sea and double tube structure which is located inside the double structure block tank for treatment of nuclear waste and nuclear radiation pollutant inside the nuclear reactor facility with the entrance Block piping lines to provide a nuclear waste location channel for the nuclear waste location control system,

Dual structure Block tank Dispensing device of nuclear waste disposal facility of marine nuclear power plant of hydroelectric power plant with dust collector Multiple temperature pressure sensor built into main body Temperature sensor of safety valve Sensor inside pressurized water reactor facility in operation of nuclear power plant Is in a high temperature state of 700 to 800 degrees Celsius and the pressure reaches a dangerous state of a high pressure state,

A temperature and pressure sensor located inside the dispensing device of nuclear reactor waste disposal reactor equipment transmits alarm message to the computer in the safety control room, while a plurality of temperature and pressure sensor sensors are open to each safety valve, In the inner block piping of the vessel, explosive nuclear wastes are passed through and the nuclear waste is stored in each block tank, and the opening of the temperature pressure sensing sensor safety valve connected to the inner block tank of the pressure vessel is provided,

The outer block piping line includes a safety valve for converting the yellow soil mixtures generating the toothpaste-shaped soap bubbles mixed with the cooling water of the fuel explosion-preventing control article stored in the inner block tank into kinetic energy with the potential energy of water, The hatch cover located at the upper end of the pressure vessel for opening the hatch cover of the water tank tank is opened while the cooling water and the loess mixture are moved to the inside of the reactor inner pressure vessel and the fourth wall partition vessel,

If the inside of the reactor internal pressure vessel and the fourth wall compartment are filled with the mixture of the cooling water and the yellow soil which generates soap bubbles, the distribution of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The device provides an explosion stop,

A dual structure block tank in which the dispensing device of the nuclear reactor facility constitutes an explosion stop. In a distribution input device of nuclear reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dust collector,

A block piping line connection structure of a radiation type constituting a plurality of safety valve connection structures is constituted to constitute a distribution input device of a reactor installation for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

A double structure block tank for controlling the nuclear radiation leakage constituting the inside of the distribution input apparatus main body of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector; The system is designed to shield the concept of in-depth defense of nuclear safety engineering, which shields and shields nuclear radioactive pollutants from outside the nuclear reactor facility that provides nuclear fuel waste transportation storage.

It consists of the outside of the double structure block tank dust collector of one side and the prevention of nuclear fuel leakage leakage and nuclear fuel explosion prevention as the distributing and inputting devices of the reactor facilities, and constitutes the execution of the nuclear waste treatment inside the dual structure block tank dust collector In a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector,

A double structure block tank combined with a marine tunnel traffic facility connection structure constituting an alternative to the marine vessel; a nuclear waste water treatment plant comprising a dust collector; It is equipped with a distributing device of the nuclear reactor waste disposal facility to the outside of the structure block tank dust collector,

Dual structure of land and sea constituting efficient nuclear power plant Double tank with a position energy of water constituting the nuclear waste treatment to be applied to the distribution and input device of the nuclear waste treatment plant of marine nuclear hydroelectric power plant with block tank dust collector A temperature pressure sensing sensor that establishes connection to the building block piping, a safety valve, a feed pump, and a mixture of cooling water and a loess mixture that generates soap bubbles to constitute a nuclear waste treatment device that converts the potential energy of the water into kinetic energy,

The distribution input device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant, which constitutes conversion of the energy of the water into kinetic energy,

A double structure block tank is a connection structure that is formed on the outer wall surface of an existing nuclear reactor building in the form of an egg, and a distribution structure of a nuclear reactor power plant having a double structure block tank dust collector is provided. A double structure block tank connected to a plurality of nuclear reactor facilities constituting a manufacturing facility with a remarkable difference from the nuclear reactor facility. The distribution input device of the nuclear waste processing nuclear waste hydrothermal plant equipped with a dust collector is connected to the global land and marine nuclear power plant There is another purpose to provide.

Technical Solution In order to achieve the above object, the present invention provides a distribution input device for a nuclear reactor waste disposal facility for a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

A double structure block tank 598 or a nuclear waste treatment dual structure block tank precipitator 794 in the form of a cylinder located in the ocean for providing global land and connection axes; the double structure block tank 598 and the nuclear waste treatment dual structure block tank 598; An inner block tank 596 connected to the dust collector 794 and an outer block tank 599 double structure block tank reactor nuclear reactor connection structure; a small, medium and large sized (593,594,595) of the Nuclear Hydroelectric Power Plant, and a nuclear reactor (672) and a double structure block tank dust collector are equipped with a plurality of nuclear reactor facilities constituting the inserting into the construction machine, and the nuclear waste treatment facility and the marine nuclear power plant A double-structure block tank dust collector equipped with anti-sinking and anti-nuclear fuel control devices to prevent nuclear fuel explosion. Including the separation of the distribution axis and the control axis of the connection shaft, the nuclear waste treatment dual structure block tank bridge located in the ocean with land and connection axes, the distribution shaft of the marine tunnel, and the natural disaster prevention of the marine (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants, which are equipped with disaster control equipment and construction machinery for disaster control facilities. Several concrete dams (680), hydrants (293) and waterways (294) located in the lower valley below the mountain are formed by mountain ridges and are connected to the downstream of the river. (672a) for overcoming natural disasters and nuclear reactors before and after the renovation of reactor facilities. It is equipped with power generators, thermal power generators and hydropower generators, and it is equipped with nuclear reactor equipment distributing and input devices that are put into production and production of alternate power generation for nuclear power plants. A plurality of nuclear reactor facilities of a nuclear power plant having a dual structure block tank dust collector for nuclear waste treatment nuclear power generation constituted inside the distribution dispensing apparatus main body 1;

In the facility for storing the nuclear waste of the dual structure block tank dust collector constituted inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

(596) capable of disassembling and disassembling the reactor plant, and an outer block tank (599) having a double structure connection structure. The dispenser is equipped with a laser cutter and a distributor of welding processes. A double structure block tank dust collector (794)

A double structure block tank 594 is provided at the lower end portion of the connection structure of the double structure block tank 598 in which the inner block tank 596 connected to the double structure block tank collector 794 of nuclear power generation and the outer block tank 599 are assembled, By storing the nuclear waste on one side having the dust collector 794, it is possible to prevent disasters caused by the leakage of the fuel radiation performance combined with the plurality of reactor facility connection shafts,

The nuclear waste discharged from the operation of a plurality of nuclear reactor facilities is stored in the empty space of the double structure block tank dust collector 794 connected to the nuclear waste disposal apparatuses and stored in one side of the dual structure block tank dust collector 794,

An inner block tank 596 connected to a nuclear waste disposal double structure block tank dust collector 794 provided with nuclear waste disposal control objects constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor facility, (599), which is a connection structure of a double structure block tank, a nuclear waste is stored at one side of the lower part of the vacant space to prevent a nuclear waste disaster caused by leakage of nuclear fuel radiation capability,

A dual structural block tank reactor installed in the main body (1) of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the dual structure block tank dust collector; a plurality of nuclear reactor facilities of a nuclear power plant storing nuclear waste of the dust collector; In addition,

The nuclear waste is stored in one place at a lower portion between a plurality of inner block tanks 596 and a plurality of outer block tanks 599 at a time before and after a large explosion accident which constitutes a plurality of reactor facilities, An inner block tank 596 having a number of reinforcing concrete mats 225 of thickness m and a plurality of double structure block tank dust collectors 794 fixed and secured with steel beams 149 to enter the GLD reactor facility, The nuclear waste disposal unit is located inside the third wall of the nuclear reactor in which the nuclear fuel is injected, and is equipped with a brush for remote control of the UAV and a dispensing apparatus for controlling the nuclear fuel explosion,

(811) comprising a main body (1) of a reactor installation for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, a nuclear waste disposal pipe manufacturing process distributing shaft And a marine tunnel transmission device 941, which is a connection structure of a plurality of nuclear reactor facilities of a nuclear power plant having a dual structural block tank dust collector 794 for nuclear waste treatment of the nuclear power plant 705, To accomplish the task,

In a plurality of nuclear reactor equipments constituting a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector,

A plurality of reactor installations inserted into the double structure block tank dust collector 794,

A first wall pellet 681 of a secure nuclear fuel,

A cover tube 682 for protecting the second wall fuel rod 689,

A third wall reactor pressure vessel 813,

A fourth wall container 808,

A double structure block tank dust collector 794 configured by replacing the reactor building 688 portion of the reactor facilities of the reactor building 688 composed of the fifth wall reinforcing concrete mat with the protective walls provided in five layers, A nuclear waste disposal dispensing device,

A nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant provided with the nuclear fuel explosion control distribution dispenser and equipped with the double structure block tank dust collector A double structure block tank dust collector 794 is provided as a connection structure for repairing the inside and outside of the marine tunnel communication equipment 941 combined with the dual structure block tank dust collector 794 of the nuclear waste disposal pipe manufacturing process distribution shaft 705, The nuclear waste treatment plant includes a plurality of reactor facilities in the manufacturing process so as to perform the operations constituting the nuclear power plant operation,

The facility of the nuclear power plant having the double structure block tank dust collector 794 constituting the operation of the nuclear power plant in the distribution input device of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

The double structure barge hull (591) at the bottom of the holding tank of the control shaft prevents leakage of nuclear fuel to the inside of the hull deck center (SDM)

A plurality of nuclear reactor facilities for nuclear waste disposal of nuclear power plants are provided on both sides of a bow and aft end of a central portion of a plurality of inner block tanks 596 provided with a dual structure block tank dust collector 794, A guide rail 618 located on the upper part SDU of the double structure barge hull 591 at the upper end of the holding tank is installed on the left and right sides of the deck deck and crane 861 of 5000 ton capacity is installed A position is provided on the deck plate guide rail 618,

Transporting the reactor installation to the inside where the crane (861) is located at the top of the deck deck guide rail (618)

And a nuclear waste disposal and dispensing apparatus having a double structure block tank dust collector 794 constructed by replacing five layers of protective walls inside the barge hull,

The nuclear fuel explosion-control distribution dispenser is provided with the crane 861 and the construction machine crane 861 is installed inside and outside of the marine tunnel traffic device 941 connected to the dual structure block tank dust collector 794, And includes a plurality of nuclear reactor facilities of the dual structure block tank dust collector 794 for manufacturing a nuclear waste treatment pipe,

A plurality of reactor facilities of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 constituting a nuclear power plant operation in a distribution input device of a reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having the dual structure block tank dust collector ,

A double hull and a three-hull installation of a double-structure large-sized sliding hatch cover 153 is provided at a place where the crane 861 for providing the renovation of the plurality of nuclear reactor facilities passes, A nuclear waste disposal pipe manufacturing process including a nuclear waste disposal apparatus main body 1 of a nuclear waste disposal reactor facility having a construction transportation transport section for adjusting the position of the control shaft, Comprises a dual structure block tank scrubber (794) of a distribution shaft (705) connected to perform nuclear waste disposal with a plurality of nuclear reactor facilities to constitute nuclear reactor operations,

A plurality of nuclear reactor installations of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 constituting a nuclear reactor operation in a distribution input device of nuclear reactor waste nuclear reactor facility having a double structure block tank dust collector, ,

Nuclear waste disposal facility before and after operation of reactor facility safety Nuclear waste disposal system (1) Exhaust gas outlet and inlet, same as the dust collector of the exhaust gas facility, And a double structure block pipe line (74) located inside a double structure block tank dust collector (794) for shielding nuclear waste and nuclear radiation pollutants stored in a nuclear reactor facility composed of a nuclear reactor To provide a nuclear waste location pathway,

Nuclear radioactive contaminants, constituting the nuclear waste location channel,

Multiple temperature pressure sensors Sensors of temperature and pressure sensors of safety valves 700 to 800 degrees Celsius of the inside of a nuclear reactor when the nuclear reactor is in operation. When the high and high pressure pressures reach dangerous state, To constitute a boiling water reactor nuclear power plant operation among a plurality of nuclear reactor facilities having a dual structure block tank precipitator 794 connected to provide an alarm message transmission to a computer,

And a dual structure block tank dust collector (794) constituting a nuclear plant operation of a plurality of nuclear reactor facilities in a distribution input device of a nuclear reactor waste disposal facility for a marine nuclear hydroelectric power plant having the dual structure block tank dust collector In a plurality of reactor installations,

A plurality of the temperature-pressure-sensing sensors constituting the nuclear reactor operation of the plurality of nuclear reactors and the pressure block internal piping line (74a) of each of the small-sized pressure vessels opened by the safety valves are passed through the explosive nuclear waste, Pressure sensor sensor safety valve 472 connected to the inner block tank at the lower end of the pressure vessel 813,

As the outer block piping line 74b constituting the nuclear plant operation of the nuclear reactor facility,

A thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 101 and a temperature sensing sensor bimetal 102 and a flow rate check sensor 103 connected to the fuel explosion- And the safety valves 472 of the pipeline line automatic pneumatic valve conveying device 916 are provided at the upper end of the reactor building 688 to provide a constant 45 degree A boiler water reactor unit among a plurality of reactor facilities having a double-structure block tank dust collector 794 connected by a laser beam cutter, a construction machine and a drilling machine through a plurality of through holes located at an inclination angle, To perform the constituent operations,

Of the plurality of nuclear reactor facilities constituting the nuclear power plant operation,

A plurality of through holes are formed in a block pipe line 74 having a double pipe structure and a plurality of safety valves 472 are connected to the block piping line 74 and the bolts 24 and the gaskets 32 And a flange connecting connection is provided,

On the outer wall surface of the reactor building 688 constituting the nuclear power plant operation,

A nuclear waste disposal dispensing device coupled to the outer block tank 599 for nuclear waste disposal and storage in a radiation type connection structure in a double structure block tank 598 having a size twice as large as that of the nuclear reactor building 688 ,

A dual structure block tank 803 constituting a distribution injector of the nuclear fuel explosion control unit is provided with a reactor facility connected to the dust collector 794 to control the inside of the inner core 681 of the reactor facility and the outside of the core 681 to prevent explosion of nuclear fuel immediately before the explosion of the reactor. (811) constituting the inside of the main body (1) of the dispensing apparatus main body of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant equipped with the double structure block tank dust collector To constitute a boiling water reactor plant nuclear operation among a plurality of nuclear reactor installations connected to the dual structure block tank cleaner 794 of the pipe manufacturing process distribution shaft 705,

Among boiler water reactor installations among a plurality of reactor installations constituting a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the dual structure block tank dust collector,

The connection structure is formed by the steam generator 810 and the steam dryer 786 installed outside the pressure vessel 813 of the dual structure block tank dust collector 794,

In the boiling water reactor equipment constituted by the storage container 808 constituting the fourth wall of the nuclear reactor and the double structure block tank precipitator 794 contained in the fifth wall,

A plurality of inner block tanks 596 and a plurality of outer block tanks 599 are connected to each other to provide a mixing equipment mixer machine 649 and a circulating water pump 242 of a distribution injector for control of nuclear fuel explosion, Cooling water 287, which is a control object of the fuel explosion preventive control, which is inputted to the same pressure vessel 813 as the furnace just before, and yellow loess mixtures which generate soap bubbles in the form of toothpaste are supplied into the reactor installation at once,

As the distribution input device mixer machine 649,

Loess mixtures which generate soap bubbles in toothpaste form,

A plurality of fire-fighting nozzle nozzles 10 for cleaning the inside of the nuclear reactor facility after the occurrence of the earthquake, and the inside of the pressure vessel 813 and the inside of the vessel 808 Fuel explosion control device,

It is possible to perform the cleaning process inside the nuclear reactor facility without the input of the UAV, to provide the distribution input device of the nuclear fuel explosion control and the control items of the fuel explosion prevention control, A reactor structure equipped with a double structure block tank dust collector constituted in land and ocean nuclear hydroelectric power plants,

A nuclear waste treatment plant consisting of a nuclear hydropower plant (811) composed of a main body (1) of a distribution reactor of a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, (794) Nuclear waste disposal pipe manufacturing process Including the internal structure of the marine tunnel communication device connected to the double structure block tank dust collector (795) and the double structure block tank dust collector (794) The boiling water reactor facility includes a nuclear hydroelectric power plant unit 811 to perform the operation constituting the nuclear power plant operation,

And a dual structure block tank dust collector (794) constituting a nuclear plant operation of a plurality of nuclear reactor facilities in a distribution input device of a nuclear reactor waste disposal facility for a marine nuclear hydroelectric power plant having the dual structure block tank dust collector Among boiler water reactor installations among a plurality of reactor facilities,

The nuclear water waste tank 295, which is located at the upper end of the double structure block tank precipitator 794, is sequentially mixed with the cooling water 287 stored in the water tank 295, The mixture 927 is supplied to the inside of the third wall reactor pressure vessel 813 located below the water tank and the safety valve 472 formed with the plurality of temperature pressure sensors immediately before the explosion in the fourth wall vessel 808, The burrs 153 are opened,

Constituting the loess mixture 927 generating toothpaste-form soap mixed with the cooling water 287 stored in the inner block pipe 74a of each of the block piping lines 74 at the upper end of the pressure vessel 813, The opening and closing of the safety valve for coupling the nuclear waste disposal control article into the third wall reactor pressure vessel 813 and the fourth wall partition vessel 808 at the same time with the circulation water pump 242 is provided ,

The nuclear waste treatment boiling water reactor equipment constituting the transfer of the cooling water 287 and the loess mixture 927 to the inside of the pressure vessel 813 and the fourth protection wall storage vessel 808 by the water supply pump 241,

The mixture of loess mixtures mixed with the cooling water is mixed with nuclear waste treatment control cooling water inside the core 681 inside the reactor and outside the core 681. The loess mixture 927, which generates soap bubbles in the form of toothpaste, The feed pump 241 constitutes a transfer inside the pressure vessel 813 and the fourth protective walled vessel 808 inside the pressure vessel 813,

The mixture of the loess mixtures 927 is injected all at once into the boiling water nuclear reactor facility. After the earthquake stops, immediately after the earthquake stops, a plurality of reactor internals are cleaned by the circulating water pump 242,

A dual structure block tank dust collector 794 configured to maximize safety operation of the nuclear reactor facility to prevent explosion of the boiling water reactor,

When the nuclear waste disposal apparatus is provided with the fuel injecting apparatuses for controlling the fuel explosion control and the yellow mortar mixture 927 is filled inside the core 681 inside the reactor and outside the core 681, nuclear fuel collision of the nuclear fuel chamber is controlled, Immediately,

Nuclear power plant consisting of nuclear and nuclear offshore nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant with double structure block tank collector A block tank dust collector is provided to prevent the explosion of the reactor,

A nuclear waste disposal pipe manufacturing process consisting of a nuclear power generation facility unit 811 constituting the inside of a distribution dispensing apparatus main body 1 of a nuclear waste disposal reactor installation, and a double structure block tank dust collector 794 of a dispensing shaft 705 (794) Nuclear Reactor (Nuclear Reactor) Nuclear Reactor (Nuclear Reactor) Nuclear Reactor (Nuclear Reactor) Nuclear Reactor (Nuclear Reactor) Lt; / RTI &gt;

Double structure block of the nuclear reactor waste disposal reactor installation block Double structure block of the fifth wall from the reactor facility constituting the operation of the reactor of the reactor plant of the nuclear power plant equipped with the tank dust collector Tank reactor outer wall circumference Among the plurality of nuclear reactor facilities constituting the inside of a nuclear hydroelectric power plant including a plurality of double structure block tank precipitators 794 for storing radiation nuclear waste 224 connecting surfaces one by one,

Nuclear Power Plants of Boiling Water Reactor Facility Nuclear Power Plants of Combined Connected Structure The nuclear power generation facility of the nuclear power plant before and after operation of the nuclear power plant generates nuclear fission in a plurality of nuclear reactors, A steam turbine 267 for rotating the steam turbine 267 to produce power,

A rotary shaft for a nuclear power generator installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the atomic power generator 772 for converting the power generated from the steam turbine 267; An electromagnet coil 774,

A nonrotating armature coil 773 for a nuclear power generator installed on the circumference of a rotating rotor electromagnet coil 774 for the nuclear power generator and a rotor 773 integrally formed with the nuclear power generator 772 and the rotary shaft 198 to the steam turbine 267, And a frame 775 for fixing the nuclear waste to the nuclear power plant 811. The nuclear power plant 811 comprises a reactor facility of a nuclear hydroelectric power plant of land and ocean and a nuclear power plant The nuclear waste disposal pipe manufacturing process distribution shaft 705 composed of the nuclear hydroelectric power generation facility unit 811 and the marine tunnel communication equipment connected to the dual structure block tank dust collector 794, Structure block tank dust collector (794) Including the boiler water reactor facility among the plurality of nuclear reactor facilities connected to the nuclear waste treatment plant manufacturing process,

Large-scale hydropower generators (944), which are constructed inside a marine nuclear hydroelectric plant,

The distribution and input device of the hydroelectric power plant 943, which is provided as a connection structure of the large hydroelectric power plant 944 of the marine hydro-power plant 943 constituting the marine hydroelectric power plant,

(593,594,595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting the distribution apparatus of the hydroelectric power plant 943, and a marine nuclear power plant A power generating and producing unit 811b of a nuclear hydroelectric power generating unit 811 constituting a distribution dispensing apparatus main body 1 of a nuclear reactor waste disposal apparatus for a hydroelectric power plant includes a plurality of generators for power generation, (811b) Distribution facility of the marine, small and medium sized and large sized marine nuclear hydroelectric power station (593,594,595) The marine Siiso hydroelectric power station And a large hydroelectric power plant (944) connection structure of the power plant (943) to constitute a nuclear hydroelectric operation for a plurality of power generation apparatuses,

In preparation for the remodeling of nuclear power plant facilities of the above distribution and dispensing apparatus, a large hydroelectric power plant of Ishizu Hydroelectric Power Plant (943), which is a substitute for power generation and power generation, is installed in the barge line. The distributing and charging apparatus,

A head tank 189 for a pressure tank located at an upper end of the barge line connected to the large hydroelectric power plant 944 of the offshore iso hydroelectric power plant 943 constituting the distribution input device of the hydroelectric power plant 944, An inlet pipe 191 having a pressure tube shape of a reed 35 is provided at the inlet of the inlet pipe 191 in front of the head tank 189 to provide a connection structure with the head tank 189,

A plurality of inlet pipes 191 are connected to the upper end of the offshore iso hydroelectric power plant 943 constituting the hydroelectric operation of the nuclear power plant and the discharge port on the rear of the head tank 189, Hydraulic power generation iso hydroelectric power plant 944 The pump aberration 943a of the turbine 267 and the Pelton aberration 943b are connected to the lower part of the body by a suction port 269 in front of the Francis turbine 943c and a discharge port 270 ) Including the hydroelectric power distribution and input device in the ocean constituting the hydroelectric power generation production performance with the connection structure,

(191) having the shape of a hydraulic pipe reeder (35) for providing the flow velocity of the water with kinetic energy of the water having the flow velocity of the water current constituting the hydraulic operation of the nuclear power plant to provide mechanical energy conversion, A large hydroelectric generator 944 having a seesaw crane boom frame 942 of a tower crane that performs a vertical rotation operation with a large hydroelectric generator seesaw facility 944 having a seesaw center shaft frame 673 to provide a large- (593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant equipped with distribution equipments and reactor for nuclear waste disposal of marine nuclear hydroelectric power plant with dual structural block tank dust collector And a large hydropower distribution dispenser for constituting a further hydraulic hydroelectric operation inside the main body (1) of the distribution dispensing apparatus of the facility,

In the large hydrostatic generator desiccation facility 944, which further constitutes the nuclear hydroelectric operation of the reactor facility,

A hydrodynamic power generator rotational speed detector 944a for providing a position at the top of the center of the rotational shaft 944q constituting the large hydrostatic generator desiccator 944 and the bottom of the hydrodynamic power generator rotational speed detector 944a A dcrc ring 944c for pushing the ring-shaped flange 944c, an upper rotary shaft receiver 944d and a rotary shaft receiver 944b for supplying a current to the electric motor coil of the alternator, The stator frame 944g and the center stator 944h and the rotary shaft receiver 944i and the braking device ring 944j of the low speed cooler and the jack 944k of the braking device 944e, And a large hydrostatic generator isotope facility 944 in which the low speed rotary shaft receivers 944l are positioned at the upper end of the center of the rotary shaft 944q to have a connection structure with the rotary shaft 944q, The rotating shaft receiver 944n, the casing 944o, Id bay includes a hydro assembly composed of phosphorus and impellers (944q),

(35), which forms the kinetic energy of water with mechanical energy by providing the flow velocity of the current to the inside of the hydroelectric power room constituting the hydroelectric operation of the nuclear power plant, In the large-scale hydroelectric power generation facility 944 constituting the plant,

The central shaft frame 673 constituting the large hydrostatic generator desiccation facility 944 is provided with a multi-stage entrainment type manometric turn and is provided with a large hydrostatic generator desiccation facility 944, A crane boom is installed at the crane boom zone (942) to generate electrical energy to provide a power generating unit connection structure for the marine small, medium and large marine nuclear hydroelectric power plants. Dock (593,594,595) Includes a large hydropower distributor and dispenser that constitutes the operation of a nuclear power plant inside a nuclear hydroelectric plant,

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the large-scale hydropower generators (944), and a distribution input device A double structure block tank dust collector included in the power generation and production section 811b of the nuclear hydroelectric power plant section 811 constituting the inside of the main body 1 is provided with a plurality of generators for nuclear waste treatment and power generation of nuclear reactor facilities, (811b) of a nuclear hydroelectric power plant (811) constituting a nuclear power plant of a nuclear reactor, and a power transmission unit (811d) composed of transformers for transmitting power,

A plurality of nuclear reactors of a nuclear power plant having a double structure block tank dust collector 794 constituting a nuclear power plant operation of a plurality of nuclear reactor facilities of a nuclear power plant having a double structure block tank dust collector of a distribution input device of the nuclear waste treatment facility, Among the facilities, nuclear power hydroelectric power plants composed of boiling water reactor facilities,

A cooling water inlet 352 of a cooling water piping line constituting a connection structure with the condenser 790 is provided below the body of the steam turbine 267 of the nuclear hydroelectric power generation facility unit 811,

In front of the condenser 790 constituting the nuclear power plant 811,

And a circulation water pump 242 connected to the piping line 169 for connection to the cooling water inlet 352 of the cooling water piping line through the water passage constituting the front of the condenser 790, A nuclear waste disposal pipe manufacturing process consisting of a nuclear hydropower generation facility unit 811 constituting a distribution dispensing apparatus main body 1 of a nuclear waste disposal reactor apparatus and a double structure block tank collector 794 of a distribution shaft shaft 705 (794) Nuclear waste treatment plant manufacturing process with connection structure for internal and external repair of marine tunnel traffic equipment (794) Nuclear waste treatment plant manufacturing process Including the boiler water reactor facility among the plurality of reactor facilities to constitute operation ,

The apparatus for dispensing a reactor facility for nuclear waste treatment comprises a double structure block tank dust collector 794 constituting a nuclear reactor operation of a plurality of reactor facilities, In nuclear power plants,

A water supply pump 241 is provided at the tail of the condenser 790 and outside the reactor facility,

The nuclear power plant includes a purifier 809 outside the reactor in front of the feed pump 241, and a plurality of coolant pumps 243 are provided in the reactor internal piping line in front of the purifier 809 Inside the pressure vessel 813 of the nuclear reactor facility constituted outside the nuclear reactor pressure vessel 813 containing the fuel-enriched uranium 812 fuel,

In the case where the safety device control rod 798 is installed and shaking occurs,

The control rod 798 is inserted into the pressure vessel 813 at a time so that the operation of the nuclear power plant of the nuclear reactor can be stopped at an emergency and the nuclear power plant of the nuclear power plant of the land and the ocean and the nuclear power plant of the nuclear power plant, The nuclear waste water treatment pipe manufacturing process of the nuclear hydroelectric generating unit 811 constituting the inside of the water tank 1 and the double structure block tank collector 794 of the distribution shaft 705, (794) Nuclear waste treatment plant manufacturing process Including the construction of a boiling water reactor plant nuclear power plant among a plurality of nuclear reactor facilities,

The operation of the nuclear reactors constituting the nuclear reactor main body 1 of the nuclear waste disposal reactor installation is carried out by a boiling water reactor of a plurality of reactor facilities of the nuclear power plant having the dual structure block tank precipitator 794, In the nuclear power plant of the facility,

The first wall pellet 683 of the nuclear reactor reactor installation constituting the boiling water reactor installation and the covering pipes 682 protecting the second wall flaring rods 689 are covered with a covering The safety valves 472 in which the plurality of temperature pressure sensors are formed are opened in the third wall reactor pressure vessel 813 and the fourth wall vessel 808 caused by the collision of the pipe 682 and immediately before the fuel explosion, The loess mixture 927 which generates toothpaste form soap mixed with the cooling water 287 stored inside the nuclear waste treatment tank 295 located at the upper end of the container upper end double structure block tank dust collector 794 A safety valve 472 and a hatch cover 472 in which a plurality of temperature pressure sensors are formed in the third wall reactor pressure vessel 813 located below the water tank tank 295 and immediately before the explosion in the fourth wall vessel 808, 153 are opened and the upper end of the pressure vessel 813 The loess mixture 927 generating toothpaste-like soap bubbles mixed with the cooling water 287 stored in the inner block piping 74a of the block piping line 74 of each small- The cooling water 287 and the loess mixture 927, which are the nuclear fuel explosion-proof control products, are supplied to the boiling water reactor equipment in the reactor pressure vessel 813 and the fourth wall vessel 808,

In the inner block piping 74a of each block piping line 74 constituting the boiling water reactor installation,

The detoxified nuclear waste 224 constituting the inner block piping 74a passes through and the outer block piping 74b is connected to the cooling water 287 which is the fuel explosion prevention control product stored in the inner block tank 596 Of the loess mixture 927 generating the soap bubbles is provided with the feed pump 241 to transfer the fuel explosion prevention control article into the pressure vessel 813 and into the fourth protective walled vessel 808,

At the internal lower end of the double structure block tank 598, which constitutes storage of the nuclear waste 224,

The nuclear waste 224 constituting the individual structure block 598 is moved and stored and the temperature pressure sensing sensor safety valve 472 connected to the inner block tank 596 of the pressure vessel 813 is opened, The nuclear waste disposal facility consists of a nuclear power plant (811) consisting of the reactor facility of the nuclear power plant of land and ocean and the nuclear power plant (1) A dual structural block tank collector (794) in the manufacturing process and distribution shaft (705), a connection structure in the interior and exterior of the marine tunnel traffic device for repairing the nuclear waste, and a double structure block tank dust collector (794) comprises a plurality of nuclear reactor installations connected to the nuclear waste treatment line manufacturing process to perform the operations constituting boiling water nuclear reactor operation,

The operation of the nuclear reactors of the plurality of reactor facilities constituting the distribution apparatus of the nuclear waste disposal reactor is divided into a nuclear power plant constituting a boiling water reactor facility among the plurality of reactor facilities of the nuclear power plant having the dual structure block tank collector 794, In power generation facilities,

The outer block piping 74b of the block piping line 74 constituted by the boiling water reactor equipment in the nuclear power generation facility is provided with the cooling water storage tank 295 disposed inside the nuclear waste treatment tank tank 295 located at the upper end of the inner block tank 596, And a yellow soil mixture 927 for generating soap bubbles in a toothpaste form mixed with the first reservoir container 287 and the second reservoir container 808 by the operation of the feed pump 857 and,

Fuel mixture deterioration control products prepared by converting energy of water into energy of kinetic energy of the loess mixture 927 which generates soap bubbles in the form of toothpaste mixed with cooling water constituted by a nuclear hydroelectric power plant is divided into an inner block tank 596 and an outer block tank (599) When the inside of the nuclear reactor facility is filled with the yellow soil mixture (927) generating the soap bubbles mixed with the cooling water (287) stored in the individual sites, the nuclear fuel explosion inside the nuclear reactor facility is terminated, The operation of the nuclear power plant consists of a nuclear waste disposal facility consisting of a reactor facility for nuclear hydroelectric power plants of land and sea and a nuclear hydroelectric power plant (811) inside the main body (1) A connection structure for the interior and exterior of the marine tunnel traffic device connected to the double structure block tank dust collector 794 of the manufacturing process distribution shaft 705, It comprises achieve the performance that make up the dual-structure block precipitator tank 794 nuclear waste pipe manufacturing process a plurality of nuclear reactor plants in a boiling water reactor nuclear power plant of the movable,

Among the plurality of nuclear reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation of the plurality of nuclear reactor facilities constituting the distribution input apparatus of the nuclear waste processing nuclear reactor facility,

The boiling water reactor facility of the nuclear power plant constituting the nuclear waste treatment,

(811) consisting of reactor facilities of nuclear power plants of land and ocean and nuclear power plants (1) of nuclear power plant for nuclear waste disposal facilities equipped with alternate input devices of reactor buildings, nuclear waste A double structure block tank (794) connected to a double structure block tank dust collector (794) of a process pipe manufacturing process distribution shaft (705) Of the plurality of reactor installations of the boiler water reactor,

Among the plurality of nuclear reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 included in the plurality of nuclear reactor facilities constituting the operation of the nuclear power plant in the distribution input apparatus of the nuclear waste treatment facility,

A boiling water reactor system comprising a reactor facility for a nuclear power plant constituting a boiling water reactor plant and a cutting or submarine mineral collection robot for remote control in disassembling the reactor facility is provided and the nuclear fuel in the reactor vessel pressure vessel (813) When the explosion is stopped, the plurality of temperature-sensing-sensor safety valves 472 provide full closing,

When the nuclear power plant constituting the entire safety valve 472 of the reactor facility is operated, normally,

A boiling water reactor installation of a nuclear power plant provided with a barge 591 of the ocean among a plurality of reactor facilities constituting the entirety of the thermal pressure sensing sensor safety valves 472 is provided, The installation of the anti-sinking type barge that constitutes the nuclear reactor facility is also provided,

Prevention of sinking of the ocean Nuclear waste consisting of nuclear power plants of nuclear and marine nuclear power plants constituting barges and nuclear power plants of nuclear power plants (1) A double structure block tank (794) connected to a double structure block tank dust collector (794) of a process pipe manufacturing process distribution shaft (705) Of the plurality of reactor installations of the boiler water reactor,

Among the plurality of reactor facilities constituting the nuclear power plant having the double structure block tank dust collector 794 of the plurality of reactor facilities constituting the operation of the nuclear power plant in the distribution input apparatus of the nuclear waste processing nuclear reactor facility,

The boiling water reactor equipment that constitutes a nuclear power plant,

A nuclear waste disposal control article may be provided with a nuclear waste disposal control article and a loess mixture that generates soap bubbles in a toothpaste form mixed with cooling water constituted inside the core 681 inside the reactor and outside the core 681 The water feed pump 241 is provided to transfer the nuclear waste treatment and control article into the pressure vessel 813 and into the fourth protective walled container 808 so as to be disposed inside the reactor core 681 and outside the reactor core 681 The control of nuclear fuel combustion in the nuclear fuel chamber is controlled by the nuclear waste disposal control equipment, and the nuclear power plant is equipped with disaster prevention devices for controlling the leakage of the nuclear fuel radiation capability coupled with the boiling water reactor connection axes among the plurality of nuclear reactor facilities. (1) of a nuclear reactor plant for the treatment of waste, the control shaft being connected to boiler water reactor plant connection shafts during operation of the nuclear power plant Constitute the disposal of nuclear waste at the upkeep poison (593,594,595) of small, medium and large marine nuclear hydroelectric power plants;

(593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants constituting the nuclear waste disposal, nuclear waste processing dual structure block tank dust collector (794) constructed in marine nuclear hydroelectric power plant, Block tank pipe bridge Marine tunnel transport device (941) Dual structure block of nuclear waste treatment providing a nuclear waste disposal dual structure block tank scrubber (794) with a control shaft coupled by connecting shafts Tubes of nuclear power plants with tank dust collectors A plurality of nuclear reactors constituting a nuclear waste treatment dual structure block tank precipitator 794 having an adjustment shaft coupled with bridge shaft marine tunnel traffic apparatuses 941 connecting shafts to constitute a combination of boiling water reactor facilities during the nuclear operation;

A plurality of nuclear reactor facilities of a nuclear power plant having a double structure block tank dust collector 794 constituting a nuclear reactor operation inside the main body 1 of the nuclear reactor waste disposal reactor apparatus,

A double structure block tank dust collector provided with connection structure construction machine crane 861 that can be disassembled and coupled in a marine vessel manufacturing plant constituting a plurality of reactor facilities to provide production control of the dual structure block tank dust collector 794 A nuclear power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant;

A double structure block tank (not shown) constituting a nuclear power plant in the main body 1 of the nuclear power plant for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting the nuclear hydroelectric power plant 811, In a plurality of nuclear reactor facilities constituting a nuclear power plant having a dust collector 794,

The boiler water reactor unit 802, the pressurized water reactor unit 803, the gas cooling furnace reactor unit 804, the multipurpose hot gas reactor unit 805 and the new conversion furnace reactor unit 806 constituting the reactor facility The nuclear power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor main body 1 is provided with a plurality of nuclear reactor facilities for providing connection shafts of the fast breeder reactor facility 838, A nuclear waste nuclear waste disposal unit 811a included in the nuclear power plant;

A plurality of nuclear reactors of a nuclear power plant having a double structure block tank dust collector 794 constituting a nuclear power plant in the main body 1 of the nuclear reactor waste disposal reactor constituting the nuclear waste nuclear waste treatment section 811a, In the facility,

Nuclear power plants operating nuclear power plants safely and consistently in nuclear power plants Nuclear power plant explosion-proof nuclear reactor facilities Before and after the nuclear power plant replacement Alternative power generation Power generation We have wind power generators, thermal power generators and hydro generators A power generation and production unit 811b of a nuclear hydropower generation facility unit 811 constituting the inside of a distribution and dispensing apparatus main body 1 of a nuclear waste treatment facility including nuclear power generation alternative generation power;

And the inside of the main body 1 of the nuclear reactor disposal reactor for nuclear waste treatment of a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting the power production and production unit 811b of the nuclear hydroelectric power plant unit 811 A plurality of internal block tanks 596 connected to a plurality of reactor facilities and construction transportation vehicles of the construction machine and a double structure block tank reactor 596 composed of both the center portion and the aft portion of the outer block tank 599 794 are opened to provide a position shift control to a carrier equipped with a crane boom rest 651, a crane boom rest hook 652 and a conveyor 633 of the position movement control device construction machine crane 861,

A plurality of reactor facilities constituting the electric power production and production unit 811b are inserted into the transportation vehicles of the construction machine constituting the insertion into the distribution apparatus of the reactor facility for nuclear waste disposal of the nuclear hydroelectric power plant having the dual structure block tank dust collector In addition,

The dual structure block tank (598) dust collector arrangements that make up the reactor facility,

(2) A double structure block tank that provides transport to and from a marine installed connection structure capable of disassembly and coupling in the production of industrial docking dock areas. (1) Inside of the dispensing apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dust collector A traffic transportation unit 811c of the construction machine connected to the power generation and production unit 811b included in the nuclear hydroelectric power plant 811 constituting the nuclear power plant;

In the transportation transportation unit 811c of the construction machine constituting the nuclear hydroelectric power plant 811,

(1) of nuclear power plant nuclear waste water treatment plant equipped with dual structure block tank dust collector, and (2) nuclear waste disposal system consisting of nuclear waste disposal system An adjusting shaft provided on the shaft;

The control shaft, which is constituted by the distribution input device of the reactor facility for nuclear waste treatment,

Disclosed is a disassembly / disassembly method in a strut block tank (590) of a nuclear hydropower generation facility unit (811) constituting a main body (1) of a nuclear reactor waste disposal reactor apparatus as a main body of a dispensing apparatus main body of an individual nuclear waste disposal reactor facility The decomposition coupling of the nuclear waste treatment dual structure block tank bridge pier 928 of the double structure block tank 598 and the connection shaft of the double structure block tank pipe bridge marine tunnel traffic apparatus 941 is connected to the power transmission unit 811d (1) of the nuclear reactor waste disposal apparatus main body (1), and the storage tanks of the nuclear waste disposal shield apparatus A distribution shaft for distributing nuclear waste to constitute discharge;

The distribution shaft, which distributes the nuclear waste and constitutes discharge,

And a nuclear waste disposal shielding apparatus. The nuclear power plant unit 811 of the nuclear waste disposal reactor main body 1 of the nuclear waste disposal reactor apparatus 1, A power transmission unit 811d provided with transformers for distributing nuclear waste to constitute discharge;

In the power transmission unit 811d equipment for distributing the nuclear waste to constitute discharge,

Power transmission unit (811d) Equivalent to the dust collector of the exhaust gas facility which is installed inside the main body (1) of the dispensing apparatus main body of the reactor facility for nuclear waste treatment before and after the operation of the nuclear reactor safety facility constituting the facility A nuclear power plant safety control and management production electric field section 811e constituting a nuclear power hydroelectric power plant 811 constituted by the inside of a main body 1 of a nuclear reactor waste disposal reactor provided with a gas outlet and an inlet;

In the nuclear power plant safety control management production electric field section 811e equipment constituting the nuclear hydroelectric power plant section 811,

(688A), a turbine building (688B), a control building (688C), an auxiliary building (688D), and a diesel generator building (688E) constituting a nuclear power plant internal distribution dispensing apparatus main body (688Z) consisting of a nuclear fuel building (688F) and a waste building (688G) connection structure. Prevention of nuclear explosion before and after the operation of the nuclear power plant Nuclear waste treatment Double structural block tank When the nuclear power plant is operating in the nuclear power plant, the electronic control regulating device construction machine control unit 811f is provided with the crane boom support 651 and the conveyor 633 of the position movement control device construction machine crane 861, ) Of the reactor main body (1) of the reactor facility for nuclear waste treatment, provided with electronically controlled regulating devices, each of which is provided with carriers Electronic regulating control construction machine hydraulic St. nuclear power plant unit 811 to control unit (811f) and;

In the electronic control apparatus construction machine control unit 811f equipment constituting the nuclear hydroelectric power plant unit 811,

(1) of the nuclear waste disposal reactor for nuclear waste disposal facility, and a control shaft for controlling the nuclear waste capacity by means of the storage tanks of the nuclear waste disposal shielding apparatus, (1) of the distribution dispensing apparatus main body (1) of the facility is provided with a safeguarding apparatus for the safe and continuous nuclear waste disposal and a nuclear fuel disposal prevention apparatus In the barge hull 591 at the upper end of the dual structure holding tank, the barge hull 592 at the lower end of the double structure holding tank is connected to the power production equipment constituting the reactor production and power generating unit 811b of the nuclear power plant, A plurality of nuclear reactor equipments of the power plant, and an electronic control unit constituting the nuclear hydroelectric power plant unit 811, A portion 811g;

In the screw control unit 811g that constitutes the nuclear power plant 811,

Disassembly of the block tank position shifting device from the holding tank 590 Coupling of the lug pin 606 and the lug 607 to the lug connection shaft coupling bolt 603 and the lug connection shaft 606, A nuclear waste disposal unit (not shown) included in the nuclear hydropower generation facility unit 811 provided in the main body 1 of the nuclear reactor waste disposal facility, 811a to the electronic sensor valve thread adjusting portion 811aa;

In the disaster prevention prevention control unit 811h provided in the nuclear hydroelectric power plant 811,

(1) of the nuclear waste disposal reactor for nuclear waste disposal facility, and a control shaft for controlling the nuclear waste capacity by means of the storage tanks of the nuclear waste disposal shielding apparatus, In the barge hull (591) at the top of the double structure holding tank where the nuclear hydroelectric power plant (811) composed of the inside of the distribution dispensing apparatus main body (1) of the facility provided safe and continuous explosion prevention of the nuclear fuel fission, (811d) that constitutes the discharge, and the barge hull (592) at the lower end of the double structure holding tank has a plurality of nuclear reactor facilities of the nuclear waste-treated nuclear hydroelectric power plant A disaster prevention prevention regulating unit 811h constituting a connection with the electronic control regulating unit constituting the nuclear hydroelectric power generating unit 811;

In other facilities constituting the connection with the disaster prevention prevention regulating unit 811h constituting the nuclear hydropower generation facility unit 811,

The fire fighting natural disaster prevention control unit 811i, the yellow dust natural disaster prevention control unit 811j, the heavy snow natural disaster prevention control unit 811k, Disaster prevention control section 8111, a typhoon natural disaster prevention control section 811m, a flood natural disaster prevention control section 811n, a drought natural disaster prevention control section 811o, a landslide natural disaster dictionary A control unit 811p for controlling the fish and shellfish scattering control unit 811p, a control unit 811q for controlling the fish and shellfish moving control unit 811r, 811s), groundwater and deep ocean water capacity supply control unit 811t, groundwater and deep sea water capacity control unit 811t, groundwater and groundwater depth control unit 811u, After confirming the postal code to postal service Postal services Transport established a line control unit (811v), and the territory dispute resolution adjusting unit (811y), and space development A satellite control unit 811z for preventing radioactive contamination of the nuclear radiation, and an electronic sensor valve screw control unit 811aa for a distribution input device and a marine tunnel transportation device 941 ) And a disaster-controlled disaster prevention system for preventing natural disasters in the ocean, and a construction machine in which the positional movement control is provided by the carriers, is included in the main body (1) of the nuclear reactor waste disposal unit;

The double structure block tank dust collector 794 constituting the nuclear power generation nuclear waste processing unit 811a to the electronic sensor valve thread adjusting unit 811aa of the nuclear power hydroelectric power plant unit 811 is inserted In many reactor installations,

A reactor apparatus is installed on both sides of the fore and aft ends of a central portion of a plurality of inner block tanks 596 of the double structure block tank reactor accumulator 794 to a crane boom stand 651 of a position movement control apparatus construction machine crane 861, The position shift control is provided to the carrier having the ring 652 and the conveyor 633 operation,

(811) of the distribution dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a dual structure block tank dust collector, Performing a nuclear power plant operation comprising a nuclear waste disposal apparatus in a structural block tank collector (794);

The execution of the nuclear power plant operation constituted by the nuclear waste disposal apparatus,

A double structure block for the operation of the nuclear power plant constituting the main body (1) of the dispensing apparatus main body constituting the nuclear waste disposal reactor constituting the operation of the nuclear power plant. A plurality of nuclear reactor facilities to be injected into the dust collector are provided,

It is equipped with the distributing and input device of the reactor facility for the nuclear waste disposal that constitutes a plurality of nuclear reactor facilities,

The nuclear waste disposal tank 295 located at the upper part of the double structure block tank precipitator 794 is sequentially arranged without being mixed with the plurality of reactor facilities of the nuclear hydroelectric power plant constituting the reactor facility and,

Of the plurality of nuclear reactor facilities of the nuclear waste treatment constituting the transfer to the inside of the pressure vessel 813 and the inside of the fourth protective walled container 808 with the feed pump 241 constituting the transfer of the loess mixture, In the facility,

A mixture of loess mixtures mixed with cooling water constituting a boiling water reactor facility is mixed with cooling water which is a control waste of nuclear waste treatment inside the core (681) inside the reactor and outside the core (681) 927 and nuclear waste disposal apparatuses so that the safety valve 472 and the hatch cover 153 are opened to fill the inside of the reactor core 681 and the reactor core 681 outside the reactor core 681, As the nuclear fuel collision of the yarn is controlled, the reactor explosion prevention of the boiling water reactor equipment is immediately established,

(593,594,595) of a small, medium and large sized marine nuclear power plant constructed inside the main body (1) of the distribution reactor of the nuclear reactor for nuclear waste disposal and the prevention of sinking of the marine nuclear power plant,

Nuclear waste disposal dual structural block tank pipe bridge for prevention of nuclear fuel explosion marine tunnel traffic device (941)

This system constitutes the connection axis between the disaster control disaster prevention device and the construction machine of the flood control facility equipped with the electronic control adjustment device for preventing the natural disaster of the ocean,

Replacement of Nuclear Reactor Facilities Nuclear Power Generation Alternative Power Generation Nuclear power plants are equipped with wind power generators, thermal power generators, and hydro generators, which are used for power generation and production. (941) for marine tunnel, and disaster control and disaster prevention apparatus constituting the prevention of natural disaster of the sea, and a construction comprising the inside of the main body (1) of the dispensing apparatus of the reactor facility for nuclear waste disposal, And a machine.

Alternatively, the distribution shaft 705, which constitutes the nuclear waste treatment pipe manufacturing process included in the nuclear hydroelectric power generation facility 811,

(593,594,595) of a small, medium and large sized marine nuclear power plant constituting a nuclear power plant (672), and an individual reactor of a nuclear hydroelectric power plant constituting the inside of a distribution input apparatus main body (1) of a nuclear waste treatment nuclear plant A double structure block tank pipe bridge 928 and a dual structure block tank bridge 937 composed of a nuclear waste disposal double structure block block tank 590 and a nuclear waste disposal double structure block tank 598 (672) which constitutes the disassembly coupling of the double structure block tank dust collector (794) and the dual structure block tank pipe bridge (937) connection shaft controlling the leakage of radioactivity,

The distribution shaft 705 constituting the nuclear waste processing pipe manufacturing process of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste processing reactor facility,

In the reactor installation of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the distribution shaft 705,

Steel plates 597 made of high-strength stainless steels constituted by reactor facilities are provided to assemble the double structure block tank 598,

An inner block tank 596 positioned at the center of the double structure block tank 598 and an outer block tank 599 positioned outside the inner block tank 596 constitute the reactor structure, (794) Dual waste water treatment plant on one side of the facility Double structure block tank pipe bridge (937) Dispensing device A double structure block tank 598 provided with a connecting structure distributing and inputting device for a cutting process and a welding process and having a first auxiliary steel pipe 600 and a second auxiliary steel plate 601 for a block tank to be connected, And a large flange (614) constituting a position as a connecting structure of the connecting shaft to the stern connecting position,

Large flange connection connection of large flange composed of reactor facility Connection hole machining hole (615) Large flange (614) located as a connection structure at the connection part is equipped with a drill lathe and cutter of cutting tool and double structure block tank dust collector (794) (1) of the nuclear waste disposal reactor apparatus, the nuclear waste disposal apparatus manufacturing process of the nuclear power plant (811) constituting the nuclear waste disposal apparatus main body (1) And a dual structure block tank cleaner (794) of a distribution shaft (705) to configure the nuclear plant to operate as a reactor facility for nuclear waste treatment,

In the reactor installation of the nuclear hydroelectric power plant having the double structure block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

(625) of the distribution shaft (705) of the nuclear waste disposal tube manufacturing process consisting of the inside of the distribution dispensing apparatus main body (1) constituting the nuclear reactor waste disposal facility composed of the nuclear reactor facility is equipped with the safe manufacturing process It is equipped with double structure block tank dust collector (794) facilities of distribution shaft (705) of one pipe manufacturing process and is equipped with steel plate (597) material of high strength stainless steel. And a conveyor 633 having a crane crane 861 and a conveyor 633 having a double structure block tank dust collector 794 placed in a conveying process, (A) in which the high-strength stainless steels steel plate 597 is bent at right angles to the forming bending machine, V-shaped bending (b), circular bending (c) Providing a processing section performing the song with, and

The nuclear waste treatment plant for the nuclear waste disposal unit consisting of the reactor facility is constructed in the main body (1) of the nuclear waste treatment plant manufacturing division of the nuclear waste disposal pipe manufacturing process distributing shaft (705) 794) of the nuclear power plant to perform the operation of the nuclear reactor with the reactor facility for the nuclear waste treatment of the reactor facility of the nuclear hydroelectric power plant,

A double structure block tank 598 of a distribution shaft 705 constituting the nuclear reactor facility and a stopper plate 625 of a distribution shaft 705 of a pipe manufacturing process of a reactor plant of a nuclear power plant having a dust collector 794,

It is equipped with a bending type press braking type bending type bending machine, a bending type roller bending type bending type machine and a bending type bending type bending type bending type bending machine which are composed of a nuclear reactor facility and have high tensile strength A banding and bending machine of a steel plate 597 is provided to perform cutting and cutting operations,

The crane crane 861 and the conveyor 633, which are installed in the transporting process constituted by the nuclear reactor facility, are provided with the welding position shift control to the banding joint portion of the high-strength stainless steel plate 597, The welding process is performed at the banding joint portion of the high-strength stainless steel plate 597 with the welding machine, the cutting tool, the drill lathe and the cutter, and the inside of the main body (1) The nuclear reactor of the nuclear power plant of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the nuclear waste processing pipe manufacturing process distributing shaft 705 of the nuclear power hydroelectric generating unit 811 constituting the nuclear power plant, To &lt; RTI ID = 0.0 &gt;

The reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structural block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

The large flange 614 is connected to the large flange 614 located at the aft and stern connection portion of the dual structure block tank 598 of the reactor unit and has a predetermined size of the stopper plate 625 And is provided as a connection structure of the pipe manufacturing process distributing shaft 705 of the manufacturing and processing shelf process,

In the inner block tank 596 composed of a nuclear reactor facility and the outer block tank 599 located outside the inner block tank 596, the dual structure block tank dust collector 794 is installed in the nuclear waste disposal pipe manufacturing facility The inner block tank 596 is provided with a crane crane 861 and a conveyor 633 which are inserted into the outer block tank 599 to prepare a welding process while controlling the movement of the pipe manufacturing facility ,

(1) Nuclear power plant part (811) consisting of nuclear waste treatment plant manufacturing process distribution shaft (1) inside the nuclear plant waste processing facility with double structure cylindrical structure consisting of reactor facilities 705), comprising a dual structure block tank cleaner (794) for the nuclear reactor of the nuclear power plant,

The reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structural block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

A double structure block tank 598 composed of a nuclear reactor facility, a dust collector 794, a plurality of outer block tanks 599 outside the plurality of inner block tanks 596, a first auxiliary type steel 600 for a block tank, The second auxiliary steel plate 600 for the block tank and the second auxiliary steel plate 600 for the block tank are provided with the second auxiliary steel plate 601, the vertical partition wall 605, the horizontal partition wall 609 and the steel beam 149, A nuclear reactor 601, a vertical partition 605, a horizontal partition 609, a steel beam 149, a snap hole 602 and a partition wall manhole 610 are provided with a computer laser cutter,

The nuclear reactor facility is provided with the welding machine of the welding process while the cutting process comprising the reactor facility is performed and the fifth protective walls formed on the outer wall surface of the fourth protective walled container 808 are installed in the distribution input Nuclear waste treatment of a reactor plant of a nuclear power plant having a double structure block tank dust collector 794 of a nuclear waste processing tube manufacturing process distribution shaft 705 of a nuclear power hydroelectric power plant unit 811 constituting the inside of the apparatus main body 1 Of the nuclear power plant,

In the reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear power plant having the double structure block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

The vertical partition wall 605 and the horizontal partition wall 609 provided with the partition wall manhole 610 of the double structure block tank dust collector 794 constituted by a nuclear reactor facility are provided with a traffic device hydraulic cylinder door 624, 631 are provided in the welding processes and are equipped with the marine tunnel traffic devices for distributing the double structure block tank dust collector 794 for preventing the explosion of the nuclear reactor facility and are arranged inside the main body 1 of the nuclear reactor waste disposal unit A nuclear water hydropower generating plant 811, and a double structure block tank precipitator 794 as a connection structure for a nuclear water hydroelectric power plant inside and outside the marine tunnel transportation device in a nuclear waste processing pipe manufacturing process distribution shaft 705. [ The nuclear reactor of the nuclear power plant having the nuclear power plant,

In the reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

Double structure block tank dust collector (794) consisting of nuclear reactor facility. It is equipped with a bending type bending machine, a press braking type bending machine, a bending type roller bending machine, Three bending type roller bending machines are provided to perform the banding and bending process of the high-strength stainless steels steel plate 597, and a stopper plate 625 dust collector 794 ) Facilities,

A double structure block tank 598 having a cylindrical egg-shaped coupling structure made up of a nuclear reactor facility and constituted by a plug-and-loop fitting assembly of a double structure block tank 598, and a plurality of inner block tanks 596 and a plurality of outer block tanks 599) said large flange to a dust collector (794) facility having machines of the welding process at the upper and lower ends of the block tanks, respectively, provide a bolting connection device and a reactor block explosion-proof dual structure block tank dust collector And a nuclear power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus having the marine tunnel traffic apparatuses with the distributed nuclear power plant 794 distributed therein, A nuclear power plant having a double structure block tank dust collector (794) as a connection structure of a nuclear power plant inside and outside the marine tunnel transportation device of the shaft (705) And the operation of the reactor to operate the nuclear reactor with the nuclear waste disposal reactor apparatus as a distribution input device of the self-

In the reactor facility of the distribution shaft of the nuclear waste processing pipe manufacturing process of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

(794) Dual structure block tank (598) of the reactor plant The welding process assembly of the bolting coupling assembly and the stopper plate (625) is provided with a stopper plate (625) of the stopper plate (625) A nuclear power plant unit (1) having a double structure block tank dust collector (794) for preventing explosion of a plurality of nuclear reactor equipments constituting a combined welding process assembly and constituting the inside of the main body (811), and a welding process assembly and bolting coupling assemblies, which are composed of a nuclear waste disposal dispensing apparatus and a nuclear fuel explosion control apparatus,

Nuclear waste treatment plant consisting of nuclear reactor facility The nuclear reactor plant with a double structure block tank dust collector (794) as a connection structure of nuclear power plant inside and outside of the marine tunnel traffic apparatus in the distribution shaft (705) The nuclear waste disposal of nuclear reactors,

In the reactor facility for the nuclear waste treatment of the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

(593,594,595) equipped with small, medium and large sized nuclear and hydroelectric power plants composed of nuclear reactor facilities, and 40m at the top of the sea surface excluding the weather condition of tsunami as a disaster prevention device, And a plurality of nuclear reactors of the nuclear power plant excluded the effect of earthquake and tsunami by means of disaster prevention by adjusting the position of the nuclear power plant by arranging the mooring device and the diving buoyancy adjusting device formed on the barge preventing sinking type It is structured to operate nuclear power plants with explosion prevention,

In the reactor facility for the nuclear waste treatment of the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

In the nuclear hydropower plant 811 comprising the reactor facility,

A double structure block tank dust collector (794) installed to prevent the explosion of a large number of reactor facilities in the nuclear fuel chamber that prevents environmental pollution caused by nuclear waste composed of reactor facilities is installed in a marine nuclear power plant, (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants, which are equipped with the operation of nuclear power plants, to ensure the safety of nuclear power generation facilities. (705) Marine tunnel inside and outside repair system Nuclear power plant connection structure Nuclear waste of nuclear waste treatment system Dispensing device of reactor facility for nuclear waste disposal with nuclear fuel cycle of nuclear fuel industry Which comprises a dual structure block tank cleaner 794 of a distribution shaft 705, (811) of the nuclear power plant of the firing plant to perform nuclear power plant operation,

The nuclear fuel cycle of the nuclear waste fuel industry, which consists of a nuclear waste disposal apparatus of a nuclear power hydroelectric power plant unit 811 of a nuclear power plant having a double structure block tank dust collector 794 of the distribution shaft 705,

(593,594,595) Nuclear power plants (672) of small, medium and large sized nuclear hydroelectric power plants constituting the nuclear fuel cycle of the nuclear fuel industry, and distributions constituting the inside of the distribution input unit main body (1) of nuclear reactor facilities for nuclear waste disposal The spent nuclear fuel 683 of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the nuclear power hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the shaft 705,

The remaining uranium 812, which constitutes the nuclear fuel cycle of the nuclear fuel industry, provides the nuclear fuel 683 processing at the reprocessing plant 228,

In the conversion plant 229 constituting the nuclear fuel cycle of the nuclear fuel industry,

The fuel is supplied to uranium fluoride 812 and the nuclear fuel cycle of the nuclear waste fuel plant of the nuclear waste treatment facility is provided to transfer the nuclear fuel 683 to the concentrator 230,

Providing a conversion at uranium dioxide conversion plant 229, uranium fluoride 812 constituting the nuclear fuel cycle,

And a fuel rod (689) constituting processing in the state of pellets (683) constituting the fuel cycle,

Plutonium 801, processed at the reprocessing plant that makes up the nuclear fuel cycle,

The fuel rods 689 are prepared at the conversion / processing factory 231,

The reprocessing fuel rods 689 constituting the nuclear fuel cycle,

Again, it includes a forklift carrier that constitutes a transfer of nuclear fuel 683 to the nuclear power plant 672,

The nuclear power plant 672 constituting the nuclear fuel cycle, the reprocessing plant 228, the concentration plant 230, the conversion plant 229, the conversion and processing plant 231,

(672), equipped with a nuclear fuel cycle distribution shaft (705) and a nuclear waste (224) disposal input device facility located at the top of the deck plate at the top of the sea, Including the nuclear fuel cycle of the nuclear fuel industry, which consists of internal and external nuclear radiation pollution prevention,

A nuclear power plant of a nuclear power plant having a double structure block tank dust collector 794 of a distribution shaft 705 constituting a distribution dispensing apparatus main body 1 of a nuclear waste treatment facility for treating nuclear waste 224 A nuclear fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the unit 811,

(593,594,595) of small, medium and large sized nuclear hydroelectric power plants constituting the nuclear fuel cycle, and mooring devices and diving buoyancy control devices and nuclear waste disposal devices installed in nuclear power plants (672). The nuclear hydroelectric power plant of the nuclear power plant having the double structure block tank dust collector 794 of the nuclear waste disposal dispenser equipment distribution shaft 705 of the reactor facility at the nuclear hydroelectric power facility 811 before and after the safe operation of the nuclear reactor facility (811) of the nuclear shipbuilding plant of nuclear waste disposal facility, which is composed of disassembly-connectable connection structures at the marine shipbuilding factory of Shipbuilding Corporation (811)

The nuclear fuel cycle of the nuclear waste fuel industry constituting the nuclear waste disposal apparatus of the nuclear power generation facility unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705,

A distribution shaft 705 of a nuclear waste processing pipe manufacturing process composed of a reactor facility of a nuclear power plant of land and sea and a nuclear hydroelectric power plant unit 811 constituting a nuclear reactor waste disposal reactor main body 1 (794) a stage of operation of the nuclear power plant of the nuclear power plant which has prepared the nuclear fuel cycle of the nuclear waste fuel processing equipment of the nuclear waste disposal unit to operate the nuclear power plant of the reactor facility;

Nuclear waste treatment pipe manufacturing process consisting of a nuclear hydropower generation facility part (811) constituting a distribution dispensing device main body (1) of a nuclear waste disposal treatment facility In the case of repairing the inside and outside of the transportation device of the distribution shaft (705) (794) a nuclear waste disposal pipe manufacturing process; (c) a reactor structure having a control rod brush structure;

Nuclear power plant of nuclear power station of land and ocean and nuclear power plant of nuclear power plant of nuclear power plant which is composed of main body (1) of nuclear power plant for distribution of reactor facility for nuclear waste treatment (811) And the nuclear waste disposal marine tunnel communication device 941 connected to the nuclear waste disposal marine tunnel transportation device 941 before the failure of a plurality of nuclear reactor facilities of the nuclear power plant constituting the nuclear power plant to operate the nuclear power plant with the double- A nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, and a nuclear waste disposal truck, A plurality of nuclear reactors installed in a reactor facility of a nuclear power plant equipped with a generator and a hydroelectric generator and having a dual structural block tank dust collector (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal apparatus main body (1) and constituting a nuclear waste disposal pipe manufacturing process 705)

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the nuclear power plant (672)

Nuclear waste treatment of individual reactor facilities of a nuclear power plant consisting of the main body (1) of the distribution dispensing apparatus of the nuclear waste disposal facility consisting of the dual structure support block tank (590) and the nuclear waste treatment dual structure block tank (598) A dual structure block tank sorter 794 for controlling the leakage of the nuclear radiation performance of the double structure block tank bridge bridge 928 and the double structure block tank bridge 937 and the connection shaft,

Double structure block tank pipe bridge (937) Includes the reactor facility of a nuclear waste disposal nuclear reactor (672) that constitutes the disassembly of the connecting shaft,

In the reactor installation of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituting the nuclear reactor facility,

Steel plates 597 of a high-strength stainless steel constructed in a reactor facility of a nuclear hydroelectric power plant are provided to assemble a double structure block tank 598,

An inner block tank 596 located at the center of the double structure block tank 598 constituting the double structure block tank 598 and outer block tanks 599 located outside the inner block tank 596 (794) Double-structured block tanker (794) which constitutes production by distributing and supplying equipment of connecting structure that performs cutting process and welding process in industrial structure in the form of dual structure. Nuclear waste treatment Double structure block tank pipe A double structure block tank provided with a first auxiliary type steel 600 for a block tank and a second auxiliary steel plate 601 connected to a distribution and input device of a bridge 937 and provided by a connecting and distributing device of a connection structure of a cutting process and a welding process (598) a dust collector (794), and a large flange (614) forming a position as a connection structure of the connection shaft to the stern connection position,

Large flange 614, which is located as a connecting structure at the connection position, is connected to a drill lathe and a cutter of a cutting tool (594) And a dual structural block tank dust collector (794). The nuclear waste water treatment system (1) includes a nuclear power plant Comprises a dual structure block tank dust collector (794) on the distribution shaft (705) of the nuclear waste treatment line manufacturing process of the power generation facility unit (811) to perform the operation of constructing the nuclear power plant with the reactor facility of the nuclear waste treatment,

(625) of the distribution shaft (705) of the nuclear waste processing pipe manufacturing process which is constituted inside the dispensing apparatus main body (1) of the nuclear reactor waste disposal reactor equipment, (597) of the high-strength stainless steels by using the double structure block tank dust collector (794) of the distribution shaft (705), and the process sequence of cutting, cutting and transportation A high strength stainless steel plate 597 having a crane crane 861 and a conveyor 633 in which a double structure block tank dust collector 794 is put in a conveying process and constituting facilities of a nuclear waste processing pipe manufacturing process, (A) and V-type folding machines (a), (b) and (c), respectively. The high-strength stainless steel plate 597 is formed by a forming machine and a roll- b), and a circular waving (c) To provide a distribution chute body (1) to perform internal machining comprising a track section of the distribution shaft (705) that make up the nuclear waste disposal tube manufacturing process of the nuclear power plant hydraulic unit 811 in the equipment, and

(811) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor constituting the nuclear waste disposal reactor main body (1) constituting the dividing shaft (705) And a dual structure block tank cleaner (794) of a nuclear power plant (704, 705) to constitute a nuclear power plant for nuclear waste disposal.

In the stopper plate 625 of the pipe manufacturing process distribution shaft 705 of the reactor facility of the nuclear hydroelectric power plant having the double structural block tank 598 dust collector 794 constituting the distribution shaft 705,

A bending type press braking type bending machine, a bending type bending type bending machine and a bending type bending type bending machine which are constituted by a reactor facility of a nuclear hydroelectric power plant,

It is equipped with three bending roller bending machines composed of a reactor facility and has a bending and bending machine of high tensile strength steel plate (597) to prepare bending and cutting process ,

The crane crane 861 and the conveyor 633, which are loaded into the conveying process constituted by the reactor facility,

The welding position shift control is provided at the banding joint portion of the high-strength stainless steel plate 597 constituted by the reactor facility,

A welder, a cutting tool, a drill lathe, and a cutter constituting a nuclear reactor facility, and performing a welding process to a banding joint portion of a high-strength stainless steel plate (597) (1) A reactor for nuclear waste disposal of a reactor facility of a nuclear power plant having a double structure block tank dust collector (794) of a distribution shaft (705) of a nuclear waste processing pipe manufacturing process of a nuclear hydroelectric power plant unit (811) And performing an operation to operate the nuclear power plant with the facility,

The reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structural block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

The large flange 614 is connected to the large flange 614 located at the aft and stern connection portion of the dual structure block tank 598 of the reactor unit and has a predetermined size of the stopper plate 625 And is provided as a connection structure of the pipe manufacturing process distributing shaft 705 of the manufacturing and processing shelf process,

In the inner block tank 596 constituted by the nuclear reactor facility and the outer block tank 599 located outside the inner block tank 596, the prefabrication of the nuclear waste disposal pipe manufacturing facility of the double structure block tank collector 794 And,

The internal block tank (596) facility, which consists of a reactor facility,

A crane crane 861 and a conveyor 633 conveying body to be introduced into the outer block tank 599 to prepare a welding process while controlling the positional movement of the pipe manufacturing facility,

(811) consisting of the inside of the main body (1) of the nuclear reactor waste disposal unit equipped with the double structure cylindrical connection structure composed of the reactor facility, the nuclear waste disposal pipe manufacturing process distributing shaft Comprises constructing a reactor plant to operate nuclear reactors in a reactor facility of a nuclear hydroelectric plant having a dual structure block tank cleaner (794) of a nuclear power plant (705)

A double structure block tank dust collector 794 composed of the nuclear reactor facility; a plurality of outer block tanks 599 outside the plurality of inner block tanks 596;

A first auxiliary steel pipe 600 for a block tank and a second auxiliary steel plate 601 for a block tank, a vertical partition wall 605, a horizontal partition wall 609 and a steel beam 149 The first auxiliary steel 600 for the block tank, the second auxiliary steel plate 601 for the block tank, the vertical partition 605, the horizontal partition 609, the steel beam 149, the snap hole 602, (610), a nuclear reactor facility is provided by a computer laser cutter,

The fifth protective walls formed on the outer wall surface of the fourth protective walled container 808 by providing the reactor facility with the welding machine of the welding process while performing the cutting process constituted by the reactor facility,

A double structure block tank dust collector 794 of a nuclear waste disposal pipe manufacturing shaft distributing shaft 705 of a nuclear hydroelectric power generation facility 811 constituting the inside of a distribution dispensing apparatus main body 1 of a nuclear waste disposal reactor installation This includes the construction of nuclear reactors to operate nuclear reactors for the nuclear waste disposal of reactor facilities of nuclear hydroelectric plants,

The reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structural block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

A vertical partition wall 605 provided with a partition wall manhole 610 of a double structure block tank dust collector 794 constituted by a nuclear reactor facility and a horizontal partition wall 609 are provided with a traffic device hydraulic cylinder door 624, 631,

Welding process, and a double structure block tank dust collector 794 for preventing explosion of the nuclear reactor facility is installed in the marine tunnel transportation apparatus provided with the distribution input, A double structure block tank dust collector 794 is provided as a connection structure of a nuclear water hydraulic power plant inside and outside the marine tunnel transportation device in a nuclear waste treatment pipe manufacturing process distribution shaft 705 composed of a hydroelectric power generation facility unit 811 This includes the construction of nuclear reactors to operate nuclear reactors for nuclear waste disposal of reactor facilities of a nuclear power plant,

In the reactor facility constituting the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

Double Structure Block Tank Dust Collector (794) A bending type bending machine, a press braking type bending machine, a bending type roller bending machine, and three bending Type roller bending machine to perform the banding and bending process of the high-strength stainless steel plate 597,

The closure iron plate (625) dust collector (794)

A double structure block tank 598 having a cylindrical egg-shaped coupling structure constituting a dust collector 794 and constituted by a cap-tight coupling assembly of a dual structure block tank 598, a plurality of inner block tanks 596, External block tanks (599) Each of the block tanks has a dust collector (794) facility which constitutes machines of the welding process at the upper and lower ends, the large flange being provided with a bolting connection device,

(794) is installed in the marine tunnel transportation apparatuses provided with the distribution input to prevent the nuclear explosion prevention of the egg type coupling structure composed of the nuclear reactor facility, and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment And a double structure block tank dust collector 794 as a connection structure for a nuclear power plant inside and outside the marine tunnel transportation device of the nuclear waste processing pipe manufacturing process distribution shaft 705 composed of the nuclear hydroelectric power plant part 811, And performing the operation of the nuclear reactor with the reactor facility of the nuclear waste disposal of the reactor facility of the nuclear power plant having the nuclear power plant,

In the reactor facility constituting the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the distribution shaft 705,

A double structure block tank (594) constituting a nuclear reactor plant, a dual structure block tank dust collector (794), a welding process assembly of the bolting coupling assembly and the stopper plate (625) The nuclear hydroelectric power plant unit 811 includes a double structure block tank dust collector 794 of an explosion-proof type of a plurality of nuclear reactor facilities constituting the nuclear waste disposal unit main body 1, A nuclear waste disposal dispensing apparatus comprising a welding process assembly and bolting coupling assemblies,

The apparatus is provided with distribution dispensing apparatuses of a nuclear fuel explosion control apparatus constituting a nuclear waste disposal dispensing apparatus,

Nuclear waste of a reactor facility of a nuclear power plant equipped with a double structure block tank dust collector (794) as a connection structure of a nuclear power plant inside and outside of a marine tunnel traffic apparatus constituting a nuclear waste disposal pipe manufacturing process distribution shaft (705) And performing the operation of the nuclear reactor with the reactor facility of the treatment,

The reactor facility for nuclear waste disposal in the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 includes a small (593,594,595) of medium and large sized marine nuclear hydroelectric power plants, and the location of the nuclear hydroelectric power plant (811) is arranged at the top of the sea level of 40m excluding the weather condition of earthquake and tsunami by disaster prevention device It is equipped with mooring device and submersible buoyancy control device installed in barge preventing sink type to control the position of nuclear hydroelectric power plant so as to operate nuclear power plant to prevent explosion of nuclear power plant with many nuclear power plants excluding the effect of earthquake and tsunami. And,

In the reactor facility for nuclear waste disposal in the nuclear hydroelectric power plant 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705,

In the nuclear hydropower generation facility unit 811 constituting the reactor facility for nuclear waste treatment,

(794) installed in marine nuclear power plants to ensure safe and continuous operation of nuclear reactors by installing a dual structure block tank dust collector (794) installed to prevent explosion of a large number of nuclear reactor facilities in the nuclear fuel chamber constituting the prevention of environmental pollution caused by nuclear waste (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants to ensure the safety of nuclear hydroelectric power plants and to guarantee the renovation of nuclear reactor facilities through continuous operation. ) Nuclear waste in the nuclear waste treatment system, which is a connection structure of nuclear hydroelectric power plants, in and out of the marine tunnel transportation device inside and outside of the system Dispensing device of the reactor facility for nuclear waste disposal with the fuel cycle of the nuclear fuel industry Having a dual structure block tank cleaner 794 of a distribution shaft 705, Nuclear reactor plant with a bovine hydraulic nuclear waste in power plants unit 811 processing includes performing a configuration achieve a nuclear power plant operation,

The nuclear fuel cycle of the nuclear waste fuel industry of the nuclear waste processing apparatus constituting the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705,

(593,594,595) Nuclear power plants (672) of small, medium and large sized nuclear hydroelectric power plants constituting nuclear fuel cycle of nuclear waste fuel industry and distribution facility of nuclear reactor waste treatment facility (1) The spent fuel fuel 683 of the nuclear waste fuel industry of the nuclear waste disposal apparatus constituting the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 which distributes the spent nuclear fuel, Wow,

The remaining uranium 812 constituting the nuclear fuel cycle provides for the processing of fuel 683 at the reprocessing plant 228,

At the conversion plant 229, processing is provided with uranium fluoride 812,

The nuclear waste fuel processing equipment of the nuclear waste disposal facility is provided with the fuel cycle of the nuclear waste fuel industry, and the enrichment plant 230 is provided with the transfer of the nuclear fuel 683 to the carrier,

The conversion of uranium fluoride 812 to uranium dioxide conversion plant 229 is provided,

And a fuel rod (689) constituting processing in the state of pellets (683) constituting the fuel cycle,

Plutonium 801, processed at the reprocessing plant that makes up the nuclear fuel cycle,

The fuel rods 689 are prepared at the conversion / processing factory 231,

The reprocessing fuel rods 689 constituting the nuclear fuel cycle,

And a forklift carrier constituting transfer of the nuclear fuel 683 to the nuclear power plant 672,

The nuclear power plant 672 constituting the nuclear fuel cycle, the reprocessing plant 228, the concentration plant 230, the conversion plant 229, the conversion and processing plant 231,

(705) of the nuclear fuel industry located at the top of deck-top deck, and a nuclear waste (224) disposal input and output facility equipped with a nuclear power plant (672 Including the nuclear fuel cycle of the nuclear fuel industry to prevent nuclear radiation contamination,

A nuclear power plant having a dual structure block tank dust collector 794 of a distribution shaft 705 constituting a distribution input apparatus main body 1 of a nuclear waste treatment facility for treatment of nuclear waste 224 constituting a nuclear fuel cycle, The nuclear fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the nuclear hydroelectric power plant 811 of the nuclear power plant,

(593,594,595) of small, medium and large sized nuclear hydroelectric power plants constituting the nuclear fuel cycle, and mooring devices and diving buoyancy control devices and nuclear waste disposal devices installed in nuclear power plants (672). The nuclear hydroelectric power plant of the nuclear power plant having the double structure block tank dust collector 794 of the nuclear waste disposal dispenser equipment distribution shaft 705 of the reactor facility at the nuclear hydroelectric power facility 811 before and after the safe operation of the nuclear reactor facility (811) of the nuclear shipbuilding plant of nuclear waste disposal facility, which is composed of disassembly-connectable connection structures at the marine shipbuilding factory of Shipbuilding Corporation (811)

The nuclear fuel cycle of the nuclear waste fuel industry constituting the nuclear waste disposal apparatus of the nuclear power hydroelectric power plant unit 811 of the nuclear power plant having the double structural block tank dust collector 794 of the distribution shaft 705 constituting the nuclear reactor facility ,

Nuclear waste treatment plant manufacturing process consisting of reactor facilities of nuclear power plant of land and ocean constituting nuclear fuel cycle and nuclear power plant (811) constituting inside of main body (1) of distribution dispensing apparatus of nuclear waste treatment facility A dual structure block tank (794) of the distribution shaft (705) of the nuclear waste disposal facility (794), constituting a nuclear fuel plant of the nuclear waste disposal apparatus, constituting the nuclear fuel cycle of the nuclear power plant before and after the nuclear power plant operation;

Nuclear waste treatment pipe manufacturing process consisting of a nuclear hydropower generation facility part (811) constituting a distribution dispensing device main body (1) of a nuclear waste disposal treatment facility In the case of repairing the inside and outside of the transportation device of the distribution shaft (705) (794) a nuclear waste disposal pipe manufacturing process; (c) a reactor structure having a control rod brush structure;

Nuclear power plant facilities (811) of the reactor facilities of nuclear reactors constituting nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant facilities (1) A plurality of nuclear reactors of the nuclear power plant configured to operate the nuclear power plant with a double structure block tank dust collector 794 of the process tube manufacturing distribution shaft 705 and a nuclear waste disposal marine tunnel transportation device 941 ), A construction machine equipped with a nuclear waste disposal truck and a position control system, a wind power generator, a thermal power generator,

And a plurality of nuclear reactor facilities installed in a reactor facility of a nuclear hydroelectric power plant having a dual structure block tank dust collector.

Alternatively, it may be equipped with storage tanks for nuclear nuclear waste disposal shielding apparatus constituted inside the main body (1) of the dispensing apparatus main body of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, The connection shaft of the regulating shaft, which is connected to the distribution shaft constituting the waste treatment capacity adjustment,

A plurality of nuclear reactor installations of a nuclear hydroelectric power plant having a double structure block tank dust collector 794 constituting a nuclear reactor operation of the connection shaft are provided with a boiling water reactor assembly 802 and a pressurized water reactor assembly 803 A gas cooling furnace reactor installation 804 and a multipurpose hot gas supply reactor 805 and a plurality of conversion furnace installation 806 and a fast breeder reactor installation 838, (811) of the nuclear power plant (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal facility for the nuclear waste hydrocarbons equipped with the double structure block tank dust collector, The nuclear waste disposal system of the nuclear waste disposal system of the nuclear waste disposal unit 811a,

At the connection axis of the regulating shaft constituting the nuclear waste disposal capacity regulation,

The main body 1 of the nuclear reactor waste disposal reactor constituting the connecting shaft of the control shaft is connected to the holding block tank (not shown) of the nuclear hydropower generation facility 811 constituting the inside of the distributing and inputting apparatus main body of the individual nuclear waste disposal reactor apparatus 590 are connected to a power transmission unit 811d that provides decomposition coupling to the nuclear waste treatment dual structural block tank bridge pier 928 and dual structure block tank bridge bridge marine tunnel traffic equipment 941 ) Having a connection structure capable of disassembling and coupling coupling shafts and having a plurality of reactor equipment manufacturing apparatuses constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus and storage tanks of the nuclear waste disposal shield apparatus Nuclear power plants and nuclear reactors of nuclear power plants, which are equipped with connection shafts of regulating shafts which are provided with discharged nuclear waste, As anti-explosion equipment (803), and

A double structure block tank dust collector 794 for controlling the nuclear radiation leakage constituting the pressurized water type reactor reactor facility 803 is provided with reactor facilities to prevent leakage of nuclear radiation,

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plant of land and ocean and nuclear power hydroelectric power plant The double-structure block tank reactor of the nuclear power plant of the nuclear power plant of the connection shaft of the nuclear power plant nuclear waste processing unit 811a of the reactor facility constituting the dual structure block tank dust collector installation of the unit 811,

(593,594,595) Nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants constituting the pressurized water reactor facility (803) and the inside of the distribution input unit main body (1) of nuclear reactor waste treatment facility (683) Explosion Control Distribution Dispensing Apparatus with Dual Structure Block Tank Dust Collector (794) Controlling Nuclear Radiation Leakage to Control the Nuclear Radiation Leakage of Nuclear Fuel The method of claim 1,

(811) located at the top of the sea level (40 m above sea level) excluding the weather condition of the earthquake and tsunami constituting the pressurized water reactor installation (803) by the disaster prevention device, Barge line Reactor facility Safety operation Reactor facility to establish safe reactor facility safety facility Safety device Double structure block to control nuclear radiation leak that prevents explosion of nuclear power plant nuclear power plant Nuclear power plant Double structure block tank Dust collector (794) Reactor facility And the operation of the nuclear power plant is performed by providing a pressurized water type reactor installation 803,

In the pressurized water type nuclear reactor facility 803 of the connection shaft of the nuclear power generation nuclear waste processing unit 811a constituting the pressurized water type nuclear reactor facility 803,

The steam generator 810 exchanges the water and the steam 780 without generating water vapor by applying pressure constituting the pressurized water reactor assembly 803 so as to make the steam turbine rotate while exchanging the water and the steam 780 in the steam generator 810, A control rod 798 is provided inside the reactor pressure vessel 813 and a coolant pump 243 is provided below the steam generator 810 and the steam generator 813 on the side of the pressure vessel 813, Provide turbine rotation,

A turbine 267 and a generator 772 are formed at an intermediate portion between the pressure vessel 813 constituting the pressurized water reactor assembly 803 and the steam generator 810 and the cooling water 287 is injected into the condenser 790 Provide cooling water discharge with waterproofing,

The water supply performance is provided to the steam generator 810 through the water supply pump 241 connected to the condenser 790 constituting the pressurized water type reactor installation 803 and the water supply performance of the small, (593,594,595) Nuclear power plant (672) and double tube structure block piping line located inside the dispensing device main body (1) of nuclear reactor waste treatment facility (74) Nuclear waste location movement path And a nuclear waste disposal unit 811a to provide a nuclear waste disposal unit 811a, and a nuclear waste disposal location control unit and a nuclear waste disposal site including a double piping line 74 are provided ,

To constitute the pressurized water type nuclear reactor facility 803 and to operate the nuclear reactor of the connection shaft constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the pressurized water reactor facility 803,

The nuclear radioactive contaminants constituting the inside of the nuclear power generation nuclear waste processing unit 811a of the nuclear power generating facility unit 811 constituting the pressurized water type nuclear reactor facility 803 are connected to a plurality of temperature pressure detecting sensor safety pressure sensor In addition,

When the nuclear power plant constituting the pressurized water type nuclear reactor facility 803 is in operation,

When the temperature reaches 700-800 degree high temperature and high pressure inside the nuclear reactor facility, the temperature and pressure sensors provide alarm messages to the computers in the safety control room, The inner block piping line 74a of the small pressure vessel 813 is connected to the inner block tank of the pressure vessel 813 while the explosive nuclear waste passes through and the nuclear waste is stored at the lower end of the double structure block tank. (472) is opened,

As the outer block piping line 74b constituting the pressurized water reactor assembly 803, the fuel explosion prevention control article stored in the inner block tank is connected to the flickering warning lamp 99 of the temperature pressure sensor, the pressure gauge 101, A thermostat thermometer sensor switch 103 having a connection structure with the bimetal 102, a level pressure switch 104 for controlling flow rate check, a flow meter 105 for flow rate check, and a pipeline automatic pneumatic valve transfer device A plurality of through holes of the double pipe structure block piping line 74 are cut at a predetermined angle of 45 degrees at the upper end of the reactor building 688 by a cutter and a construction machine drill machine Through hole processing is provided,

A double pipe structure block piping line (74) is formed in a plurality of through holes of a double structure block tank reactor reactor facility constituting the pressurized water reactor installation (803)

A plurality of safety valves 472 constituting the pressurized water reactor assembly 803 are provided on the block piping line 74 with bolts 24 and nuts 25 with flanges connected to gaskets 32,

The outer block tank 599 for storing the nuclear waste is disposed at one location of the double structure block tank 598 having a size twice the diameter of the reactor provided on the outer wall surface of the reactor building 688 constituting the pressurized water reactor installation 803. [ And dual structure block tank dust collector reactor facilities, and combined with a radiation type connection structure to provide nuclear waste disposal dispensing apparatus and nuclear fuel (683) explosion control dispensing apparatus,

To constitute the pressurized water type nuclear reactor facility 803 and to operate the nuclear reactor of the connection shaft constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the pressurized water reactor facility 803,

Explosion prevention of the nuclear fuel 683 of the pressurized water reactor reactor facility 803 constituting the pressurized water reactor installation 803 can be prevented,

The nuclear reactor 681 of the pressurized water reactor installation 803 and the nuclear fuel 683 immediately before the reactor explosion outside the reactor core 681 are provided with explosion- A double structure block tank reactor in the main body 1; a nuclear waste disposal unit 811a having a nuclear reactor facility; a temperature sensor for detecting the temperature and pressure of the pressurized water reactor reactor 803, Provide explosion-proof control supplies,

(593,594,595) of marine nuclear power hydroelectric power plants of small size, medium and large scale, which constitute a pressurized water reactor installation (803). Distribution of mooring devices and diving buoyancy control devices and nuclear waste disposal in nuclear power plants (672) Device and pressurized water reactor (803) before and after operation of the reactor facility Dual structure block in the nuclear power plant (811) at the nuclear power plant nuclear waste treatment section (811a) of the reactor facility (794) And the pressurized water reactor reactor facility 803 among a plurality of nuclear reactor facilities therein,

A decompression and connection structure constituting the pressurized water reactor assembly 803, which comprises a connection shaft constituting the inside of the main body 1 of the reactor installation for nuclear waste disposal, in order to perform nuclear power operations;

The nuclear waste reactor treatment facility 804 constituting the gas cooling furnace reactor facility 804 comprises the storage tanks of the nuclear reactor waste disposal shielding apparatus constructed inside the main body 1 of the dispensing apparatus main body 1, The connection shaft of the adjustment shaft connected to the distribution shaft,

In the gas cooling furnace reactor facility 804 among the plurality of reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the operation of the connection shaft constituting the gas cooling furnace reactor facility 804,

(593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the gas cooling furnace reactor facility (804) The nuclear reactor facility 811 of the nuclear power plant 811 inside the reactor core 1 is provided with a gas cooling furnace reactor 804 constituting a double structure block tank collector 794 for nuclear waste treatment of the connection shaft,

A nuclear radiation leakage control dual structure block tank dust collector (not shown) comprising a floating nuclear fuel plant 672 of a marine power plant constituting a nuclear reactor furnace facility 804 and a distribution input apparatus main body 1 of a reactor facility for nuclear waste treatment, (794), and a nuclear fuel explosion control distribution dispensing apparatus. A plurality of nuclear reactor facilities are installed on a barge of an anti-sunken double structure block tank of the ocean.

Earthquake, and tsunami disaster prevention devices, the installation of the nuclear power plant (811) located at the top of the sea level at sea level (811) Safety building and safe operation device Double structure block tank dust collector equipped with nuclear radiation leak control to prevent nuclear explosion of nuclear power generation of nuclear power plant of nuclear power plant (794) Nuclear power generation facility (811 (804) of the nuclear cooling waste furnace reactor (811a) of the nuclear power generation nuclear power plant (801) to be installed in the reactor main body (1) of the nuclear waste disposal reactor,

A nuclear cooling power reactor unit 811 constituting the gas cooling furnace reactor facility 804 and a nuclear reactor waste reactor 811a constituting the gas cooling furnace nuclear reactor facility 804, (804)

A nuclear egg of a nuclear power plant is injected into the inside of the connection shaft constituted by the floating type nuclear power plant 672 of the marine power plant constituting the gas cooling furnace reactor facility 804 and the inside of the distribution injecting apparatus main body 1 of the nuclear waste treatment nuclear plant, A nuclear reactor furnace facility 804 among a plurality of nuclear reactor facilities for nuclear explosion-proof nuclear waste treatment in the form of a nuclear reactor, and graphite is provided with a moderator 676,

The coolant 816 includes a gas-cooled furnace reactor 804 equipped with carbon dioxide 164,

When the natural uranium 812 and the enriched uranium 235 812 are provided for the gas cooling furnace reactor 804 constituting the gas cooling furnace reactor facility 804 and the carbon dioxide is provided as the coolant 816 ,

The gas cooling furnace 804 is provided with high-pressure, high-pressure steam of a strong gas as a vapor condition, and a nuclear power plant having the same thermal efficiency as that of the thermal power generation in the dual structure block tank dust collector 794. Includes a reactor installation 804,

On the circumferential surface of the nuclear reactor furnace facility 804 constituting the reactor facility of the nuclear power plant,

Nuclear explosion-proof dual structure block tanks in the form of a cylindrical egg making up a nuclear reactor furnace facility (804) Radioactive nuclear waste treatment reactor equipment and nuclear fuel (683) Distribution of reactor facilities for nuclear waste disposal with explosion control equipment And a gas cooling furnace reactor facility (804) constituted by charging a nuclear waste disposal unit (811a) having a double structure block tank dust collector reactor unit constituted inside the apparatus main body (1)

(593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant of the ocean which constitutes a gas cooling furnace reactor facility (804), a mooring device and a diving buoyancy control device and a nuclear waste treatment (811a) Nuclear power plant nuclear waste treatment section (811a) Double structure block tank dust collector (794) Before and after safety operation of nuclear power plant in distribution facility and reactor facility Nuclear power plant facilities (811a) (804) of the gas cooling furnace (804) to provide the connection shaft to constitute the operation of the nuclear power plant and to be disassembled and coupled, and is constituted inside the main body (1) of the nuclear reactor waste disposal unit Incorporating the operation of the nuclear reactor of the connection axis;

As the multi-purpose high temperature gas inside the dispensing and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility, there are provided storage tanks for the nuclear nuclear waste disposal shielding apparatus constituting the nuclear reactor facility 805, The connection shaft of the adjustment shaft connected to the distribution shaft,

The multipurpose hot gas furnace reactor 805 among the plurality of reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the reactor operation of the connection shaft constituting the reactor facility 805 with the multi- ,

(593, 594, 595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting reactor facilities (805) with multipurpose hot gas, and a distribution dispensing apparatus main body A multi-purpose high-temperature gas furnace reactor (804) constructed in a double structure block tank dust collector (794) for nuclear waste treatment on a connection shaft of a nuclear power nuclear waste treatment section (811a) included in a nuclear hydroelectric power generation facility section (811) 805)

A nuclear waste disposal control unit comprising a nuclear radiation leakage control dual structure block tank dust collector 794 constituting a nuclear waste disposal reactor facility constituting a reactor facility 805 with a multipurpose hot gas, Apparatus and Nuclear Fuel (683) Explosion Control Dispensing Apparatus A method of disposing a plurality of reactor installations on a barge of an anti-sunken dual structure block tank of the ocean,

The nuclear power generation nuclear waste treatment section 811a of the nuclear reactor facility in the nuclear hydroelectric power generation facility section 811 located at the upper 40 m of the sea level excluding the weather condition constraints of the earthquake and tsunami constituting the nuclear reactor facility 805 by the multipurpose hot gas, ) Barge line reactor facility with anti-sink type barge with installation location of distribution shaft of connecting shaft Includes reactor facility which constitutes safety of reactor facility before and after safe operation,

(805) with multi-purpose high-temperature gas. A double structure block tank dust collector (794) equipped with a nuclear radiation leak control for preventing explosion of a plurality of nuclear reactor facilities of a nuclear power plant of a nuclear power plant, The nuclear reactor nuclear waste treatment unit 811a of the nuclear power generation facility 811 constituting the inside of the main body 1 of the distribution reactor of the nuclear reactor installation of the present invention, And,

The multi-purpose high-temperature gas furnace reactor 805 constituting the inside of the connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power plant unit 811 constituting the nuclear reactor facility 805 with the multipurpose hot gas,

Graphite is provided as the moderator 819 constituting the reactor facility 805 with the multi-purpose high-temperature gas, helium gas 176 is provided as the coolant 816,

The fuel constituting the reactor facility 805 with the multipurpose hot gas is supplied with enriched uranium 812 and thorium and the heat of the helium gas 176 is transferred to the water to generate the steam 780 from the steam drum 792 Water and steam (780) separate and provide for transferring the steam (780) to the turbine (267)

(593,594,595) nuclei of small, medium and large sized marine nuclear hydroelectric power plants in the ocean while generating power within the generator (772) by rotation of the turbine (267) constituting the reactor facility (805) And a double structure block tank dust collector 794 of a connecting shaft constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear reactor facility for waste treatment,

A nuclear waste locating passage is provided by a double tube structure block piping line 74 constituting a nuclear reactor facility 805 by a multipurpose hot gas,

A multi-purpose high-temperature gas is used to constitute a nuclear reactor (805). A plurality of nuclear radiation pollutants are detected by a temperature sensor. A temperature sensor of a safety valve detects the temperature of the reactor. The temperature inside the reactor is 700 to 800 degrees. The temperature and pressure sensor includes an alarm message for preparing a transmission to the safety control room computer,

The explosion nuclear waste is passed through the internal block piping line 74a of the pressure vessel 813 of each of the individual units while providing a plurality of openings for each of the plurality of temperature pressure sensor safety valves constituting the reactor facility 805 by multi- And a safety valve 472 for storing the nuclear waste at the bottom of the structural block tank precipitator 794 and providing an opening to the temperature pressure sensing sensor connected to the inner double structure block tank at the lower end of the pressure vessel 813,

As the outer block piping line 74b constituting the reactor facility 805 with the multi-purpose high-temperature gas, an explosion-proof control material fuel explosion-preventing control article stored in the inner block tank 683 is connected to the automatic injector flashing warning lamp 99 A thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 101 and a temperature sensing sensor bimetal 102, a level pressure switch 104 for flow rate check operation, a flow rate meter 105 for flow rate check, And a connection structure provided with safety valves 472 of the automatic pneumatic valve transport device 916,

A plurality of through holes are formed at an angle of 45 degrees at an upper end of the reactor building 688 constituting the nuclear reactor facility 805 by the multi-purpose high-temperature gas, the through holes are machined by a cutting machine and a construction machine drilling machine,

The block piping line 74 and the plurality of safety valve 472 facilities are provided in the plurality of through holes constituting the reactor facility 805 with the multipurpose hot gas to form the double pipe structure block piping line 74, And a flange forming a connection connection with the nut (25) and the gasket (32)

On the outer wall surface of the reactor building 688 constituted by the inside of the double structure block tank dust collector 794 constituting the reactor facility 805 with the multipurpose hot gas,

The double structure block tank dust collector 794, which is twice as large as the reactor building 688 constituting the reactor facility 805 with the multi-purpose high temperature gas, is equipped with an outer block tank 599 for storing nuclear waste treatment, (683) explosion control dispensing device combined with a nuclear waste disposal dispenser combined with a form connection structure and the reactor facility is installed inside the reactor core (681) and outside the reactor core (681). The nuclear fuel (683) And a plurality of nuclear reactors connecting structures constituting the interior of the main body 1 of the nuclear reactor waste disposal facility for land and marine nuclear waste,

A multi-purpose high-temperature gas reactor (805) comprising nuclear fuel explosion-proof control articles to control the nuclear waste disposal reactor main body (1) Nuclear Radiation Leakage Control of Waste Shielding Equipment and Nuclear Reactor Facilities Dual Structure Block Tank Dust Collector (794) Dispensing input and distribution system of nuclear reactor waste disposal unit for marine nuclear power plant (794) A multi-purpose high-temperature gas reactor (805) structure that constitutes the operation of a nuclear reactor by including it in a nuclear reactor facility.

Mooring devices and diving buoyancy control devices and distribution and input devices for nuclear waste disposal and nuclear reactor facilities installed in a marine power station floating nuclear power plant (672) constituting a reactor facility (805) with multi-purpose hot gas. A double structure block tank dust collector 794 equipped with a nuclear radiation leakage control of the nuclear reactor facility in the hydroelectric power generation facility 811, a nuclear waste nuclear power plant 811a of the nuclear hydroelectric power plant 811 constituting the inside of the nuclear reactor facility, (805) from the multi-purpose high-temperature gas among the nuclear reactor facilities, and can be disassembled and coupled at a marine vessel manufacturing plant, the main body 1 of the reactor apparatus for nuclear waste treatment, And to make the operation of the nuclear reactor of the connecting shaft constituting the inside;

The nuclear waste disposal system of the nuclear waste disposal facility may be provided with storage tanks for the nuclear waste disposal system of nuclear reactors 806 constituting the new conversion furnace facility 806, The connection shaft of the adjustment shaft, which is connected to the distribution shaft,

In the new conversion furnace facility 806 among the plurality of reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the operation of the nuclear power plant connected to the connection shaft constituting the new type conversion furnace 806,

(593, 594, 595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting reactor facilities (806) The new conversion furnace facility 806 constituting the double structure block tank dust collector 794 for treating nuclear waste as a connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power generation facility unit 811 constituted inside ,

A nucleus having a double structure block tank dust collector 794 in the form of a nuclear radiation leak control cylindrical egg constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the nuclear reactor waste facility 806 constituting the new type conversion (683) Explosion-Controlled Dispensing Apparatus A number of reactor installations are included in the barge of an anti-sinking dual structure block tank of the ocean,

(811) located at the top of the sea surface (40 m above sea level), which excludes the weather condition of the earthquake and tsunami constituting the reactor facility (806) with the disaster prevention device, Nuclear Reactor Installed on the Barge of the Nuclear Power Plant Reactor Facility Safety Operation Unit,

(593,594,595) Nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting reactor facilities (806) The nuclear radiation leak control dual structural block tank dust collector 794 provided at the connection axis of the nuclear power nuclear waste treatment section 811a of the nuclear hydroelectric power generation facility section 811 preventing the nuclear explosion of a plurality of nuclear power generating nuclear power plants, And includes a new conversion furnace reactor arrangement (806)

The structure of the new conversion furnace facility 806 constituting the connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power plant unit 811 constituting the nuclear power plant 806 of the new conversion type,

The coolant 816 is provided with the hard water 654a whose degree of utilization of the nuclear fuel 683 constituting the nuclear reactor facility 806 is increased by the new conversion,

The water cooler 816 constituting the reactor facility 806 is selected as the new type of conversion and the hard water 654a is selected as the coolant for the reactor equipment 806 and the water 654 and the steam 780 are separated and the steam 780 is transferred to the turbine 267 through the steam pipe 779 and the turbine 267 rotates to provide power generation inside the generator 772, ) Equipment,

The heavy water 654b has a smaller absorption of the neutrons 675 than the light water 654a and the use efficiency of the uranium 812 is lower than that of the heavy water 654a, As the rising fuel, plutonium (801) and natural uranium (812) are mixed with a mixer mixer machine (649)

The operation of the nuclear reactor (806), which is a new type of conversion, includes rotating operation of the turbine (267) by using the nuclear fuel (683) (794) Nuclear power plant part (811) consisting of nuclear reactor internal parts Nuclear waste treatment part (811a) New type conversion reactor part (806) A dual structure block tank scrubber 794,

(794) Double pipe structure piping line (74) to establish the position inside the nuclear reactor facility (74) Nuclear waste location movement control device is provided to control the location of nuclear waste movement and,

A new type of reactor converts the nuclear radiation pollutants constituting the nuclear reactor facility (806) to a plurality of temperature pressure sensors. The temperature sensor of the safety valve detects the temperature of the reactor inside the nuclear reactor at a temperature of 700 to 800 degrees Celsius In case of reaching, the temperature and pressure sensor sets up the alarm message transmission to the computer of the safety control room,

As a result of the new conversion, explosive nuclear waste passes through the inner block piping line 74a of the pressure vessel 813 of each of the individual bins while providing a plurality of openings for each of the plurality of temperature-sensing sensor safety valves constituting the reactor facility 806, A safety valve 472 constituting an opening is provided for the temperature pressure sensor connected to the inner double structure block tank at the lower end of the pressure vessel 813 while the nuclear waste is stored in the lower portion of the block tank precipitator 794,

The outer block piping line 74b constituting the reactor unit 806 with the new type of conversion is provided with the mixture of the heavy water 654b and the yellow water mixture 656 stored in the inner block tank and the nuclear fuel 683, The explosion prevention control device is connected to the thermostat thermometer sensor switch 103 having a connection structure with the flashing warning lamp 99 of the input device temperature sensor, the pressure gauge 101 and the bimetal sensor 102, And a safety valve 472 having a connection structure to a pressure switch 104, a flow meter 105 for flow rate check, and pipeline automatic pneumatic valve conveying devices 916,

A plurality of through holes are formed at an angle of 45 degrees at an upper end portion of the reactor building 688 constituting the reactor facility 806 by the new conversion, and a through hole processing is provided by a laser cutting machine and a construction machine drilling machine, Block piping line 74 while forming structural block piping line 74 A plurality of safety valve 472 arrangements are provided with flange connection connections with bolts 24 and nuts 25 and gasket 32, The double structure block tank dust collector 794, which is twice the diameter of the nuclear reactor building 688 formed on the outer wall surface of the reactor building 688, is provided with an outer block tank 599 for storing nuclear waste, (683) explosion-control distribution dispensing devices coupled to a nuclear reactor waste disposal unit (806) coupled to the nuclear waste disposal unit (806)

A new type of reactor is used to construct nuclear reactor (681) inside the nuclear reactor facility (806), and to prevent nuclear explosion immediately before the nuclear reactor explosion outside the reactor core (681) (1) of the reactor installation for nuclear waste disposal of a marine nuclear hydroelectric power plant having a block tank dust collector, and a nuclear reactor waste containment control device (1) Nuclear reactor nuclear fuel explosion prevention reactor consisting of internal nuclear reactor facility (1) Nuclear reactor leakage and nuclear reactor waste disposal system and nuclear reactor waste disposal control system (794) Provide a distribution input,

(683) Dual structural block with explosion-proof tank dust collector (794) Nuclear reactor nuclear fuel (683) that constitutes inside the main body (1) of the nuclear reactor waste disposal facility constituting the reactor facility (806) And includes a new conversion furnace reactor facility 806 for constructing a nuclear reactor to operate the nuclear reactor,

(593, 594, 595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the reactor facility (806) with the new conversion type, and the mooring device, diving buoyancy control device and nuclear waste treatment (794) Nuclear Hydroelectric Power Plant (Nuclear Power Plant) Consisting of Nuclear Hydroelectric Power Plant (Nuclear Power Plant) in Nuclear Power Plant (811) Before and After Safety Operation of Nuclear Power Plant Of the plurality of reactor facilities of the nuclear power plant having the nuclear reactor nuclear waste treatment unit 811a and the dual structure block tank collector 794 of the facility unit 811, And includes a disassemblyable connection structure at a marine vessel manufacturing plant;

(838) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector is stored in the nuclear waste disposal shield device The connection shaft of the regulating shaft, which is connected to the distribution shaft, which is provided with tanks and which regulates the nuclear waste disposal capacity,

In the fast breeder reactor facility 838 among the plurality of nuclear reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear reactor operation of the connection shaft constituting the fast breeder reactor facility 838,

(593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting a fast breeder reactor facility (838) The high speed propagating furnace reactor 838 constituting the double structure block tank precipitator 794 in the form of a cylindrical egg for nuclear waste treatment is connected to the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power plant 811, ),

A nuclear waste disposal dispensing apparatus and nuclear fuel (683) explosion control dispensing apparatus having a dual structure block tank dust collector (794) in the form of a nuclear radiation leak control cylindrical egg constituting a fast breeder reactor facility (838) The installation includes the step of providing the installation to the marine anti-sinking double structure block tank float type double barge,

The installation position of the distribution power input unit of the nuclear hydroelectric power plant unit 811 positioned at the upper 40 m of the sea level excluding the weather condition constraints of the earthquake and tsunami constituting the reactor plant 838 of the fast breeder reactor, (672) of the reactor facility safety operating device and the marine power plant that form the safety of the nuclear reactor facility safety operation of the barge line of the nuclear power plant of the nuclear power plant and the nuclear power plant (1) The nuclear radiation leakage control unit provided in the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power generation facility 811 for preventing the explosion of the nuclear power generation of the nuclear power plant, (FBR, 838) reactor,

 (593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting a fast breeder reactor facility (838) The concentrated uranium 235 (812) is concentrated in the central portion of the fuel rod 689 to about 20% in the high-speed propagating furnace reactor 838 constituting the double structure block tank precipitator 794 of the nuclear hydroelectric power plant 811, A mixture of enriched uranium (812), natural uranium (812) and plutonium (812)

The fuel rod 689 constituting the reactor plant 838 is surrounded by natural uranium 812,

In the fuel rod 689 constituting the fast breeder reactor facility 838, the uranium 238 (653a) is converted into the plutonium 801,

The entry and exit of the plutonium 801 constituting the high-speed propagation furnace reactor facility 838 is provided,

Use is provided as the next fuel constituting the fast breeder reactor facility 838,

Liquid sodium metal is provided in the coolant 816 constituting the reactor plant 838 for fast breeder reactor,

In the fast breeder reactor facility 838 constituting the coolant 816,

It is not necessary to decelerate the neutrons 675 constituting the reactor plant 838 and the heat generated in the reactor installation in the intermediate heat exchanger 657 is transferred from the intermediate heat exchanger 657 &Lt; / RTI &gt; other liquid metal sodium constituting the &lt; RTI ID =

The heat exchanger 658 constituting the fast breeder reactor facility 838 transforms the water 654 into steam 780 by the heat of the liquid sodium to form the nuclear power while the steam turbine 267 provides rotation, Nuclear power generation facilities (811) of the nuclear power plant (811) consisting of the main body (1) of the distributing and inputting device of the nuclear waste treatment facility of the floating type poison (593,594,595) of the marine nuclear hydroelectric power plant of small, (811a) a double structure block consisting of a cylinder egg for nuclear waste treatment as a connection axis, and a high-speed multiplication reactor unit (838) constituting a double tank block dust collector (794) And a nuclear waste locating passage constituting a nuclear waste locating motion regulating device (74), which is located at a nuclear reactor facility (838)

The temperature of the safety valve of the safety valve is detected by the sensor. The temperature of the inside of the reactor facility is 700 to 800 degrees. The dangerous state of the high temperature and high pressure state , The temperature and pressure sensor sets up an alarm message transmission to the computer of the safety control room,

The explosion nuclear waste is passed through the internal block piping line 74a of the pressure vessel 813 of each pit while providing a plurality of openings to each of the plurality of the temperature and pressure sensing sensor safety valves constituting the fast breeder reactor facility 838, And a safety valve 472 for storing the nuclear waste at the bottom of the block tank precipitator 794 and providing an opening for the temperature pressure sensing sensor constituting the connection with the inner double structure block tank at the lower end of the pressure vessel 813,

As the outer block piping line 74b constituting the high-speed breeder reactor facility 838, the fuel explosion-proof control fuel element explosion prevention control article stored in the inner block tank is connected to the flashing warning lamp 99 of the input unit temperature sensor, A thermostat thermometer sensor switch 103 having a connection structure with a bimetal sensor 101 and a temperature sensing sensor 102, a level pressure switch 104 for flow rate check operation, a flow meter 105 for flow rate check, And a safety valve 472 of the pneumatic valve conveying device 916. A plurality of through holes are formed at the upper end of the reactor building 688 at a predetermined angle of 45 degrees to cut the cutter and the construction machine drill machine And a plurality of through holes are formed in a double pipe structure block piping line (74);

The block piping line 74 constituting the fast breeder reactor facility 838 includes a plurality of safety valves 472,

A bolt 24, a nut 25 and a gasket 32 constituting a reactor plant 838 for a fast breeder reactor are provided to connect flanges to each other,

In a single installation of a double structure block tank dust collector 794 having a size twice as large as the diameter of the reactor building 688 constituting the outer wall surface of the reactor building 688 constituting the fast breeder reactor facility 838,

The nuclear waste disposal dispenser and the nuclear fuel (683) combined with the outer block tank (599) for the nuclear waste disposal and the radiation type connection structure constituting the fast breeder reactor facility (838) Inside the core (681) inside the facility and outside the core (681), it is equipped with control items to prevent the explosion of the nuclear fuel just before the explosion of the nuclear reactor, and distributes the nuclear reactor facilities for land and ocean nuclear waste. (838) connection shaft comprising a reactor

A plurality of reactor facility connection structures are provided on the connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydropower generation facility unit 811 constituting the fast breeder reactor facility 838,

(683) constituting the nuclear fuel reactor (838) constituting the fast breeder reactor constitutes an explosion-proof control apparatus, and constitutes the operation of the nuclear fuel explosion prevention nuclear reactor constituting the inside of the main body (1) of the nuclear reactor waste disposal apparatus. (794) distribution of nuclear reactor effluent control nuclear reactor waste disposal system and nuclear reactor waste disposal system,

A double structure block tank dust collector installed in the main body (1) of the distribution input device of the nuclear waste disposal reactor for supporting the floating nuclear fuel of the marine nuclear hydroelectric power plant constituting the fast breeder reactor facility (838) (794) to construct a nuclear reactor plant with a high-speed multiproduct reactor facility (838);

Mooring devices and diving buoyancy control devices for nuclear power plant floating nuclear power plant (672) constituting the fast breeder nuclear reactor facility (838), nuclear power plants before and after safe operation of distribution facility and reactor installation for nuclear waste disposal A double structure block tank dust collector 794 equipped with a nuclear radiation leakage control of the nuclear reactor facility in the power generation facility 811, a nuclear waste nuclear power plant 811a of the nuclear power hydroelectric power plant 811 constituting the inside of the nuclear reactor facility, A connection axis for establishing a fast breeder reactor installation (838) among reactor installations;

And is constructed as a connection structure that can be disassembled and coupled at a marine shipbuilding factory so as to operate the nuclear power plant.

Alternatively, the dual structure of the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plants having the double structure block tank dust collector of the land and sea, Block Tank Dust Collector Nuclear Waste Treatment Tube Manufacturing Process Dispense Shaft (705)

(593, 594, 595) nuclear power plant (672) of a marine small-sized and medium-sized and large-scale marine nuclear hydroelectric power plant constituting the distribution shaft (705) Inside the nuclear waste treatment pipe manufacturing process (705), the marine shipbuilding factory on the connecting axis is capable of disassembling and coupling the production structure,

The small-diameter electric resistance welded pipe 706, which is manufactured in the nuclear hydroelectric power plant part 811 constituting the distribution shaft 705,

Includes the rough connection 711 which constitutes the cutting and forming 712 process of the raw material 707 uncoil 708 constituting the distribution shaft 705 to the ring level ring 709 and side trimming 710 and,

The facility of the nuclear power plant 672 constituting the nuclear waste disposal pipe manufacturing process distribution shaft 705,

The welding and internal / external surface bead removal 713 constituting the facility of the nuclear power plant 672 is completed with the welding heat treatment 715 of the nuclear power plant 672 while completing the ultrasonic wave and the eddy current test 714, ) And a water cooling (717) device,

The cut 719, which constitutes the facility of the nuclear power plant 672,

(720) of the nuclear power plant (672), and the process of the facility is installed in the intermediate load (723) and the induction heating furnace (724) (SRM, 725), which is composed of hot cutting (726), chamfering (727), hydraulic test (728), ultrasonic wave and eddy current test (729), and weight and length measuring device (731)

A screw 732 constituting a facility of the nuclear power plant 672 and a galvanized steel pipe 735 and a galvanized steel pipe 736 and a boiler tube 737 of the oil pan 733 and the general pipe 734, (731), the nuclear water hydropower plant (811) comprising the main body (1) of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector A double structure block tank (794) and a double structure block tank bridge (937) constituting a small diameter electrical resistance welding pipe (706) (593,594, 595) of a nuclear power plant of medium size and large size, and nuclear power plant (672) of nuclear power plant of nuclear power plant of medium size and large size. 811) Block precipitator tank configured to achieve a nuclear waste disposal pipe manufacturing process to distribution shaft provided with 705 marine nuclear hydroelectric power station with a double tank structure block precipitator nuclear reactor facilities, and waste disposal,

The large-sized and medium-sized and large-sized marine nuclear hydroelectric power plant of the ocean constituting the above-mentioned distribution shaft 705 has a large-sized square-shaped electric resistance welded pipe 739 of a floating nuclear power plant (672) ,

Completion of the pipeline ultrasonic wave 743 and the test test 744 is completed by the casing forming device 742 connected to the side trimming 741 with the coil mugging iron plate raw material 740 constituting the electric resistance welding pipe 739 (672) nuclear power plants,

(745) constituting the electrical resistance welded pipe (739), and a caliper-shaped electrical resistance welded pipe (739) which is provided with the production distribution input devices to control the distribution input device main body 1) internal structure of the nuclear hydroelectric power plant 811, a dual structure block tank dust collector nuclear waste processing pipe manufacturing process distribution shaft 705,

The large diameter steel pipe 747 of the oil pipeline for the oil pipeline oil industry constituting the equipment for the floating nuclear power plant (593,594,595) nuclear power plant (672) of the marine small, medium and large sized marine nuclear hydroelectric power plants constituting the distribution shaft 705, silver,

An edge milling machine 748 constituting a large-diameter steel pipe 747 of a steel pipe 746 for a pipeline for oil industry and a three-roll banding machine 749 and a post-banding machine 750 are provided. The manufacturing of the large-diameter steel pipe 747 is configured in the nuclear hydropower generation facility 811 constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus to be controlled,

The outer weld 754 constituting the nuclear power plant 672 facility for performing the welding cut 751 constituting the large diameter steel pipe 747, the inner surface weld 752 and the backgrinding 753,

(755), tube section (756), X-ray test (757), cold section spreading (758), marking and packing shipments (759) constituting the nuclear power plant (672) (672) of a nuclear power plant (672) facility that comprises a nuclear power plant (672) facility operation with process steps as distribution input devices,

The uncoiling pipe 763 of the steel pipe pile 762 is provided with the structure pipe of the uncoiling 761 constituting the spiral welded steel pipe 760 of the nuclear power plant 672,

An outer surface blast cleaning 764 constituting the non-coated pipe 763 of the steel pipe pile 762, a primary paint 767 of the inner surface brush cleaning 765 and the inner surface paint 766, (760) of the nuclear power plant (672), and the ultrasonic waves and the X-ray inspection (770) are passed through the process to prepare the large-diameter steel pipe (746) of the oil- (747) as distribution and dispensing devices to constitute a nuclear reactor (672) reactor facility;

The reactor facility of a nuclear power plant, which is constituted by the large-diameter steel pipe 747 distribution dispensing apparatus,

The leakage control device of the nuclear radiation capability that does not cause the explosion of the reactor inside and outside of the nuclear fuel chamber constituting the nuclear reactor facility. It is equipped with the distributing and inputting devices of the double structure block tank dust collector (794) (593,594,595) of marine nuclear power hydroelectric power plants of small size, medium size and large scale in the main body (1), a mooring device, a diving buoyancy control device and a distribution input device of nuclear waste treatment device And nuclear reactor waste water treatment plant manufacturing process at the reactor facility nuclear waste water treatment facility (811) before the safe operation of the nuclear reactor facility of the nuclear reactor facility. It consists of nuclear power plants and reactor facilities.

     The double structure of the nuclear power plant (811) consisting of the nuclear power plant and the inside of the main body (1) of the nuclear power plant for treating nuclear waste of land and ocean constituting the nuclear power plant, The process dispense axis 705,

    (593, 594, 595) nuclear power plant (672) of a maritime small, medium and large sized marine nuclear hydroelectric power plant constituting the pipe manufacturing process distribution shaft (705), and a distribution input device main body A double structure block tank dust collector of a nuclear hydroelectric power plant unit 811 and a nuclear power plant 672 of a nuclear waste disposal treatment apparatus, And a distribution dispensing apparatus constituting the dispensing apparatus,

(593, 594, 595) nuclear power plant (672) dispensing device of a marine small, medium and large sized marine nuclear hydroelectric plant constituting the nuclear power plant (672) of the distribution shaft (705)

Nuclear power plant (672) Nuclear waste disposal unit that constitutes distribution dispenser Dispensing unit of nuclear waste disposal unit Nuclear waste disposal pipe manufacturing process (1) Inside process (705) Disassembly connection connection An inner block tank 596 for providing a position to the center of the double structure block tank 598 of the distribution and dispensing apparatus double structure block tank 598 constituting the nuclear hydroelectric power plant 811 for controlling the production by the structure, And a double structure block tank 598 that constitutes a double pipe structure coupling to an outer block tank 599 located outside the inner block tank 596,

The high-strength steel plate 597 constituting the dual structure block tank 598 is provided as a distributing and inputting device of a cutting process and a welding process connection structure at an industrial site and is provided with a dual structure block tank 598, Tank tube bridge The marine tunnel traffic device (941)

The first auxiliary steel pipe 600 for the block tank and the second auxiliary steel plate 601 for the block tank are connected to the nuclear waste disposal and dispensing apparatus of the nuclear power plant 672 constituting the double structure block tank pipe bridge marine tunnel traffic apparatus 941, The parts are produced by the distributing and inputting device of the connection structure between the cutting process and the welding process,

And a large flange (614) that constitutes the coupling to the fore and aft connecting position of the double structure block tank (598) constituting the marine tunnel traffic device (941)

A large flange 614 located at a nuclear reactor connection part of a nuclear power plant constituting the large flange 614 is provided with a stopper plate 625 of a certain size as a nuclear power plant distribution input apparatus of a nuclear power plant facility process,

A distributing / dispensing apparatus for a double structure block tank 598 constituting a distributing and dispensing apparatus of the nuclear power plant is provided, and a distributing and dispensing apparatus for a nuclear power plant is provided with a steel plate 597 of high strength stainless steel,

The dual structure block tank 598 distributing and charging apparatus constituting the nuclear power plant,

The nuclear power plant 672 having a crane crane 861 and a conveyor 633 which are installed in the process sequence of cutting and conveying and constituting the nuclear power plant facility and the double structure block tank 598 is inserted into the conveying process, ) Nuclear waste disposal and dispensing equipment,

In the double structure block tank (598) equipment constituting the nuclear reactor facility,

A forming block and a roll forming bending machine are provided with steel plates 597 of high strength stainless steels constituting the double structure block tank 598,

(597) of the high-strength stainless steels constituting the double structure block tank (598) is prepared as a connection structure capable of disassembling and coupling at the marine vessel manufacturing factory,

In the forming bending machine constituting the double structure block tank (598) facility,

(B), (c), and (c), respectively. In this study,

A double bending block tank (598) which constitutes the bending process, a bending type press braking type bending type bending type bending type roller bending type machine, and three The bending roller is provided with a bending machine to constitute the bending process of the iron plate,

The welded joint portion is provided with a position control of the banding welded joint portion of the high-strength steel plate 597 of the high-tension steels steel by the crane crane 861 and the conveyor 633, which constitute the bending process of the steel plate,

A double structure block tank (598) equipment constituting the welding process to the banding weld joint region of the steel plate with the welding machine, the cutting tool, the drill lathe and the cutter constituting the cutting process of the steel plate,

A large flange 614 provided with a connecting portion of a large flange 614 located at a stern connection portion and a bow constituting the double structure block tank 598 is connected to a connecting structure of a manufacturing process lathe process (593,594,595) Nuclear Power Plant (672) facilities of nuclear, hydro, and nuclear hydroelectric power plants of small size, medium and large scale in the ocean;

The inner block tank 596 constituting the double structure block tank 598 and the outer block tank 599 which provides the position outside the inner block tank 596,

The inner block tank 596 constituting the double structure block tank 598 is adjusted to the inner position of the outer block tank 599 to be moved to the crane crane 861 and the conveyor 633 to complete the welding process,

The nuclear hydroelectric power plant equipment comprising the dual structure block tank 598,

A double structure block tank (5988) constituting a nuclear hydroelectric plant is provided as a distribution input nuclear waste treatment device of a dual structural block tank dust collector (794) for controlling nuclear radiation leakage, (593,594,595) of marine nuclear, hydro, and nuclear power plants of small size, medium and large scale, which are composed of the inside of the main body (1), the mooring device, diving buoyancy control device and nuclear waste disposal and dispensing device formed in the nuclear power plant (672) Nuclear Waste Treatment Plant (Nuclear Power Plant) (811) before nuclear reactor safety facility operation of nuclear reactor facility Nuclear waste treatment facility (705) And a nuclear power plant (672) including the interior of the main body (1) of the distribution reactor of the processing nuclear reactor.

The double structure block tank dust collector of the nuclear hydroelectric power plant part (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal facility for land and ocean nuclear waste constituting the nuclear power plant (672) The manufacturing process dispense shaft 705,

(593,594,595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting a distribution shaft (705) of the nuclear waste processing pipe manufacturing process, and a distribution input device The double structure block tank dust collector of the nuclear power generation facility unit 811 constituting the inside of the main body 1 is connected to the nuclear waste treatment pipe manufacturing process 705 of the reactor facility by the diving preparation preparation operation control adjustment dispensing apparatus screw control unit 811g)

The diving progression ready dispensing device screw adjusting portion 811g, which constitutes the pipe manufacturing process dispensing shaft 705,

A double structure block tank hull disassembling and engaging portable lug 607 provided in a horizontal and vertical type coupling structure at respective portions of the strut tank upper barge hull 591 and the strut tank lower barge hull 592 constituting the screw adjusting portion 811g, A double structure block tank having a plurality of rugged holes 615 and a double structure block tank 602 constituting the block unit and having an elongated hole 616 for hull disassembly and movement regulating device constituting the block unit hull disassembly portable rug pin connection Shaft 606 Double structural block tank vertical to the machining hole 615 Hull disassembly coupling Portable rudder pin connection shaft 606 Machining hole 615 and block unit Double structure block tank Hull disassembly joint Holes 616 are provided for connecting the piercing hull 591 at the upper portion of the paired double-structure block tank holding tanks 590 to the paired double structure block tank holding tanks 591 and the barge hull at the lower portion of the dual structure block tank holding tanks 592 are coupled to a plurality of processing holes 615 of a plurality of connection shafts 606 bound to a plurality of processing holes 615 provided at respective portions in a vertical form of the double- The pin connecting shaft 606 is removed,

And a holding tank (590) constituted by a connecting shaft (606) double structure block tank (598) provided with a single row connecting shaft (606) binding constituting the removal of the pin pin connecting shaft (606)

The diving progress-ready movable-control-dispensing device screw adjusting portion 811g, which constitutes the holding tank 590,

(593,594,595) nuclear power plants (615, 595) of marine small, medium and large marine nuclear hydroelectric power plants by providing the distribution input devices of the anti-sinking resident line (634) ) Is provided with a screw adjusting portion 811g which constitutes assembly on the sea surface,

(593,594,595) Nuclear power plant (615) Facility Nuclear waste treatment pipe manufacturing process (705) Preparation of diving progress making up the connection axis Operation control Arrangement dispensing device Screw adjuster 811g) Double structure block tank 598 Connection part at the lower end of the holding tank 590 Connected to each part of the barge hull Block unit of diving control device Block unit Double structure Block tank (598) The intake port 585a of the doctor butterfly valve 622 and the high pressure multistage multi-stage emission pump 8 and the doctor ventilation 585 of the diving control device and the exhaust port 585b of the doctor ventilation 585 Double structure block tank Hydraulic cylinder for the traffic control system (624), stopper plate (625) and dual structure piping line Automatic pneumatic valve transport device (916) and engine control power motor control module (106) Including barge hulls consisting of and,

(593,594,595) of a small, medium and large marine nuclear hydroelectric power plant with an offshore, submergible control system for the nuclear power plant (615). The horizontal dual structure block tank holding tank 590 is provided for switching to the vertical holding block tank 590,

(593,594,595) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constructed to prepare for the submergence proceeding to the lower part of the sea level (SLD). Distribution distribution of the sinking resident line (634) constituting the nuclear power plant (672) The apparatus comprises a device butterfly valve 622, a high pressure multistage multi-stage disaster prevention pump 8, and a blower 641 of the doctor ventilation 585, (593,594,595) nuclear power plants (672) installations of nuclear hydroelectric power plants,

(593,594,595) nuclear power plants (672) facilities of the marine small, medium and large sized marine nuclear hydroelectric power plants are equipped with the distributing and inputting devices of the sink prevention rescue lines (634) to protect the nuclear power plants (672) Respectively,

Nuclear Reactor Nuclear Reactor (Nuclear Reactor) Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Reactor Nuclear Reactor Reactor Nuclear Reactor Reactor The dual structure block tank dust collector of the nuclear hydroelectric power plant unit 811 constituting the nuclear power plant is constructed to be ready for diving including the connecting shaft of the nuclear waste processing pipe manufacturing process 705 of the reactor facility. And a screw adjusting portion 811g,

The dive progression ready controllable dispensing input device constituting the connecting shaft of the screw adjusting part 811g comprises:

Double structure block tank tank 590 constituting the operation regulating dispensing device for diving progression Double structure block tank formed at each of the upper and lower barge lines of the holding tank 590 The connection shaft 606 constituted by the hull disassembly portable rug 607 )and,

Preparation of Diving Progression The screw thread 603a of the lug connection shaft coupling bolt and the screw thread 603b of the lug connection shaft coupling and disassembling nut 604 and the pin connection shaft 606) The ergonomic pins 608 are connected to a hydraulic rotary cylinder machine (619) for position control of a traffic control equipment distribution input and a hydraulic cylinder machine (624) To be decomposed and bonded,

A plurality of lug processing holes 615 provided in the double structure block tank hull disassembly and engaging portable lug 607 constituting disassembly and coupling with the hydraulic cylinder machine 624, The horizontal double structure block tank 598, which constitutes the device hole 616,

Dual structure block tank 598 Double-structure tank tank with a towing and transport of a tugboat 636 provided on a semi-submerged operation line 637 constituting the disassembly tank. And a band guide 621 for a block unit double structure block tank hull breaking-disengagement / coupling device constituting the inside of the dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment in the same form as the formwork 617,

The hull diving position adjustment moving device of the sinking ship holding line 634 constituting the band guide 621 and the hull weight 107 for controlling the diving buoyancy are connected to the double structure block tank holding tank lower barge hull 592, (634), which are capable of performing a diving coupling operation, to assemble the sea surface of a nuclear hydroelectric power plant,

(688) constituting a distribution dispensing apparatus main body (1) of a nuclear waste disposal reactor constituting a nuclear hydroelectric power plant, and a double structure block (811) of a nuclear hydroelectric power plant section The tank dust collector includes a submerging-ready-operation-control-distribution-dispensing-apparatus screw control unit 811g constituting a connection axis of the nuclear waste processing pipe manufacturing process 705 of the nuclear reactor facility,

And the power provided by the transforming devices for transmitting the power of the nuclear hydraulic power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the connecting shaft, In the transfer unit 811d,

A double structure block tank holding tank lower barge hull 592 constituting a connecting shaft of the power transmission unit 811d is provided to prepare for diving progression to a position at the lower end S L D of the sea surface,

(689) into the nuclear reactor building (688) constituting the inside of the distribution dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal constituting the diving progress preparation protection,

An output power source 686 and an input power source 687 of the voltage 684 and the power 685 constituting the diving process readiness protection and the production power is provided as the position movement control devices for providing the production power supply,

The transformer for controlling the movement of the production power supply constituting the diving preparation preparation protection,

A 7-strand steel wire 692 and a transmission wire diameter 695 are arranged in the primary substation 691 from the ultra-high voltage substation 690 constituting the transformer control unit, and the 54-strand aluminum wire 693 And a connecting shaft of the power transmitting portion 811d,

The double structure block tank holding tank lower barge hull 592 constituting the connecting shaft of the power transmitting portion 811d has a submarine line wiring connection structure and is connected to a marine tunnel crossing railway substation 696 and a middle substation 697 A large plant 698 having a production power supply shift regulator transformer 96 of a voltage 684 and a power 685 of high voltage substation 690 to provide a production power supply from the high voltage substation 690 at the primary substation 691, (699 units) to provide production power supply to a location equipped with submarine cable connection structure,

In the secondary substation 700 that receives the production power from the primary substation 691 constituting the connecting shaft of the power transmitting section 811d,

A substructure line 701 constituting a connection axis of the power transmission section 811d and a submarine line wiring connection structure constituting a production power supply distribution discharge to a household 702 included in a solar house,

A submarine line wiring line which is located in the submarine line wiring connection structure constituting the connecting shaft of the power transmitting portion 811d and a submarine line wiring line composed of the electric pole 95 and the transformer 96,

And a connection structure for providing a production power supply distribution discharge by having a sprung stepped hook bracket 703 constituting a connection shaft of the power transmission unit 811d and a cable high voltage wire balance arm 704 for a wire balance In order to prepare the location of production power supply control device,

In the land constituting the connecting shaft of the power transmitting portion 811d, there is provided a connecting structure for providing a production power supply distribution discharge, which is provided as wirings in the underground GLD ground line of the road surface, (1) of the nuclear reactor waste disposal reactor facility, and a distributing and inputting apparatus for distributing and supplying the production electric power supply that constitutes the inside of the main body (1) of the nuclear waste disposal reactor apparatus. The power transmission unit 811d, which is provided as transformers for transmitting the power of the nuclear hydroelectric power plant 811 and constitutes a connection shaft of the dual structure block tank dust collector to the nuclear waste processing pipe manufacturing process 705 of the reactor plant, Constituting a production power supply to an assumption 702 comprising;

 The power transmission unit 811d is provided with power transmission units that transmit the power of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear reactor processing facility for nuclear waste disposal, (811d) as a connection structure of a transformer having a submarine line wiring connection structure to provide a position in a nuclear hydroelectric power plant facility,

The nuclear hydraulic power plant equipment constituting the power transmission portion 811d

And a sinking prevention stay line (634) for lifting up a sinking ship constituting a nuclear hydroelectric power plant facility, and a connection structure constituting the inside of the distribution dispenser main body (1) of the nuclear waste disposal reactor facility is provided,

And a nuclear reactor radiation leakage control dual structural block tank dust collector 794 constituted by a dual structure block tank 598 and is installed inside the main body 1 of the nuclear reactor waste disposal reactor installation, Respectively,

(593, 594, 595) of marine nuclear, hydro, and nuclear power plants (592, 595) Mooring devices and diving buoyancy control devices in nuclear power plants (672) (705) of the reactor facility nuclear waste water treatment plant (811) before and after the operation of the nuclear waste treatment plant (705), and the pipe manufacturing process (705) And a screw regulating portion 811g constituted by the submerging-ready preparation regulating distribution dispensing devices.

The double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituted by the inside of the main body 1 of the nuclear reactor waste disposal facility for land and ocean nuclear waste constituting the screw control part 811g, The manufacturing process dispense shaft 705,

(593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the screw control section (811g) and a distribution input apparatus main body ) Duplication of double structural block tank dust collector of nuclear hydroelectric power plant part (811) inside of nuclear reactor waste treatment plant (705) of nuclear reactor plant Preparation of diving buoyancy construction constituting position of connection axis Distribution of nuclear power plant equipment for operation control control Comprising a dosing device,

The distribution input device of the nuclear power plant equipment constituting the nuclear power plant equipment comprises:

(593,594, 595) nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants constituting the distribution input device of the nuclear power plant facilities of the ocean screw control section (811g) A nuclear waste disposal double structure block tank marine tunnel transportation device 941 for establishing a connection between the land and the book constructed inside the distribution dispensing apparatus main body 1 is provided,

Double structural block block tank structure constituting distributing device of nuclear power plant facility Double structure block tank bridge located at the upper part of pipe bridge pier (928) Nuclear waste treatment of nuclear power plant by connection with pipe bridge (937) Double structural block tank Marine tunnel access The apparatus (941) includes a nuclear waste treatment dual structure block tank bridge (929) that the plant comprises in the ocean for buoyant buoyancy advance preparation,

(SLL) of the sea surface (SLD) of the sea structure (SLL) constituting the double structure block tank bridge bridge (929) Nuclear waste treatment to the position of 40M Double structural block tank pipe bridge (929) and,

(929) Nuclear waste processing dual structure block tank pipe bridge (929) connecting shaft, which is composed of two structural block tank, marine tunnel transportation equipment (941)

The pipe bridge 929 constituting the diverting buoyancy advance preparation operation control with the capacity dispersion control constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant constituting the dual structure block tank pipe bridge 929, Comprising a connection axis,

The double structure block tank bridge pipe bridge 929 is connected to the upper portion of the pipe bridge 937 and the both sides are allocated to the upper portion of the pipe bridge bridge pipe bridge bridge 928 to insert the connection shaft of the nuclear waste disposal double structure block tank bridge bridge 929, (593,594,595) of a small, medium and large marine nuclear hydroelectric power plant in the ocean to the upper internal position of the bridge bridge (937) of the holding tank pipe pier (928). An inner block tank 596 located at the center of the double structure block tank 598 of the double structure block tank 598 and a position outside the inner block tank 596,

Double structure block tank Structure of double structure block tank 598 constituting bridge bridge 929 and outer block tank 599 Double structure block tank having connection structure inside the body 599 Marine tunnel The traffic device 941 includes a double structure strut block tank pipe bridge 928 which is connected to the nuclear waste treatment double structure block tank pipe bridge 929 and constitutes a position,

(593,594, 595) nuclear power plants (672) installations of marine small, medium and large sized marine nuclear hydroelectric plants that make up the dual structure block tank bridge bridge (929)

The construction equipment located inside the distribution input device hull of the sink prevention resisting line 634 constituting the double structure block tank bridge bridge 929 is provided and the floor base 851 for the mooring device bridge pier is provided on the seabed And then,

(593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the main body (1) of the nuclear reactor waste disposal unit constituting the dual structure block tank bridge bridge (929) A power plant (672) is equipped with a distribution input unit with equipment and connection structure. It has a submergence residence line (634) with submarine line injection nozzle and submarine line connection structure of submarine line injection nozzle connection and nuclear power plant (672) is provided inside the main body (1) of the nuclear waste disposal apparatus main body (1), and the screw control section of the nuclear water hydropower generation facility section (811) (811g), and a double structure block tank dust collector is installed in the nuclear waste treatment pipe manufacturing process (705) of the nuclear reactor facility. Be equipped with the dispensing chute in the plant and marine configuration to achieve a nuclear reactor facilities and hydroelectric power station which consists of internal distribution input apparatus main body (1) of a reactor plant for processing nuclear waste,

A screw control section 811g of the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor constituting the nuclear nuclear hydroelectric power plant and the reactor facility, The nuclear waste disposal pipe manufacturing process 705 is provided with the dispensing apparatus of the block tank-engaging portable lug 607 constituting the connecting shaft,

The nuclear hydroelectric power plant is connected to the nuclear water hydropower plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor, (593,594,595) nuclear plant installations of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants that are not formed on the upper part of the dual structure block tank pipe bridge (937)

A strut tank upper barge hull 591 and a strut tank lower barge hull 592 constituting a nuclear reactor hydroelectric power plant and a nuclear reactor facility,

A holding tank upper barge hull 591 constituting a marine nuclear hydroelectric power plant and a nuclear reactor apparatus reactor facility, and a holding tank lower barge hull 592 constituting a reactor facility,

A marine block tank 590 constituting a marine nuclear hydroelectric power plant and a nuclear reactor facility, a separately constructed double structure block tank combined portable lug 607 and a plurality of double structure block tank hull disassembly portable lugs 607 A plurality of hull disassembling and connecting portable lug pin connecting shafts 606 engaged with the block tank hull disassembly portable luggable connecting lug connecting shaft bolt 603 and lug connecting shaft bolts 603a and lug pins 608) combined structure,

(593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants in the floating offshore, consisting of the interior of the distribution input device body (1) of the reactor plant for nuclear waste disposal constituting the marine nuclear hydroelectric plant and the reactor plant,

A nuclear power plant facility is provided in which the landing block tank 590 constituted by the sea depth is constituted by the water depth unit of the sea surface (S L L)

The volume of the double structure block tanks that make up the marine nuclear hydroelectric power plant and the reactor facility,

(0.5 ㎞ x 0.5 ㎞ x 0.5 ㎞) ㎥ of nuclear power plants,

The small floating lifting tanks (593), which make up the marine nuclear hydroelectric power plants and the reactor facilities, are equipped with medium and large lifting tanks (594,595)

A plurality of block tanks provided at respective portions of a double structure block tank combined portable lug (607) constituting a nuclear power hydroelectric power plant and a nuclear reactor facility are connected to a joint portion processing hole (615) of a hull disassembly / (603) and block tank hull disassembly Portable lug connection shaft (606) Disassembly and disassembly Portable lug pin Connection hose (606) Block tank Hull disassembly Portable lug connection Screw thread (603) A nuclear waste treatment dual structure block tank marine tunnel transport apparatus (941) facility of a nuclear power plant constituting a connection structure to a screw thread (603b) of the decomposition coupling nut (604)

The double structure strut block tank pipe bridge 928, which constitutes the nuclear nuclear hydroelectric power plant and the nuclear reactor facility,

The construction equipment located at the hull deck deck, which is the distribution input device sink prevention dwelling line 634 constituting the double structure strut block tank pipe bridge pier 928, is provided with a mooring crank 846, Preventing stay line 634 constituted by a connection structure which provides a fixing to the hydraulic cylinder machine 624 and the key bed 616,

(593,594,595) of a maritime small, medium and large scale offshore nuclear hydroelectric power station consisting of the anti-sinking rescue vessels (634), and the nuclear facilities for nuclear waste disposal Of submarine line injection nozzle connecting submerged injector main body (1) Supporting submarine line injection nozzle and submarine line wiring position connection structure to support sinking prevention of marine small, medium and large sized marine nuclear hydroelectric power plants (593,594,595) We have established facilities for nuclear power plants,

(1) a nuclear reactor plant, (2) a nuclear reactor plant, (3) a nuclear reactor plant, (4) a nuclear reactor plant, and (4) Includes a reactor installation of a nuclear power plant configured to fix a sinking prevention stay line (634) to a hydraulic cylinder machine (624) and a key bed (616) as a connecting structure (846)

(593, 594, 595) nuclear power plants of the small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants, which constitute the nuclear power plant facilities,

The dual structure block tank bridge bridge (937), which constitutes a marine nuclear hydroelectric power plant,

(937), consisting of a double structure block tank bridge (937) consisting of a 40 meter upper end of the sea level (SLL), and a bridge for safe collision prevention and safety (1) of the nuclear reactor main body (1) of the reactor facility for nuclear waste disposal,

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constructed in the main body (1) of the distribution input apparatus main body of nuclear reactor waste disposal nuclear reactor plant composed of nuclear power plant connection structure, (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants, and distributing the nuclear power plants for disposal of individual nuclear waste. (593,594,595) nuclear hydroelectric plants of medium and large sized marine nuclear hydroelectric power plants,

(598) of the double structure block tank (598) constituting the nuclear hydroelectric power plant facility, and is provided as a distribution input connection structure of the nuclear hydroelectric power plant facility,

Distribution control equipment constituting nuclear hydroelectric power plant facilities With fixed-type barges and fixed-type barges with empty spaces, it is possible to install nuclear hydroelectric power plant facilities in a large number of floating marine small-, medium- and large-scale offshore nuclear hydroelectric power plants (593,594,595) (598) double structure block tank pipe pier (928) facility which constitutes the support of the nuclear hydroelectric plant facility with the empty space in the connecting distribution control shaft connection structure,

(928) Depth of depth of sea surface (SLL) of the facility and double structure block tank (0.5 km × 0.5 km × 0.5 ㎞) ㎥ Pipe bridge (928) And fixed at the seabed at intervals of 500M,

In the nuclear power plant equipment constituting the distribution input connection structure of the nuclear hydroelectric power plant facility,

A nuclear power station facility is provided as a fixed installation connection structure by a crane 846 for replacing a mooring car anchor, which is located at the lower base (851) for a pier level base foundation,

(1) The connection structure of the distributing shaft which provides the sinking vessel lifting which is built in the main body (1) of the reactor facility for nuclear waste processing constituting the nuclear hydroelectric power plant. (1) inside the distribution dispensing apparatus main body (1)

(1) The connection structure of the facility to be installed inside the main body (1) of the reactor equipment for nuclear waste disposal to constitute the nuclear hydroelectric power plant facility. The floating structure of the small-, medium- and large-scale marine nuclear power hydro- 593, 594, 595) The distribution dispensing apparatus constituting the dispensing axis,

(593,594,595) of a small-sized and large-scale marine nuclear hydroelectric power plant of the offshore nuclear hydroelectric plant of the above-mentioned nuclear power plant, the upper block barge of the distribution block unit (590) constituting the distribution axis, And the shelter located at the top of the deck deck at the top of the sea level.

At the top of the barge deck deck at the sea level top (S L U)

(1) of the nuclear power plant including the main body (1) of the nuclear waste disposal reactor facility while providing a shelter for protecting the sailing vessel from natural disasters,

Friendly nuclear power plant, which constitutes a reactor plant of a nuclear power plant,

A number of nuclear hydroelectric and wind power plants, which make up reactor facilities,

It is composed of individual power generation units and has a seabed mineral resource collecting place. It is composed of a seabed mineral resource collection site located inside the floating deck deck bottom (SDL), a small-sized, medium-sized and large-scale marine nuclear hydroelectric Each power plant of the marine nuclear hydroelectric power plant is provided at the upper deck of the deck top consisting of the lifting dock (593,594,595) of the power plant,

At the normal position of the block tower (116) constituting the marine nuclear hydroelectric power plant,

Block tower (116) Floating dock at the top of the meteorological observatories at the top of the deck top of the barge at the normal position. ) Submarine line injection nozzle connecting submarine line injection nozzle and bottom line submarine line connecting distributing shaft constituted inside,

In the meteorological observatory on the deck top of the flood-type reservoir (593, 594, 595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant with a distributed shaft structure,

(1) of nuclear power plant for the treatment of nuclear waste in distribution shaft provided with protective equipment for each generation of aircraft emergency landing sites constituting the weather observation station, And an electronic control regulating device construction machine control section (811f)

The operation of the carrier for the distribution shaft construction machine constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal constituting the electronic control regulating apparatus construction machine control section 811f, A distributing and inputting device for a reactor installation of a nuclear hydroelectric power plant constituted by a connection structure of an electronic control regulating device construction machine control section 811f of a nuclear hydropower generation facility section 811 constituting a reactor facility main body of a power plant,

The electronic control regulating device construction machine control unit 811f, which is constituted by the distributing and charging device of the nuclear reactor facility,

Nuclear waste treatment double structure block tank which provides position by connection structure with submarine line connection structure to submarine line injection nozzle injection nozzle of submarine line injection nozzle inside of main body (1) of distributing injecting device for nuclear waste treatment facility Nuclear waste treatment dual structural block tank pipe bridge (929) comprising marine tunnel traffic device (941)

Double Structure Block Tank Tube Bridge (929) Double Structure Block Tank Constructing the Connecting Shaft (937) In the double structure block tank 598 having the connection shaft of the double structure block tank bridge 937 as the connecting structure of the body,

Nuclear waste treatment Double structural block tank Marine tunnel transport device (941) Internal block tank (596) Built-in block tank (596) Built-in guide rail (618) And an internal block tank 596 that constitutes the operation to the internal train 771 for the marine tunnel apparatus of 100 KM to 200 KM per hour,

Nuclear waste treatment Dual structure Block tank Marine trench transport device (941) Inner block consisting of tank (596) Inner and outer block tank (599) Inner empty space Individual position The inner block tank The outer block tank 599 located at the outer connection structure of the inner block tank 596 and the guide rail supporter 852 located at the lower end portion connection structure of the guide rail 618 located at the lower end of the inner block tank 596 And a position of a vacant space located at an inner lower end,

Natural gas and crude oil transportation equipment, which make up natural gas and crude oil transportation,

A tug line 636 constituting the interior of the main body 1 of the reactor installation for nuclear waste treatment, which is a connection structure provided with a pipeline automatic pneumatic valve conveying device 916 composed of natural gas and crude oil conveying facility, (637) and anti-sinking rescue lines (634) of sinking ships, and nuclear reactor hydropower plant nuclear reactor hydropower plant.

Nuclear power plant's connection structure to constitute the distribution and input device of nuclear power plant Nuclear waste treatment Double structure block tank by providing construction machinery equipment Marine tunnel transportation device (941) Distribution of nuclear waste treatment plant connecting both sides of the book (1) Filling up small, medium and large sized maritime nuclear hydroelectric power plants of stationary marine with distribution axis exposed on the top surface of sea surface on board composed inside An electronic control regulating device construction machine regulator 811f of the nuclear hydropower generation facility 811 constituting the inside of the distributing and inputting apparatus main body 1 of the reactor facility for nuclear waste disposal with construction equipments 593, 594, (593,594,595) nuclear power plants (672) of marine small, medium and large marine nuclear hydroelectric power plants, (810) before and after the operation of the nuclear reactor waste disposal facility and the nuclear reactor waste disposal facility (705).

As a connection structure that can be disassembled and coupled at marine shipbuilding factories.

Alternatively, the nuclear hydroelectric power plant (1) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector of the offshore and offshore, The dual structure block tank dust collector nuclear waste processing pipe manufacturing process distribution shaft 705 of the unit 811 is connected to the double-

(593,594,595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant of the land and the sea, and a nuclear power plant (811) Nuclear waste treatment pipe manufacturing process of reactor facility (705) Connecting shaft Nuclear hydroelectric plant preparation for diving Provision of the operation control control distribution input device and nuclear hydroelectric plant holding tank top And a nuclear plant nuclear waste disposal unit 811a of a nuclear hydroelectric plant consisting of the connecting structure for connecting each of the barge hull 591 and the barge hull 592 at the lower end of the holding tank,

The distribution dispensing apparatus constituting the nuclear waste nuclear waste processing unit 811a includes:

(593,594,595) Nuclear power plant (672) of marine nuclear hydroelectric power plant constituting distribution input device and submarine line injection of submarine line injection nozzle connection port constituting inside of main body (1) of nuclear reactor waste disposal facility With the nozzle and subsea line wiring connection structure, it is possible to establish a position as a nuclear power connection structure,

(593,594,595) of a small, medium and large sized marine nuclear hydroelectric power station in the submerged marine that makes up the distribution input unit. The upper tank barge hull (591), which is provided as a connection structure of the nuclear hydroelectric power plant, A strut block tank 590 positioned at the center upper end connection structure of the strut block tank 590 and the strut tank bottom barge hull 592, a barge hull 591 at the upper end of the strut tank upper end of the nuclear hydroelectric plant, The upper portion of the strut tank upper barge hull 591 constituting a plurality of strut block tanks 590 having the connecting structure for connecting the barge hull 592 and providing the connection structure around the center of the barge hull 592 Axis,

(591) The upper part of the support block tank (590) and the lower part of the tank barge hull (591) are connected to the distributing shaft. The barge hull (591, 592)

Tank top tank barge (591) Double structure block tank making up connecting shaft In the portable lug (607) body,

A plurality of processing holes 615 constituting the body of the portable lug 607 and a lug hole 616a for the block unit double structure block tank hull breaker position shifting regulator are disposed in the connection structure of the disassembly coupling The screw thread 603a of the connecting shaft 606 for the tank assembly and the bolt 603 for the lug connecting shaft and the nut thread thread 603b of the lug connecting shaft engaging and disassembling nut 603 and the block tank hull disassembling portable portable (593,594, 595) nuclear hydroelectric power plant of a submerged marine power plant equipped with a lug (607) and a block tank combined portable lug pin (608) can be disassembled and controlled by a portable lug In addition,

A hydraulic cylinder machine (619) constituting the disassembly coupling control of the nuclear hydroelectric power plant, and a connecting structure (616) comprising a mooring device and a floating boat to constitute the barge ship hull balance control,

(596, 595, 595) of marine small, medium and large sized marine nuclear hydroelectric power plants that make up the connecting structure of nuclear power plant nuclear reactors, A construction machine machine constituting a connection shaft and a distribution shaft of a double structure block tank bridge 937 for providing a submarine line injection nozzle and a submarine line wiring connection structure of a submarine line injection nozzle connection port constituting the inside of the distribution dispenser main body 1 ,

(593,594,595) Nuclear power plant (672) of small, medium and large sized marine nuclear hydroelectric power plant with sinking prevention construction consisting of construction machine equipments, and the inside of distribution dispensing apparatus main body (1) of nuclear reactor waste treatment facility Nuclear power plant nuclear waste disposal screening system to prevent the nuclear radiation leakage of the nuclear reactor facility to prevent leakage of nuclear radiation Nuclear power plant facilities (811) of the nuclear hydroelectric power plant with the distribution injector of the dust collector, And a nuclear waste disposal unit (811a)

(593, 594, 595) nuclear power plants (672) and nuclear reactor hydroelectric power plants (811) of nuclear power plants of marine nuclear power plants, which constitute the nuclear waste disposal unit (811a) In the distribution input device of the double structure block tank coupling lug 607 constituting the connection structure to the nuclear power generation nuclear waste treatment section 811a of the nuclear power generation nuclear waste treatment section 811a,

(593, 594, 595) nuclear power plant (672) equipment constituting the nuclear power generation nuclear waste treatment section (811a)

(592,594,595) Nuclear power plant (672) Holding tanks (590) constituting the equipment Upper barge hull (591) and holding tank Lower barge hull (592) A plurality of processing holes 615 and an elongated hole 616a are formed in the structural block tank-attached portable lug 607 body to form a horizontal pin connection shaft processing hole 615 and a vertical pin connection shaft processing hole 615, And the upper portion of the strut tank 590 connected to the strut tanks 590 are connected to the strut block tank 590 constituting the nuclear power plant 672 and the upper barge hull 591 And a plurality of processing holes 615 provided at the respective portions in the vertical form of the holding tank 590 and the lower barge hull 592 are connected to several processing holes 615 of the plurality of connecting shafts 606, The connection shaft 606 is removed and the connection shaft 606 is connected to the connection structure 606 Including the nuclear power plant 672 equipment to,

In the double structure holding block tank 590 of the connecting shaft 606 constituting the nuclear power plant 672,

(634) that provides for the recovery of sinking vessels constituting the double structure holding block tank (590), and it is equipped with the connection structure distributing and inputting devices capable of disassembling and coupling of the nuclear power plant (672) Assembled at sea level (672) installations of nuclear power plants,

The vertical lower block tank 590 composed of the nuclear power plant (672) facilities has a connection structure with excavation equipment and mooring devices at the lower part of the center, and a horizontal support Anti-sink retention lines 634 that constitute a position-regulated switchover of the block tank 590 to the vertical block block tank 590,

In the throttle control device of the nuclear power plant 672 constituting the sinking prevention stay line 634,

The pre-sinking retention line 634, which is prepared for the submerging proceeding, is provided to the lower end (S L D) of the sea surface constituting the submergence control device of the nuclear power plant (672)

(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the prevention of sinking, and nuclear waste constituting the distribution input apparatus main body (1) It is equipped with a double structure block tank leak collector for nuclear radiation leakage control of nuclear reactor facility of treatment shielding system and equipped with excavation equipments and mooring devices provided on the anti-sinking rescue line (634) (593,594,595) Nuclear Power Plant (672) of Nuclear Hydroelectric Power Plant and Nuclear Waste Treatment Unit of Nuclear Power Generation Unit (811) of Nuclear Hydroelectric Power Plant Division (811) 811a. The nuclear waste disposal unit 811a is provided with the excavation equipment and the mooring devices. Including,

(593,594,595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant of the nuclear waste disposal unit (811a) constituting the nuclear hydroelectric power plant unit (811) Reactor Equipment Consisting of Dispensing Apparatus Main Unit (1) Dispensing Apparatus of Nuclear Power Plant Operation In a rotary table lathe machine (908) of a drilling machine,

A crane of a crane crane 651 located at the upper end of the drilling machine room is provided with a crude drill rod connected to a plurality of pipe racks 854 constituting a rotary table lathe machine 908 of a drilling machine, A crude drill rod connection joined to the boom boom, the boom girder loop 652 and the wire rope 19 connection structure is provided,

The pipe rack 854 in the excavation preparation stand-by state constituting the crude oil drill rod connection,

A plurality of pipe racks 854 provided as connection structures of the sea level lower end S L D of the sea level (S L L) constituting the pipe rack 854,

The coil drill 917 constituting the pipe rack 854,

The crusher crank 846 at the position of the excavation hole 936 provided as a connection structure with the excavator 917 and the excavator 917 while being provided with the excavator hole 936, ) Which is provided in the connection structure between the hydraulic cylinder machine (624) and the key bed (616), and which is installed in the construction machine operation connection structure mounted on the upper barge hull at the top of each tie block tank. Residence line 634,

(593,594,595) of marine nuclear, hydro, and nuclear power plants of small size, medium size and large scale, which make up the sinking prevention ship (634). Crude oil and natural gas discharged from the crude oil borehole (936) (593,594,595) of marine small and medium sized and large sized marine nuclear hydroelectric power plants. Connected structure with subsea line wiring, upper part of sea level (SLU) lifting type poison hull deck deck. And,

And a ceiling crane (651) facility constituting a position as a connection structure at the upper end of the lower part inside the block steel tower (116) of the nuclear hydroelectric plant facility,

The rotary table lathe machine 908 of the drilling machine for crude oil, which is located at the connection structure inside the drilling machine machine room constituting the lower part of the ceiling crane (651)

The rotary table lathe 908 is provided with hydraulic cylinder keys 623 for drilling located at the center of a circular table lathe which constitutes the rotating body of the body,

A hydraulic cylinder cylinder key 623 for drilling, and a plurality of operation keys 623 as a connection structure of the center of the lathe,

A rotary table lathe machine 908 of a drilling machine for drilling oil for crude oil constituting the center of a lathe to adjust the position of the connection structure that is spread from the center of the rack to the outside of the center of the rack, And a rotary table lathe machine (908) for connecting the rotary table lathe,

A plurality of pipe racks 854 arranged in a center position with the rotating body connecting structure constituting the rotary table lathe machine 908 continue to be bound to the bottom of the oil borehole 936, (936) for drilling a drilling hole of a crude oil borehole (936) with a connecting structure located as a connection structure of a crude drill rod A nuclear waste disposal unit (811a) composed of a main body (1) of a distribution and dispensing apparatus for a nuclear waste disposal reactor facility,

In the crude drill rod connection that constitutes the distribution input device of the nuclear operation,

The connecting pipe rack 854 constituting the crude drill rod bound to the wire rope 65 of the ceiling crane 651 is connected to the wire rope 65

(908) Body of Rotary Drill Block Unit Block Tank Hinges Hydraulic Rotary Cylinder Machine for Dismounting Coupling Regulator (619) Drilling Machine for Pipe Rack (854) And a plurality of hydraulic cylinder operating keys 623 for drilling, which are located in the connection structure of the central portion of the circular table lathe,

A rotary table lathe machine 908 of a crude oil drilling machine constituting a crude oil borehole 936 with a transfer arrangement to the top of a rotary table lathe machine 908 of a crude oil drilling machine,

The rotary table lathe machine 908 operation of the drilling machine constituting the crude oil casting is performed so that the crude oil and natural gas discharged from the position of the crude oil borehole 936 are supplied to the tower crane 886 while finishing the oil borehole 936 excavation, A tower crane 886 having a connecting structure located on both sides of the boom of the crane boom band of the tower crane 886 and a vertical rotation operation of the boom and boom hook rings 652 of the tower crane 886, And the deep sea energy resources are provided to the top of deck deck,

Nuclear Reactor Facilities Includes a tower crane (886) dispensing device that constitutes nuclear waste disposal in nuclear operation,

Tower cranes (886) Subsidiary vessels of small, medium and large sized marine nuclear hydroelectric power plants making up the distribution input unit (593,594,595) Distribution equipment of nuclear power plants and reactor facilities for nuclear waste treatment (1) (936) Location of crude oil and natural gas discharged from the location of the crude oil borehole (936) that constitutes the inside of the nuclear power plant. (936) of the crude oil borehole (936) inside the nuclear reactor plant with the submarine line wiring, including all the energy resources constituting the deepwater basin with the connection structure of crude oil and natural gas crude oil borehole distribution and input device and,

A cooling system is connected to the location of the crude oil borehole (936) with the lifting of all the energy resources composing the deep sea bottom to the top of the deck plate and the deep sea oil borehole (936) constituting the excavation. and,

(593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants that make up the nuclear power plant facilities. Nuclear power plant facilities are equipped with mooring devices and diving buoyancy control devices so as to secure the safe mooring of the nuclear power plant facilities. In addition,

Nuclear Waste Treatment Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor (593, 594, 595) nuclear power plant facilities of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the operation of the nuclear waste treatment section (811a) constituting the inside of the distribution dispensing apparatus main body and,

(593, 594, 595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the above-mentioned nuclear power plant facilities, the nuclear waste disposal section (811a) constituting nuclear power plant facilities, (593, 594, 595) of the nuclear hydroelectric power plant In the distribution input unit constituting the sinking restraining line (634) as the connection structure of the nuclear power plant facilities,

(917) to the excavation hole (936), and a hydraulic cylinder machine (39) operation as a structure to connect the crane crank (846) to the crane crank 846 are pushed into the excavation hole 936 and the wrench crank 846 provides compressive expansion inside the excavation hole 936 so that the several interlocking tool tip grinders 185 are embedded in the ground (185) for fixing the connection structure,

The barges with barge line drift prevention by fixing the lower part of each holding tanks constituting the nuclear power plant facilities are equipped with a floating tank (593,594,595) of small, medium and large sized marine nuclear hydroelectric power station, Barge line with a mooring device of nuclear power plant equipment barge at the top barge line construction machine installed on the hull barge line to position as a connection structure hull anti-drift prevention wrench crank (846) equipped with mooring devices to treat nuclear waste (1) of the dispensing apparatus main body (1) of the nuclear reactor installation,

(593,594,595) of a small, medium and large sized marine nuclear power plant constituting the nuclear power plant facilities, a mooring device, a diving buoyancy control device, a distribution input device and a nuclear reactor facility for treatment of nuclear waste, (811) of the nuclear power plant of the nuclear waste disposal unit (811a) at the marine vessel manufacturing plant, which are equipped with connection axes of the nuclear waste processing pipe manufacturing process (705) of the reactor facility at the Hwaseong Nuclear Hydroelectric Power Plant As a connection structure capable of decomposing and bonding,

The double structure block tank dust collector nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant 811 constituting the reactor facility main body 1 of the nuclear power plant of the land and sea constituting the nuclear power plant facility ,

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants of land and sea constituting the nuclear power plant facilities and the inside of the main body (1) of the nuclear power plant A double structure block tank dust collector of a nuclear hydroelectric power plant (811) constituting a nuclear reactor waste water treatment plant manufacturing process (705) of a nuclear reactor plant is connected to a docking station which constitutes a nuclear power plant facility. And a nuclear waste treatment unit 811a for a nuclear power plant equipment nuclear reactor, which comprises connecting structures for connecting the upper and lower barge hulls 591 and 592 of the holding tank,

In the nuclear waste disposal and dispensing apparatus of the nuclear waste disposal unit 811a constituting the nuclear power plant facility,

(593,594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant of the ocean, and the inside of the distribution apparatus main body (1) of the reactor facility for nuclear waste treatment. And a large flange (614) positioned as a nuclear waste disposal dispenser having a submarine line injection nozzle and submarine line wiring connection structure of a submarine line injection nozzle connecting port, and connected to a connection distribution input device connection structure Including the connection structures constructed by

The double structure block tank (598) equipment,

Double structural block tanks 598 in units of 500 meters are provided in the form of a double structure block tank barge,

(634) which constitutes the nuclear power plant facility is provided with a pre-distribution input,

(593,594,595) Nuclear power plants of marine small, medium and large sized marine nuclear hydroelectric power plants constituting the nuclear power plant facilities, and the distribution input apparatus constituting the whole connection of the nuclear power plant facilities are connected at intervals of 500m (929) connecting the double structure block tank bridge pipe (937) with the structure of the double structure block tank pipe bridge (928) in order to construct the double structure block tank pipe bridge In addition,

A double structural block (995) is installed at the deep sea bed with a distribution input device of a nuclear power plant facility, and a double structure block which precisely measures the marine water depth of the double structure block tank pipe pier (928) Includes installation of tank pipe bridge 928,

At the installation position of the double structure block tank pipe bridge 928 constituting the nuclear power plant facility,

Includes the installation of a diaphragm rubber balloon (628)

A distributing and inputting apparatus constituting a nuclear power plant facility,

A wire rope 915 is attached to the lower end of the diaphragm rubber balloon 628, a diving position adjusting mobile unit of the hull and a diaphragm weight 949 of the diving buoyancy adjusting unit are provided, The double structure block tank bridge pier 928 is provided at a mounting position,

(593, 594, 595) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of the ocean, while towing each double structure block tank bridge pier (928) constituting the nuclear power plant facility to a tugboat (636) The transfer is provided to the same immersion prevention stay lines 634,

(946) connection structure to the injection nozzle of the injection nozzle connection port, which is provided with the connection structure constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus equipped with the nuclear power plant facility (614) Distributed input device Connection structures and lifting tanks of small, medium and large sized marine nuclear hydroelectric power plants in the ocean (593,594,595) Mooring devices of nuclear power plants Connection of marine structures (593,594,595) Nuclear power plant (672) of nuclear power plant of small size, medium size and large scale and nuclear power plant of nuclear power plant (811) consisting of inside of main body (1) And a nuclear waste disposal and dispensing apparatus of the waste disposal unit 811a,

A transportation unit 811c of a construction machine for establishing a connection with a nuclear waste treatment unit 811a constituting a nuclear hydropower generation facility unit 811 constituting the inside of a distribution and dispensing apparatus main body 1 of the nuclear waste treatment facility, The distribution input device of the construction machine constituted by the processing reactor facility,

Sink retention lines 634 constituting a nuclear power plant facility,

After the sink prevention rescue line 634 constituting the nuclear power plant facility is transferred, if the water depth of the installation point is 300 meters,

Positioning of the file column by 50 meters more than the water depth Positioning the crane boom stand (942) of the tower crane for the moving device and setting up the pile (898) vertically, the excavator for the deep drilling rig of the construction drill (634) equipment which comprises a distributing and inputting apparatus of a construction machine of a nuclear power plant equipments including a rock drilling machine 845, a rock drilling machine 847, a drilling machine 876 and an anti- ,

The plurality of construction machines 880 constituting the sink prevention rescue line 634 facility,

A diesel hammer 883, a steam hammer 884, a hydraulic crane 885, a tower crane 886, a crawler crane 887, a truck crane 888 and a squirrel crawler 889 A tandem roller 890, a tamping roller 891, a tire roller 892, a tractor 893 and a trailer 894 to constitute a nuclear power plant facility,

The distribution input device of the construction machine constituting each of the nuclear power plant facilities includes:

The fuel cell system includes the ram 895 and the lead 896, the cooling water cooler 897, the helmet 899, the fuel pump 900, the cam 901 and the fuel tank 902, The boom front pin 904 and the cage work 905 of the starter 903 provided as a connection structure on the seabed at the base of a plurality of double structure block tank pipe bridge 928 are provided as a distributing / Adapter 906 to provide a level balance check of the nuclear waste treatment dual structure block tank bridge 929,

A double structure consisting of a double structure block tank bridge pier (928) at each section constituting the check of the level balance of pipe bridge (929) Comprising a block tank,

At the sea surface top exposed site dual structure block tank pipe bridge 928,

The rope is connected to the double structure block tanks to provide mooring. At the same time, the actuator of the actuator (848) is operated in the construction machine cab, and the connection structure of the construction machine distribution and input device and the small, medium and large scale marine nuclear hydroelectric (593, 594, 595) of the power plant. Protecting nuclear plant facilities with mooring equipment,

A nuclear waste disposal unit 811a constituting the nuclear waste disposal reactor apparatus main body 1 and a transportation transportation unit 811c of the construction machine providing the connection with the nuclear waste disposal unit 811a, (593,594,595) Nuclear power plant facilities of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants in the offshore,

A transportation unit 811c of a construction machine for establishing a connection with a nuclear waste treatment unit 811a constituting a nuclear hydropower generation facility unit 811 constituting the inside of a distribution and dispensing apparatus main body 1 of the nuclear waste treatment facility, And a distribution dispensing apparatus of a nuclear reactor construction machine constituted by a processing distribution dispensing apparatus,

In the distribution input device of the construction machine constituting the nuclear power plant facility and the nuclear reactor facility,

A double structure block tank tank pipe bridge 929 connected to the double block tank tank bridge pipe 929 at a distance of 500m within the nuclear power plant facility is connected to the sea water tank SLL), double structure block tank 500㎥ unit volume connection structure,

The double structure block tank bridge 929 constituting the nuclear waste disposal is connected to the crane boom stand 942 of the tower crane substituting for crates, and the connecting structures anchor 639 and the anchor chain 640 are mounted on the seabed ,

A distributing and inputting device for a nuclear reactor construction machine that winds up wind turbine winch 958 constituting nuclear waste treatment and releases anchor 639 and wire rope chain 915 with a tuna winch 958 and,

Nuclear Reactor Facilities Distribution Equipment of Nuclear Reactor for Disposal of Nuclear Reactor with Dispenser and Equipment for Construction Equipment Connected Structure of Nuclear Reactor Equipment for Construction Equipment (1) Dispensing Equipment of Construction Equipment Dual Structure Block Tank Pipe Pier (928) A structural block tank pipe bridge 929,

A connection structure having a submarine line wiring connection structure to the injection nozzle of the injection nozzle connection port and a transportation connection structure for providing a transportation position, and a small, medium and large sized A nuclear waste disposal unit 811a of the nuclear power plant unit 811 constituting the inside of the main body 1 of the nuclear waste disposal reactor facility with the lifting tanks 593, 594, 595 of the offshore nuclear hydroelectric power plant as mooring devices, And a transportation transport unit (811c) of a construction machine for establishing a connection with the nuclear waste disposal and dispensing apparatus. The nuclear waste disposal apparatus includes a nuclear plant facility as a connection structure for protecting the distribution input apparatus of a nuclear reactor construction machine,

A transportation unit 811c of a construction machine for establishing a connection with a nuclear waste treatment unit 811a constituting a nuclear hydropower generation facility unit 811 constituting the inside of a distribution and dispensing apparatus main body 1 of the nuclear waste treatment facility, The distribution dispensing apparatus of the reactor facility construction machine constituted by the treatment dispensing dispensing apparatus,

(1) of the reactor installation for nuclear waste disposal with the distribution dispenser of the nuclear reactor construction machine, and the nuclear waste disposal facility A double structure block is a connection structure which is provided with a distributor for connection of a tank pipe bridge (929), which is wound around a rotating shaft pinch winch (958) and loosens anchor chain (640) by a pinch winch (958) (959), which is connected to the catcher winch (958) constituting it repeatedly,

The saddle replacement use sail 959, which constitutes the dispensing apparatus of the nuclear reactor installation,

A double structure block tank bridge (929) for treating nuclear waste is installed in the tugboat (636) of the nuclear power plant equipment constituting the sail substitute sail (959) while the double structure block tank (598) (929) connecting the nuclear waste treatment dual structure block tank bridge (929), providing a temporary passage to the sailing vessel as a connecting structure with a joint work process at sea level,

Nuclear waste disposal at a single 500m site during the construction of the temporary passage of the sailing vessel Double structure block tank bridge (929) A temporary passage of the sailing vessel was established by holding the combined operation of the nuclear power plant facilities, (929) Double structure block tank (598) as coupling connection structure Position of the connecting block The outer block tank 599 has the even number of connecting parts and the odd number of connecting parts 5, (2) Nuclear waste treatment double structural block tank bridge (929) consisting of the inside of the main body (1) of the reactor installation for nuclear waste disposal with the connecting structure of the double structure block tank as a connection structure. Lt; / RTI &gt;

(1) of the reactor installation for nuclear waste treatment, while providing the distribution and input devices of the nuclear reactor construction machine constituting the temporary passage of the sailing vessel, and connecting the submarine line wiring to the injection nozzle of the injection nozzle connection port (593,594,595) of small-sized, medium-sized and large-sized marine nuclear hydroelectric power plants with anti-sinking marine structures (593,594,595) as mooring devices, A nuclear waste disposal unit 811a of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution apparatus main body 1 of the nuclear waste disposal apparatus main body 1, Nuclear Reactor Equipment It is the connection structure of the equipment that constitutes the protection of the distribution equipment of the construction machine,

A transportation transportation section of a construction machine for establishing a connection with a nuclear waste disposal section 811a constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor apparatus constituting the nuclear power plant facility, (811c) of the nuclear waste disposal and dispensing apparatus,

The Nuclear Power Plant Facility and the Nuclear Reactor Construction Equipment are equipped with a distribution input device for connection of a nuclear waste treatment dual structure block tank bridge (929) that constitutes a nuclear power plant facility. The small, medium and large sized marine nuclear hydroelectric power plants (593,594, 595) Connected structure of nuclear power plant facilities Tubular bridge Disassembly and disassembly External block consisting of disassembling and dispensing device Tank (599) Coupled to external position Hook provided with detachable hinge (27) And a connecting shaft 27b of a hinge type of the hinge 27 and a connecting shaft 27b of a long shaft for a hinge are provided on the hinge 27 of the pawl rug 21 A double structure block tank constituting a binding for the hinge,

And a structure for connecting the connection portion of the double structure block tank to a predetermined distance between the injection nozzle and the submarine line of the injection nozzle, (593,594,595) of small, medium and large sized marine nuclear hydroelectric power stations (593,594,595) for the prevention of sinking, and nuclear facilities A connection is established with the nuclear waste generator 811a of the nuclear power generation facility 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the processing reactor installation,

(811c) of the construction machinery, including a nuclear waste disposal dispenser and a nuclear waste disposal unit,

The ratchet lock releasing device of a mooring device located on a horizontal outer wall constituting a distribution input device of a nuclear reactor construction equipment of the nuclear power plant,

(935), which constitutes the locking device of the mooring device lock release device, is provided by welding while the attachment is provided, and the double structure block tank connection position is provided by the rotation of the upper and lower rotations. ) And a jig base (22) are provided with a double structure block tank disassembly coupling structure, and a block unit double structure block tank hull disassembly and coupling lug hinge socket (613) (593,594,595) of the marine small, medium and large marine nuclear hydroelectric power plants with the combined structure,

Nuclear Power Plant Reactor Facility Dual Structure Block to Provide the Connection Structure of the Injection Nozzle and Submarine Line Wiring (946) at the Injection Nozzle Connection Portion of the Dispensing and Discharging Device of the Construction Machinery Bridge Tank Bridge (937) (593,594,595) of a marine nuclear hydroelectric power plant of medium and large size (593,594,595) Mooring device of a nuclear power plant facility The fixed-ocean offshore power plant, ) Including facilities for nuclear power plants,

Double structural block tank structure of Nuclear Hydroelectric Power Plant facility The location of the connection part of the joint structure of the hydroelectric power plant is divided into two parts: (593,594,595) of a large-sized and large-scale marine nuclear hydroelectric power plant, and the installation of nuclear power plant,

(593,594,595) of small, medium and large sized hydro-nuclear hydroelectric power plants constituting nuclear hydroelectric power plant facilities, and a mooring device, diving buoyancy control device and nuclear waste disposal dispenser and reactor installation of nuclear power plant (672) Dispensing of nuclear waste treatment facilities before and after safe operation of nuclear reactor facility Discharging of nuclear waste treatment facility The nuclear waste water treatment plant manufacturing process (705) of the nuclear reactor facility in the nuclear hydroelectric power plant (811) And a connection structure capable of being disassembled and coupled at a marine ship manufacturing factory is constructed so as to form a connection shaft of the nuclear waste disposal pipe manufacturing process (705)

The double structure block tank dust collector nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydropower generation facility unit 811 constituted by the inside of the main body 1 of the distribution apparatus 200 for nuclear waste processing for land and ocean,

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of the land and sea constituting the distribution shaft (705) of the nuclear waste treatment pipe manufacturing process, and the distribution The dual structure block tank dust collector of the nuclear power hydroelectric power generation facility 811 constituting the inside of the charging device main body 1 is provided with a plurality of generators for nuclear waste disposal and power generation of the nuclear reactor facility, And a distribution input device of the electric power production and manufacture section 811b constituting the operation of the nuclear power plant of the facility,

The distribution input device of the power generation and production section 811b, which constitutes the nuclear power plant operation,

The connection structure constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste processing constituting the distribution input apparatus of the power production and manufacture section (811b) is a connection structure of small, medium and large scale marine nuclear hydroelectric power plants (593,594,595) for nuclear power plants (593,594,595) for nuclear power plants (593,594,595) for distribution of nuclear power plants (672) and nuclear waste disposal facilities Nuclear waste treatment double structured block tank pipe bridge (929) provided with connection structure constituting inside of the apparatus main body (1), injection nozzle connecting port submarine line wiring (946) (593,594,595) nuclear power plants (672) of marine small, medium and large sized marine nuclear hydroelectric power plants, ,

(593,594,595) Nuclear Power Plants (672) installations of marine small and medium and large marine nuclear hydroelectric power plants that make up mooring controls,

A floating structure of a buoyant deck deck at an offshore plant in a marine power plant constructed as a connection structure of a distribution dispensing apparatus, a double structure block tank, a double structure block tank of a nuclear detonation type inside a deck deck (794) The building,

Nuclear power plants (672), offshore wind power plants (957) and marine nuclear power plants (957) constituting nuclear power plants (592,594,595) and nuclear power plants (692) of marine small, medium and large scale offshore nuclear hydroelectric power plants, A dual structure block tank dust collector 794 for controlling leakage of the nuclear radiation power for the interior of the deck plate and the wind turbine 957a for the environment friendly wind power generator into the inside of the Siiso hydroelectric power plant 943,

A nuclear power generator 772 constructed outside the double structure block tank dust collector 794 and a connection structure provided with a fixed connection structure by a large hydroelectric generator and providing connection to the respective line distribution shafts, And a power transmission portion 811d provided as transformers for transmitting the power of the nuclear power generating unit 811 to the distribution shaft constituting the inside of the apparatus main body 1, (929) for providing a connection structure of a submarine line injection nozzle and a submarine line wiring (946) constituting the inside of the nuclear waste treatment dual tank tank bridge (929)

The power supply control unit constituting the distribution input unit of the transformer 96 of the large-capacity substation is provided with a power transmission tower 776 as a connection structure of the power transmission line 775,

(593,594,595) of marine nuclear, hydro, and nuclear power plants equipped with generators in each connection structure constituting power generation supply. Nuclear waste treatment dual structure The supply of a certain amount of generated power to the connecting process of the large flange 614 of the block tank pipe bridge 929 is provided as a connection and disconnection structure of the input and output device, Including plant facilities,

The power generation power of the nuclear power plant equipment is controlled by the line distribution power supply, and the levers block 123, the chain block 648 and the turn blocks 850 are connected to each other by a double structure block tank. (593,594,595) Nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant, and a distribution structure of nuclear power plant for nuclear waste disposal. And a connection structure of the submarine line wiring 946 is provided,

Submarine line wiring (946) Dual structural block tank bridge bridge (929) that constitutes the connecting structure The combined distribution input unit is equipped with multistage inlet type manometric turn to operate the vertical hydrostatic generator (944) In addition,

A crane boom section 942 of a tower crane constituting a large hydroelectric generator canister facility 944 to provide an electric energy generating device for generating power, (593,594, 595) of a large-scale and large-scale marine nuclear hydroelectric power plant, and a large-scale hydro-generator distribution and input device that constitutes the operation of the nuclear plant of the nuclear reactor plant,

(593,594,595) nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the large hydropower distributing and dispensing apparatus, and the main body of the dispensing apparatus The double structure block tank dust collector of the power transmission unit 811d including the power generation and production unit 811b of the nuclear hydropower generation facility unit 811 and the power transforming devices that transmit the power to the nuclear waste And a connection shaft composed of a plurality of generators for processing and power generation,

The distribution input device of the power generation and production section 811b, which constitutes the nuclear power plant operation of the reactor facility,

(593, 594, 595) of a marine small, medium and large sized marine nuclear hydroelectric power plant making up the distribution input device, and a connecting structure constituting the distribution input device main body (1) of the nuclear plant and nuclear reactor waste disposal unit And a line distribution input device for power supply for the power generation device,

The dual structure block tank constituting the line distribution input device reactor of the power supply is connected to the vertical partition wall 605, the horizontal partition wall 609, the diaphragm manhole 610, the manhole cover 152 and the hatch cover 153 As a result,

In the hatch cover 153 constituting the nuclear reactor facility,

The hydraulic cylinder door 624 is provided as a connection structure,

In the double structure block tank (598) equipment constituting the nuclear reactor facility,

A lever block 123, a chain block 648, and turn bolts 850, which are a connecting and disposing device connecting structure, are provided to provide horizontal connection,

Considering the side loads of floating marine nuclear power hydroelectric power plants (593,594,595) of small, medium and large sized marine nuclear reactors, the height of the nuclear waste treatment double structure block tank bridge bridge (929) Nuclear power plant (593,594,595) Nuclear power plant (593,594,595) consisting of the inside of the main body (1) of the nuclear reactor waste disposal reactor facility that provides the double structure block tanks to each other by 1.5 times the width of the pipe bridge (929) 672), a nuclear waste treatment pipe manufacturing process (705) of a reactor facility at a nuclear power plant (811) before the safe operation of a nuclear reactor waste disposal apparatus and a nuclear waste disposal apparatus, Connection axis;

As a connection structure capable of being disassembled and coupled in a marine vessel manufacturing factory of a power transmission unit 811d constituted of power generation and production unit 811b of nuclear power generation facility unit 811 and power transformers for transmitting power .

Alternatively, the dual structure of the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plants having the double structure block tank dust collector of the land and sea, Block Tank Dust Collector Nuclear Waste Treatment Tube Manufacturing Process Dispense Shaft (705)

(593, 594, 595) nuclear power plants (672) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the pipe manufacturing process distribution shaft (705), and a distribution dispensing apparatus main body (1) Nuclear power generation equipment part (811) Internal control part Construction machine control part (811f) Disassembly device and lifting device Dispensing device for production equipment device Connecting shaft Dispersing control device Comprising:

(593,594,595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the disaster prevention device of the electronic control regulating device construction machine control section (811f). In a dispensing device for a device and a production facility device,

(593,594, 595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the distribution input device for the lifting device and the production facility device. (SDU) at the upper end of the deck top of the holding tank upper barge hull (591) at the upper end of the sea water surface upper end portion (SDU) with a connection structure with the seabed line injection pipe connecting submarine line wire (946) A machining hole 615 for providing connection with isoformed steel 839 is provided,

The bolts 24, the nuts 25 and the washers 26, which constitute the deck plate of the hull 591,

Shaped springs 838 to provide the connection of the isosformed steel 839,

The connection axis, which constitutes the nuclear power plant facility,

And a temporal crane boom girder (942) of a towage crane replacement tower for mobile devices constituting a position adjustment input of a connecting shaft,

The block unit block pylon 116, which is a connection structure of the iso crane boom band 942,

Is mounted in a shovel (23) of a position adjusting and moving device in a rug machining hole (20) constituting the block unit block pylon (116) and is connected to a seesaw crane boom frame (942) of a tower crane, (116) is provided for assembled transportation,

In the block unit block tower 116 constituting the inside of the block tower 112,

The emergency stairs 631 constituting the block unit block steel tower 116 are provided and the traffic apparatus constituting the emergency stairs 631 is provided with the emergency stairs 631 provided on the block pylon tower 116 to form the mooring tower 644 (589) to the bollards (638) of the mooring platform and to the center of the bottom of the lower portion of the steam jet ship (589) to the ceiling crane (651) and the elevator alley (632) (631), which is a connection structure of a traffic system,

At the position of the deck plate 4 at the upper portion of the strut tank upper barge hull 591 constituting the emergency step 631,

The barge hull (591) has a connection structure of 500m units formed at four positions of the deck deck to fix the block unit boom to the sea floor,

And a block pylon (116) which comprises a plurality of pylon crane boom stands (942) of a crane provided with a disaster device and a lifting device connection structure,

(593,594,595) of marine nuclear hydroelectric power plants of small size, medium size and large scale, constituting the block steel tower (116), and a submarine consisting of the inside of the distribution input apparatus main body (1) of the nuclear reactor plant for nuclear waste disposal Line wiring (946) connection structure to provide the location of nuclear power plant facilities,

Nuclear waste treatment of nuclear power plant facilities Double structure block tank bridge (929) Combined distribution input unit The block unit block of the equipments provided with connecting structure to protect floating operation is a steel tower (116) ,

(593,594,595) for the marine small, medium and large sized marine nuclear hydroelectric power plants, equipped with the emergency stairway (631) traffic device constructed on the block pylon (116) Nuclear waste treatment double structure block tank pipe bridge (929) consisting of inside of main body (1) of nuclear reactor facility Nuclear hydroelectric power plant (929) connected to connection shaft connection structure to provide lifting operation (811) electronic control unit construction machine control unit (811f), and it is equipped with dis- charge input devices for the disaster prevention control device which constitutes the dis- tiller input device for the disaster prevention device, the lifting device and the production facility device in the block steel tower It is composed of facilities of nuclear power plant,

(593, 594, 595) of the marine small-sized and large-scale marine nuclear hydroelectric power plants constituting the facility of the nuclear power plant, the nuclear power plant of the nuclear power plant (811 ) Electronic control regulating device Construction machine regulating device (811f) The distribution input device for the disaster control device,

The nuclear power plant 811 constituting the connecting shaft connection structure of the nuclear power plant equipment provided with the disaster prevention water delivery located at the top of the top block top steel tower 116 of the upper end upper part of the mooring tower 644 constituting the distribution dispensing apparatus for the disaster control device, (591) on the upper part of the holding tank, and a disconnection control device for the disaster control device including the electronic control unit construction machine control unit (811f). (8) To the inside of the machine room, press the main switch button (66) on the main switch of the main switch button (66) of the starter switch button of the starter switch (8) Provided that pump operation is performed on a full-

The operation of the pump is stopped by manually depressing the off-time main switch button 66 of the main switch button 66 constituting the pump operation execution, and the high pressure multi-stage multi- (2) of the nuclear power plant (1) constituting the discharge structure of the disaster prevention water (7) by the fire prevention disaster double structure pipe nozzle (10) Comprising a connection axis,

In the distribution control apparatus for the disaster control apparatus of the electronic control regulating apparatus construction machine control section 811f constituting the connection axis of the nuclear power plant facility,

(10) and fire-fighting double-walled pipe nozzle (10) installed in the middle of connection between the fire hose (9) and the water pipe connecting the water pipe. Fixed-type fire-fighting double structure pipe The connection structure of the wire rope 19 of the nozzle 10 and the connection device shack 23 and the connection flange of the disaster prevention nozzle are provided and the weather observation equipment adobe 77, the airship 78 and the radio sonde 134, (42) The lower part of the lower basket is connected to the lower part of the disaster prevention double pipe nozzle (10). The protection wire is composed of a wire rope (19) and a double structure of gas transportation which is lighter than air. Disaster prevention apparatuses are provided with connection structures of connection shafts,

The production facility apparatuses of the dispensing apparatus for the disaster control apparatus, including the dispensing apparatus for the disaster control apparatus of the electronic control apparatus construction machine control unit 811f constituting the connection axis of the nuclear power plant facility,

A high performance submersible pump 36 and an air compressor 80 constituting a production facility apparatus of the dispensing and inputting apparatus,

The distributing and inputting apparatus production facility apparatus for the disaster control apparatus of the electronic control regulating apparatus construction machine control section 811f constituting the connection axis of the nuclear power plant facility,

(946) Nuclear waste treatment with double structure block tank bridge pipe (929) Combined distribution input (1) Inside the main body (1) The emergency stairs 631 are provided in the block unit block pylon 116 provided in the connecting shaft connection structure for protecting the floatation type disaster prevention device constituting the disaster control device, As a connection structure,

(593,594,595) of a small-sized and large-scale marine nuclear hydroelectric power plant constituting the disaster control system (1) a nuclear waste disposal system consisting of a main body (1) for distributing nuclear power plants and reactor facilities for nuclear waste disposal; Structural block Tank pipe bridge (929) Nuclear hydroelectric power plant (811) Electronic control equipment Construction machinery control unit (811f) Disaster prevention equipment and lifting equipment And distributing and inputting devices for the production equipment equipments are installed in the block steel towers as the distributing and inputting equipments for the disassembly control devices.

(593,594,595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting a distributing and inputting device for nuclear waste treatment nuclear plant, and a nuclear power plant for nuclear waste disposal, (811) Electronically Controlled Equipment Construction Machinery Control Unit (811f) Disaster Control Equipment, Lifting Equipment, and Production Equipment Dispatching control unit of the connecting shaft that constitutes the dispensing and dispensing unit of the equipment in the block steel tower. ,

The control system and the control system (150), which consist of the connection structure of the nuclear power plant, are equipped with the electronic control distribution and input device of the fire fighting and disaster prevention machine room and are equipped with the floating support system of small size, medium and large scale marine nuclear hydroelectric power plants 593, 594, 595) Distribution equipment of nuclear reactor waste disposal facility Main body (1) Submarine line injection nozzle connecting port Submarine line wiring (946) Floating pump located on the deck A multi-stage multi-stage emergency protection pump (8) constituting a position as an internal connection structure, and a fire prevention emergency electronic control device of a multi-stage pump control box (2) having a connection structure,

Electronic control facility of nuclear power plant equipment constituting fire fighting disaster electronic control equipment Electronic control facility of operation control system 150 Control box for operation (2) Suction join pipe (3 ), The exhaust pipe 4, the pump inner isolation valve high pressure shutoff valve 5, the pump backflow prevention check valve 6, the air hose connection nipple 110, the inlet multi-stage disaster prevention pump 8, A nuclear power plant constituting the fire fighting hose 9, the fire fighting pipe nozzle 10, the fixed frame 11 for fixing the positional multi-stage fire fighting pump 8 and the detection sensor 12 for an electronic control device for detecting fire, And a fire-fighting electronic control unit of the facility,

The electronic control unit connection structure of the nuclear power plant equipment constituting the detection sensor (12)

An overcurrent breaker brake 61, a power supply unit 62, an inverter 47 for an electronic control unit, and an inverter 47 for establishing an internal connection structure of the control box 2 of the power source power source 46 constituting the electronic control unit. Wireless communication antenna 54 is connected to the inside of the monitor 52 and the control board 53 of the control server 51 inside the internet 50 and the wireless router 48 and the security point pointer 49, A connection structure for constituting a rechargeable battery 37 having a connection structure with the wireless communication control module 55 of the apparatus includes an electronic control device connection structure for transmission and reception composed of a mobile 81 and a portable terminal 82 ,

The fire-fighting emergency electronic control devices constituting the electronic control device are,

A display 56 constituting a firefighting and disaster control electronic control device and an electronic control device AIDS 57 and an electronic control device M of the switch input circuit 58, A main switch button 66 and an auxiliary switch button 67 for the start switch button for establishing a position in the electronic circuit connection structure between the analog input 64 and the digital input 65 of the play screen 63, The computer network input 68 for the display input and the identification plate 69 of the pressure setting value which is the set pressure value of the current pressure value and the connection structure between the memory 70 and the power supply power supply line 71, An emergency electronic control device, comprising:

The power source power source 46 constituted by the fire-fighting and disaster control electronic control device,

(46) to the electronic control devices of the fire-fighting operation machinery room constituting the power supply energy source (46), and the lifting dock (593,594,595) of the small, medium and large scale offshore nuclear hydroelectric power plants (946) Nuclear waste treatment double structure block tank pipe bridge (929) to form a joint structure. (929) Combination of nuclear waste treatment facility and nuclear reactor waste treatment facility Discharging input devices Equipment for lifting and dismounting equipment and equipment for production equipment Protected equipment and electronic control equipment for fire fighting and disaster prevention machine room of nuclear power plant Electronic control unit consisting of input devices for connecting and disassembling Marine structure (593,594,595) of small-sized and medium-sized and large-scale marine nuclear hydroelectric power plants (593,594,595) Nuclear power plants and distributors of nuclear reactor facilities for nuclear waste disposal The electronic control unit pre-dispensing and inputting devices of the fire fighting and disinfection operation machine room constituted by the inside of the main body 1 and the disaster prevention device of the electronic control regulating device construction machine control unit 811f included in the nuclear hydroelectric power generation facility unit 811 The power supply of the disconnection control device of the disconnection and disconnection control device which constitutes the distributing input device for the lifting device and the production equipment device in the block steel tower is configured so that the nuclear power plant of the nuclear power plant is operated by turning on the power supply,

(593, 594, 595) of a marine nuclear power plant of small size, medium size and large scale constituting the above operation of the nuclear power plant, and a nuclear power plant constituting the nuclear power plant of the marine nuclear power plant, And a fire-fighting and dis- tribution control distribution dispensing apparatus constituted by a connection-shaft connection structure of a power generation facility unit (811) and an electronic control-regulating apparatus construction machine control unit (811f)

The fire fighting and disinfecting control distribution dispensing apparatus constituting the electronic control adjusting apparatus comprises:

(593,594,595) of a small, medium and large scale offshore nuclear hydroelectric power plant constituting the fire fighting disaster control distribution dispenser (593,594,595) Distribution of nuclear power plants and reactor facilities for nuclear waste treatment (1) The safety valve 258 constituting the connection structure of the piping 89 having the electronic control unit of the fire fighting and disinfection operation machine room and the line distributing and charging unit, the low pressure shutoff valve 83 and the emergency valve 84 for the electronic control unit, And the safety valve 258 of the pressure reducing valve 85. The bolts 24 and the nuts 25 and the shoehorn 26 are connected to the gap 15 of the pipe connecting flange 28 of the pipe 89, And a connection structure of a pipe (89) constituting a connection structure of the rubber packing (32) of the gasket for connecting connection by the valve each,

The connection structure of the pipe 89 constituting the connection structure with each of the above-

The first pressure check sensor 86 and the second pressure check sensor 87 constituting the connection structure of the pipe 89 and the bypass piping line 89 for piping connection of the electronic control unit 88 and the collecting tank 34 Is connected to the reefer yarn 35 and a tee elbow 44 of a piping connection elbow and is connected to the inside of the pipe 89 for storing the disaster prevention water 7 State,

Electronic control device constituting fire control disaster control device Main switch button for starting switch button of the connecting shaft multi-stage disaster prevention pump (8) of construction machine control part (811f) and disaster prevention pump auxiliary switch (593,594,595) of marine nuclear hydroelectric power plants with small, medium and large sized marine nuclear power plants and nuclear waste disposal facilities equipped with inverters (67) A nuclear waste treatment dual structure block tank bridge (929) joint distribution dispenser which constitutes a facility connection structure of a nuclear power plant having a submarine line wiring (946) as a structure,

The dual structure block tank bridge (929) joint distribution input device constituting the nuclear waste treatment comprises:

Pipe bridge (929) It is equipped with the electronic control device of the fire fighting disaster prevention machine room and the line distribution input device connection structure in the equipment provided as the connection structure that protects the float disaster prevention device and the production facility devices constituting the joint dispensing input device (593,594,595) of the offshore nuclear, hydro, and nuclear power plants in the offshore, small and medium sized and large sized hydroelectric power plants. Distribution of nuclear power plants and nuclear waste disposal facilities. (811) of the nuclear power plant (811), the control unit (811f) of the control unit, and the distribution and input unit for the lifting unit and the production facility unit are put into the block steel tower, And a connection shaft disaster control distribution dispenser for constituting the operation of the nuclear power plant,

(593,594,595) of a small, medium and large sized maritime nuclear hydroelectric power station of the connecting shaft constituting the disruption device of the construction machine control section (811f) and the distribution input device for the lifting apparatus and the production facility apparatus Dispensing and dosing device for operation of atomic power plant that constitutes fire prevention and disaster control device with connection shaft connection structure constituting inside of main body (1) of nuclear reactor waste disposal reactor equipment,

Piping connection consisting of distribution dispenser for operation of nuclear power plant Equipment Connection of elbow with elbow (44) and multistage disaster prevention pump of fire fighting operation machine room (8) The bypass connection line for piping connection of the pipe 34 is provided with a connection structure with the lead 35 and the piping connection elbow of the piping connection elbow 44,

The storage state of the disaster prevention water 7 of the fire fighting and disaster prevention control equipment is provided in the connection structure pipe 89 of the nuclear power plant facility constituting the connection structure with the tee elbow 44 of the piping connection accessory elbow,

The main switch button (66) for the start switch button of the emergency disaster prevention control equipment (7) and the high pressure multi-stage emergency protection pump (8) of the multi-stage disaster prevention pump (8) ) To the on-time main switch button (66) position,

Pressing the switch to the off-time main switch position (66) of the main switch button (66), which constitutes the pump operation performance,

(8) which constitutes the connection structure of the nuclear power plant, before and after firefighting Nozzle hose connection structure The equipment installation stand (33) is equipped with a high-performance submersible pump (36) The connection structure helicopter (647) is provided with a mounting position on the body,

The coupling structure of the nuclear power plant equipment constituting the coupling structure with the claws (13) for the electronic control device,

And a disaster prevention water (7) equipped with a water pressure of the double structure fire hose (9) positioned as a forefront connection structure constituting the fire prevention disaster double structure pipe nozzle (10) When the hand is pushed to the position of the on-time main switch button (66) of the main switch button (66) of the starter switch button of the high pressure multi-stage emergency protection pump (8) Discharge Pump (8) Each suction combined pipe (3) for electronic control, which opens to the connection structure provided on the body, and the internal high pressure shut-off valve (5) Includes a check valve (6) and a solenoid valve (76)

The fire-fighting and disaster control device constituting the solenoid valve (76)

The disaster prevention water 7 having the water pressure inside the piping constituting the firefighting and disaster prevention control device is moved through the piping to move to the position of the fire suppression double structure pipe nozzle 9,

Nuclear power plant and nuclear waste disposal facility for nuclear waste disposal facility (1) The internal connection structure of fire fighting and disaster control equipment with connection shaft connection structure inside the main body (1) Nuclear waste (929) Dispensing injector that constitutes the coupling Floating-type explosion-proof disaster prevention device and production facility Equipment to provide connection structure that protects equipment Fire control disaster prevention machine Electronic control unit of machine room Line dispensing device (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants with connection structures of water nuclear power plants with connection structures of nuclear power plant facilities. The electronic control unit of the fire fighting and disinfection operation machine room constituted inside the main body (1) is equipped with the line distribution input devices, (811) Electronically Controlled Equipment (811f) Discharging device and lifting device of the control device (811f) and distribution device for the production equipment device are connected to a block tower. The nuclear reactor is constructed to operate the nuclear power plant,

(593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant of the connecting shaft constituting the disruption device of the construction machine control section (811f) constituting the nuclear power plant and the distribution input device for the lifting apparatus and the production facility apparatus, (1) Discharge Discharging Control Device Consisting of Connection Shaft Connection Structure Consisting of Nuclear Power Plant and Nuclear Waste Treatment Reactor (1)

The nuclear reactor operation and distribution apparatus constituting the nuclear power plant facility comprises:

The disaster prevention water (7) equipped with the water pressure constituting the distribution dispenser for operation of the nuclear power plant,

A plurality of positioning gaps 15 and a processing hole 20 for the position-adjusting and moving device located in the body of the fire-fighting disaster prevention double-walled nozzle 10 are provided by moving the pipe to the position of the fire- (38) of the fire fighting and disinfection control article (38) constituting the discharge to the outside of the body of the firefighting and disaster prevention double structure nozzle (10) with the disaster prevention water (7) (7) of the water film (39)

The nuclear reactor power plant distribution dispenser of the nuclear power plant constituting the disaster prevention water 7 of the curtain water film 39,

At the positions of the plurality of processing holes 20 constituting the distribution operation apparatus for nuclear power station operation, at the positions of the straight circular discharge sprays 38 and the plurality of processing holes 20 gaps 15,

(38) In the form of a water film curtain (39), a discharge dropping jet is prepared,

A smoldering action for preventing combustion by interrupting the supply of air by surrounding the combustible with an incombustible gas, and a cooling action for reducing the combustible to the ignition point temperature,

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants equipped with hydraulically connected structures in connection structures of nuclear power plant facilities Distribution of nuclear power plants and reactor facilities for nuclear waste disposal 1) Electronic control device of fire fighting and disinfection operation machine room built in. Nuclear hydroelectric power plant 811 Electronic control equipment 811f Disaster prevention device, lifting device and production facility of construction machine control part 811f The system includes a disruption control dispensing device of a connection shaft constituting a distribution input device for a device in a block steel tower to operate a reactor plant of a nuclear power plant,

(593,594,595) of the small, medium and large sized marine nuclear hydroelectric power plants of the connecting shaft shaft constituting the disruption device of the construction machine control section (811f) constituting the operation of the nuclear power plant, ) Dispense and Discharge Unit for Nuclear Power Plant and Nuclear Waste Treatment Facility Discharge Discharging Unit for Nuclear Power Plant that constitutes nuclear disaster control equipment with fire prevention and disposal control equipment,

The fire-fighting control (40) of the fire-fighting and disaster control goods which provided initial deployment within one second with the operation distribution dispenser of the nuclear power plant facilities constituting the above-mentioned operation device for dispatching the nuclear power plant set up early evolution immediately before dispatch to the fire scene The number of ejection nozzles 38 of the fire-fighting disaster control article,

Disinfecting water 7 of the curtain water film 39 of the fire-fighting and disinfection control article constituting the ejection jetting number 38,

The number of ejection nozzles (38) constituted by the disaster prevention water (7)

At the positions of the plurality of processing holes 20 constituting the ejection sprayer 38, the number of ejection nozzles 38 constituting a linear circular shape,

At the positions of the gaps 15 of the plurality of processing holes 20 constituting the discharge sprayer 38, the radiation discharge sprays 38 are discharged in the form of a water film curtain 39 In addition,

The fire fighting and disinfection of the nuclear power plant equipment constituting the discharge water spraying number (38)

The fire-fighting system is composed of the flammable gas constituting the fire-fighting disaster and the fire-extinguishing action by enclosing the combustible material to block the supply of air to prevent the combustion and to cool down the combustible to the ignition point. An air hose 109 for storing a flammable gas 164 having a water pressure located in the structure and a fire prevention disaster prevention water source for a nuclear power plant constituting a connection structure to the fire hose body,

Disaster prevention control water cooling water 287 constituting the fire prevention disaster prevention disaster prevention water and powdered loess 158 constituting a tooth form to generate a soap bubble mixed with the disaster prevention water, And a main switch button (66) for controlling the operation of the emergency fire pump and a portable wireless communication terminal (82) of the high pressure multi-stage emergency disaster pump control system (150) in the safety control room. The power supply control box above the emergency protection pump auxiliary switch button (67) of the connection shaft includes a coupling coupling (29) for the piping connection which constitutes a distribution arrangement connection to the safety control room and the disaster pump operating machine room,

(40) and a helicopter (647), which are composed of a coupling body of a coupling body and a connecting body of a coupling male thread body (31) composed of a disaster pump operating machine room and a double structure fire hose, powdered loess (158) The combined disaster prevention water is provided to the upper part of the floating deck deck to provide the connection structure connection with the fire fighting emergency electronic control unit,

(593,594,595) of a small, medium and large sized marine nuclear power plant consisting of a disaster pump operating machinery room (593,594,595) Dispensing injector for nuclear power plant and nuclear waste disposal facility Main unit (1) 945) and a connection structure with a submarine line wiring (946) Nuclear waste treatment double structured block tank pipe bridge (929) Produced by a floating electronic control system of a floating type fire fighting and disinfection unit A facility apparatus,

An emergency staircase 631 of the traffic device of the block unit block steel tower 116 is provided in the equipment for providing the protected connection structure constituted by the disaster prevention pump operating machinery room, (1) of the nuclear power plant and the reactor facility for the nuclear waste disposal facility, and a floating nuclear power plant (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants 672) and the nuclear waste disposal facility of the nuclear waste disposal system and the nuclear reactor waste water treatment pipe manufacturing process (705 ) Connection of nuclear reactor plant of Nuclear Power Plant Disconnection device of the shaft construction machine control section (811f) and connecting shaft that constitutes the lifting device and the production equipment distribution device Small and medium size (593,594,595) of a large-scale marine nuclear hydroelectric power plant (593,594,595) Distribution facility of nuclear power plant and reactor facility for nuclear waste treatment (1) It is composed as a connection structure that can be disassembled and combined at marine shipbuilding factory with distribution input devices.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants of the above land and sea, and the main body of the dispensing apparatus of the nuclear waste disposal apparatus (1) A nuclear waste disposal unit 811a of the nuclear power generation plant 811 is provided with a double structure block tank dust collector and a nuclear waste disposal pipe dispensing apparatus of the nuclear waste processing pipe manufacturing process 705, Quot;

The nuclear waste disposal and dispensing apparatus constituting the nuclear hydroelectric plant includes:

The connection structure of the nuclear power plant constituting the nuclear waste disposal dispensing apparatus is provided with the nuclear waste disposal unit 811a of the distribution and input device of the facility protection facility,

The connection structure submarine line wirings 946 constituting the lifting type docking nuclear power plant 672 of a marine power plant constituting the nuclear waste disposal and dispensing apparatus and the inside of the dispensing input apparatus main body 1 of the nuclear waste disposal reactor facility are located (SLU) of the sea surface (SLL) of a floating-type hydroelectric power plant,

A floating buoy deck that forms the reactor facility of a buoyancy type nuclear power plant, and a deck top deck which is connected to the top of the bucket. The buoy is installed in the main body (1) of the distribution apparatus of the buoyant nuclear power plant A block pylon 116 of unit volume coupling,

And a safety control room constituting a position as a connection structure on the left side of the top center of the deck plate of the floating type hydroelectric power plant constituting the block steel tower (116)

Many nuclear-weapon states that make up a floating nuclear power plant,

Nuclear Weapons Nuclear waste disposal equipment consisting of nuclear waste disposal facility for nuclear waste disposal facility equipped with interconnecting structures for preventing war and terrorism that constitute a majority of countries Nuclear waste disposed at the launch site of satellite launching and space rocket launching A nuclear waste disposal dispensing apparatus constituting a satellite for processing apparatus and a space rocket,

Prevention of flood drought control Preventing the damage of volcanic ash generation before and after explosion and natural haze and volcanic eruptions and volcanic eruptions of natural hurricanes, earthquakes, wildfires and volcanic eruptions constituting disposal unit of nuclear waste disposal Appearance observation And a peripheral equipment of a block pylon (116) of a nuclear waste disposal dispensing apparatus constituting the equipment management room of the weather forecasting station (958) inside the dispensing apparatus main body (1) of the nuclear waste disposal reactor facility,

A helicopter stop 619 positioned as a positional connection structure around the upper end of the deck plate constituting the peripheral equipment of the block steel tower 116 of the nuclear waste disposal and dispensing apparatus is provided,

A satellite 611 and a space launch pad 643 and a space rocket launch pad 646 of a space rocket 612 are provided to establish a position as a safety control room left side connection structure constituting the peripheral equipment of the block pylon 116, 643) and space rocket launch pad 646,

A reactor structure of the nuclear power plant constituting the upper deck plate, which is provided as a satellite launching platform (643) and a space rocket launching platform (646), and is a connection structure constituting the interior of the main body (1) (921) which is provided with a natural loess soil (158) as a connecting structure for controlling the upper part of the floating deck of the floating deck which is provided with a wiring line (946) And a natural loess soil (158) of a loess mixture which generates soap bubbles in the form of toothpaste mixed with cooling water controlled by fire control system consisting of a connecting structure provided at the upper part,

Sooty Foaming Mixture of Natural Loess (158) Floating Soaking Deck at Top of Deck Deck Control Products Control Natural Loess (158) of loess mixture that generates soap bubbles mixed with cooling water and,

The harmful red tide propagation countermeasure at the seabed constituting the harmful tidal microorganism (921) propagation prevention which occurs in the seabed constituting the natural loess (158) of the loess mixture,

(901) comprising a natural loam (158) in the inside of a greenhouse basket (951) of a harmful redeye suction dust collector constituting a harmful red tide propagation preventive measure and includes a greenhouse basket (951) and,

The harmful redeye microorganisms 921 are stored by the harmful redeye suction dust collector constituting the greeneyed basket 951 and the harmful tidal microorganisms 921 are removed by the natural yellow soil 158 inside the greeneyed basket 951,

In the lower position of the deck deck deck body, the natural loess (158)

The harmful tidal microorganism (921) breeding site includes a tuna winch 137,

A crane boom girder 942, a wire rope 19 and a wire rope chain 915 of a tow crane replacement tower crane constituting the tug boat winch 137, (135)

A moving device tackle winch 137 constituting a natural loess (158) input to the seabed constituting binding to the driving wheel roller (135) and performing position adjustment movement, and a seesaw crane boom stand 942)

Shaped air hoses 109 in the air compressor 80 and the air hose 109 constituting the iso-crane boom band 942 to provide oxygen and air into the sea bed,

(593,594, 595) of small, medium and large sized marine nuclear hydroelectric power plants by arranging control facilities for fire control to protect the marine environment. Distribution of nuclear power plants and reactor facilities for nuclear waste treatment (1) Inside (946) as a connection structure for the marine environmental protection equipment, which is connected to the submarine line (946). The marine environment consists of the connecting and disposing device connecting structures that protect marine environment facilities around the floating deck deck (593,594,595) of nuclear power plants of medium and large sized marine nuclear power plants Nuclear power plant nuclear waste of nuclear power plant (811) consisting of nuclear power plant and nuclear power plant and nuclear power plant (1) The dual structure block tank dust collector is connected to the processing unit 811a by the operation of the nuclear power plant equipment constituting the connection axis position of the nuclear waste processing pipe manufacturing process 705 of the reactor facility For nuclear waste disposal, it is equipped with distribution dispensers to constitute nuclear power plant operation,

(593, 594, 595) nuclear power plant of the small-scale, medium-sized and large-scale marine nuclear hydroelectric power plant of the land and the sea, and a nuclear power plant of the nuclear power plant (811 (811a) of the nuclear power plant nuclear waste disposal unit (811a) of the nuclear power plant equipment constituting the connection axis position of the nuclear waste processing pipe manufacturing process (705) of the reactor facility nuclear oil drilling rig of the crude oil borehole facility 934) nuclear waste disposal dispenser,

(593,594, 595) of a small, medium and large sized maritime nuclear hydroelectric power plant of the ocean. The distribution structure of nuclear power plant and nuclear waste disposal reactor installation (1) The crude oil drilling rig 934, which is located at the top of the upper end of the lifting deck upper deck (SDU)

The drilling machine located at the lower end of the ceiling crane (651), which is located at the upper end of the lower end of the block steel tower (116) constituting the nuclear hydroelectric plant,

(908) Several hydraulic cylinders (623) for drilling that make up the position of the center of the round table lathe with a rotating body of the body Including,

A plurality of compact keys 623 are provided so that a plurality of compact keys 623 are driven to a position of a center of a lathe by adjusting the position of each of the compact keys 623, And a rotary table lathe machine 908 constituting a position shift control device,

The rotary table lathe machine 908 constituting the nuclear waste disposal and dispensing apparatus comprises a connecting structure provided as a linking structure of the center of the lathe and connected to the connection structure position shifter for opening a plurality of work keys 623 A plurality of pipe racks 854 are continuously connected to the central position to form a plurality of pipe drums 854 constituting a crude drill rod provided at the location of the crude oil borehole 936 located at the seabed as a connection structure ),

A crude oil drill rod 936 provided with a crude oil drilling hole 936 for drilling a raw oil bore hole 936 and a nuclear drill rod 936 provided as a connection structure for a crude drill rod fork connection structure provided as a connection structure constituting the pipe rack 854, A crane crane 651 for providing a crude drill rod connection for constituting a nuclear waste disposal and dispensing apparatus of a power plant, and a pipe rack 854 for connecting drill rods for crude oil bound to a wire rope 19, And a hydraulic rotary cylinder (619) for rotary drilling, which is constituted inside the rotary table lathe machine (908) of the drilling machine for crude oil in the machine room,

And a plurality of hydraulic cylinder keys 623 for drilling to position the circular table lathe to the center portion connecting structure constituting the hydraulic rotary cylinder 619 for rotating drills for rotary drilling, 908) to the upper end,

The crude oil borehole 936, which is a crude oil borehole distribution dispenser, is fed into the rotary table lathe machine 908. The crude oil borehole 936, (942) as a connection structure located on both sides of the nuclear waste disposal facility of the nuclear power plant facility,

The sea ice crane boom band (942) constituting the tower crane replacing the above-mentioned crane includes all of the deep-sea energy resources composing the lift to the top of the deck deck by the vertical rotation operation,

(593,594,595) of small, medium and large sized nuclear hydroelectric power plants that make up the whole of the deep-sea energy resources. Distribution facilities of nuclear power plants and nuclear reactor waste treatment facility main body (1) (964), which is provided with a crude oil and natural gas crude oil borehole distributing and inputting apparatus connection structure, and is installed in the main body (1) of the feed-in apparatus of the floating type nuclear hydroelectric power plant and nuclear reactor waste disposal nuclear reactor facility The nuclear plant waste disposal unit 811a of the nuclear hydroelectric power plant 811 having the double structure block tank dust collector is connected to the nuclear waste disposal pipe manufacturing process 705 of the reactor facility by the nuclear power plant A nuclear waste disposal dispenser for operation of a hydroelectric plant,

(593, 594, 595) nuclear power plants (672) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the nuclear waste disposal and dispensing apparatus, and a nuclear power plant (672) The nuclear waste disposal unit 811a of the nuclear hydropower generation facility 811 of the nuclear power plant unit 811a constitutes the nuclear waste processing tower manufacturing process 705 of the reactor facility, Crude oil drilling rigs of crude oil and natural gas oil borehole facilities (934) and nuclear waste disposal input devices for deep sea energy resources and mineral exploitation,

The nuclear waste disposal and dispensing apparatus composed of the nuclear hydroelectric plant facility comprises:

A connection structure composed of a lifting type docking nuclear power plant 672 of a marine power plant constituting a nuclear waste disposal dispensing apparatus and the inside of a dispensing apparatus main body 1 of a nuclear waste disposal nuclear reactor facility is provided with a submarine line wiring 946 In the deep seabed mineral resource collection site that provides the location, there are a garden basket 842 for collecting manganese block 909,

(909) Piping line for moving devices that make gathering Automatic pneumatic conveying device (916) As a connection structure, it is equipped with a suction collecting machine (911) and a mining robot for ash extraction machine for submarine mineral resource collection (912), and a mineral collecting tank (924) to provide a connecting structure located on both sides of the sea crane boom stand (942) of the tower crane for replacing the sea level lower end (SLD)

(942), which constitutes a tower crane for replacement of the above-mentioned crane. (942) Vertical rotation of the deep-sea energy source connected to the deck deck top of the deck deck top, Lt; / RTI &gt;

The nuclear waste disposal and dispensing apparatus, which constitutes the nuclear power plant facility,

(593,594,595) Nuclear power plants (672) of small and medium and large sized marine nuclear hydropower plants (672) and the inside of distribution dispensing apparatus main body (1) of nuclear reactor waste treatment facility Transport equipment supplying materials to the industrial site on land Construction of 500m block unit with dual structure block tank facility Nuclear waste treatment consisting of connecting structure Double structure block tank Marine tunnel transport device (941) Internal connection structure (254), and the electric motor

(593,594,595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the electric motor vehicle (254) and a connection structure constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment (946), the equipment of the marine power plant is connected to the floating deck deck at the top of each deck of floating deck deck and the deck deck of deck at the bottom of the deck deck. And a connection structure for providing a location on the side of the river, and arranging the collection of crude oil and natural gas as the connection structure of the deep sea mineral energy collecting and inputting device,

(672) and the inside of the main body (1) of the distribution apparatus of the nuclear waste treatment facility, which are provided with the crude oil borehole distribution and connection device connection structures constituting the crude oil and natural gas collection, The nuclear waste disposal processing unit 811a of the facility unit 811 transfers the double structure block tank dust collector to the nuclear waste disposal dispensing apparatuses of the nuclear power plant equipment constituting the connection shaft of the nuclear waste disposal pipe manufacturing process 705 of the reactor facility And the distribution of the marine power generation facilities having the connection axis positions constituting the inside of the distribution input apparatus main body 1 of the nuclear waste disposal nuclear reactor facility 672 and the floating nuclear power plant 672 of the marine power generation plant, And to include nuclear power plants as nuclear power plants.

(593,594, 595) nuclear power plant (672) of the small and medium-sized and large-scale marine nuclear hydroelectric power plant and the nuclear power plant (672) consisting of the nuclear power plant 811) is constructed as a nuclear waste disposal pipe manufacturing process (705) of the nuclear reactor facility.

A connecting structure composed of a buoyancy type diesel nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility unit 811 and a distribution input apparatus main body 1 of a nuclear waste treatment facility, A connecting structure constituting a connected structure submarine line wiring 946 to the strut tank upper barge hull 591 and the holding tank lower barge hull 593 provided with individual equipment of the power generation facilities is provided with a hull safety equipment for distribution and input ,

In the hull safety equipment constituting the submarine line wiring 946,

The high-strength bolts 603 and the high-strength nuts 604 are connected to the large-diameter flange 614 through holes 615,

A plurality of double structure block tank holding tanks (590) constituting the hull safety equipment; outer tank tanks (599) with connection structure provided by the body; a large flange (615) (60) and high-strength nuts (604) while connecting the large flange (615) by pre-splitting the connection structure. Structure Large flange (604) (614) includes a distributing / dispensing apparatus of a nuclear hydropower generation facility unit (811) constituting binding in a joint processing hole (615)

A hydraulically rotating cylinder machine 619 for a position regulating device, a hydraulic cylinder machine 624 for a traffic apparatus, and a hydraulic hammer linkage structure for constituting a distributing and inputting device of the nuclear hydroelectric power plant 811, Double structure block tank bridge pier (928) and dual structure block tank pipe bridge (937) decomposition coupling of nuclear reactor hydroelectric power plant nuclear reactor hydropower plant are equipped with hydraulic rotary cylinder machine (619) 598) connecting structures can be disassembled and coupled,

The horizontal dual structure block tank 598, which constitutes the hydraulic rotary cylinder machine 619, is connected to the connecting structure connecting elbow 44 by means of a mounting welder,

At the location of the large flange (614) joints that make up the mounting weld with the mounting welder,

A hydraulic rotary cylinder machine 619 for a positioning device, a hydraulic cylinder machine 624 for a traffic control device, and a hydraulic hammer linkage structure for a transportation device, each of which is composed of a disassembly coupling dispensing device connection structure,

The floating docking station of the hull deck center nuclear power plant (672) of the marine power plant constituting the hydraulic rotary cylinder machine (619) and the center of the hull deck (SDM) constituting the inside of the distribution input unit main body (SDU) Upper part of hull deck (SDU) Upper part of lower deck (SDL) Upper deck top of deck (SDU) Holding tank Upper barge hull (591) and holding tank lower barge hull (592) (946) Maritime power generation facility with connection structure Replacement towers for different towers Crane boats for Isai crane Boom (942) Connected structures Mooring and power generation facilities are connected with each other to form small, medium and large sized marine nuclear hydroelectric power plants. (593, 594, 595) of the nuclear power plant, and a distribution input device of the nuclear hydroelectric power plant (811) constituting the nuclear power plant,

(593, 594, 595) nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants constituting the nuclear power plant facilities and the inside of the main body (1) of the nuclear power plant for nuclear waste disposal The diving process preparatory operation control regulating and distributing apparatus for the hull safety equipment constituting the connection axis position of the nuclear waste disposal pipe manufacturing process 705 of the nuclear reactor plant, the double structure block tank collector of the nuclear hydroelectric power plant 811,

And a control unit for controlling the operation of the auxiliary loading type nuclear power plant 672 of the marine power generation plant and the distribution input apparatus main body of the nuclear waste treatment facility, (1) The connecting structure consisting of the inside of the ship's upper deck (SDU) of the hull deck center (SDM) at the center of the hull deck (591) and the bottom of the holding tank at the lower deck (SDL) A dual structure block tank 598 that provides a position to the hull 592 as a connection structure with a seabed line wiring 946. Submarine mineral resource exploration equipment located outside the connection structure outer block tank 599 Multiple deep sea exploration (843) for the power plant equipment to distribute and input the marine power generation power,

And a lifting / lowering type poisoning lifting device constituting a power generation facility device includes a hull safety facility device connection structure and includes a distribution input device of the nuclear hydroelectric power generation facility part 811,

A harmonics control system and a barge for installing a disaster prevention device were installed as a connection structure of a buoy control device,

A plurality of strut block tanks 590, which are positioned by the outer connecting structure of the strut block tanks 590 constituting the lifting type nuclear power station power plant renovation,

A connecting flange 614 for connecting a large-sized flange 614 constituting the lifting-type docking station reformer, a connecting hole machining hole 615 for connecting the elongated hole 616 and the pin connecting shaft connecting structure by a hydraulic cylinder key 623 The coupling device of the double structure block tank hull disassembly portable lug coupling screw bolt 603 bolt screw thread 603a and the lug screw connecting screw disassembly nut nut screw hole 604b is provided with a Hammer- A cylinder machine 619 and a pin finishing hole 615,

The hydraulic hydraulic power plant part 811 which constitutes the prevention of the nut disengagement from the pin connecting shaft screw thread 603a when the hydraulic rotary cylinder machine 619 is provided with the male thread on the pin node side constituting the binding, A dispensing device,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

It is possible to provide a stable anti-sinking lifting dock even under the influence of any storm waves constituting the nuclear hydroelectric power generation facility 811,

(593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constituting anti-sinking detonation poison (672) and distributing unit of nuclear reactor waste disposal unit (1) (SDM) Upper deck top (SDU) Upper deck (SDU) Upper deck (SDL) Upper deck Upper deck (SDU) Upper deck Upper deck Upper deck Upper deck Upper deck Upper deck Upper bucket hull (592) Connected to the crane boom of each offshore power plant with the submarine line wiring (946) as a connection structure Connected with the mooring device of the crane boom and the connection of the power generation facility device It is equipped with the buoyancy type dock nuclear power plant (672) And a distribution input device of a nuclear hydropower generation facility unit (811) configured to form a nuclear reactor facility inside the main body (1) of the distribution input apparatus of the nuclear reactor facility for waste treatment,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

(SDU) of the floating deck hull deck top (SDU) of the hull deck center (SDM) as a connection structure consisting of a buoyant type docking nuclear power plant (672) of a marine power plant and the interior of the distribution input unit main body (SDL) Upper deck (SDU) Upper stratum (SDU) Upper stratum tank top barge hull (591) and strut tank bottom barge hull (592) (591) and the holding tank lower barge hull (592) that constitute the double structure block tank-combined portable lug (607) at the upper part of the landing block tank and the lower part barge hull, (607) body having a plurality of processing holes (615) and an elongated hole (616), the horizontal pin connecting shaft Hole 615 and pin connection axis machining hole 615 and the ball hole section 616 of a vertically arranged, and

A connecting structure of the connecting portions of the strut block tanks 590 constituting the double structure block tank-combined portable lug 607 body, the vertical upper barge hull 591 and the lower barge hull 592, A plurality of block tanks hingedly coupled to a plurality of processing holes 615 provided with a plurality of processing holes 615. A block tank hinged to several processing holes 615 among connection shafts 606, (606) is removed,

(606) Block Tank Hull Disassembly Portable Rug Fin Pin Connecting Axis (606) Nuclear Waste Treatment Dual Structure Block Tank Marine Tunnel Transportation Device (941) Including,

The dual structure block tank marine tunnel traffic device 941, which constitutes the nuclear waste treatment,

A barge hull 592 of a fixed lifting type hull and a horizontal hull block tank having a level balance on both sides are provided at the upper end constituting the marine tunnel traffic device 941 and a hull diving position control mobile device and a diving buoyancy control device The double structure block tank-combined portable lug 607 provided with the vertical type coupling structure while the level balance of both sides of the barge line hull 592 of the fixed type lifting dock is provided while diving to the bottom of the water, A single block tank hull disassembly portable lug pin connecting shaft (606) block tank hull disassembly engaging portable lug pin connecting shaft axis (606) horizontal standing tackle block tank is built up in a vertical type coupling structure, The upper part of the strut tank upper barge hull 5 (5) constituted by the lifting type docking station 672 of the power plant and the inside of the main body 1 of the nuclear reactor waste disposal reactor installation 92) Deck bottom joint Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom Bottom A connecting hook portion lug hinge socket 613 of the fixed lifting type poison holding tank, and a concave and a heft type connecting structure, respectively, and optionally a binding block tank 590,

(590) Nuclear waste treatment dual structural block tank constituting rugged hinge socket (613) located on the top surface of each deck deck which forms a concave / Including,

Double structure block tanks The holding block tanks of the floating marine small-sized and large-scale marine nuclear hydroelectric power station (593,594,595) located at the top of the marine tunnel traffic system (941) constituting the marine tunnel traffic device (941) (593,594,595) connection structures of small, medium and large sized marine nuclear hydroelectric power plants in the fixed ocean,

(SLU) of the sea surface (SLL) of the ship's hull and bottom of the sea surface (SLD) of the offshore power plant (672) and the inside of the dispensing apparatus main body (1) (593, 594, 595) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants with fixed marine vessels that provide coupling to treated dual-structure block tank bridges (929) and small-, medium-, and large-scale offshore nuclear hydroelectric power plants (593, 594, 595) to provide the distribution,

(672) of the marine power plant and the distribution tank of the nuclear reactor waste disposal unit (1). Upper barge hull and holding tank Lower barge ship Several double structure block tanks are connected by hull. Portable A plurality of column block tanks 590 bound to the machining hole 615 of the body 606 and to the lug pin connecting shaft 606 of the dual structure block tank combined portable lug pin connecting shaft 606 body Which includes anti-sinking lifting poisons and anti-sinking lifting devices at sea level,

Hull protective equipment for protection of hull safety equipments and barge lines for mounting disaster prevention devices are provided as a connection structure for rebuilding the reactor facilities of the nuclear power plant and provided with barge lines for mounting disaster prevention equipment and interconnected with the adjustment device Bottom line SLU with a submarine line wiring 946 as a connecting structure composed of a lifting type docking nuclear power plant 672 of a marine power plant and a main body 1 of a distribution input apparatus main body of a reactor facility for nuclear waste disposal, (SDU) connected to the deck top of the deck The offshore power plant located as a connection structure Replacement towers for different towers Cranes for the tower crane Isokine Crane Boom Stand (942) Connection structure Mooring system and power generation equipment Distribution system The reactor facility of the nuclear power plant constituted by the power plant 672 and the inside of the main body 1 of the nuclear reactor waste disposal unit Relevant and

(593,594,595) of a small, medium and large sized nuclear hydroelectric power plant constituting a reactor facility of a nuclear hydroelectric power plant, and a mooring device, a diving buoyancy control device and a nuclear waste disposal dispensing device and a reactor installed at a nuclear power plant (672) It is included as a connecting structure that can be disassembled and combined at marine shipbuilding factory with the connection axes of the nuclear waste processing pipe manufacturing process (701) of the reactor facility at the nuclear hydroelectric power plant part (811) before and after the safe operation of the nuclear plant of the facility. .

(593, 594, 595) nuclear power plants 672 of the offshore, small, medium and large sized marine nuclear hydroelectric power plants, and the nuclear power plant portion 811 ) Doubling structure Block tank Dust collector Reactor nuclear waste treatment pipe manufacturing process (705) Preparation of diving for hull safety equipment constituting connecting shaft Operation control control distribution dispensing device,

A lifting type docking nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility unit 811 and a connection structure constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant In the connection structure of a nuclear hydroelectric plant to prevent the formation of marine bioglass and barnacles located as an external location connection structure constituting the nuclear reactor facility main body 1 of the nuclear power plant at the bottom of the sea level (SLL) The electrode plate anode 938 is provided at regular intervals outside the body of the nuclear waste treatment double structure block tank bridge 929 and the dual structure block tank pipe bridge 928 at the lower sea level SLL, ) Installation,

(907) of a fish finder that constitutes monitoring of the underwater dynamics of the military equipment submarine constituting the dispensing apparatus of the nuclear hydroelectric power plant unit (811)

The connection structure submarine line wiring 946 constituting the floating type docking nuclear power plant 672 of a marine power plant constituting Sowa (907) of the fish finder and the inside of the distribution input apparatus main body 1 of the nuclear waste disposal reactor facility (SLU) Floating upper deck (SDU) Marine devel- opment facility Replacement towers for different towers Crane boats for Isai crane Boom stand (942) Connection structure Mooring device and power plant equipment (960) which constitutes a hull safety device for hull safety distribution input operation and a satellite connection structure for mutual military communication,

(672) constituting the satellite weather forecast information collecting machine (960) and the inside of the main body (1) of the nuclear power plant for nuclear waste disposal, and the land, small, medium and large sized marine (593,594,595) Nuclear power plant (672) Mooring device, diving buoyancy control device, nuclear waste disposal dispenser and reactor facility safety facility FUJITSU Nuclear Hydroelectric Power Plant (811 (705) of the nuclear waste treatment plant manufacturing process of the nuclear reactor plant, and the connection structure capable of being disassembled and coupled at the marine vessel manufacturing plant.

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the disassembly and disassembly of the marine shipbuilding factory, and the main body of the distribution apparatus 1) Dual structure of Nuclear Hydroelectric Power Plant (811) inside of the nuclear power plant (811) Reactor Nuclear waste treatment pipe manufacturing process (705) Preparation of diving for hull safety facility The apparatus includes:

In the distribution and input device constituting the nuclear hydroelectric power plant part 811,

The connecting structure constituted by the floating type nuclear power plant 672 of the marine power plant constituting the nuclear hydroelectric power plant 811 and the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste treatment includes the control room of the mooring tower 644 The upper part of the rooftop block is connected to the meteorological observation equipment (840) located at the connection point of the steel tower (116). The upper block of the control tower (116) is connected to a nuclear hydroelectric power plant ) Dispensing device,

The distribution input apparatus lightning rod 500 constituting the nuclear hydroelectric power plant unit 811 is provided as a hull distributing and charging apparatus for hull safety operation,

And a connection structure submarine line wiring 946 constituting a nuclear reactor power plant 672 constituting the nuclear hydroelectric power plant 811 and the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste treatment, ) Floating deck hull deck top (SDU) Offshore power station Countertop replacement tower Cranes Isa crane Boom stand (942) Connection structure Mooring device and power generation facility Distribution operation of hull safety operation Installation of connecting device Construction of nuclear power plant (593,594,595) nuclear power plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants of the land and ocean which constitute the main body (1) of the nuclear power plant for nuclear waste disposal (672) (811) of nuclear power plants of the Hwaseong Nuclear Hydroelectric Power Plant before the operation of nuclear reactors of the mooring unit, the diving buoyancy control unit and the nuclear waste disposal dispenser and the nuclear reactor facility. Be equipped with waste pipe manufacturing process 705, the connecting shaft includes a marine vessel in manufacturing plant in the connection structure and possible decomposition coupling is configured.

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the disassembly and disassembly of the marine shipbuilding factory, and the main body of the distribution apparatus 1) Double structure of the nuclear power plant part (811) inside the nuclear waste treatment plant manufacturing process (705) of the nuclear reactor installation of the double structure block tank Preparing the diving progress for the hull safety facility Operation control adjustment control input device Quot;

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

The nuclear power plant (672) of the marine power plant constituting the hull safety facility and the nuclear power plant are connected to each other by the nuclear power plant Supply power of the electric power produced by the distribution and input devices of the power generation facility unit 811 is provided, power control is provided to the connection structure of the transformer 96 of the large-capacity substation,

A transmission line and a connection structure constituting a transformer (96) of a large-capacity substation, a plant for producing small-diameter piping, medium-diameter piping and large-diameter piping by providing a predetermined amount of generated power supply by a transmission tower, and a raw material high- (597) manufacturing plant for nuclear power plants, and a nuclear waste disposal unit of the distribution input unit of the nuclear hydroelectric power plant unit (811) constituting the power line supply execution to the steel beam (149) and the steel plant (839) A structural block tank, a marine tunnel transport device (941)

The facilities of the double structure block tank pipe bridge 928 constituting the nuclear waste treatment dual structure block tank bridge 929 are as follows.

The 5M standard has been established,

A double structure block tank pipe pier (928) over the shape of the Rudyasha (35) shape at a depth of 1 kilometer below sea level is provided as a connection structure with a further enlarged diameter of 1M to 5M,

Semi-submerged operation line (637) Double structure block tank at the upper part of the deck deck The connection structure of the large-sized flange (614) provided for the portable construction band guide (621) The nuclear waste processing pipe manufacturing process 705 of the double structure block tank dust collector reactor facility of the nuclear hydroelectric power plant unit 811 constituted by the dock nuclear power plant 672 and the inside of the distribution input apparatus main body 1 of the nuclear waste processing reactor facility ) Includes the provision of a double structure block tank pipe bridge 928, which is provided with a diving preparation preparation operation control control distribution dispensing device for the hull safety equipment constituting the connecting shaft to perform the nuclear waste treatment of the nuclear installation,

A double structure tank bridge bridge part composed of a buoyancy type nuclear power plant 672 of a marine power plant constituting the facility of the pipe bridge 928 and a distribution structure of the nuclear power plant for treating nuclear waste, The same type of traffic equipment as the saddle mold 617 Block tank of the distribution dispenser Combine portable construction band guide 621 Sinking ship Sink prevention line (634) Movement to the upper deck position The double structure tank bridge bridge saddle mold 617 is provided with disassembly coupling,

A connection structure that constitutes the disaster prevention nozzle 945 by the underground line constituted by the nuclear power plant 672 constituted by the floating saddle mold 617 and the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor installation, (SLU) Upper part of the sea surface (SLU) Upper part of the deck (SDU) Marine power generation facility Mooring device and power plant equipment consisting of connecting structure of the iso crane boom band (942) A double structure block tank bridge pier 928 is provided as a connection structure,

The pipe bridge (928) is a connecting structure supplied with the power produced by the marine power plant of the floating type poison which constitutes the manufacturing installation. It is composed of a buoyancy type nuclear power plant (672) of a marine power generation plant and a distribution input device main body 1) The nuclear waste disposal of internal reactor facilities is to be made up,

A connection structure composed of a lifting type diesel nuclear power plant 672 of a marine power plant constituting treatment of the nuclear waste of the reactor facility and a main body 1 of the distribution input apparatus of the nuclear waste treatment facility, In the body-slit engaging hole 20 constituting the various types of pins 22,

A plurality of sharp-pointed, tool-tip cutters 185, which make up the nuclear waste treatment of the nuclear reactor plant,

In the feeder belt 185 constituting the nuclear waste treatment of the reactor facility,

A plurality of jig 22 processing holes 20 and a plurality of jig crushers 185 constituting the nuclear waste treatment are provided so that anchor car replacement crank 846 and bridge pier level foundation base 851) are disassembled into several crankshaft crankshafts (846) provided on the side and lower sides of the saddle mold body, and are connected to a buoyant type diesel power plant (672) A crusher 185, an crusher crank 846, and a piercing level base footrest (not shown) configured to perform nuclear waste disposal of a reactor facility constituted inside the main body 1 of the distribution apparatus of the nuclear reactor installation 851)

A connection structure composed of a floating type nuclear power plant 672 of a marine power plant constituting the nuclear waste treatment and the inside of a distribution input apparatus main body 1 of a reactor facility for nuclear waste treatment includes a sea bottom surface upper end portion (SLU) Floating deck hull deck top (SDU) Offshore power plant Sea cranes boom stand (942) of tower cranes for replacement of separate towers (942)

The double structure block tank bridge pier (928) is constructed and installed as the connection structure of the mooring device and the power generation equipment constituting the nuclear waste disposal,

The nuclear power plant 672 and the nuclear power plant constituting the inside of the main body 1 of the nuclear power plant for treating nuclear waste are provided with the nuclear waste treatment of the nuclear power plant constituting the connection structure reactor, (593,594,595) of nuclear power plants in the small and medium sized and large oceanic hydroelectric power plants of the ocean, and mooring devices and diving buoyancy control devices in nuclear power plants (672) (701) of nuclear reactor waste processing line (705) at the nuclear power plant section (811) before and after the nuclear reactor waste disposal plant.

(593, 594, 595) nuclear power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the above-mentioned nuclear waste disposal, and the main body of the distribution apparatus ) Construction of nuclear waste treatment pipe (705) of reactor facility with double structure block tank dust collector of nuclear power hydroelectric power plant part (811) constituting internal part Preparation of diving for hull safety equipment constituting connecting shaft Operation control control distribution The charging device comprises:

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

A connecting structure composed of a floating type diesel nuclear power plant 672 of a marine power plant and an interior of a distribution input apparatus main body 1 of a nuclear waste disposal nuclear reactor facility is provided with anchor replacement crankshaft 846, Ship's safety distribution and operation of hull safety devices and construction machinery equipments, which consists of the top position of floating deck deck plate provided as a connection and disconnection structure of the nuclear power hydroelectric plant (811) (842) for collecting seabed mineral resources by connecting both sides to the inner boom hook hook (18) of the boom-to-body tower crane by distributing both sides with the connection structure of the seesaw crane boom (942) (849), which provides seabed mineral resources to the submarine mineral resource manganese (909)

The submarine mineral resource manganese monolith (909) was moved to the upper deck (SDU) of the floating deck to construct the small crane boom zone (942) This is a connection structure that receives the power generated from offshore power plants. It is composed of a buoyancy type diesel power plant (672) of marine power plant and a submarine mineral resource manganese unit (909 ) Lifting device to the upper deck (SDU) of the lifting deck hull which collects Nuclear waste disposal which consists of the isocrane boom stand (942) And a distribution input device of the nuclear hydroelectric power plant part (811)

Submarine mineral collection and construction equipment provided as a connection structure between the floating type nuclear power plant (672) of the marine power plant and the distribution input unit main body (1) of nuclear reactor waste disposal reactor facility. (SLD) of the sea level surface (SLD) of the sea level surface (SLL) constituting the yard basket 842 and the palette 844 for collecting the seabed mineral resources are provided as a connection structure on both sides of the sea ice crane boom band 942 of the tower crane. The tower crane's bucket cranes at the bottom of the seagoing deck (SDL) and at the bottom of the sea bottom (SLU) to the position of the upper deck (SDU) 942), and control of the movement of submarine mineralized manganese block (909) to the upper part of the floating deck (SDU) And a crane boom frame (942), and the distribution input device of the submarine mineral collection construction machine,

In the location of the submarine mineral resource collection site, which consists of the buoyancy type nuclear power plant (672) of the marine power plant constituting the distribution input device of the construction machine and the inside of the distribution input device main body (1) of the reactor facility for nuclear waste treatment, (913) and the mineral collecting robot (912) of the isotope crane boom (912) to the upper end of the lifting deck (SDU) while preparing the submarine mineral resource collection. ) Equipped with a connection structure, which is supplied with power generated from a floating oceanic power plant, and has a floating structure (672) of a marine power plant and a main body (1) of a distribution input device of a nuclear waste treatment facility (911) and a mineral picking robot (912), which are connected to each other, and a submarine mineral collection and construction machine for operation. (911), mineral collection robot (912), and seesaw crane boom stand (942) of towing crane for towing equipment construction machinery. The submarine mineral collection and construction machine A dispensing device,

(672) of the marine power plant constituting the distribution and input device of the underwater minerals collecting construction machine and the inside of the distribution input device main body (1) of the nuclear waste treatment facility, (SLU) with submarine track wiring (946) Upper deck (SDU) of lifting deck hull Deck top location (SDU) Location of offshore power plant located at the connecting structure Each mooring device and power plant equipment It is equipped with a diving control system consisting of buoyancy type dock nuclear power plant (672) and the inside of the dispensing input device main body (1) of nuclear reactor waste treatment facility, 593, 594, and 595) to the seabed to prepare the seats of the connecting structures,

Distribution of hull safety devices, construction machinery equipment, marine power plants, buoyant shipbuilding nuclear power plants (672), and nuclear reactor facilities for nuclear waste disposal, located at the top of the floating deck deck of the dock control system Lifting device composed of the inside of the injection device body (1) Construction machine Replacement towers of the tower Cranes of the iso crane Boom stand (942) Lifting device that constructs the collection of seabed mineral resources by connecting structure Construction machine An isocrane boom band 942,

It is a connection structure that is equipped with a displacement structure to control the position movement to the upper part of the lifting deck (SDU) which constitutes the iso crane boom zone (942), and is supplied with the power produced by the marine power plant of floating dock. (911) and minerals collecting robot (912), which are composed of a buoyant type poisonous nuclear power plant (672) and a nuclear waste disposal reactor main body (1) (911) and mineral collecting robots (912) of the mineral resource collection equipment and the iso crane boom band (942) of the towing crane for the lifting equipment construction machine. The submarine mineral resource collection And a distribution input device of a seabed mineral picking and construction machine constituted so as to realize the above-

(672) of a marine power plant constituting a distribution input device of a submarine mineral collecting construction machine and the inside of a distribution input device main body (1) of a nuclear reactor for nuclear waste disposal, (909), which is composed of submarine location connection structure including submarine mineral resource collecting equipment, is installed on the sampling robot. SDU location of the deck top of the deck is connected to the connecting structure to control the movement of the connecting structure. A connection structure provided in a tower crane 886 having a connection structure of the iso crane boom stand 942 of the replacement tower crane and the connecting structure of the suction collecting machine and the electric magnet magnet 645. The pipeline automatic pneumatic conveying device 916 (SDU) of the connecting tank elevator 632 and the strut tank upper barge line 591 which carry the manganese block 909 and the manganese block 909, The connection structure provided at the upper position is provided with a lifting basket 842 for collecting the seabed mineral resources and a connection structure 844 to carry out positional movement control to the lifting deck upper part SDU position connecting structure Comprising a submarine mineral collection construction machine dispensing device,

Submarine mineral collecting construction machinery Construction machinery equipment making up distribution dispenser Countertop replacement tower Crane boom (942) Connection structure and conveyor (633) Lifting deck (SDL) with connection structure The seabed mineralization process is composed of submarine mineral resource extraction from the submarine mineral resource collection site located at the top of the deck top of the floating deck (SDU) Navigation equipment and connection structure An illuminating device for providing a submarine line wiring 946 as a connection structure is provided for a searchlight 232 and an underwater light for submarine survey lens glass 843,

(672) of a marine power plant constituting the lighting device and the connection structure constituting the inside of the dispensing apparatus main body (1) of the nuclear reactor waste disposal nuclear plant disposal system. The suction collecting machine and the connection structure mineral picking robot and the submarine mineral resource And a collecting device connecting structure, wherein said submarine mineral resource collecting equipment comprises:

Each of the lever blocks (123) for collecting the undersea mineral resources collecting equipment and the collecting equipment provided for enduring the water pressure of the deep sea bed and the flow rate of the deep sea bed, And a rope chain (915) connecting structure to provide an undersea elevator elevator (632) and an underwater excavation equipment location connection structure,

In the seabed mineral resource collecting equipment constituting the prevention of loss due to collecting equipment binding,

(123) body, each of which is connected to the wire rope connection structure of the lever block (123) while adjusting the position movement of the submarine mineral resource collecting place, (184), which is included in the submarine surveying equipment, with the rope being rolled up and loosened. Each submarine mineral gathering system is composed of a connecting shaft having the search condition of the submarine mineral collecting process. A construction machine dispensing dispenser,

The submarine mineral resource exploration equipment consisting of the submarine mineral collection and construction machine distribution and input device connection structure and the searchlight (232) and the connection structure are provided, and an underwater light for the submarine survey lens glass (843) (184) includes a distribution input device of a submarine mineral collection construction machine having a connection structure and constituting a submarine mineral collection process status scene transmission,

The connection state of the container box latching and hoisting device 129 of the container box 132 corresponding to the submarine mineral carrier which constitutes the dispensing device of the seabed mineral collecting construction machine is connected to the undersea camera 184, (SLU) lifting of the sea surface (SCU) to the hull safety facility control room location that provides the location to the upper deck (SDU) position. Structure Submarine cable (946) The submarine line wiring 946 included as a connection structure of the power plant 672 and the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal, (SLU) Upper deck (SDU) Floating deck hull (SDU) Hull safety facility Control room Internal network located in the control room (50) Internal control A connection structure mooring device and a connection structure of each marine power generation facility which constitute transmission of a submarine mineral collecting process state scene with transmission from the unmanned camera 184 into the monitor 52 of the server 51 and the control board 53, Comprising a mineral resource harvesting equipment dispensing device,

The mineral resource collection equipment distribution input apparatus constituting the nuclear hydropower generation facility unit (811)

It is equipped with the construction machines that make up the distribution equipment of the mineral resource collection equipments, and it has the connection structure that the mineral resource collecting equipments can withstand the water pressure of the deep sea bed and the flow rate of the deep sea bed, (1) of a nuclear reactor waste disposal reactor apparatus, a distribution input apparatus for an underwater mineral collection and construction machine is provided,

Mooring devices and diving buoyancy control devices and distribution and input devices for nuclear waste disposal and nuclear reactor facilities of nuclear power plants (672), which constitute a distribution power input device for distribution of mineral resources, And a connection structure capable of being disassembled and coupled at a marine vessel manufacturing plant, which is provided with connecting shafts of the nuclear waste disposal pipe manufacturing process (705) of the reactor facility at the power generation facility section (811).

(593,594,595) nuclear power plants (672) of land, small, medium and large sized marine nuclear hydroelectric power plants constituting disassembly in the marine shipbuilding factory, and the main body (1) of the nuclear power plant for nuclear waste disposal, The diving operation ready controllable control and distribution input device for the hull safety equipment constituting the connection axis of the nuclear waste disposal pipe manufacturing process 705 of the nuclear plant waste facility processing unit of the nuclear power generation facility unit 811,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

(672) of a marine power plant, and a buoyancy type diesel power plant (846) connected to an anchor replacement crank (846) consisting of the inside of the distribution input device main body (1) of the nuclear waste disposal reactor facility A floating structure consisting of a distribution system as a connection structure on the sea floor, a lifting deck with a marine seat of a nuclear power plant installed on the deck, a deck top deck, a hull safety distribution system, In addition,

Hull safety device and connection structure Connection to construction machine equipment Replacement towers for each structure The iso crane boom stand of the tower crane (942) is distributed to the boom-to-shack structure and the hook hook (18) (842), reclaimed submarine mineral resources (842), parat (844), and seismic crane boom band (942) constituting the connecting structure. Provide submarine mineral resource location shift to SDU location,

A power transmission system comprising power transformers for transmitting power of a nuclear hydroelectric power plant unit (811) supplied with power produced by a marine power plant located at the upper part of a lifting deck (SDU) constituting a submarine mineral resource locating movement (811d), and the operation of the lifting type dock nuclear power plant (672) of the marine power plant and the inside of the distribution input apparatus main body (1) of the nuclear waste disposal reactor facility is provided at the isocrane boom stand And a distribution dispenser for operating the submarine mineral collection and construction machine of the nuclear hydroelectric power plant part (811), which is provided with a movement control device to collect seabed mineral resources,

Construction Machinery Equipments Countertop Replacement Tower Cranes for Isai Crane Boom Stand (942) In both connecting structures constituting the connecting structure,

(SLD) of the sea surface (SLL), which is provided with a yard basket 842 and a parat 844 connection structure for collecting seabed mineral resources constituting the connection structure of the iso crane boom band 942, (SDU) in the lower end (SDL) to the upper end of the floating deck (SDU) of the upper part of the sea surface (SLU). The isocrane boom stands (942) And a Si isocrane boom band (942) constituting a mineral resource salvage,

The isocrane boom stands (942) are connected to the seagoing crane boom stand (942) when the submerged mineral resource manganese block (909) constituting the connecting structure is transported and connected to the upper part of the floating deck (SDU) (672) of the nuclear power plant and the inside of the main body (1) of the distribution system of the reactor facility for nuclear waste disposal, the inhalation collection machine of the mineral resource collection equipment and the mineral picking robot are distributed In addition,

The iso crane boom girder 942 is provided with a connection structure for collecting seabed mineral resources, and is provided with a positional shift control to the upper portion of the lifting deck hull deck (S D U)

The iso crane boom band (942) is connected to the upper part of the floating deck (SDU) constituting the connecting structure, and a transformer for transmitting the power of the nuclear hydroelectric power plant part (811) The operation of the buoyancy type dock nuclear power plant 672 of a marine power plant and the inside of the main body 1 of the nuclear reactor waste disposal apparatus is shown in Fig. And a mineral collecting robot of a mineral resource collecting apparatus configured to collect undersea mineral resources with a boom band (942)

(1) of the floating nuclear power plant of a marine power plant constituting the connection structure of the Si-iso crane boom band (942), which is connected to the inside of the reactor main body (1) 942) The distribution dispensing apparatus,

The seesaw crane boom band (942) distributing and inputting apparatus constituting the submarine mineral collection construction machine,

Submarine mineral resource collection location Inside location Submarine line composed of connecting structure Upper part of sea surface (SLU) with wiring (946) Floating docking hull Deck upper part (SDU) Location Marine power generation facility Alternate towers Replacement towers Boom Stand (942) Connection Structure Mooring System and Connection Structure The lifting system is equipped with a power generation equipment and is supplied with power,

Lifting type deck deck Top construction of buoyant type connecting structure with hull safety distributing input Hull safety device and construction equipment for operation Moving towers for different towers Replacement of tower cranes Connecting to the boom area (942) A crusher, a crusher, a crusher, and a crusher,

(811) supplied with power generated by a marine power plant of a floating type having a positional shift control which is located at the upper part of the lifting deck hull deck (SDU), and is provided with transformers for transmitting the power of the nuclear hydroelectric power plant The power transmission unit 811d is provided as a connection structure and the operation of the lifting type dock nuclear power plant 672 of the marine power generation plant and the inside of the distribution input apparatus main body 1 of the nuclear waste treatment reactor facility is provided with the isocrane boom band 942 ) Position shifting regulator to provide a seismic crane boom band (942) distribution input device configured to collect seabed mineral resources,

(909) for establishing a position on the seafloor including a suction collecting machine, a connection structure mining robot and a submarine mineral resource harvesting equipment connecting structure as a reactor facility connection structure of a nuclear power plant constituting a distribution input device of the construction machine, Lifting diaphragm consisting of connecting structures Position shifting to upper deck (SDU) position Moving to control structure connection structure Construction machinery equipments Alternate towers Replacement tower Cranes Isa crane Boom stand (942) Electrical magnet The magnet 645 and the connection structure Pipe line transport device 916 of the aspiration sampling machine is provided to transport the manganese block 909 as a connection structure,

The allybeat 632 connection structure, which constitutes the distribution input device of the construction machine,

Alignment (632) In the upper part of the strut tank top barge hull (591) constituting the connecting structure, a yacht basket (842) for collecting seabed mineral resources and a basin (844) for collecting seabed mineral resources, and a distribution input device for operating the construction machine,

The distribution dispensing apparatus constituting the construction machine includes:

Construction machinery equipment that adjusts position movement to the upper deck (SDU) position of the buoyant type poison hull constituting the construction machinery. Marine power generation facility It is equipped with the connection structure to the iso crane boom stand (942) The conveyor 633 is provided at the upper end of the lifting deck SSU with the conveyor 633 in the seabed mineral resource collecting place located in the lower end SDL of the lifting deck,

A submarine mineral resource search equipment searching submarine mineral collecting process constituting the construction machine, and a submarine line wiring line 946 providing the submarine search underwater illumination lamp 843 as a connection structure. (672) of a marine power plant, and an intake sampling machine, a mineral picking robot and a submarine mineral resource collection device, which are composed of the inside of the main body (1) of the nuclear reactor waste disposal unit, And a power transmission unit 811d provided as transformers for transmitting the power of the nuclear hydroelectric power plant unit 811 supplied with the power generated by the marine power plant of the floating type poison, A crane boom stand (942) for controlling movement of the earth crane boom (942) constituting the power plant (672) and the main body (1) of the nuclear reactor waste disposal reactor apparatus, And a distributing and dispensing apparatus of a construction machine,

The distribution input apparatus constituting the submarine mineral collection construction machine comprises:

(672) of a marine power plant constituting a submarine mineral collecting construction machine and the inside of the main body (1) of a nuclear reactor waste disposal reactor facility, and an unmanned camera 184 are connected to the undersea mineral resource search equipment search light 232 and the deep sea exploration underwater light 843 that detect the seabed mineral collecting process state as a connection structure to the underside camera 184, Container box of the container box that transferred the collecting process status scene to the safety control room is connected to the elevator (SGU) by the unmanned camera (184). The submarine line wiring 946 is provided to the hull safety equipment control room position,

(672) that constitutes the submarine mineral collection construction machinery and the connection structure which is composed of the inside of the dispensing device main body (1) of the nuclear reactor waste disposal unit, the suction collecting machine and the connection structure minerals collecting robot and the submarine mineral resource collecting device And a distributing and inputting device for operating a construction machine constituting a connecting shaft of the connecting structure,

(593,594,595) Hull deck upper part (SDU) Hull safety facility of small size, medium size and large size marine nuclear hydroelectric power plant with sea bottom upper part (SLU) with submarine line wiring (946) A submarine mineral collection process state scene transmitted from the unmanned camera 184 to the monitor 52 of the internal control server 51 and the control board 53 of the Internet network 50 is received at the same time as the connection structure located inside the control room Offshore power plant Seaside Crane Boom Stand (942) for tower crane Replacement structure Mooring system and mineral resource collection equipment Distribution input operation equipment Construction machine Distribution of submarine mining equipment with connection structure Construction equipment Distribution equipment And the connection structure of the mineral resource collection equipment is provided as a connection structure,

(672) and the inside of the distribution and dispensing apparatus main body (1) of the nuclear waste disposal reactor facility are provided with connection structures provided to withstand the water pressure of the deep sea bed constituting the submarine mineral collecting construction machine and the flow rate of the deep sea bed, (593,594,595) of a small and medium-sized and large-scale marine nuclear hydroelectric power station; and a mooring device and a diving buoyancy control device for the nuclear power plant (672) (811) of the Nuclear Hydroelectric Power Plant (811), and a nuclear waste disposal pipe manufacturing process (705) connection axis of the reactor facility.

(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the submarine mineral collection and construction machinery, and the main body (1) of the nuclear reactor waste disposal unit, The diving operation ready controllable control and distribution input device for the hull safety equipment constituting the connecting shaft of the double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituting the inside of the nuclear waste processing pipe manufacturing process 705 of the reactor facility,

The distribution and input device constituting the construction machine of the nuclear hydroelectric power plant part (811)

It is a connection structure consisting of a buoyancy type nuclear power plant (672) of a marine power plant and the inside of a distribution input apparatus main body (1) of a nuclear waste disposal nuclear reactor facility. It is equipped with a mining resource collecting equipment distribution input moving apparatus construction machine connection structure, A distribution structure is provided to the connection structure with the wiring 946 and the connection structure of the mineral resource collection equipment at the seabed is provided with a connecting structure provided to withstand the water pressure of the deep sea floor and the flow rate of the deep sea floor. The connection structure of the butterfly valve 305 and the damping control device connection structure doctor ventilation 585 is provided with the doctor ventilation inlet port 585a and the doctor ventilation outlet port 585b to directly connect the piping type 581 And a distribution piping device of a nuclear hydroelectric power plant part (811) comprising base piping type (582) connection structures,

The micro-switch 580 constituting the pressure air supply generated in the air compressor 80 of the prime mover constituting the construction machine of the nuclear hydropower generation facility unit 811, Pressure air is injected into the air cylinder 138 provided as a connection structure to the paddle damper 583 automatically without providing any pressure on the hand, So that the damper spindle 584 connection structure provides pressure air while the phantom damper 583 in the doctor ventilation 585 provides full closing and deployment,

The distribution dispensing apparatus constituting the fryer damper (583)

It is provided with devices for controlling the interruption and supply of air constituting the fan damper 583 and has the same connection structure as that of the pipeline auto pneumatic conveying device 916, The same connection structure as that of the butterfly valve 305 is provided,

A connection structure for providing a distributor / dispenser of a butterfly valve (305) of a diving control device of a pipeline line included in a faucet damper (583) constituting a diving control device, A diaphragm pump 583 for controlling the submergence of the fuel cell 672 and the submergence control device composed of the main body 1 of the nuclear reactor waste disposal apparatus main body 1, ,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

And is generated in the air compressor (80) of the prime mover which constitutes the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus and the floating nuclear fuel plant (672) of the marine nuclear power plant constituting the nuclear hydroelectric power plant unit (811) The solenoid valve over-pressure protection switch (108) of each solenoid valve (76) and the solenoid valve main switch button (66) on the main switch button The butterfly valve 305 provides the deployment and the butterfly valve 305 is depressed when the user presses the off switch main switch button 66 of the main switch button 66 by hand, The connection structure is fully closed to provide a shutdown,

When the butterfly valve 305 is manually depressed on the on-time main switch button 66 of the main switch button 66 for the start switch button constituting the connecting structure, the butterfly valve 305 connection structure is expanded Pressure air generated in the air compressor (80) is provided to perform the operation through the pipeline line structure,

A butterfly valve 305 is provided as a connection structure for providing a connection structure to a plurality of fire doors 154 constituting a connection structure and a plurality of hatch cover 153 bodies to be connected to a floating type nuclear power plant 672 of a marine power plant A nuclear power plant constituting a nuclear power plant for nuclear waste disposal apparatus main body 1, a solenoid valve constituting the inside of the main body 1, a nuclear power plant constituting an operating function of the overpressure prevention switch 108 and the butterfly valve 305 connection structure And a distribution dispensing apparatus of the hydroelectric power plant unit 811,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

The hydraulic control rotary cylinder 35 is rotated by the connecting structure constituted by the lifting type docking nuclear power plant 672 of the marine power plant constituting the butterfly valve 305 connection structure and the inside of the reactor facility main body 1 of the nuclear power plant Provide an operational performance,

A plurality of fire doors (154) and a plurality of hatch cover (153) connecting structures constituting the connection structure of the butterfly valve (305) are opened so that mineral resources provided at the seabed mineral collection site are collected inside the holding tank lower barge hull A connection is made between the connection structure of the vacuum pump 635 for the transport lifting device and the connection structure of the power cable 71,

The butterfly valve 305 is provided as the dispensing and inputting devices of the nuclear hydroelectric power plant 811 constituting the connection structure and the on-time main switch button 66 of the main switch button 66 for the start- The mineral resources provided at the seabed mineral collection site located outside the body of the holding tank lower barge hull 592 are provided to the upper portion of the holding tank upper barge hull 591, (35) Hydraulic rotating cylinder (35) for electronically controlling the inside of reactor main body (1) of buoyancy type dock nuclear power plant of marine power plant, (811), and the control unit

A connecting structure composed of a floating type nuclear power plant 672 of a marine power plant constituting a connection structure of the butterfly valve 305 and a distribution input apparatus main body 1 of a nuclear waste processing reactor installation, In the distribution dispensing apparatus for operation,

Butterfly Valve (305) Submersible Positioning of the Hull Constructing the Connecting Structure The connecting structure of the connecting structure of the connecting structure is to replace the submarine mineral resource connection structure with the connecting structure selected by the diving buoyancy control weight (206) Diversion position control Mobile device and connection structure Submarine mineral resources for diving buoyancy control The buoyant nuclear power plant's nuclear reactor facility provides a seam as a connection structure from the sea floor, Upper part of the sea surface (SLU) Upper part of the deck top (SDU) Upper part of the deck (marine power plant) to provide position as a connection structure Replacement towers of different towers Cranes of sea cranes Boom stand (942) Connection structure Mooring device and connection structure It is a connection structure to be provided at the submarine mineral collection site by equipped power generation facilities, And a distributing and inputting apparatus connection structure for operating a construction machine constituted by the nuclear power plant 672 and the interior of the main body 1 of the nuclear power plant for nuclear waste treatment, ,

The mineral resources constituting the submarine mineral collection and construction machine distribution dispensing apparatus are,

(592) Submarine mineral structure harvesting and construction equipment Ship's tie bottom barge hull (592) constituting distribution dispenser Submersible structure of ship's hull structure between submerged spaces Substituting submerged buoyancy regulator (949) for submersible buoyancy control into seabed mineral resources And a submarine mineral resource for controlling the diving buoyancy, and is provided with a plurality of fire doors and a plurality of hatch covers (153) provided on the outer bulkheads of the respective portions of the holding tank lower barge hull (592) A connection structure having a connection structure to a pipeline automatic pneumatic conveying device 916 and a connection structure with a ballast butterfly valve 305 of a diving control device of the pipeline constituting a connection shaft, Solenoid valve of structure solenoid valve (76) Overpressure prevention switch (108) and main switch button for solenoid valve start switch button 66) The connection structure is connected to the power line (71), and the iso crane boom band of the tower crane for replacing the dead band constructed inside the reactor main body (1) of the buoyancy type dock of the marine power plant 942) connecting structure,

Mineral resource collection distribution input device It is provided as a connection structure provided with a seabed which is composed of a construction machine connection structure,

Mineral resource collection distribution input device Construction machinery Upper part of the sea surface (SLU) composed of connection structure Upper part of the deck (SDU) Upper part of deck (marine power generation facility) to establish position as top connection structure Countertop replacement crane Boom (942) connection structure A connection structure is provided with a mooring device and a connection structure, and is provided with connection structures provided at a seabed mineral collecting place by a power generation facility device, so that a nuclear power plant 672 and a distribution input apparatus main body 1 (593,594,595) of a small, medium and large sized maritime nuclear hydroelectric plant consisting of land and ocean in the interior of the nuclear power plant (672), a docking buoyancy regulator and a nuclear waste disposal dispenser and reactor FUEL NUCLEAR WATER TREATMENT PIPE MANUFACTURING PROCESS (705) FROM FUZZY NUCLEAR HYDRAULIC POWER PLANT EQUIPMENT (811) TO NUCLEAR WATER TREATMENT PIPE PREPARATION SYSTEM As a connection structure that can be disassembled and coupled at marine shipbuilding factories.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of land and ocean composed of the above construction machinery connection structure and the main body (1) of the nuclear reactor waste disposal unit The diving operation ready controllable control dispensing input device for the hull safety equipment constituting the connecting shaft of the double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituting the nuclear waste processing pipe manufacturing process 705 of the reactor facility,

The distribution and charging apparatus constituting the nuclear power generating facility unit 811,

(672) of the offshore power plant composed of the construction machinery connection structure and the inside of the main body (1) of the nuclear reactor waste disposal reactor equipment, and the submarine mineral resource collection equipment (590) Upper barge hull (591) Length 500 meters located at the upper side position Double structure block tank A manganese block with a number of hundreds of tons of manganese reserves (909) A plurality of yacht baskets (183) constituting collecting and a connection structure of the nuclear power plant (811) and the connection and disconnection structure of the nuclear power plant part (811) (849) Countertop Replacement Tower Cistern Cistern Cistern Boom Cistern (942) Disconnect both sides of the connection structure and install the iso crane boom stand (9 (842) and a pallet (844) connecting structure for collecting seabed mineral resources located on the hook hooks (18) of the tower crane (42) and arranged on both sides of the seesaw crane boom stand (942) of the tower crane (842) and a pallet (844) connection structure for collecting seabed mineral resources,

(SLD) of sea level (SLL) composed of construction machinery connecting structure Upper part of SLD (upper part of the sea surface) (SLU) Upper part of floating deck (SDU (909) is transferred to the upper part of the lifting deck (SDU), and is controlled by the iso crane boom girder (942) of the tower crane. (672) of the marine power plant and the inside of the main body (1) of the nuclear power plant for nuclear waste disposal, the inhabitants of the submarine mineral resource collection site in the site of the nuclear power plant, And a distribution input device of the nuclear power plant 811 constituting the robot distribution input,

Upper sea level (SLU) of the sea bottom constituting the submarine line wiring (946) Maritime power generation facilities located at the upper part of the deck (SDU) of floating deck hulls Replacement towers of different towers Cranes of sea cranes Boom stand (942) (592,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants equipped with power plant equipment and supplied with electric power, and a nuclear power plant (672) (1) The tower crane at the lower part of the sea surface is divided into seabed mineral resources and seabed mineral collecting equipments by distributing both sides of the iso crane boom stand (942) (811), which is constituted by a connecting structure for providing a distribution and dispensing apparatus for the nuclear power plant And a distribution input device of the nuclear hydroelectric power plant part (811)

(593, 594, 595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting a distribution input device of the nuclear hydroelectric power plant part (811) The distribution input device of the nuclear hydroelectric power generation facility 811 of the mineral resource and the lifting device, which is the connection structure constituting the inside of the apparatus main body 1 and is equipped with lifting poison submarine mineral resource collecting equipment,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

The connection structure of the buoyancy type diesel nuclear power plant 672 of the marine power plant constituting the distribution input apparatus of the nuclear hydroelectric power plant unit 811 and the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant facility A tower tank top barge hull (591) constituting a collection of hundreds of millions of tons of manganese block (909) produced by the hydraulic hydraulic cylinder (39) operated annually is installed at the top of deck deck. Inside the hydraulic cylinder machine 624 in which the hydraulic cylinder machine 624 constitutes a rapid operation,

A piston seal 822 and a piston seal 823 constituting the internal equipment of the hydraulic cylinder machine 624 and a bush seal 824 and a seal ring 825 and a slide ring 826, The bush 827, the O-ring 828, the load seal 829, the backup seal 830, the load seal & backup seal 831, the multistage seal 832, the pin multistage seal 833, And a hydraulic cylinder machine 624 as components of the piston 834 and the bushing ring 835 and the piston ring 836 and the multistring 837 are connected to the distribution input device of the nuclear hydroelectric power plant 811 And a hydraulic pressure control valve (not shown) which is provided as a hydraulic pump connection structure high pressure hose 190, a high pressure pipe and a solenoid valve 76, Cylinder machine 624,

The hydraulic cylinder machine 624 is operated in such a manner that the hydraulic cylinder machine 624 is operated in the same manner as the hydraulic cylinder machine 624 except that the iso-crane boom stand 942 of the tower crane replacing tower crane positioned at the upper end of the deck plate of the holding tank upper barge hull 591 constituting the hydraulic cylinder machine 624 (217), the distribution of inputs to the submarine mineral resource collection equipment,

Submarine mineral resources recovered to the upper part of the deck top (S D U), which is composed of submarine mineral resource collecting equipment,

(SDU) of marine power generation facilities with a submarine line connection line 946 to the upper part of the sea surface (SLU), which is connected to the distributing and loading device of the nuclear hydroelectric power plant 811 composed of submarine mineral resource collecting equipment (942) Mooring system of connecting structure and nuclear power plant (672) and distribution facility of nuclear reactor waste disposal unit (1) Connection structure composed of inside of main body (1) A distribution and input device of the nuclear hydropower generation facility unit 811 constituting the distribution system is provided,

(593,594,595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting a distribution input device of the nuclear hydroelectric power plant (811), a dock buoyancy regulator and a nuclear Nuclear waste treatment plant manufacturing process (705) of reactor installation at FUJI Nuclear Hydroelectric Power Plant (811) before safety operation of distribution facility of waste disposal apparatus and nuclear reactor facility connection axis;

As a connection structure that can be disassembled and coupled at marine shipbuilding factories.

Alternatively, it may be possible to use a floating nuclear power plant (593, 594, 595) nuclear power plant (672) of a small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plant, ) Construction of nuclear waste treatment pipe (705) of reactor facility with double structure block tank dust collector of nuclear power hydroelectric power plant part (811) constituting internal part Preparation of diving for hull safety equipment constituting connecting shaft Operation control control distribution The charging device comprises:

The floating type nuclear power plant 672 of a marine power plant constituting the distribution input device of the nuclear hydropower generation facility unit 811 and the furnace distribution input apparatus for operating the mineral resource heat treatment,

The connecting structure composed of the buoyancy type diesel nuclear power plant (672) of the marine power plant constituting the furnace distributing apparatus for operating the mineral resource and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste disposal includes submarine line wiring 946 (SLU) Floating marine power facility located at the upper part of the deck of the poison hull deck. Replacement towers of different towers Crane boats (942) of the tower crane equipped with connection structure Mooring device and connection structure Power generation equipment (946) Submarine crane boom stand (942) Replacement tower crane with submarine track wiring (946) with submarine mineral resources as a connection structure Internal boom hook hook of tower crane composed of body connection structure (842) and a pallet (844) for collecting seabed mineral resources are provided in the main body (18)

In the undersea mineral resource collecting yard basket 842 and the pallet 844 provided as the connection structures on both sides of the sea cranes boom stand 942 of the tower crane constituting the distribution input device of the tow truck replacement tower crane,

(SLD) of the sea surface (SLL) that make up the seabed mineral resources for the collection of the seabed mineral resource (SLD) from the bottom of the deck bottom (SDL) SDU) position of the atomic hydroelectric power plant unit 811,

The distribution input device of the nuclear hydroelectric power plant unit 811, which provides the position shift control to the upper part (S D U) of the buoyant venomous deck upper part (S D U) constituting the submarine mineral resource manganese block (909)

(SDU) of the upper part of the sea surface (SLU) with the submarine line wiring 946 constituting the connection structure constituting the distribution input device of the nuclear hydroelectric power plant 811. The sea power generation facility Crane Boom Stand (942) Connection structure Mooring system and lifting of marine power plant Nuclear power plant (672) and distribution system of nuclear reactor waste disposal unit (1) And a furnace distributor for operating a mineral resource for heat treatment,

(593,594,595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting the furnace distributing and inputting apparatus for the mineral resource heat treatment operation, and a main body 1) Inside the connection structure, the furnace (948) distributor for operating the mineral resource heat treatment,

(678) of a marine power plant constituting a furnace (948) distribution apparatus and the distribution input device main body (1) of a nuclear waste disposal nuclear reactor facility. Inside the collection site of a submarine mineral resource, (SDU) of the lifting septic tank deck upper part (SDU) with the position movement transportation to the position shift control device by distributing the suction collecting machine and the mineral picking robot of the furnace 948 to the furnace brick 948a to produce a steel plate 597 and a guide rail 618 of a high tensile strength steel by melting a molten manganese ingot 909 into a furnace 948 furnished with a blast furnace for producing molten metal (948) furnace, and to provide production and supply to industrial sites in each region,

A connection structure for providing a nuclear power plant 672 constituting a blast furnace 948 distribution dispensing apparatus and a guide rail 618 for a block tank hull transportation apparatus constituted inside the distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste treatment, Is a double structure block tank (929) connected to a nuclear waste treatment double structure block tank bridge (929) having a connecting shaft of a double structure block tank bridge bridge (937) with production and supply of steel plate (597) and guide rail 598) of the inner block tank (596), and a guide rail (618) provided in the inner structure of the inner block tank (596)

Nuclear waste treatment dual structure block tank At the upper end of the guide rail 618 constituting the marine tunnel traffic apparatus,

A double structure block tank, a train 771 located at an inner position of the inner block tank 596 with an internal train 771 for a marine tunnel device having a speed of 100 to 200 km per hour constituting a marine tunnel traffic device, (597) of the stainless steel and guide rail (618), and is constructed inside the main body (1) of the nuclear reactor main body (1) of the reactor facility for nuclear waste disposal Mooring device and diving buoyancy control device and nuclear waste disposal and disposal device installed in marine power plant buoyancy type nuclear power plant (672) Reactor facility safety operation of FUHI Nuclear Hydroelectric Power Plant (811) Nuclear waste disposal pipe manufacturing process (705) Consists of connection shafts and is composed as a connection structure that can be disassembled and coupled at marine shipbuilding factories.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power station constructed in the above-mentioned double structure block tank marine tunnel traffic apparatus, and distribution dispensing apparatus main body The double structure block tank dust collector of the nuclear hydroelectric power generation facility 811 constituting the inside of the reactor 1 constitutes the connection axis of the nuclear waste processing pipe manufacturing process 705 of the reactor facility,

Diving preparation preparation for hull safety equipment constituting the construction machine dispensing equipment for submarine energy and mineral collection equipment.

A connection structure composed of a floating type nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility unit 811 and a distribution input apparatus main body 1 of a nuclear waste processing nuclear plant, (SLU) with line wiring (946) Upper deck (SDU) for marine power generation Offshore power plant Sea towers for each alternate tower Cranes Boom booms and boom girders of crane boom stand (942) And is provided as a connection structure on one side of the iso crane boom band 942 constituting the yard basket 842 and the pallet 844 for collecting the seabed mineral resources,

(SLD) of the sea level surface (SLD) composed of the yard basket 842 for collecting the seabed mineral resources constituting the sea iso crane boom zone 942 and the connection structure of the Pareto 844, (SDU) of the nuclear hydroelectric power plant 811 constituting the position shifting control operation to the position of the upper part of the lifting deck (SDU) of the upper part of the sea level surface (SLU) Device,

Submarine Mineral Resources A marine power plant consisting of an isocrane boom band (942) connected structure at the position of the manganese unit (909) to the upper part of the floating deck (SDU) constituting the manganese unit (909) It is equipped as a connection structure of Siiso crane boom band (942) in the submarine mineral resource collecting place composed of buoyant type poison nuclear power plant (672) and nuclear waste disposal unit main body (1) (845) and anti-tank erection (877) for the deep-sea digging equipment of the construction machine squirrel drill to prepare solidified manganese block (909)

The crushed manganese block 909 is provided as tower cranes 886 which constitute the input to the blast furnace,

A diesel pile hammer 883 and a steam hammer 884, a hydraulic crane 885 and a tower crane 886 of a plurality of construction machines 880 constituting a manganese block 909 into a furnace, To provide positional movement control,

(911), a mining robot (912), a construction machine excavator and a connection structure, which are composed of tower cranes (886) It is a connection structure composed of buoyancy type dock nuclear power plant (672) and inside of distribution dispenser main body (1) of reactor facility for nuclear waste disposal, and it is equipped with subcontracting equipment of submersible energy and mining equipment, The collection is made up of a plurality of construction machines 880,

(593,594,595) nuclear power plant (672) of the marine power plant, and a crane boom stand (74) connection structure constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment, A construction machine dispensing device for equipment operation,

A connecting structure composed of a lifting type docking nuclear power plant 672 of a marine power plant and the inside of a distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal includes a crane boom And a boom girder (652) having a plurality of heavy oil tanks on both sides of the body and connected to the 500m high pressure hose (190) connected to the bottom of the heavy oil tank (795) A plurality of drill rod pipe racks (854) as a connection structure for a rotary table lathe machine (908) of a drilling machine for crude oil drilling while providing a double structure high pressure hose (190) connected by a plurality of hoses (190) Drill (917) Submarine energy and mining equipment for construction of a certain quantity of piping files with crude oil borehole (936) and natural gas borehole (936) excavated with connection structure. And including,

The loom and the cement constituting the dispensing equipment of the construction machine are supplied to the piping line passage through the pipe line of the drilling rod pipe rack (854) to fill the piping file crevice space with the loess and cement. ) High pressure hose with coupling (29) High pressure hose Double structure of connecting shafts with multiple connecting structures Tanks with joints on both sides of high pressure hose (190) Crude oil and natural gas The gas is supplied to the tower crane boom boom boom of the city iso crane boom band (942) and boom hook ring (652) inside the boom girder hook hook (18) 844 is connected to a construction machine distributing and inputting device for operating the mining equipment of both the undersea mineral resource collecting yard basket 842 and the pallet 844 of the iso crane boom band 942 constituting the connection structure artillery However,

(SLD) of the sea surface (SLL) from the position of the submarine mineral resource collection site inside the SDL to the upside of the SLU to the upper SDU of the floating deck. (672) and the distribution of reactor facilities for nuclear waste disposal, with the provision of control to move to the upper deck area (SDU) of the lifting dock, which constitutes the transportation of manganese monoliths (909) Crude oil and natural gas and undersea energy harvesting equipment that lifts up to the floating deck top deck position in a vertical rotation operation comprised of the interior of the apparatus body (1) is located at a location with the connecting structure submarine line wiring (946) Sea level top (SLU) Floating docking deck Upper deck (SDU) Offshore power plant located at the upper position Countertop replacement tower Cistern of isocenter Boom stand (942) Cranes Boom boom and boom hooks (652) connecting structures, and connecting structures for providing a power generating facility device, and the nuclear waste water treatment pipe manufacturing process (705) of the reactor plant in the nuclear hydroelectric power generating plant (811) As a connection structure capable of disassembling and coupling at a marine shipbuilding factory.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plant of land and ocean and nuclear power hydroelectric power plant The diving operation ready controllable control and dispensing apparatus for the hull safety equipment for the hull safety processing equipment 705 constituting the connecting shaft of the nuclear waste disposal pipe manufacturing process 705 of the reactor facility with the double structure block tank dust collector of the unit 811,

The nuclear power plant 672 of the marine power plant constituting the distribution input device of the nuclear hydropower generation facility 811 and the nuclear power plant 672 constituting the inside of the distribution input apparatus main body 1 of the nuclear waste treatment nuclear plant In reactor installations,

A plurality of nuclear radiation leakage control dual structural block tank dust collectors 794 constituting a reactor facility of a nuclear power plant, a plurality of internal block tanks 596,

A plurality of external block tanks 599, a first auxiliary type steel 600 for a block tank and a second auxiliary steel plate 601 for a block tank are arranged outside a plurality of inner block tanks 596 constituting a reactor facility of the nuclear power plant A vertical partition 605, a horizontal partition 609 and a steel beam 149 to form a first auxiliary steel 600 for the block tank, a second auxiliary steel plate 601 for the block tank, A cutting process is performed by a computer laser cutter 954 for each of the horizontal partition wall 609, the steel beam 149, the snap hole 602 and the partition wall manhole 610,

The welder of the welding process constituting the reactor facility of the nuclear power plant is provided with the double structure block tank dust collector (794)

A fifth protection wall distribution input device formed on the outer wall surface of the fourth protection wall storage container 808 constituting a reactor facility of a nuclear power plant, a nuclear fuel explosion control distribution dispensing device, and a reactor facility nuclear radiation leakage control dual structure block tank dust collector 794 (672) of a marine power plant, and nuclear waste disposal nuclear reactor facility (1) Nuclear reactor facility nuclear reactor Nuclear waste disposal screening system Double structure block tank dust collector 794) for diving operation preparatory operation control control distribution dispensing device for hull safety equipment,

A floating manhole 610 constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing reactor facility and the lifting type mannitol nuclear power plant 672 of the marine power plant constituting the distribution input device of the nuclear hydroelectric power generation facility unit 811, The vertical partition wall 605 and the horizontal partition wall 609 and the communication unit hydraulic cylinder door 624 and the emergency stairs 631 are welded to the floating type nuclear power plant 672 and the nuclear waste disposal reactor In the double structure block tank dust collector 794 constructed inside the distribution dispensing apparatus main body 1 of the facility,

Dual Structure Block Tank Dust Collector (794) Transmission Equipment for Preventing Explosion of Nuclear Reactor Built in the Facility Inside the Dual Structure Block Tank Dust Collector (794) with Hydraulic Cylinder Door (624) and Emergency Step (631) And a distributor / dispenser of the nuclear hydroelectric power plant 811 configured to operate the nuclear reactor as a nuclear waste disposal screening device equipped with transportation devices at the time of renovation of the outside,

A cylindrical double structure block tank 598 composed of a plurality of stopper plates 625 constituting a distribution dispenser of the nuclear hydroelectric power plant part 811 has a plurality of inner block tanks 596, Tanks 599 are provided at the upper and lower ends of the double structure block tanks individually with double structure block tank dust collectors 794 connecting the welding process dual structure block tank dust collector 794 and the large flange, The dust collector 794 is provided in the form of an egg,

A plurality of reactor nuclear waste (224) consisting of a buoyancy type nuclear power plant (672) of a marine power plant and the inside of a distribution input apparatus main body (1) of a nuclear waste disposal nuclear reactor facility, and a nuclear fuel explosion control distribution input apparatus The reactor facilities are divided into a reactor facility by a barge hull (591) at the top of the holding tank and a barge hull (592) at the bottom of the holding tank,

(672) of a marine power plant, and a plurality of nuclear reactor nuclear waste (224) processing apparatus and nuclear fuel explosion control apparatus constituting the main body (1) of a nuclear reactor waste disposal apparatus main body (1) And the distribution of the nuclear hydraulic power plant unit 811 constituting the nuclear power plant 672 and the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste treatment to operate the nuclear power plant, Comprising a dosing device,

And a double structure block tank dust collector 794 constituting a distribution dispenser of the nuclear hydroelectric power plant 811. In the vicinity of the lower portion between the plurality of inner block tanks and the plurality of outer block tank vacancies before and after the reactor large explosion accident, And a double structure block tank dust collector 794 constituting a distribution input device of the nuclear hydroelectric power plant part 811 is provided at the bottom of the nuclear reactor facility,

The lower surface of the road surface (G L D) is provided with the reinforcing concrete mat (225) and the steel beams (149)

The barge hull 591 at the upper end of the holding tank is replaced with a reactor building 688 outside the inner block tank 596 having a single fuel explosion-proof double structure block tank dust collector 794,

A plurality of nuclear reactors of a nuclear power plant on land A nuclear reactor (672) consisting of nuclear reactors of the nuclear waste disposal system is installed in the reactor main body (1) The nuclear fuel pellet 683 is injected into the wall to provide a nuclear fuel explosion control distributing and dispensing unit double structure block tank dust collector 794 to be installed in the floating nuclear fuel plant 672 of the marine power plant and the distribution input apparatus A plurality of nuclear reactor nuclear waste disposal and dispensing apparatuses including the interior of the main body 1 and a nuclear fuel explosion control distribution dispensing apparatus dual structure block tank dust collector 794,

And a distribution input device of a nuclear hydropower generation facility unit (811) configured to operate the nuclear reactor with a nuclear radiation leakage control dual structure block tank dust collector (794)

Inside the reactor facility constituted by the lifting type diesel nuclear power plant 672 of the marine power plant constituting the distribution input device of the nuclear hydropower generation facility part 811 and the inside of the distribution input device main body 1 of the nuclear waste treatment facility, A reactor plant in which an enormous amount of radiation is generated is equipped with a nuclear fuel explosion control dispensing device,

A first wall pellet constituting a distribution input device of the nuclear reactor installation, a covering tube providing protection of the second wall fuel rod, a third wall reactor pressure vessel, a fourth wall separator vessel and a fifth wall reactor building (688) A double structure block tank dust collector 794 constructed by replacing a reinforced concrete mat 225 with a five-layered protective wall is provided as a distribution dispensing apparatus and a nuclear fuel explosion control dispensing apparatus,

A plurality of nuclear reactor facilities constituting the nuclear power plant 672 constituting the distribution apparatus of the nuclear reactor facility and the inside of the main body 1 of the nuclear reactor waste disposal apparatus main body 1 are connected to the barge hull 591 at the upper end of the holding tank (688) double-structured block tank reactors to provide nuclear reactor waste disposal and dispensing equipment,

The barge hull 592 at the lower end of the holding tank constituting the distribution dispensing apparatus of the nuclear reactor facility,

Nuclear Fuel Explosion Control Distribution Equipment such as a Nuclear Power Plant Reactor Facility that Constructs a Barge Hull (592) at the bottom of a Holding Tank Dual Structure Block Nuclear Power Generation in a Tank Dust Collector (794) And a distribution injector of the nuclear hydropower generation facility unit (811) configured to operate the nuclear power plant with the control double structure block tank dust collector (794)

A steam generator 810 and a steam dryer 786 installed outside the body of the pressure vessel 813 constituting the dispensing apparatus of the nuclear hydroelectric power plant 811,

A plurality of through holes 808 are formed at an angle of 45 degrees at an upper end portion of the nuclear reactor building 688 corresponding to the fifth wall and a rupture container 808 corresponding to the fourth wall constituting the distributing and dispensing apparatus of the nuclear hydropower generating facility 811, The holes are provided by cutting machines and construction machines,

The reactor installation includes a plurality of safety valves 472 and a block piping line 74 having a double pipe structure is formed in a plurality of through holes constituting the distributing and dispensing apparatus of the nuclear hydropower generation facility unit 811, A bolt 24, a nut 25 and gaskets 32 are provided on the outer wall 74 of the reactor building 688 to provide a flange coupling connection,

The dual structure block tank dust collector 794 constituting the distribution and charging device of the nuclear hydroelectric power plant 811 has a double structure block tank 598 having a size twice the diameter of the reactor building 688, The combination of the outer block tank (599) for treatment storage and the block piping line (74) of the radiation type double pipe structure is provided with a nuclear waste disposal dispensing apparatus and a nuclear fuel explosion control dispensing apparatus, And a distribution input device of a nuclear hydropower generation facility unit (811) configured to operate the nuclear reactor with a nuclear radiation leakage control dual structure block tank dust collector (794)

In the double structure block tank reactor building 688 constituting the distribution input device of the nuclear hydroelectric power plant part 811,

A double structure block tank A plurality of inner block tanks 596 and a plurality of outer block tanks 599 constituting the nuclear reactor building 688 are separately installed in the nuclear fuel explosion control distribution dispensing apparatus such as loess (158) cement mixing equipment mixer machine (649), it is provided in the same pressure vessel (813) as the blast furnace immediately before the large-scale explosion of the reactor facility,

And a loess mixture 927 in the form of a dentifrice formed by mixing cooling water 287 and loess 158 with a mixer machine 649 constituting an internal cleaning process of the reactor installation, (10) Double-structured fire-fighting nozzle Nozzles (10) are installed at the same time into the reactor facility, and the inside of the reactor facility is cleaned before and after the earthquake. The inside of the reactor facility, which is constructed inside the vessel (813) inside the body of the vessel and inside the vessel (808), and provided with no human and robot input, is installed. and,

A nuclear fuel explosion control distribution dispensing apparatus having a nuclear reactor constituting a nuclear reactor explosion preventive double structure block tank dust collector 794 and a plurality of nuclear fuel explosion control dispensing apparatuses including nuclear fuel explosion prevention control apparatuses, Double structure of reactor facility Block tank Nuclear radiation leak control Dual structure block Nuclear waste disposal dispenser for internal and external refurbishment of nuclear reactor facilities with dust collector (794) Prevention of explosion of reactor facilities before and after safety operation And a distribution input device of the nuclear hydropower generation facility unit (811) configured to operate the nuclear power plant by providing input of control goods,

The internal cleaning of the reactor installation constituting the distribution and injection apparatus of the nuclear hydropower generation facility unit 811 is performed by the circulation water pump 242 connected to the cooling water 287 and the piping line 352 to the distribution and injection apparatus of the fuel explosion control apparatus ) And cooling water 287, which prevented solidification of the loess mixture, was provided with a suitable mixture of loess mixture with loess and cement mixer mixer machine 649,

The yellow loess mixture mixed with the nuclear fuel explosion control article cooling water 287 constituted by the mixing equipment mixer machine 649 is supplied to the inside of the pressure vessel 813 through the plurality of double structure firefighting nozzle 10 and the internal block tank 596 The pressure sensing sensor safety valve 472 is opened and at the same time the hatch cover located at the upper end of the pressure vessel 813 and the upper end of the reservoir 808 is expanded,

The nuclear fuel explosion control appliances of the nuclear reactor facility are injected into the inside of the nuclear reactor facility so that the fuel explosion control is provided so that the outer block piping 74b of the block piping line 74 is prevented from exploiting the fuel explosion stored in the inner block tank 596 Control materials Cool water and yellow loess mixtures which generate soap bubbles in the form of toothpaste are fed to the inside of the pressure vessel 813 and the fourth protective wall vessel 808 by the feed pump 241,

In the nuclear reactor facility constituting the distribution input device of the nuclear hydroelectric power generation facility unit 811,

It is necessary to prepare internal control of the nuclear reactor immediately before and after the earthquake,

A nuclear waste disposal and dispensing apparatus having a nuclear reactor explosion-proof nuclear radiation leakage control dual structural block tank dust collector 794 that maximizes safety operation of a nuclear reactor facility that has been provided with continuous power generation excluding natural disaster constraints by inputting a disaster prevention device And a plurality of nuclear reactor explosion control dispensing apparatuses including a nuclear reactor (672) and a nuclear reactor main body (1) of a nuclear reactor waste disposal apparatus main body (1) The system includes a distribution input device of a nuclear hydropower plant (811) which is configured to operate a nuclear reactor at a nuclear reactor facility,

A nuclear power plant 672 equipped with nuclear waste disposal apparatuses and a mooring device and a diving buoyancy control device formed in a buoyancy type nuclear power plant 672 of a marine power plant constructed inside the main body 1 of a nuclear power plant for nuclear waste disposal, Equipment and Nuclear Waste Dispensing Equipment and Nuclear Reactor Facilities Safety Operation Before and After Nuclear Hydroelectric Power Plant (811) Reactor Nuclear Waste Tube Manufacturing Process (705) Connection Axis;

And as a connection structure capable of disassembling and coupling at a marine shipbuilding factory.

Alternatively, it may be possible to use a floating nuclear power plant (593, 594, 595) nuclear power plant (672) of a small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plant, ) Double structure of nuclear hydroelectric power plant part (811) built inside Nuclear waste treatment pipe manufacturing process of reactor facility (705) Preparing for diving for hull safety equipments constituting connecting shaft Operation control Adjustment control Distribution input The apparatus includes:

The nuclear radiation leak control system (1) comprises a floating type nuclear power plant (672) of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility (811) and a distribution input apparatus main body (1) A nuclear waste disposal and dispensing apparatus having a dual structure block tank collector 794 and a nuclear fuel explosion control dispensing and dispensing apparatus having a plurality of nuclear reactor facilities to be installed on a barge of an anti-

The installation position of the distribution power input unit of the nuclear hydroelectric power plant 811 located at the top of the sea level 40 m above sea level excluding the weather condition of the earthquake and tsunami constituting the step to be installed on the barge, Nuclear reactor facility safety operation before and after nuclear reactor safety facility Nuclear reactor leakage control by nuclear reactor of nuclear power plant Nuclear power plant leak prevention control system (794) And a distribution input device of the nuclear hydroelectric power plant part (811)

The upper part of the nuclear water hydropower generation facility part (811) is provided with a distribution input device of the nuclear hydropower generation facility part (811) at the top of the sea surface excluding the restriction on the weather condition constituting the distribution device, (593,594,595) Nuclear power plant (672) Anchor (639), anchor chain (640), small keybed (616) and rotary table lathe machine for crude oil drilling machine 908) and buoyancy regulator piping line Automatic pneumatic valve transport device (916) and vacuum pump (635), high pressure multi-stage multi-stage emergency pump for emergency pump (8) Block tank Dust collector (794) Closures for access to the air space of the nuclear reactor facility and the tank inlet for blocking the foreign matter The tie-bar network (28) and the jet pump (157)

And a control unit for controlling the operation of the nuclear waste disposal storage tank and the doctor ventilation 585 of the nuclear waste disposal control apparatus, Doctor Ventilation Suction (585a), Doctor Ventilation Exit (585b) and Block Tank Hydraulic Cylinder Door (624) for Hull Traffic Control Unit and Hydraulic Cylinder Machine (624) A solenoid valve (76) formed in the solenoid valve (76), a diving position adjusting and moving device for the hull, and an inclination adjusting device for the diving buoyancy adjusting weight (949) And a distribution input device of the nuclear hydropower generation facility unit (811)

Large-scale marine nuclear power plant floating structure (595) With the weight of the hull constituting the structure of the operating structure, sea level gravity and buoyancy generated, buoyancy-type poison (595) The marine nuclear power plant lifting tank 595 includes a strut tank upper barge hull 591 constituting a plurality of bollards 638 for hull rescue of the ship mooring facility rope of a barge slowly floating on the sea, The lower barge hull 592 is formed as an upper portion of the deck plate,

The anchor 639 formed in the anchor chain 640 for connecting the plurality of balls 638 and the mooring device anchor 639 is pierced to the seabed by a winch 137 ,

Large-scale offshore nuclear power plant (595) consisting of tacho-winch (137) machine The vessel is equipped with an anchor-ring anchoring device to provide anchorage to the ship's buoy (595) An earth surface excavation of the seabed is provided by a rotary table lathe machine 908 of a drilling machine for crude oil, which is formed in a floating tank 595,

(595) barge hull mooring anchor constructed by a rotary table lathe machine (908) of the drilling machine, and a mooring device replacing the mooring device anchor The operation of the feed dog 185 is performed by folding the main body of the feed dog 185 with the feed dog 185 and the hydraulic cylinder hydraulic pressure key 623 formed on the hydraulic cylinder hydraulic key 623 of the hydraulic cylinder,

(595) barge hull anchoring that is composed of the hydraulic cylinder hydraulic pressure generating key (623), and the hydraulic cylinder hydraulic pressure key (623) is used to move the main body of the feed dog (185) As a result,

(185) A large-scale marine nuclear power plant lifting tongue (595) consisting of a umbrella body extending from the main body. Anchor bolting mooring devices are installed to form the barge anchoring,

(595) Dual structural block tank barge hull Anchor bolt anchoring system to the nuclear power plant (672) and the main body of the distribution system of nuclear reactor waste treatment facility 1) a nuclear power plant operation unit including an internal nuclear power plant unit 811 configured to operate the nuclear power plant before and after the operation of the nuclear power plant,

A lifting type poisonous fuselage (hereinafter referred to as &quot; fusing type poisonous fuselage &quot;) 6 consisting of a floating type poisonous nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility part 811 and a distribution input device body 1 of a nuclear waste processing facility An air recycling tank 145 for an air storage tank for providing diving control,

A cooling mechanism cooling fan 645 constituting an air liquefying apparatus of this system and an air balloon 78 and a rubber balloon 914 and a tube 188 are floated in the air A heater fan 642 for providing a heater,

In order to prevent the war from occurring,

The parties involved in the international diplomatic dispute should be provided with the satellite launch pad (643), satellites and airships for the expulsion of all expatriates outside the global atmosphere,

A mooring tower 644 for controlling and controlling nuclear bombs and missiles composed of a buoyant type poison nuclear power plant 672 and a distribution input apparatus main body 1 of a reactor facility for nuclear waste treatment,

An air compressor 80 constituting the satellite launching platform 643 and the space rocket launching platform 646 is provided,

And the tackle winch 137 operated by the supplied compressed air constituted by the air compressor 80 is connected to the lifting type docking nuclear power plant 672 of the marine power generation plant and the distribution input device main body 1 ) The Nuclear Hydroelectric Power Plant (811), which consists of a dual structure block tank dispensing device of the Nuclear Hydroelectric Power Plant (811) before the operation of the nuclear power plant inside the nuclear power plant, 811, &lt; / RTI &gt;

A crane 861 installed at the upper end portion of the lifting deck of the poisonous boat deck (S D U) constituting the distribution input device of the nuclear hydroelectric power plant 811,

An air hose 109 connected to the front of the trolley winch 137 in front of and behind the air receiver tank at the rear of the air compressor 80, And an electrical magnet magnet 645 is provided at the lower end SDL of the lifting deck,

The pipeline automatic pneumatic conveying device 916, which constitutes the transportation of the loess and cement to the piping and the high pressure hose,

A mixer mixer machine 73 for providing a position in front of the pipeline automatic pneumatic conveying device 916 is provided and a lever block 123 coupled by a double structure block tank 598 is connected to a tonnage capacity (598) units to provide a combination of nuclear reactor hydroelectric power plants,

The auxiliary steel plate 165, which is coupled with the holding tank and the holding tank combining part by bolt-nuts, is provided with the male and female parts, while the bolt 640 of the atomic hydroelectric power plant part 811 constitutes the distributing- A joining processing hole is provided,

In the double structure block tank facility constituting the distribution dispensing apparatus of the nuclear hydroelectric power plant unit 811,

(1) inside of the distribution input device main body (1) of the floating type nuclear power plant (672) of the marine power plant and the nuclear plant waste disposal nuclear reactor facility, Nuclear Waste Treatment Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Including the dispensing device of the part 811,

The rubber packing 32 of the gasket packing is connected to the intermediate portion of the gap between the large flange 614 and the large flange 614 in the gap between the large flange 614 and the large flange 614 constituting the distribution and charging device of the nuclear hydroelectric power plant 811,

In the double structure block tank facility constituting the distribution dispensing apparatus of the nuclear hydroelectric power plant unit 811,

The double structure block tank 598 is connected to the double structure block tank flange 614 and the other coupling flange 614 by a high-strength bolt and nut in the large flange processing hole 615 constituting the double structure block tank facility. Respectively,

A dual structure block tank connection is constructed in which the dual structure block tank flange 614 is arranged inside the dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment, and the high pressure multi-stage pump 8 and the doctor ventilation The operation of the valve disk inside the bellows butterfly valve 622 in which the float 195 is operated and the float 610 and the hatchback 153 are opened and the float is floated on the seabed, The butterfly valve 622 is opened,

The double-structure vertical lifting tank, which consists of lifting-type poison hulls floating in the sea, is formed as a nuclear waste disposal storage tank in the reactor hull at the bottom of the vertical tanks, and is equipped with a key bed (616) (606), which are connected to the long hole (616) of the long hole at the vertical and horizontal hinge joints of each tank unit, are connected to the buoyancy type diesel power plant (672) Nuclear waste disposal facility of main nuclear power plant consisting of main unit (1) of nuclear reactor installation Continuous reactor facility of nuclear reactor facility safety operation Before and after operation of nuclear power plant division (811) (622) of the nuclear power plant, and the nuclear power plant which constitutes the operation of the nuclear power plant before and after the operation of the nuclear power plant (811), and the control unit

A deck top upper part equipment guide rail 618 for constituting a distribution dispenser of the nuclear hydroelectric power plant 811,

And a helicopter stop 619 located at the top end of the lifting deck deck deck,

A hydraulic cylinder operation key 623 for installing a semi-submerged operation line in which a double structure block tank frame assembly for folding the umbrella, which constitutes a coupling facility of a dual structure block tank,

Tank frame with double pipe structure Double structure block making up joint separation Tank connection area Double structure block for marine safety work on board for offshore cutting and welding Docking tanks (598) 621, the hydraulic cylinder is provided on the semi-submerged operation line 637,

The submarine barge line which constitutes the coupling facility of the double structure block tank constituting the distribution input device of the nuclear hydroelectric power plant 811, the submarine submerged sea surface flotation control device for the submersible barge line control float valve 622 )Wow,

Above-mentioned poisonous ship engine Other motor of double-structured block tanks constituting the preparatory motion before and after the operation of the motor. Combination of the motor body (192) of the power motor and the operation of the nuclear power plant before and after operation And a distribution input device of the nuclear hydropower generation facility unit (811)

A hood 193, a snap ring 194, a fan 195, a body frame 196, a body front reinforcing steel plate 197, a rotating shaft 198, and a hinge 193 constituting internal components of the motor body 192 of the power motor. The motor frame 202 and the terminal box 203, the lifting bolts 204 and the terminal box cover 205 and the front rotation shaft support 200, the stator assembly 201, the motor protection casting frame 202, The assembly 200 having the shaft support 206, the rear reinforcing steel plate 207, the gap 208, the protective cover 209, the rotor iron core 210, the stator core 211 and the stator winding wires 212, And the power is supplied to the motor body (192) of the power motor, and the rotation is provided to the rotating body, and the time required for the prevention of the sinking and the time required for the crew of the sinking extension time is provided. Equipment doctor ventilation 585,

An electronic control device for providing a mineral resource intake / suction control device and a connection structure that constitute the hydrostatic pressure inside the lifting type poisonous hull,

The switch on-off switch is open and includes a hydraulic cylinder door 624 that provides switchover off-

A hydraulic cylinder, a hull of a hull constituting the door (624), a barring tank, an intake port for blocking foreign materials, and a stopper plate (625) formed of a wire netting (28) (672) of the nuclear power plant of the nuclear power plant and the main body (1) of the nuclear power plant of the nuclear waste disposal facility. And a distribution input device of the nuclear hydroelectric power plant part (811) constituting the operation of the nuclear power plant,

The hull sinking prevention air piping line 181 constituting the dispensing and inputting device of the nuclear power hydroelectric power plant 811 and the emergency engine 226 for extending the hull sinking prevention are provided,

In the case of a float-type dock safety marine assembly consisting of a double structure block tank, an air-float type flagpole 628 for identifying the position of a double-pipe structure tank is provided,

In the lifting-type docking facility consisting of a double structure block tank unit,

A rope linkage rope 629 and a rope connecting knot pawl 630 constituting a lifting type poisoning facility and an elevator alley for constructing an emergency stairway 631 facility inside the block steel tower 116 (636) and a conveyor (633) for conveying minerals and mechanical equipment to the outside of the inside of the double structure block tank holding tank upper barge hull (591) and the holding tank lower barge hull (592) (635) and air lifting lines (634) of the air suction and discharge apparatus provided with the hull lifting of the sinking ship,

The division of the nuclear power plant (811) is equipped with a tug line (666) for assembly of marine vessel manufacturing plant and heavy industrial field, The conveyor 633 is formed and the barge line elevation control position is provided with the airbag-type flagpole rubber balloon 628,

(672) of a marine power plant and nuclear waste disposal reactor main body (1) of nuclear power plant with safety equipments, nuclear waste disposal reactor of marine nuclear power plant And a distribution input device of the nuclear hydropower generation facility part (811), which is provided with the distribution and input devices of the facility nuclear hydroelectric power plant part (811)

The distribution input device of the nuclear hydroelectric power plant part 811, which prevents the explosion of the reactor facility of the nuclear power plant of the nuclear power plant excluding the influence of the earthquake and the tsunami constituting the distribution input device of the nuclear hydroelectric power plant part 811, Nuclear waste treatment to prevent environmental pollution caused by nuclear waste Nuclear power plant with double structural block tank to prevent explosion of reactor in nuclear fuel chamber constituting dispensing apparatus Nuclear power plant has nuclear reactor facility formed from 1st wall to 5th wall The nuclear waste treatment storage tank comprises a plurality of dual structure block tanks, the dual structure block tanks comprising an inner block tank and outer block tanks, and a dual structure block tank dust collector 794 for preventing nuclear explosion,

The safety assurance of the nuclear power plant constituting the safe and continuous operation of the nuclear power plant is provided by the distribution input device of the nuclear hydroelectric power plant 811,

The safety of the repair of the reactor equipment is provided by the distributing apparatuses,

And a nuclear explosion preventive double structure block tank dust collector 794 for treating the nuclear waste is installed in the nuclear hydroelectric power plant 811, which includes the nuclear power plant connection shaft, to operate the nuclear power plant before and after the operation of the nuclear power plant. A dispensing device,

A nuclear power plant 672 constituting a distribution input device of the nuclear hydropower generation facility 811 and a dual structure block 673 which prevents nuclear explosion of the nuclear fuel chamber constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear reactor facility Providing storage with the nuclear waste 224 in a reservoir between the dual structure block tanks 598 while passing through the nuclear waste 224 with the tank reactor facility exploded into the block piping line 74,

And a robot 700 that is provided with cutting by remote control when disassembling reactor facilities of a nuclear power plant having a long life to constitute nuclear waste disposal. When the explosion of the reactor pressure vessel 813 stops, a plurality of safety valves 472 are closed To ensure the safety of nuclear power plants,

At the time of operation of the nuclear reactor constituting nuclear waste treatment,

The remote control device robots 700 having a plurality of safety valves 472 fully closed to provide continuous operation of nuclear reactors for nuclear waste disposal facilities of the offshore nuclear power plant before and after the safe operation of the nuclear reactor facility, Provision of pollution prevention is provided by the distribution and input devices of the nuclear hydroelectric power plant 811,

Nuclear power plant (672) that prevents nuclear explosion inside and outside the nuclear fuel chamber that constitutes the nuclear waste disposal and dual structure block tank which consists of the inside of the distribution injector main body (1) of the nuclear waste disposal reactor Nuclear reactor facility And disposal facilities for nuclear waste disposal and nuclear reactors installed in the offshore nuclear power plant (672) of the offshore power plant. 811) as connection shafts of the nuclear waste disposal and dispensing equipment of the nuclear reactor facility and as a connection structure capable of disassembling and coupling at the marine ship manufacturing factory.

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants of the land and sea making up the nuclear waste treatment, and the inside of the main body (1) The nuclear waste disposal and dispensing apparatus of the reactor facility for the hull safety equipment constituting the connecting shaft of the nuclear waste disposal dispensing apparatus of the nuclear reactor facility is composed of a double structure block tank dust collector of the nuclear hydroelectric power plant 811,

The nuclear radiation leak control system (1) comprises a floating type nuclear power plant (672) of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility (811) and a distribution input apparatus main body (1) A nuclear waste disposal dispensing apparatus having a dual structure block tank sorter 794 and a nuclear fuel explosion control dispensing dispenser, comprising the steps of: providing a plurality of reactor installations to the barge of an anti-sunken dual structure block tank of the ocean; (811) located at the upper 40 m above sea level excluding the restrictions on the weather conditions of the sea, and to prevent the sinking of the barge line reactor facilities. Nuclear reactor safety control device Nuclear power plant Nuclear power generation Nuclear radiation leak control to prevent multiple reactor explosion Double structure block tank JINI (794) Includes the distribution and input device of the nuclear hydropower plant (811) that constitutes the operation of the nuclear waste disposal plant of the nuclear reactor facility as the distribution input devices to make the operation of the nuclear power plant before and after the operation of the nuclear power plant operation device continuous. and,

The nuclear waste disposal and dispensing apparatus equipment constituting the nuclear hydroelectric power plant unit (811)

(672) of a marine power plant constituting a nuclear waste disposal and dispensing apparatus facility of the nuclear hydroelectric power plant (811) and nuclear power plant (672) constituting the inside of the dispensing apparatus main body (1) of the nuclear waste disposal nuclear plant The washing water in the case where the water leaking from the valve of the power generation plant 672, the water in the building and the regenerated liquid of the ion exchange resin are liquid is collected in the storage tank 216 and the nuclear waste disposal filtration is provided by the filter 217 ,

The radioactivity measuring unit 218, which constitutes the nuclear waste disposal dispensing apparatus, measures the radioactivity value, and together with the cooling seawater which is confirmed to be free from harm, the water other than the washing water to be sent to the sea is purified by the filter 217 Respectively,

The filtered water and the distilled water constituting the nuclear waste disposal dispenser device are provided with reactor coolant and have monitoring monitoring posts 219 constituting the nuclear waste disposal dispenser device, (672) and the inside and outside of the main body (1) of the nuclear reactor waste disposal unit,

Nuclear Waste Treatment Dispenser The nuclear waste disposal and dispensing system consisting of the inside of the main body (1) of the nuclear reactor waste disposal unit that constitutes the facility of the disposal unit is provided, and the nuclear waste disposal unit is installed in the floating nuclear power plant (672) Mooring device and diving buoyancy control device for nuclear waste disposal Dispensing device of nuclear waste disposal facility and nuclear reactor facility safety operation Fusi Nuclear Hydroelectric Power Plant division (811) Double structure block tank Dust collector Nuclear waste disposal equipment As a connection structure capable of disassembling and coupling at marine shipbuilding factories.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the above-mentioned nuclear waste disposal dispenser installation apparatus, and the main body 1) Double-structured block of the nuclear waste disposal unit (811a) of the nuclear hydroelectric power plant (811) consisting of internal nuclear waste disposal reactor The nuclear waste disposal dispenser facility of the nuclear reactor facility for hull safety equipment, which constitutes treatment of the nuclear waste (224)

The buoyant type diesel nuclear power plant 672 of the marine power plant constituting the nuclear waste disposal dispensing apparatus of the nuclear hydroelectric power plant 811 and the inside of the distribution dispatch apparatus main body 1 of the nuclear waste disposal reactor apparatus Nuclear Waste Dispensing and Discharging Apparatus with Nuclear Radiation Leakage Control Dual Structure Block Tank Dust Collector (794) and Nuclear Fuel Explosion Control Distribution Dispensing Apparatus A plurality of nuclear reactor facilities are installed on the barge of an anti-sunken double structure block tank Including,

(811) located at the uppermost 40 m above sea level excluding the restrictions on the weather conditions of earthquake and tsunami, and the submerged-type barge line reactor facility with the installation position of the distribution input unit. Nuclear reactors to prevent explosion of nuclear reactors in nuclear power plants of Nuclear power plants Leakage control of nuclear reactors Nuclear reactor facilities to constitute reactors to operate nuclear reactors by dual structure block tank dust collector (794) Includes nuclear waste disposal dispenser and,

(593, 594, 595) nuclear power plants (672) of the marine small, medium and large sized marine nuclear hydroelectric power plants, and the nuclear power plant (1) of the nuclear power plant The nuclear waste treatment facility of the nuclear power generation nuclear waste treatment unit 811a,

The nuclear power plant 672 constituting the nuclear waste disposal apparatus of the nuclear power generation nuclear waste processing unit 811a and the inside of the distribution input apparatus main body 1 of the nuclear waste disposal nuclear plant processing apparatus are constituted by small, Long-half-life nuclear wastes (224) from the reprocessing process at the Nuclear Power Plant's (593,594,595) Nuclear Power Plant (672) of the Marine Nuclear Hydroelectric Power Plant are used for equipment construction machinery heavy equipment harbors The reactor 877 and the excavator 845 may be used to provide nuclear waste 224 in the interior of polar glaciers and the nuclear waste 224 processing facility to constitute nuclear waste treatment with construction machines,

The nuclear waste treatment facility, which constitutes the nuclear waste disposal dispenser device,

Fission in the nuclear hydroelectric power plant (811) to constitute conversion into another material;

Construction of nuclear waste (224) is carried out according to the depth of the stratum and the depth of the seabed. At the same time, nuclear waste disposal is carried out by the construction machine heavy equipment hunter (877) and excavator (845)

In the nuclear waste disposal device vessel constituting the nuclear waste disposal dispenser device,

(220), which contains nuclear waste, and nuclear waste (224) in the buried area, to transport nuclear waste to ships. (2) Nuclear hydroelectric power plants, which constitute nuclear power plants to operate nuclear reactors before and after nuclear power plants, And a distribution input device of the power generation facility unit 811,

The space rocket 612 and the space rocket launching rods 646 constituting the nuclear waste disposal apparatus transportation facility of the nuclear power nuclear waste processing unit 811a constituting the nuclear waste disposal dispensing apparatus are installed to the barge deck deck The nuclear waste 224 processing unit space rocket 612 and the space rocket launching unit 612 are constructed so that the dual tubular structure drum 220 containing the nuclear waste at the upper end position is mounted on the space rocket 612 and transferred to the space space. (593,594,595) Nuclear power plant (672) and nuclear reactor plant main body (1) Nuclear radioactive contamination composed of inside and outside of nuclear power plant (1) And to include nuclear waste (224) as a treatment unit space rocket (612) and space rocket launch unit (646) transportation facilities to achieve nuclear waste treatment.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the above-mentioned nuclear waste disposal dispenser installation apparatus, and the main body 1) Nuclear Hydroelectric Power Plant (811) with internal structure Nuclear waste nuclear waste treatment unit (811a) from dual structure Block tank Dust Collector Nuclear waste treatment facility of nuclear reactor facility A nuclear waste disposal dispenser remodeling facility of a nuclear reactor facility for a hull safety facility constituting treatment of a nuclear waste (224)

(672) of a marine power plant (672) that constitutes the nuclear waste disposal dispenser refurbishment facility of the reactor facility of the nuclear hydroelectric power plant (811) constituting the nuclear waste disposal dispenser installation facility and the nuclear waste disposal system Nuclear Waste Dispensing Apparatus and Nuclear Fuel Explosion Control Distribution Apparatus Having Nuclear Radiation Leakage Control Dual Structure Block Tank Dust Collector (794) Consisting of Dispensing Apparatus Main Unit (1) of the Reactor Facility A plurality of nuclear reactor facilities sink into the ocean And providing an installation on the barge of the anti-double structure block tank,

Nuclear waste disposal dispenser In the upper 40m of the sea level excluding the restrictions on the weather condition of the earthquake and tsunami constituting the facility, it is equipped with the installation position of the distribution power input unit of the nuclear hydroelectric power plant (811) Nuclear power plant safety operation device to form safety of nuclear reactor facilities before and after safety operation Nuclear power generation to prevent explosion of nuclear reactors of nuclear power plant Nuclear power generation leakage control of nuclear waste disposal unit (811a) Double structure block tank dust collector (794) Reactor And a nuclear waste disposal and dispensing equipment remodeling facility of the nuclear waste disposal facility so as to operate the nuclear power plant before and after the operation of the nuclear power plant moving apparatus,

(593,594,595) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the reactor facility remodeling facilities of the nuclear power generation nuclear waste treatment unit (811a) constituting the nuclear waste disposal dispensing apparatus, In the case of a failure in the nuclear power plant (811) constituting the nuclear power plant (672) constituting the distribution injector main body (1) of the nuclear reactor facility, the reactor piping line With the safety valve 472,

(811a) for providing a substitute for the operation of the boiler (783) of the thermal power generating plant constituting the nuclear waste disposal dispensing apparatus, the nuclear waste processing section (811a) of the nuclear power generation nuclear waste treatment section The company also provided thermal power generation facilities that provided emergency power generation operation by supplying steam to replace the electric power supply with thermal power generation facilities during the period of inspection for the repair of faults inside the reactor facilities. In the case of renovation of the reactor facilities, it is necessary to arrange for the guarantee of the repair of the reactor facilities with the prevention of radioactive contamination,

(1) of the nuclear waste disposal reactor equipment constituting the nuclear waste disposal dispenser installation facility, and (3) a thermal power generation facility consisting of the inside of the main body (1) (593,594,595) Mooring device and diving buoyancy control device for nuclear power plant (672) and nuclear waste disposal and distribution system of nuclear waste disposal Nuclear waste of nuclear facilities at nuclear power plant (811) It is composed of connecting shafts of processing thermal power generation facilities, and it is composed as connection structure that can be disassembled and combined at marine ship manufacturing factory.

(593,594,595) Nuclear power plant (672) of the offshore and offshore marine power plants constituting the above-mentioned nuclear waste disposal dispenser, and the nuclear power plant (672) In the nuclear power generation nuclear waste treatment unit 811a of the power generation facility unit 811, the nuclear waste waste treatment facility 811a is provided with a nuclear fuel cycle of the nuclear waste fuel industry in the connection axis of the nuclear waste treatment distribution apparatus of the dual structure block tank dust collector reactor facility, The nuclear waste disposal and dispensing device remodeling equipment for the nuclear safety equipment for the hull safety equipment,

The floating nuclear power plant 672 of the marine nuclear power plant constituting the distribution input device of the nuclear hydropower generation facility unit 811 constituting the nuclear waste disposal dispenser system and the main body of the distribution apparatus of the nuclear waste disposal system 1), and a nuclear radiation disposal control double structure block tank precipitator 794 constituting a connection structure to the nuclear waste nuclear waste disposal unit 811a with a connection axis of the nuclear hydroelectric power plant unit 811 constituting the nuclear waste disposal unit Dispensing injector and nuclear fuel explosion control dispensing dispenser Providing a plurality of reactor installations to the barge of an anti-sinking double structure block tank of the ocean,

Nuclear waste disposal system The disposal input device installation position of Nuclear Hydroelectric Power Plant (811) located at the upper 40m above the sea level excluding the restrictions on the weather condition of earthquake and tsunami constituting the facility of installation and disposal of the nuclear waste, Type float barriers Reactor facilities Safety pre-operation Nuclear reactors Facility safety devices Nuclear power plants Nuclear reactors Nuclear power plants Nuclear reactors Leakage control Dual structure block tank Dust collector (794) Reactor (811) which constitutes a nuclear power plant to operate the nuclear power plant before and after the operation of the nuclear power plant,

(593,594,595) nuclear hydroelectric power plant (672) constituting the nuclear waste disposal dispenser apparatus and the nuclear hydroelectric power plant (672) constituting the inside of the dispensing apparatus main body (1) of the nuclear waste disposal nuclear reactor facility The nuclear reactor nuclear waste processing unit 811a,

Around the launch pad of the satellite and the space rocket constituting the reactor facility of the nuclear power plant of the nuclear power nuclear waste treatment section (811a) constituting the nuclear waste disposal dispensing apparatus, It is equipped with loess soil and disaster prevention company, and arranges loading of natural loess soil and disaster prevention company on deck deck with construction machine,

In the vicinity of the launching platform constituted by the disaster prevention walls,

A 60 m circular ocher block An earth and space rocket fired at a launch pad and a space rocket launch pad at the top of the deck deck, with a wall of 3 m in height and 15 m in height, has an enormous amount of propulsion for satellite and space rockets Fuel is burned to block the generation of high temperature by disaster prevention walls,

High temperature and high pressure combustion heat generated by firing of satellite and space rocket consisting of disaster prevention walls at high temperature is provided with 60m circular ocher block disaster prevention wall, It is equipped with a hull safety device for replacing dead-end crane. Isocrane crane boom zone (942) is 60m in diameter and 15m high in height. Block tank hull is disassembled and coupled to double pipe structure tank bridge pier ) Of the nuclear power generation nuclear waste processing unit 811a,

A provisional hypothesis is provided on the circumference of the position that constitutes the satellite launch pad and the space rocket launch pad,

The manganese block (909) at the top of the deck plate was laid on the deck plate with a thickness of 2 m,

After the launch of the satellite and space rocket, the removal of the auxiliary saddle mold (617)

At the location of the 10 meter deep water area or the deep sea area,

We prepare length of puncture by depth,

A nuclear waste nuclear waste disposal unit (not shown) constituting a hydraulic cylinder operation, which is formed by a seesaw crane boom stand 942, a hydraulic rotary cylinder machine 619, and a hydraulic cylinder machine 624, 811a, &lt; / RTI &gt;

The hull, which constitutes a quarry at the front of the hull,

The coastal moorings, which constitute the tailworms both at the back and at the front and back,

(593,594,595) nuclear power plant facilities of marine small, medium and large sized marine nuclear hydroelectric power plants constituting vessel shelters of the marine corridor,

Nuclear power plant (672) with anchors and anchor chains constituting nuclear waste disposal dispenser installation facility, small and medium sized and large-sized offshore that consists of main body (1) of nuclear power plant for nuclear waste disposal (593,594,595) of marine nuclear hydroelectric power station (593,594,595) Mooring device and diving buoyancy control device of nuclear power plant (672) and distribution and input device of nuclear waste treatment Reactor facility safety operation of FUHI Nuclear Hydroelectric Power Plant The connection axis of the nuclear reactor facility of the nuclear power generation nuclear waste treatment unit 811a at the reactor 811;

And as a connection structure capable of disassembling and coupling at a marine shipbuilding factory.

In other words, it is possible to use the floating nuclear power plant (593, 594, 595) nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the reactor facility of the nuclear power plant, (811a) constituting the inside of the main body (1) constitutes the connecting shaft of the nuclear waste disposal dispensing apparatus equipment of the nuclear reactor equipment to be supplied to the double structure block tank dust collector from the nuclear nuclear waste disposal unit (811a) In the boiling water reactor reactor facility 802,

The nuclear radiation leak control system (1) comprises a floating type nuclear power plant (672) of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility (811) and a distribution input apparatus main body (1) A nuclear waste disposal and dispensing apparatus having a dual structure block tank dust collector 794 and a nuclear fuel explosion control dispensing and dispensing apparatus; providing a plurality of nuclear reactor facilities to the barge of an anti-sunken double structure block tank of the ocean;

Earthquake, and tsunami Disaster prevention equipment is installed at the top of the sea (409m above sea level) Restrictions on installation and disposition of the nuclear power plant (811) Nuclear reactor leakage control to prevent explosion of a plurality of nuclear reactors of a nuclear power plant of a nuclear power plant. A double structure block tank dust collector (794) is provided with a boiling water reactor reactor facility (802) (811) for constituting the operation of the nuclear power plant moving apparatus before and after the operation of the nuclear power plant to operate the nuclear power plant,

A double structure block tank which constitutes a distribution input device of the nuclear hydroelectric power plant 811, and a boiling water reactor reactor 802 constituting a connection shaft of a nuclear waste disposal dispenser of the reactor system, Steam to form a turbine spinning operation,

In the boiling water reactor 802 constituting the dual structure block tank dust collector reactor facility,

A control rod 798, a recirculation pump 239, and a pressure control pool 240 for trapping water in the lower portion of the pressure vessel 813 in the reactor pressure vessel 813 constituting the dust collector reactor installation A steam line 780 composed of a turbine 267 and a generator 772 is provided in the steam pipe 779 line to the outside of the reactor,

The residual steam 780, which constitutes generation power generation,

A cooling action is provided in the condenser 790 constituting the remaining steam 780,

The steam 780, which constitutes the cooling action,

The cooling water 287 is provided,

The water supply pump 241 moves the cooling water 287 to the circulating water pump 242 in the inside of the condenser 790 while moving it into the reactor inside the purifier 809 and recirculating it into the reactor constituting the hard water 654a ,

The cooling water 287 is discharged from the condenser 790 external waterproofing passage constituting the cooling water 287 to the circulating water pump 242 as a nuclear power plant power generation production facility,

The distribution and input device of the nuclear hydroelectric power plant unit 811 into the buoyancy type nuclear power plant facility of the marine power plant comprising the generation power generation facility,

A nuclear power plant unit (811) comprising a buoyancy type nuclear power plant (672) of a marine power plant constituted by a power generation production facility and a nuclear power generation facility unit (1) of a nuclear power plant for treatment of nuclear waste, And a distribution input device of the nuclear hydropower generation facility unit (811) configured to operate the nuclear power plant before and after the operation of the nuclear power plant of the power plant operation apparatus,

A nuclear waste disposal unit 811a, and a double piping line 74 constituting a connection structure. The nuclear waste location movement control unit and the nuclear waste location transfer passage are provided as a nuclear waste disposal and dispensing apparatus ,

Nuclear waste disposal Dispenser Nuclear radioactivity Contaminants are composed of a number of temperature and pressure sensors Sensors for safety valves Temperature sensors are in operation when the temperature inside the reactor reaches 700 to 800 degrees Celsius The temperature and pressure sensing sensors provide an alarm message transmission to the computer of the safety control room while opening a plurality of temperature and pressure sensing sensor safety valves, respectively, so that an explosion is generated in the inner block piping line 74a of each pressure vessel 813, And the nuclear waste is stored in each of the double structure block tanks, the temperature pressure sensor safety valve 472 connected to the inner block tank at the bottom of the pressure vessel 813 is opened,

As the outer block piping line 74b constituting the opening of the pressure detection sensor safety valve 472,

An explosion prevention control article of the fuel 683 stored in the inner block tank constituting the opening of the safety valve 472 is connected to the automatic injector flashing warning lamp 99 and the pressure gauge 101 and the temperature sensing sensor bimetal 102 The safety valve 472 of the pipeline automatic pneumatic valve transport device 916 and the flow rate check flow meter 105 and the level switch 104 for the flow rate check operation are connected to the thermostat thermometer sensor switch 103, A plurality of through holes in the double pipe structure block piping line 74 at an angle of 45 degrees at the upper end of the nuclear reactor building 688 with connection structures are formed by a laser cutter and a double structure block tank constituting through- Including dust collector reactor facilities,

In the plurality of through holes constituting the dust collector reactor facility,

A dual tubular block piping line 74 is formed,

A plurality of safety valves 472 are provided to provide a flange connection to the bolt 24 and the nut 25 in the block piping line 74 by gasket 32,

A double structure block tank 598 having a size twice as large as the diameter of the reactor constituting the outer wall surface of the reactor building 688 is provided with an outer block tank 599 for nuclear waste processing storage and a double structure block tank dust collector reactor facility (683) Explosion control Dispensing device for injecting nuclear reactors inside reactor core (681) and outside reactor core (681) Prevent explosion of nuclear fuel immediately before reactor explosion (683) explosion-proof control equipment for a plurality of nuclear reactor facility connection structure fuel elements (683) as nuclear power plants (1) for nuclear waste disposal for land and ocean, 672) and the nuclear reactor waste disposal facility. (683) Nuclear nuclear fuel (683) consisting of the inside of the main body (1) of boiling water reactor By providing a structure of the input equipment 802 double tank structure block dust collector 794 inside the reactor equipment and configured to fulfill a nuclear power plant operation,

Mooring device, diving buoyancy control device, nuclear waste disposal dispenser, and reactor facility safety operation of the off-shore nuclear power plant (672), which constitute the operation of the nuclear power plant, (811a) a double structure block tank dust collector (794), a boiling water reactor reactor (802) is installed in the reactor facility, and the connection shaft is configured to operate the nuclear power plant It is composed as a connection structure that can be disassembled and bonded at a marine vessel manufacturing factory,

(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant with nuclear reactor waste processing double structure block tank dust collecting reactor facility consisting of the above nuclear hydroelectric power plant (811) ) And the equipment of the disaster prevention apparatus constituted by the inside of the connecting shaft of the main body (1) of the nuclear reactor waste disposal reactor apparatus,

The floating nuclear power plant 672 of the marine power plant constituting the facility of the disaster prevention apparatus constituting the inside of the connection shaft and the nuclear radiation leakage control dual structural block tank 672 of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment, A nuclear waste disposal and dispensing apparatus having a dust collector 794, and a nuclear fuel explosion control dispensing and dispensing apparatus. The method includes the steps of: providing a plurality of nuclear reactor facilities on a barge of an anti-

(811) located at the uppermost 40 m of the sea level, which prevents the earthquake and tsunami that constitute the equipment of the disaster prevention device from being obstructed by disaster prevention equipment, is installed on the barge of the anti- Nuclear reactors leak prevention control to prevent explosion of nuclear reactors of nuclear power plants Nuclear power plant leak prevention control system for nuclear power plant Nuclear power plant leakage prevention control system Tank dust collector (794) A disaster prevention device composed of the inside of the reactor connection shaft includes a distribution shaft of the connection shaft nuclear hydroelectric power generation facility 811 configured to operate the nuclear power station before and after the operation of the nuclear power station operation apparatus ,

The disaster prevention line, which weakens the power of the typhoon constituting the facilities of the disaster prevention apparatus constituting the inside of the connected shaft nuclear hydroelectric power plant part 811, includes a jet nozzle provided in the water of the seabed, a diaphragm rubber balloon 628, A rope 629, a rope knot claw 630, a marine cable car 256, an unmanned camera 184, a high pressure multi-stage disaster prevention pump 8 for a disaster prevention pump, a double structure nozzle hose and a double structure fire hose 9 A satellite weather forecast information collecting machine 960 and an alternative use sail 959 of a dual structure firefighting nozzle 10 and an air pocket 130 of an undersea mining and weather forecasting 958 and an emergency pump control system (942) of an electronic control device of the control system (150), an air supply device and a tower crane boom stand (942) of a tow crane replacement tower crane,

In the disaster area where the earth and coastal cumulonimbus and storm surge of the world are equipped with the facilities of the disaster prevention device constituting the dissolution of the global warming phenomenon, facilities of the sound vibration frequency disaster prevention device are provided, , A radiation-type densely packed disaster prevention device and a radiation-type dispersing and dismounting device for submersing a non-spherical shape to the facilities of the disaster prevention device in accordance with the power of the wind equivalent to the falling sound of the submersible (959) and a tower crane replacement ship crane boom (942), which are used for the replacement of the sail (959) and the trunk replacement tower (942) of the crane's iso crane boom,

In addition to the radiation vibration frequency and the wavelength of sound vibration which are alternatively constituted by the radiation type dispersing / disaster prevention device,

Nuclear waste treatment plant manufacturing process (705) of disaster prevention equipment of nuclear power plant which constitutes disaster prevention equipment and pre-intercepts the occurrence of severe typhoon with wind along the sea surface constituting equipment of disaster prevention device It is equipped with disaster prevention devices, A lightning rod 500 positioned at the top of a deck plate upper end block pylon 116 of a floating solar power plant 672 of a marine power plant and a block pylon 116 disaster prevention device The location of the lightning rod 500 is provided on the control room roof of the mooring tower 644,

Weather observation equipment (840) Lightning arresters (500), which provide hull conservation from lightning and lightning, are installed in the control tower to provide a peaceful earth environment preservation.

Double structure block tank composing global environment preservation It is necessary to prepare for disaster prevention structure of disaster prevention line which weakened power of typhoon of disaster prevention device by having reactor facility of nuclear power plant having reactor dust collector,

(672) constituting the Earth Environment Preservation and the inside of the main body (1) of the nuclear reactor disposal unit for nuclear waste disposal, and a mooring device formed at the marine power station floating type nuclear power plant (672) And diving buoyancy control device and nuclear waste disposal processing device and nuclear reactor facility safety facility Before and after safety operation Nuclear power generation facilities section (811) Nuclear waste treatment of nuclear reactor facilities Disconnection facility of the disconnection device inside the connection axis As a connection structure capable of disassembling and coupling at a marine shipbuilding factory,

(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with reactor facilities for nuclear waste disposal double structure block tank dust collector constructed in the nuclear hydroelectric power plant part (811) ) And nuclear reactor waste disposal reactor equipment The installation of the disaster prevention apparatus, which is composed of the inside of the connecting shaft of the main body (1)

The nuclear water power generation facility unit 811 is provided with a disaster prevention apparatus for the distribution and input apparatus and is constructed inside the distribution input apparatus main body 1 of the nuclear waste disposal reactor apparatus and the floating nuclear power plant 672 of the marine power plant. A nuclear waste disposal dispensing apparatus having a nuclear radiation leakage control dual structure block tank dust collector 794, and a nuclear fuel explosion control dispensing dispenser. A plurality of nuclear reactor facilities are installed on a barge of an anti- Wow,

(811) located at the top of the sea surface (40m above the sea level), which does not limit the weather conditions of the earthquake and tsunami, which are also formed on the barge of the anti-sinking double structure block tank, Barge Reactor Facility Safety Operation Before and After Nuclear Reactor Facility Safety Facility Safety Operation Device Nuclear Power Plant Nuclear Power Generation Nuclear Radiation Leakage Control to Prevent Explosion of Nuclear Power Plant Double Structure Block Tank Dust Collector (794) And a disaster prevention device of a distribution and input device of a nuclear hydropower generation facility unit (811) configured to operate the nuclear power plants before and after the operation of the nuclear power plant operation apparatus,

The facilities of the floating nuclear power plant 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal constitute facilities of the floating nuclear power plant 672 constituting the above- In addition, the number of injections for jetting through a gap between the nozzles of the dual structure is provided as a disaster prevention device according to the type of the jet nozzle, and the prevention of the occurrence of harmful red tide is provided as a disaster prevention device,

The reciprocating piston type air compressor 80 which weakens the power of the wind constituting the facility of the disaster prevention device of the nuclear hydroelectric power plant 811 is formed and the air compressor 80 is operated by the electronic control unit 88 In addition,

Is provided together with the first pressure check sensor 86 and the second pressure check sensor 87 by the pressure reducing valve 85 and the safety valve 259 without the electronic control unit 88 constituting the facilities of the disaster prevention device,

A motor belt 252, a motor frame 250, a belt cover 261, an air suction filter 262, and an oil cooler 151 are formed to a predetermined size,

In the tank constituting the oil cooler 151,

And a cooling water inlet 287 and attached to the upper end of the channel base of the bed frame 286 to produce air together with the injection nozzle 10. The rubber tube 947 and the high pressure hose 190, (29) coupled to the high pressure hose, the disruption device of the nuclear hydroelectric power plant part (811) which weakens the power of the typhoon constituting the coupling,

Disaster prevention equipment is installed at the upper and lower sides of the sea surface controlled by the sulfur dust fine dust constituting the rising air current (925) and the descending air current (926) of the typhoon of the nuclear hydroelectric power facility part (811) Respectively,

Equipment that constitutes the disaster prevention device of the nuclear hydroelectric power plant 811 has a number of manhole covers 152, several hatch covers 153, and several fire doors 154) shall be located at the bow, left and right sides of the bow of the sailing vessel, the stern and the sailing vessel, and in any case,

The International Maritime Safety Association, which constitutes the prevention of hull submersion, is responsible for safely implementing the safety regulations, while discharging the number of discharges to reduce the power of the typhoon that constitutes the facilities of the disaster prevention system of the Nuclear Hydroelectric Power Plant (811) 38) is provided at the falling point of the jetting water jetting nozzle (38) to continuously form the jetting jetting number (38)

The number 38 of ejection nozzles (38), together with the number of ejection nozzles (38), which continuously fall and form a fall, such as the same artificial waterfall roughening the power of the typhoon, The strong typhoon also transforms into a warm wind,

The scene of the reduction of the power of the typhoon that constitutes the conversion of the strong typhoon and the warm air wind was prepared by the unmanned camera (184), and the scene was transmitted from the reed meteorological observation center, (593,594,595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants controlled by the Ministry of Energy and Natural Resources (925) and the downward currents (926) An unattended camera 184 and a weather observing device 840 are mounted in the basket 42 on which the lower end pile of the advertising balloon 77 is mounted in the main body 1 of the injecting apparatus ,

A rubber tube 947 for air supply for the inside of a container for an infiltration control device provided in a connection structure to a disaster prevention nozzle 945 and a submarine line wiring 946 on which a meteorological observation layer 840 is mounted, 948 to the inside of the nuclear radiation leak control double structure block tank dust collector 794 by the furnace brick 948a of the blast furnace 948 provided with the continuous safety operation of the nuclear power hydroelectric power plant part 811 and,

The furnace brick 948a of the blast furnace 948 constituting the facility of the disaster prevention apparatus is provided so as to supply power of the nuclear power generation power, and the diving position adjusting mobile device of the hull, A hydrothermal generator pump aberration 943a of a marine iso hydroelectric power plant 943 provided with a thermostat thermometer switch 950 for an automatic sensing sensor and a seesaw crane boom stand 942 of a tow crane replacement tower crane is provided as a connection structure, (943b) for a large hydroelectric power plant and a Francis turbine (943c) for a large hydro-electric power plant. The hydroelectric power plant of the large hydroelectric generator isotope plant (944) And a water hammer pump 952 of a non-powered pump to provide a production power supply,

The yard basket (951) and the military equipment submarine (953) for the hazardous borehole suction /

A computer laser cutting machine 954 constituting a facility of a disaster prevention device is provided to provide a nuclear hydroelectric power plant 672 constituted of a buoyancy type dock nuclear power plant 672 of a marine power generation plant and a distribution input device main body 1 of a nuclear waste treatment facility (811), which is a more powerful weapon than the nuclear bomb that makes up the facility maintenance management check of the disaster prevention equipment, includes equipment for disaster prevention equipment in the Photoshop (955)

The wind power generator windmill 957a of the offshore wind power plant 957 constituting the facility of the disaster prevention device of the nuclear power hydroelectric power plant 811, the underground line disaster prevention nozzle 945 and the submarine line wiring 946, (959) and a satellite weather forecast information collection machine (960) are provided as a facility of a disconnection device connecting shaft of a nuclear hydroelectric power plant part (811) constituting the inside of a nuclear reactor facility body (1) of a nuclear power plant (593,594,595) of marine nuclear power hydroelectric power plants of small size, medium and large scale, and the mooring device and diving buoyancy control device of nuclear power plant (672) (811) of the Fusi Nuclear Hydroelectric Power Plant (811) as a connection structure capable of disassembling and coupling at a marine shipbuilding factory,

(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with reactor facilities for nuclear waste disposal double structure block tank dust collector constructed in the nuclear hydroelectric power plant part (811) ) And the equipment of the disaster prevention device of the connection shaft constituted inside the main body (1) of the nuclear reactor waste disposal reactor apparatus,

The nuclear power plant 672 constituting the facility of the disaster prevention device of the connection shaft and the disaster prevention device 811 constituting the inside of the facility of the disaster prevention device of the connection shaft of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant And a nuclear radiation leakage control dual structure block tank dust collector 794 constituted of a lifting type diesel nuclear power plant 672 of a marine power plant constituting equipment of the apparatus and a distribution input apparatus main body 1 of a nuclear waste treatment facility A nuclear waste disposal dispensing device and a nuclear fuel explosion control dispensing dispenser, comprising the steps of: providing a plurality of reactor facilities to the barge of an anti-sunken double structure block tank of the ocean;

Earthquake and tsunami were excluded as disaster prevention devices by the disaster prevention device. The upper 40m of the sea level was installed at the nuclear power hydroelectric power plant (811) with the position setting of the distribution input device. Nuclear reactor safety control device to form safety Nuclear radiation leak control to prevent explosion of nuclear reactors of nuclear power plant of nuclear power plant Double structure block tank dust collector (794) Nuclear power plant operation And a disaster prevention device of a connection shaft of a nuclear hydroelectric power plant part (811) constituting a nuclear power plant before and after operation of the nuclear power plant,

(593,594,595) nuclear power plant (672) of a marine small-sized and large-scale marine nuclear hydroelectric power plant, and a reactor installation axis constituting the interior of the main body (1) of the nuclear reactor waste disposal unit The marine sovereignty line that constitutes the facilities of the disaster prevention equipment is provided with the bladibostock and the lagoon of Russia and Dokdo and Pohang by connecting the energy resource transportation to the nuclear waste disposal dual structure block tank marine tunnel traffic equipment (941)

Yeosu and Jeju Island are connected to the Nuclear Waste Treatment Double Structure Block Tank Ocean Tunnel Traffic System (941)

Pyeongtaek, Baekryeongdo and Shandong Peninsula were connected to the Nuclear Waste Treatment Double Structure Block Tank (941), and the nuclear waste disposal in Pohang and Japan was also connected to the Marine Tunnel Transportation System (941). In addition,

The illegal fishing line and all military vessels of other countries that come and go to the territory of the 5th degree (NLL) of the West Sea while preparing the conversion to the one-day living zone are provided with the measures that allow passage through the permission of the sovereignty area, The fishing grounds are the same as seaweeds in the sea constituting the rope knot claws 630 formed in the netting of the flagpoles and the wire rope 19,

Illegal fishing vessels are equipped with disaster prevention devices to prevent illegal fishing boats from entering fishing grounds, and rope knot hooks (630) can not pull thrust nets on them,

(593,594,595) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants consisting of nuclear power plant (672) and nuclear power plant (1) ) Mooring devices and diving buoyancy control devices installed at nuclear power plants (672), nuclear waste disposal system and nuclear reactor facilities Nuclear waste treatment system of nuclear power plant division (811) before and after safety operation Double structure block tank dust collector A connecting shaft of a floating type nuclear power plant (672) of an offshore and offshore marine power plant equipped with a nuclear reactor facility and the inside of a distribution input apparatus main body (1) of a nuclear reactor for nuclear waste treatment;

And as a connection structure capable of disassembling and coupling at a marine shipbuilding factory.

Alternatively, the nuclear waste disposal system of the nuclear hydroelectric power plant 811 constituting the reactor facility for treating nuclear waste may be a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant having a double- (593,594,595) The equipment of the dispenser and disaster prevention system consisting of the atomic power plant (672) and the inside of the dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal,

The nuclear radiation leakage control dual structure block tank dust collector (1) constituted by the floating type nuclear power plant (672) of the marine power plant constituting the facility of the distribution input apparatus disaster prevention apparatus and the inside of the distribution input apparatus main body (794), and a nuclear fuel explosion-control distribution dispensing apparatus, comprising the steps of: providing a plurality of nuclear reactor facilities to a barge of an anti-sunken double structure block tank in the ocean;

The sinking prevention double structure block tank is installed on the barge line with the installation position of the distribution input device of the nuclear hydroelectric power plant part (811) at the top 40m of the sea surface excluding the restriction of the weather condition of the earthquake and tsunami constituting the facilities of the disaster prevention device. Prevention barge line Reactor facility Safety operation before and after operation Reactor facility safety device to establish safety of reactor facility safety Nuclear power plant Nuclear power generation Nuclear power generation Prevention of explosion Nuclear radiation leak control Dual structure block tank Dust collector (794) (811) that constitutes a nuclear power plant operation before and after the operation of the nuclear power station of the power plant moving apparatus,

The connection shaft constituted by the nuclear power plant 672 constituting the facility of the disaster prevention apparatus and the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility,

The range from the ground up to 29 Km, which consists of the buoyancy type nuclear power plant (672) of the marine power plant constituting the facilities of the disaster prevention device and the inside of the main body (1) of the reactor installation for nuclear waste treatment, Respectively,

The surveillance function that prevents the production of military equipment by installing sensor sensor for military defense is installed in the floating sea above the sea surface constituting the equipment of the disaster prevention device and the sea west sea 5, A further enhanced military sensor sensor is provided,

The facilities of Pyongan-do and Hamk-gong, which constitute facilities of disaster prevention system,

When a missile is fired, it is formed as a defensive missile attached to the net at the top of the firing position. When the missile is fired by the other party, the missile is shot down by a collision between a nuclear missile fired by the missile launching party and a sensor for military defense. , Which includes a defense missile attached to a harmful rusty net that constitutes an immediate abandonment of a nuclear weapon build up that constitutes all military provocation abandonment activities by providing a facility to cause its own nuclear missile explosion in the other region,

In addition to the sea bombs above the sea surface above sea level and the sea above the sea in the East Sea and the 38 ° north sea above the sea of the East Sea constituting the equipment of the disaster prevention device, Including a peaceful preserved message photoshop 958 with a stronger weapon,

The system of the disaster prevention device is 29 km above the ground. It is equipped with a sensor for detecting military defense and a disaster prevention device installed on a large number of floating docks. 1) Floating dock (593,594,595) of marine small, medium and large sized marine nuclear hydroelectric power station constructed in the interior of the nuclear power plant (672), docking buoy regulator and nuclear waste disposal dispenser and reactor installation (811) of Nuclear Hydroelectric Power Plant (811) of Nuclear Hydroelectric Power Plant (811) of Nuclear Power Plant of Ministry of Land, Infrastructure and Transport (593,594,595) Nuclear power plant (672) of a large-scale marine nuclear hydroelectric power plant and the main body (1) of the nuclear reactor waste disposal apparatus for nuclear waste treatment, Emergency device comprises a connection structure capable decomposition combined in a marine vessel comprising a manufacturing plant to the connection axis of the composing parts and configurations,

(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with nuclear reactor waste processing double structure block tank dust collector facilities of the above nuclear hydroelectric power plant part (811) Equipment for nuclear reactor waste disposal facility The equipment for the nuclear waste disposal facility of the nuclear power generation facility, which is constructed inside the main body (1)

A buoyant type poisonous nuclear power plant 672 of a marine power plant constituting facilities of a disaster prevention apparatus inside the connection shaft of the nuclear hydroelectric power generation facility unit 811 and an inside of the distribution input apparatus main body 1 of the nuclear waste treatment nuclear plant A nuclear waste disposal dispensing apparatus having a nuclear radiation leakage control dual structure block tank dust collector 794, and a nuclear fuel explosion control dispensing dispenser. A plurality of nuclear reactor facilities are installed on a barge of an anti- Wow,

(811) located at the uppermost 40 m above sea level excluding the restrictions on the weather conditions of earthquake and tsunami constituting equipment of disaster prevention device, Nuclear reactors to prevent explosion of nuclear reactors in nuclear power plants Nuclear radiation leakage control Double structure block tank dust collector (794) Disaster prevention equipment to be installed inside reactor connection shaft And the facility of the nuclear power hydroelectric power plant 811 configured to operate the nuclear power plant with the facilities of the nuclear power plant 811,

(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the facilities of the above-mentioned disaster prevention apparatus and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment. A vertical structure of a typhoon is provided together with a straight discharge outlet 38 of a disaster prevention line that hides a typhoon into a facility of the disaster prevention apparatus of the nuclear hydroelectric power plant 811,

A dropping device is installed on the upper surface of the lower part of the sea surface (S L D) in the troposphere 10 km above the upper part of the sea surface above the upper part of the sea surface constituting the disaster prevention device of the nuclear hydroelectric power facility part 811,

The atmospheric circulation passage 958 for the dual structure disaster prevention apparatus at the equatorial point is provided at the upper end of the arctic pole with the disaster prevention water which has been annihilated and disinfected to constitute the disaster prevention apparatus of the nuclear hydroelectric power plant unit 811,

(958) Displacement piping line for disaster prevention equipment (958) The isocrane crane boom zone (942) of the tower crane for replacing the quadruple crane constituting the atmospheric circulation passage is provided so that the rain cloud is transported to the seabed 10 km below the sea level, The same artificial waterfall as the disaster prevention waterway,

As the natural disaster is made up of internal facilities that make up facilities for the disaster prevention system of the Nuclear Hydroelectric Power Plant (811), the typhoon is a latent heat of the thermal energy quantity of the atomic bombs that were estimated to be one million annually in Hiroshima in the Pacific and the Atlantic And a seesaw crane boom band 942 of a tow-crane replacement tower crane configured to sequentially fall on the sea level of the sea-

And a pipe level piping line 958 for a double structure disaster prevention device constituting facilities of the disaster prevention device,

The human race of the global village is prepared for the sadness and suffering from disaster disaster,

A double-structure high-pressure hose 190 having a 500-meter-high upper part of the sea surface with an electromagnetic control device connection structure provided on the connection shaft provided by the manufacture of the electromagnetic control device connection structure of the control system 150, (190) Coupled with a number of coupling knurls (29) The length of the combined pipe is less than 10 km and the pipe level piping line (958) is located at the deck plate side of several floating docks. The crane boom zone (942) provided a 10 km-long jet stream to change the course of the typhoon,

The seesaw crane boom stand 942 of the tower crane, which constitutes a course change of the typhoon on the jet stream,

It is possible to provide a switching to constitute the descending airflow 926 as the ascending airflow 925,

The tube level piping line 958, which is made of a nonferrous metal with a better thermal conduction efficiency than that of the iron, constitutes the reduction of the damage to the land marine hurricane, and the loess mixture constituting the discharge is supplied from the satellites In order to prevent the disaster, it is necessary to prepare the falling material from the upper part of the sea surface to the sea surface,

Preventive conditions consisting of the nuclear power plant 672 constituting the prevention of typhoon and harmful red tide breeding and the inside of the main body 1 of the nuclear reactor waste disposal apparatus main body 1 are referred to as nuclear radiation leakage control double structure block tank dust collector 794 ) Includes a facility of a connection shaft disaster prevention device of a nuclear hydroelectric power plant part (811) configured to operate a nuclear power plant by a facility of a disaster prevention device constituted inside a connection shaft of a reactor facility,

(672) for land and marine nuclear power plants, and disaster prevention equipment consisting of the inside of the main body (1) of nuclear power plant for nuclear waste disposal, and to prevent explosion of reactor facilities while maximizing the production power by operating the nuclear power plants efficiently. The disaster prevention device of the reactor connection shaft,

(1) of the nuclear power plant for the treatment of nuclear waste, and (2) the installation of the disaster prevention system of the nuclear fuel explosion prevention and distribution shaft. Mooring device and diving buoyancy control device of nuclear power plant (672) and distribution facility of nuclear waste treatment and reactor facility of nuclear reactor facility Safety operation FUJITSU nuclear power plant (811) Structure block Tank dust collector (794) It is composed of the connecting shaft of the disaster prevention device that constitutes the inside of the connecting shaft of the reactor facility, and it is composed as a connection structure that can be disassembled and coupled at the marine ship manufacturing factory.

(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with reactor facilities for nuclear waste disposal double structure block tank dust collector constructed in the nuclear hydroelectric power plant part (811) ) And nuclear reactor waste disposal reactor equipment The installation of the disaster prevention apparatus, which is composed of the inside of the connecting shaft of the main body (1)

The lifting type dock nuclear power plant 672 of the marine power plant constituting the facility of the disaster prevention apparatus constituting the inside of the connection shaft of the nuclear hydroelectric power generation facility unit 811 and the inside of the distribution input apparatus main body 1 of the nuclear waste disposal reactor facility Nuclear Waste Dispensing and Discharging Apparatus with a Nuclear Radiation Leakage Control Dual Structural Block Tank Dust Collector (794) Consisting of a Nuclear Fuel Explosion Control Distribution Apparatus A plurality of nuclear reactor facilities are installed on the barge of an anti- , &Lt; / RTI &

The installation position of the distribution input device of the nuclear hydroelectric power plant part (811) located at the upper 40 m of the sea surface excluding the restriction of the weather condition of the earthquake and tsunami constituting the barge of the anti-sinking double structure block tank is excluded Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Reactor Leakage Control Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Leakage Control Dual Structure Block Tank Dust Collector (794) (811) for constructing a reactor to operate a nuclear power plant, the facility including a facility of a distribution and input device connection shaft disaster prevention device of a nuclear hydropower generation facility (811)

(593,594, 595) nuclear power plant (672) of the marine small-sized and large-scale marine nuclear hydroelectric power plant, and the nuclear power plant (672) (593,594,595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting facilities of the disaster prevention device of the facility (811), and a main body 1) Dual-structure block tank for controlling leakage of nuclear radiation leaked from the inside The equipment for installing the coupling shaft dust collector (794) and the nuclear waste treatment double structure block tank bridge (937) ,

(593, 594, 595) nuclear power plant (672) of a marine small-sized and large-scale marine nuclear hydroelectric power plant, and the inside of the main body (1) of a nuclear reactor waste disposal reactor, Of the power of the weak countries consisting of the storks of the great powers and the leaders of the weak countries composed of the leaders of the powerful countries within the connecting axis, Of the nuclear power plant (811) which constitutes the stork which constitutes the facilities of the nuclear power plant (811) which constitutes the stork to be able to imitate the struggle and to imitate the stork 's foot, ) Of the disconnection device,

Leading members of the international community who make up the facility of the disaster prevention device of the connecting axis,

The disaster prevention system is equipped with disaster prevention equipment for tanks, bombers, bombs, bullets, satellites, missiles, nuclear bombs and rocket bombs on land,

It includes equipment of disaster prevention device which overcame the punctured global economic crisis by establishing it as international social codes and norms constituting facilities of disaster prevention device,

The provision of facilities for disaster prevention equipment on the connecting shafts, which are designed to save the world economy by fostering the environmentally friendly pollution-free energy industry,

When the weather conditions of the bad condition constituting the facilities of the disaster prevention apparatus constituting the connection axis of the nuclear hydroelectric power generation facility unit (811) and the sinking accident of the ship in the bombardment state often occur, And a facility of a disaster prevention device of a connecting shaft constituting prevention of sinking accident,

(948) located inside the steel mill building which constitutes all military materials, and the nuclear hydroelectric power plant part (1) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor equipment for the construction machine heavy equipment 811, the facility connection shaft of the disaster prevention device,

(593, 594, 595) of marine nuclear, hydro, and nuclear power plants (592, 595) Mooring devices and diving buoyancy control devices in nuclear power plants (672) (811) of the nuclear power plant (811) before the operation of the nuclear power plant.

The present invention relates to a technical idea as a means of solving a problem that is included in a connection structure capable of being disassembled and coupled at a marine shipbuilding factory. The present invention relates to a reactor structure for processing nuclear waste at a marine nuclear hydroelectric power plant having a double structure block tank dust collector Is a technical point of view.

In the reactor facility of the conventional nuclear power plant according to the invention of the present invention, the reactor facility of the conventional nuclear power plant is constituted by the structure of the boiling water reactor and the pressurized water reactor using water in general, and the power reactor is mainly composed of the light reactor Nuclear power plants equipped with pressurized water reactors in boiling water reactors and nuclear power plants equipped with multi-purpose high-temperature gas lines in gas cooling furnaces and fast-propagating reactor facilities in new conversion paths are connected to the land and the islands to operate nuclear power plants of a plurality of nuclear power plants It is often the case that nuclear reactors are exploded from natural disasters due to natural hurricanes, earthquakes, tsunamis, forest fires, ash and volcanic ash before and after the volcanic eruption.

In the conventional distribution and dispensing apparatus for a reactor installation of a nuclear power plant, as shown in, for example, Figs. 1 to 144, during the operation of a conventional nuclear power plant, In this case, a series of nuclear fuel explosions can significantly affect the safety of a nuclear power plant.

The present invention relates to a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, and more particularly, Dual structure block tank Dust collector or double tube structure Capsule type Dual structure storage tank provided in multiple reactor facilities and a tunnel installed in the cooling water and loess mixture of fuel control detonation control products connecting each part of the nuclear waste treatment shield And a floating tank of a small, medium and large sized marine nuclear hydroelectric power plant is installed in the river estuary and the ocean to provide double structure storage tanks for the nuclear waste disposal shielding device for nuclear power plant operation. And firepower Nuclear reactors connected to a number of pumps and valve generators to control nuclear fuel leakage The waste disposal system is equipped with the control of nuclear waste disposal from the estimation of the global village to the river estuary and the sea. Hydroelectric generators are installed in wind turbines and thermal power generators for alternative power generation of nuclear power plants. Nuclear power plant Nuclear waste processing unit Electricity production Manufacturing department and traffic transportation part of construction machine to adjust the position of control shaft Power transmission part to transmit power to nuclear power plant Operation of safety control of power plant Production electric part and electronic control device Construction machine control Of the nuclear waste disposal facility of a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting the execution of the nuclear waste disposal treatment for the continuous operation of the nuclear power plant excluding the influence of the natural disaster by the disaster prevention device As a result,

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a marine nuclear hydroelectric power plant having a dual structure block tank dust collector constituting a distribution input device of a nuclear reactor waste treatment facility,

Marine Nuclear Hydroelectric Power Plant for guaranteeing the operation of nuclear power plant nuclear reactor hydroelectric power plant nuclear power hydroelectric power plant from the strong wind wave is installed as lifting deck hull deck top (SDU) at the upper 40M sea level (SLL) For the safety, marine nuclear hydroelectric power plant facilities equipped with dual structure block tank dust collectors, which are installed at pylon block tank bridges at one location with 0.5km spacing, and constructed at floating deck hull deck deck,

(SLL) Top Nuclear Waste Disposal System Double Structure Block Tank Pipeline Bridge with Maritime Tunnel Traffic System In the middle of the connecting position with a fixed lifting deck deck deck Since it separates the power station located at the upper part (SDU) and the emergency shelter of the sailing vessel, it is necessary to supply the pollution-free power supply to each region of the world as the nuclear power generation device and the hydroelectric power generation device from the ocean,

The power supply line constituting the inside of the dispensing apparatus main body of the nuclear waste disposal facility of the marine nuclear hydroelectric power plant having the double structure block tank dust collector is connected to the nuclear waste disposal apparatus dual structure block tank bridge marine tunnel transportation device The rescue vessels of the Nuclear Waste Disposal Facility of the Marine Nuclear Hydroelectric Power Plant equipped with dual structure block tank dust collectors, while resuming power supply to each country, The United States and the United States agree to dispose of nuclear bombs at all, and in the land territory,

A large number of countries with nuclear weapons located around marine nuclear power plants that constitute a distribution input device for a reactor facility for nuclear waste disposal of marine nuclear hydroelectric power plants with dual structure block tank dust collectors are dual structure block tank dust collectors Of nuclear waste water treatment plant of nuclear marine nuclear power plant with a nuclear waste disposal unit; a nuclear waste treatment connection structure constituted inside the main body of the nuclear waste disposal unit; a dual structure block tank pipe bridge;

It is equipped with a satellite and space rocket to prepare a nuclear waste disposal device as a satellite launch pad and a space rocket launch pad to prevent the damage of natural ash, earthquake, tsunami, forest fire, ash and volcanic ash before and after the volcanic eruption. ,

In the distribution input device of the marine tunnel traffic apparatus constituting the prevention of the flood drought,

Submarine line injection nozzle connection and submarine line injection nozzle constituting distribution input device of marine tunnel traffic device are equipped with submarine line wiring. Nuclear waste treatment double structure block tank is equipped with distribution input device of marine tunnel traffic device, Providing pre-treatment for nuclear waste treatment equipment,

Marine Nuclear Hydroelectric Power Plant, which constitutes the distribution input device of the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

Space science production equipment and deep sea exploration Dual structure for nuclear waste disposal of transportation equipment replacing offshore vessels to supply the production power of wind power generator and hydropower generator to the global village for oil energy excavation equipment to mineral resources and natural gas energy resources Block Tank Pipe Bridge Marine Nuclear Hydroelectric Power Plant is provided as a connection structure of the marine tunnel traffic device,

Installed on the circumference of the existing reactor 4th wall vessel container in preparation for the shutdown of the reactor facility and before and after the explosion of the reactor facility, the double structure block tank dust collector is installed to eliminate the shutdown of the reactor facilities and maximize the explosion prevention of the reactor facilities. In addition,

In the marine nuclear power hydroelectric power plant, the installation position of the nuclear power plant located at the upper 40m above sea level excluding the natural disaster from the natural disaster and the weather condition restriction as the disaster prevention device is set in the anchor and the anchor chain of the mooring device, It is equipped with pump and valve of machine and buoyancy control device for diving control and adjusts the installation position to provide the distribution and input device of nuclear power plant reactor facilities which excluded the effect of earthquake and tsunami by disaster prevention device,

In the anchor and anchor chain of the mooring device, it is equipped with the key bed, the drilling machine and the pump and valve of the buoyancy control device for diving control, and the installation position is adjusted so that the influence of earthquake and tsunami is eliminated. A double structure block tank dust collector which constitutes the distribution input device of the reactor facility constitutes the culmination of the explosion of the reactor facility and prevents environmental pollution caused by nuclear waste,

A double structure block tank to control the nuclear fuel radiation leakage to prevent the explosion of the reactor facility in the nuclear fuel chamber. The nuclear reactor of the nuclear reactor of the nuclear power plant with the dust collector. Long half-life with long-lasting cooling systems for the permanent disposal of nuclear wastes for thousands of years is a long-lasting half-year for dual-structured block tank dust collectors with cooling storage, which constitutes a permanent disposal of long- In a distributing / dispensing apparatus for a nuclear reactor facility,

A double-tubular drum containing nuclear waste is constructed with a ship and a double-tubular drum transport containing nuclear waste in the buried area.

It constitutes the positioning of a double tubular drum containing nuclear waste at the top of the barge deck deck with space rockets and space rocket launchers,

It has a space rocket at the top of the barge deck deck and constitutes transport of nuclear waste to the outer space,

Nuclear waste is converted into another material by fission in a distributing device of a nuclear reactor facility equipped with a dual structure block tank dust collector,

Construction of nuclear waste is carried out by double structure block tank bridge bridges so that nuclear waste can be buried in the polar ice glaciers,

A double structure block tank structure that maximizes the operation of the reactor facilities of a nuclear hydroelectric power plant constructed by the bridge piers of the double structure block tank bridges built in the nuclear power plant. Marine Nuclear Hydroelectric It is an object of the present invention to provide a dispensing apparatus for a reactor facility for nuclear waste disposal of a power plant.

In addition, according to the present invention, there is provided a dual structure block tank dust collector constituting construction designing processes of nuclear explosion countermeasures suitable for a distribution input device of a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector The distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric plant,

A marine nuclear hydroelectric power plant located at the top of the deck top deck (SDU), consisting of the interior of the distribution input unit of the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric power plant with the dual structure block tank dust collector, The upper 40m of sea level is the height of the passage of the violent storm surge and general marine vessel and marine iron structure sailing vessel. It prevents naval vessel collision and the treatment of nuclear waste of marine nuclear hydroelectric power plant with bridge bridge and pipe bridge and dual structure block tank dust collector. It is a minimum height considering the minimum height when repairing the distribution facility of the nuclear reactor facility. It is composed of a bridge block tank pipe bridge at the depth of 10km at the depth of the sea with the pipe bridge connection of 500m double structure block tank unit. Are also connected to the pipe bridge of the 500m double structure block tank unit so as to withstand the deep water pressure It consists of one needle control devices,

Nuclear power plant nuclear waste water treatment plant equipped with a dual structure block tank dust collector Nuclear waste treatment facility for nuclear waste disposal with the dispensing device of nuclear waste treatment facility consisting of the inside of the dispensing unit The KSD 3705 hot-rolled stainless steels, which is a steel material for providing the distributing and dispensing apparatus of the steel,

In the floating type poisoning dispenser equipped with the construction machine constituted inside the dispensing apparatus main body of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

There is a distinction between fixed lifting poisons and fluid lifting poisons,

In addition to the lifetime of the lifting dock, it is composed of KSD 3705 hot-rolled stainless steels made of steel to support the deck deck up to the time of repair, and the core of the marine nuclear hydro- Dispensing of reactor facilities for waste disposal The ship is equipped with all-weather operation which is composed of the inside of the main body and the land area which is composed of the island area and the island area. To create a substitute effect,

Nuclear waste treatment of transportation equipment facilities replacing offshore vessels and aircrafts. Double structure block tank pipe bridge. Distribution unit of marine tunnel traffic equipment. Double structure block connected to connection structure. Marine Nuclear Hydroelectric Power Plant with dust collector ,

Exhaust gas outlet which is the same as the dust collector of the exhaust gas facility which is prepared to withstand the natural disaster of the sea and double tube structure which is located inside the double structure block tank for treatment of nuclear waste and nuclear radiation pollutant inside the nuclear reactor facility with the entrance Block piping lines to provide a nuclear waste location channel for the nuclear waste location control system,

Dual structure Block tank Dispensing device of nuclear waste disposal facility of marine nuclear power plant of hydroelectric power plant with dust collector Multiple temperature pressure sensor built into main body Temperature sensor of safety valve Sensor inside pressurized water reactor facility in operation of nuclear power plant Is in a high temperature state of 700 to 800 degrees Celsius and the pressure reaches a dangerous state of a high pressure state,

A temperature and pressure sensor located inside the dispensing device of nuclear reactor waste disposal reactor equipment transmits alarm message to the computer in the safety control room, while a plurality of temperature and pressure sensor sensors are open to each safety valve, In the inner block piping of the vessel, explosive nuclear wastes are passed through and the nuclear waste is stored in each block tank, and the opening of the temperature pressure sensing sensor safety valve connected to the inner block tank of the pressure vessel is provided,

The outer block piping line includes a safety valve for converting the yellow soil mixtures generating the toothpaste-shaped soap bubbles mixed with the cooling water of the fuel explosion-preventing control article stored in the inner block tank into kinetic energy with the potential energy of water, The hatch cover located at the upper end of the pressure vessel for opening the hatch cover of the water tank tank is opened while the cooling water and the loess mixture are moved to the inside of the reactor inner pressure vessel and the fourth wall partition vessel,

If the inside of the reactor internal pressure vessel and the fourth wall compartment are filled with the mixture of the cooling water and the yellow soil which generates soap bubbles, the distribution of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The device provides an explosion stop,

A dual structure block tank in which the dispensing device of the nuclear reactor facility constitutes an explosion stop. In a distribution input device of nuclear reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant equipped with a dust collector,

A block piping line connection structure of a radiation type constituting a plurality of safety valve connection structures is constituted to constitute a distribution input device of a reactor installation for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

A double structure block tank for controlling the nuclear radiation leakage constituting the inside of the distribution input apparatus main body of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector; The system is designed to shield the concept of in-depth defense of nuclear safety engineering, which shields and shields nuclear radioactive pollutants from outside the nuclear reactor facility that provides nuclear fuel waste transportation storage.

It consists of the outside of the double structure block tank dust collector of one side and the prevention of nuclear fuel leakage leakage and nuclear fuel explosion prevention as the distributing and inputting devices of the reactor facilities, and constitutes the execution of the nuclear waste treatment inside the dual structure block tank dust collector In a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector,

A double structure block tank combined with a marine tunnel traffic facility connection structure constituting an alternative to the marine vessel; a nuclear waste water treatment plant comprising a dust collector; It is equipped with a distributing device of the nuclear reactor waste disposal facility to the outside of the structure block tank dust collector,

Dual structure of land and sea constituting efficient nuclear power plant Double tank with a position energy of water constituting the nuclear waste treatment to be applied to the distribution and input device of the nuclear waste treatment plant of marine nuclear hydroelectric power plant with block tank dust collector A temperature pressure sensing sensor that establishes connection to the building block piping, a safety valve, a feed pump, and a mixture of cooling water and a loess mixture that generates soap bubbles to constitute a nuclear waste treatment device that converts the potential energy of the water into kinetic energy,

In addition, according to the present invention, there is provided a distribution input apparatus for a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant constituting conversion of the potential energy of water into kinetic energy,

A double structure block tank is a connection structure that is formed on the outer wall surface of an existing nuclear reactor building in the form of an egg. It is a conventional structure in which a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector is provided. A double structure block tank connected to a plurality of nuclear reactor facilities constituting a manufacturing facility with a remarkable difference from the nuclear reactor facility. The distribution input device of the nuclear waste processing nuclear waste hydrothermal plant equipped with a dust collector is connected to the global land and marine nuclear power plant And will contribute greatly to the global economy and global peace.

1 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. The common land and reclaimed landfills are divided into 360 circles ranging from 1 ° to 360 ° in each of the 3000 circles in the range of 2,400 km within a radius of 1,200 km from the center of the Korean Peninsula. The shape of the kan is 200m distance from the center of the Korean peninsula, starting from No. 1 Northeast Asia, 400m each, divided into one radius, The Nuclear Waste Department of the Marine Nuclear Hydroelectric Power Plant with dual structure block tank dust collector that constitutes one new concept of Northeast Asia, General configuration representing the present invention, showing the element characteristics of the dispensing chute of the reactor equipment, Fig.
FIG. 2 is a schematic view of a nuclear power plant of a nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention. In order to explain the details of how to construct the administrative capitals of the Northeast Asian neo-Confucian nations that are composed of the unified Korea chapter map of the Northeast Asia, From the center of the Korean Peninsula, the distance from the center of the Korean Peninsula to the Nuclear Power Plant's Nuclear Waste Treatment Reactor Facility at a cross-sectional area of 36 km from the Northeast Asia 1 km radius, A detailed schematic diagram of the enlargement by the radius of the Unification Korea lot showing the characteristics of one embodiment of the dispensing device.
3 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. To describe in detail a shared landfill (995) and a shared surface landfill (996) design plan formed before and after a shared water surface embedding process illustrating a prior art embodiment constituting a territorial dispute resolution control section (811y) Partition of Territorial Boundaries Between Countries Territorial Boundary Sectional Detail Detailed Zoning Section Location Map according to the Conventional International Maritime Laws of the States Parties to the Dispute which illustrate one embodiment in cross section according to the International Maritime Code.
4 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. The territorial dispute settlement control unit 811y of the related art constituting the territorial conflict settlement control unit 811y constituting the territorial conflict settlement control unit 811y is provided with a common place and shared sleeping territorial dispute settlement control unit 811y, (957) shared landfill sites in the Himalayan Mountains of the shared landfill and oceanic hydroelectric power plant connected to the satellite control unit (811z) for prevention of nuclear radiation contamination. Side view.
5 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. The landfill collection section 957 of the Himalayan mountains of the shared landfill and the shared landfill showing constituent features of the prior art constituting the territorial dispute resolution control section 811y constituting the territorial dispute resolution control section 811y The territorial dispute resolution cancellation controller 811y that provides a detailed description of the space dispute resolution controller 811y, And a satellite control section for preventing radioactive contamination of the nuclear power plant, wherein the marine nuclear hydroelectric power plant of the embedding treatment exemplified in one embodiment is an enlarged cross-sectional side view of the moving state.
6 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. Dispute settlement and space development And a satellite control section for preventing radioactive contamination of the nuclear power station, which is an enlarged view of the cross-sectional side view of the embankment of the marine nuclear hydroelectric power plant.
7 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. The nuclear waste disposal unit 811a to the territorial dispute resolution control unit 811y and the electronic sensor valve screw control unit 811aa are provided with a nuclear waste disposal (238), electronic sensor valve screw control, disaster prevention control unit, and forest fire disaster prevention control unit. The dispute resolution control unit and space power generation And a dual structure block tank which shows elemental characteristics of a common surface and a shared water surface embedding processing device connected to satellite control parts for preventing radioactive contamination of the nuclear reactor main body of the distribution device for nuclear waste treatment for a nuclear waste hydro- (1) A side view and a cross-sectional view of the common surface and shared water surface treatment process of the marine nuclear hydroelectric power plant showing the composition of the elemental detail enlargement characteristics of the distribution input device of the nuclear waste disposal facility of the marine nuclear hydroelectric power plant constituting the inside .
FIG. 8 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. The nuclear waste disposal control unit 811a to the territorial dispute resolution control unit 811y and the electronic sensor valve control unit 811aa are connected to the nuclear waste disposal unit 811a, (811aa), and a territorial boundary divide between the countries of the disputant country to explain the shared landfill and shared landfill design plan of the marine nuclear hydroelectric power plant formed before and after the shared water surface landfill process. FIG. 2 is a cross-sectional view of an enlarged cross-sectional view of a territory boundary between countries of a disputing country illustrating an embodiment.
9 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. (2) Nuclear power plant nuclear waste combined with control equipment of construction machinery (2) Dual pipe structure of nuclear waste treatment (2) Block sensor of electronic control valve (238) Prevention of natural disasters Prevention of territorial disputes and control of space And a common structure connected to satellite control units to prevent radioactive contamination and an example formed before and after the process of a shared water surface landfill, A detailed cross - sectional view of the landfill site of a shared landfill and a shared reclamation landfill that constitutes a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a block tank dust collector.
10 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. The nuclear waste disposal unit 811a to the territorial dispute resolution control unit 811y and the electronic sensor valve screw control unit 811aa of the nuclear power generation nuclear waste disposal unit 811a are connected to the facility control unit of the float- The double pipe structure of the double pipe structure of the block Piping line control shaft (238) Electronic sensor Valve screw control and disaster prevention Preventive control and forest fire Prevention of natural disaster Prevention of territorial dispute Resolution control and space power generation And a common structure connected to satellite control units to prevent radioactive contamination and an example formed before and after the process of a shared water surface landfill, A detailed cross - sectional view of the landfill site of a shared landfill and a shared reclamation landfill that constitutes a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a block tank dust collector.
[Figure 1] through [Figure 10], respectively, constitute the interior of the main body 1 of the distribution input apparatus of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention FIG. 8 is a configuration diagram illustrating features of an embodiment of a distribution input device shared landfill 945 and a shared surface landfill 946 area of a nuclear waste disposal reactor facility of a marine nuclear hydroelectric plant; FIG.
11 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. The nuclear waste disposal unit 811a to the territorial dispute resolution control unit 811y and the electronic sensor valve screw control unit 811aa are connected to the nuclear waste disposal unit 811a of the nuclear power plant, (238), the control of the valve of the electronic sensor valve, the disaster prevention prevention control unit and the forest fire disaster prevention control unit, and the territorial dispute resolution control unit and the space power generation And a satellite hydroplaning prevention satellite control unit, which shows the entire structure of the crest of the crest of the crest of the mountain, which is located at the crest of the crane. The hydroelectric power station of the offshore hydroelectric power station and the island tunnel (672a) And Marine Power Plant Sash Configuration of a Large and Large Marine Nuclear Hydroelectric Power Plant Subsidiary Tank (593,594,595).
12 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. Nuclear power plant Nuclear power plant Nuclear waste processing double pipe structure combined with nuclear waste disposal unit (811a) Block sensor Piping line of control shaft (238) Electronic sensor Valve screw control unit Disaster Prevention Control unit and forest fire Prevention of natural disasters Territorial Dispute Resolution Regulator and Space Development And a satellite hydroplaning prevention satellite control unit, which shows the entire structure of the crest of the crest of the crest of the mountain, which is located at the crest of the crane. The hydroelectric power station of the offshore hydroelectric power station and the island tunnel (672a) And the side view of the marine power plant in the control of the hull position movement of the large and large marine nuclear hydroelectric power plant supporting cat (593,594,595).
13 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. Nuclear power plant Nuclear power plant Nuclear waste processing double pipe structure combined with nuclear waste disposal unit (811a) Block sensor Piping line of control shaft (238) Electronic sensor Valve screw control unit Disaster Prevention Control unit and forest fire Prevention of natural disasters Territorial Dispute Resolution Regulator and Space Development And a satellite hydroplaning prevention satellite control unit, which shows the entire structure of the crest of the crest of the crest of the mountain, which is located at the crest of the crane. The hydroelectric power station of the offshore hydroelectric power station and the island tunnel (672a) And Sectional view of a marine power plant in the control of hull position movement of a large and large sized marine nuclear hydroelectric power plant supporting column (593,594,595).
14 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. The electric power production and production unit 811b is provided with an electronic sensor valve control unit for the double tube structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant combined with the nuclear power nuclear waste processing unit 811a, Regulatory Department and Wildfire Natural Disaster Prevention Prevention Regulatory Territorial Dispute Resolution Department and Space Development And a satellite control unit for prevention of nuclear radioactive contamination. The construction of a diesel engine and a generator according to the operation of a hydroelectric power plant.
15 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. The electric power production and production unit 811b is provided with an electronic sensor valve control unit for the double tube structure block pipe line control shaft 238 for nuclear waste treatment of the nuclear power hydroelectric power plant combined with the nuclear power generation nuclear waste treatment unit 811a, Regulatory Department and Wildfire Natural Disaster Prevention Prevention Regulatory Territorial Dispute Resolution Department and Space Development And the nuclear regulation of the nuclear radioactive contamination combined with the nuclear radioactive pollution prevention nuclear waste processing double tube structure of the block pipe line control shaft (238) showing the entire structure of the hydroelectric power plant inside the body of the hydrostatic generator Francis aberration , Pelton aberration, pump aberration, turbine and guide vane internal assembly model and pump aberration.
16 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation, a nuclear waste disposal unit 811a for the nuclear power generation, Control tubular structure of the nuclear waste disposal of a nuclear hydroelectric power plant constituting a connection to the control device construction machine control unit 811f, the screw control unit 811g and the disaster prevention preventive control unit 811h. 238) and a model construction diagram of the internal disassembly and assembly of the motor.
17 is a schematic diagram of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. A power transmission unit 811d for transmitting power, a nuclear power plant safety control and management production electric power unit 811e for controlling the nuclear power generation nuclear waste, a traffic transportation unit 811c for the construction machine, The construction of the double tube structure block pipe line adjustment shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the apparatus construction machine control section 811f, the screw control section 811g, and the disaster prevention prevention control section 811h Dispute settlement department and space power generation And a satellite control unit for preventing radioactive contamination. The control block diagram and the BF model are shown in the block diagrams of the front and front view and the mouthpiece multi-stage pump system concept; Speed control method, and 3-pump direct injection start-up method.
18 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation, a nuclear waste disposal unit 811a for the nuclear power generation, The double pipe structure block pipe line adjustment shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the control adjustment device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, Territorial dispute resolution authority and space development And the control system using the microcomputer of the mouth type multistage pump and the digital pID control system constituting the connection to the satellite control parts for the prevention of the nuclear radiation pollution, the unmanned camera of the control system is installed, Fire sensor with built-in inverter system and control system equipment Operation diagram inside the pump body.
19 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. A power transmission unit 811d for transmitting the power, a nuclear power plant safety control and management production electric power unit 811e for the nuclear power generation, a nuclear waste disposal unit 811a for the nuclear power generation, The double pipe structure block pipe line adjustment shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the control adjustment device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention prevention control unit 811h, Territorial dispute resolution authority and space power generation And a plurality of compressors constituting a connection to the satellite control parts for prevention of nuclear radioactive contamination, a partial sash construction view of a stationary compressor and a multi-stage screw compressor, and an operation construction view of a front section for fixing an underground anchor bolt.
20 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. A power transmission unit 811d for transmitting power, a nuclear power plant safety control and production production electric field unit 811e for controlling the nuclear power generation, a nuclear waste disposal unit 811a for controlling the nuclear power generation, a transportation transportation unit 811c for the construction machine, The double pipe structure block pipe line control shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the regulating device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention preventive control unit 811h Territorial dispute resolution coordination and space development And a suction valve in a squeegee compressor connected to an electric motor and a geared dryer (290) to which an oil separation tank constituting a connection to a satellite control section preventing nuclear radiation contamination is adhered.
21 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. A power transmission unit 811d for transmitting power, a nuclear power plant safety control and production production electric field unit 811e for controlling the nuclear power generation, a nuclear waste disposal unit 811a for controlling the nuclear power generation, a transportation transportation unit 811c for the construction machine, The double pipe structure block pipe line control shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the regulating device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention preventive control unit 811h Territorial dispute resolution coordination and space development And a suction filter (262) attached to the inside of the rear cooler and the inside of the air dryer constituting the connection to the satellite control parts for preventing nuclear radiation contamination, and a suction filter attached to the inside of the air dryer (291).
22 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. A power transmission unit 811d for transmitting power, a nuclear power plant safety control and production production electric field unit 811e for controlling the nuclear power generation, a nuclear waste disposal unit 811a for controlling the nuclear power generation, a transportation transportation unit 811c for the construction machine, The double pipe structure block pipe line control shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the regulating device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention preventive control unit 811h Territorial dispute resolution coordination and space development And the control system of the nuclear radioactive contamination, the power transmission control part of the submarine transverse railway substation for the nuclear waste disposal and the outdoor fire hydrant which is the structure of the groundwater and deep water water supply control part. (179a) of a fire hydrant, a fire extinguisher, a fire hydrant, and an underground fire hydrant box manhole at a lower portion of a road surface of an underground fire extinguisher (179b). A fire hydrant (179) is connected to the water supply port (168) of the connection water pipe and the water discharge port (fire extinguisher extinguisher, 169), and the fire hydrant Territorial dispute resolution coordinator and space station Sectional configuration and strainer configuration connected to satellite control parts for preventing radioactive contamination and nuclear radiation, and (a) a large-scale fire hydrant system and (b) a partial side configuration showing a small-scale fire hydrant system A sprinkler system pipeline system sprinkler system, and a sprinkler head of a tranchorage head.
[Figure 23] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A power transmission unit 811d for transmitting power, a nuclear power plant safety control and management production electric field unit 811e for controlling the nuclear power generation, a nuclear waste disposal unit 811a for controlling the nuclear power generation, a transportation transportation unit 811c for the construction machine, The double pipe structure block pipe line control shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the regulating device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention preventive control unit 811h Territorial dispute resolution coordination and space development And the control of the territorial dispute, which shows the composition of the power transmission control unit of groundwater and deep sea water capacity supply control unit of the submarine transverse railway substation for nuclear waste disposal, A sprinkler system pipeline system sprinkler system and a sprinkler head of a tranquility head showing a conventional configuration showing connection to a satellite control unit for prevention of nuclear radiation contamination.
24 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. A power transmission unit 811d for transmitting power, a nuclear power plant safety control and production production electric field unit 811e for controlling the nuclear power generation, a nuclear waste disposal unit 811a for controlling the nuclear power generation, a transportation transportation unit 811c for the construction machine, The double pipe structure block pipe line control shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the regulating device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention preventive control unit 811h Territorial dispute resolution coordination and space development And the operation of the reciprocating pump piston pump 127 showing the configuration of the power transmission control section of the deep-sea transit railway substation for treatment of nuclear waste constituting the connection to the satellite control sections for prevention of nuclear radiation pollution and the control section for the groundwater and deep- And a partial plunger pump 148 operating configuration diagram illustrating the manner in which the plunger 253 is operated in partial planar fashion with the plunger pump 148, Side view showing a side view of the pump tank 311 and the turbine pump 140 and a side view of the operation side view showing the installation state of the waste pump 309 as a side view.
25 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. A power transmission unit 811d for transmitting power, a nuclear power plant safety control and production production electric field unit 811e for controlling the nuclear power generation, a nuclear waste disposal unit 811a for controlling the nuclear power generation, a transportation transportation unit 811c for the construction machine, The double pipe structure block pipe line control shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the regulating device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention preventive control unit 811h Territorial dispute resolution coordination and space development And nuclear radioactivity pollution control stations. The electromagnetic sensor that shows the configuration of the power transmission control unit and the groundwater and deep-sea water capacity control unit of the submarine transverse railway substation for nuclear waste disposal. Prevention control unit, a forest fire natural disaster prevention control unit, and an artificial tunnel fishery scattering control unit. FIG. 33 is a perspective view showing a turbine pump of the related art. ) Of the propeller pump 146 and the mixing pump 342 of the propeller pump 146 and the viscous pump 343 is shown in the perspective view of the viscous pump and impeller strainer A side view of the pump operation.
26 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. A power transmission unit 811d for transmitting power, a nuclear power plant safety control and management production electric field unit 811e for controlling the nuclear power generation, a nuclear waste disposal unit 811a for controlling the nuclear power generation, a transportation transportation unit 811c for the construction machine, The double pipe structure block pipe line control shaft 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the regulating device construction machine control unit 811f, the screw control unit 811g, and the disaster prevention preventive control unit 811h Territorial dispute resolution coordination and space development And nuclear radioactivity pollution control stations for the treatment of nuclear wastes. Transmission of power transmission and control of groundwater and deeper water capacity of the substation and control of electromagnetic sensor valve screw and disaster prevention prevention control And FIG. 7 is a schematic view showing a configuration of a main portion of a pump during driving, which shows a conventional configuration showing a configuration for connecting a control portion for preventing natural and natural disaster to a control portion for fishing of fish and shellfish.
[Fig. 27] Fig. 27 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control section showing the construction of the double tube structure block pipe line control shaft (238) for the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section, And a plurality of valves formed on the prime mover and the prime mover showing a conventional construction showing a configuration in which the pre-prevention control unit is connected to the artificial turf fishery scattering control unit.
[Figure 11] to [Figure 27], respectively, constitute the interior of the main body 1 of the distribution input apparatus of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention constitution 1 is a block diagram illustrating features that illustrate one embodiment.
28 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention, (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control section showing the construction of the double tube structure block pipe line control shaft (238) for the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section, The water supply faucet 512 includes a long faucet 512a and a float faucet 512a. The faucet 512 includes a long faucet 512a and a long faucet 512b. A long transverse faucet 512b, a long body all-round faucet 512c, a short faucet 512d and a short faucet faucet 512e, A longitudinal water tank 512f, an all-purpose longitudinal water tank 512g, The sanitary flash valve 513 and the parallel type bath 513 which are provided with the fringe lateral faucet 512h, the acid faucet 512i, the sanitary faucet 512j and the hot water mixed comb 512k, The transom 514a, the transverse material faucet 514b, the longitudinal material faucet 514c, the Fomats type transverse material faucet 514d, the medical faucet 514e, the lateral chemical faucet 514a, 514j, 514f, 514f, 514g, 514h, 514i, 514i, 514j, 515a of a faucet for a building faucet, 515b for a faucet for a building faucet, 515b for a faucet for a building faucet, 515b for a faucet for a building faucet, A mixer valve 517a, a hand shower 518, a syringe head 519, and a mixing valve 516. The urine cleaner 516, the mixer valve 517, the mixer valve 517a, A shower set 520, and a shower set 521, And a plurality of valves connected to the general type water faucet (512).
29 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control section showing the construction of the double tube structure block pipe line control shaft (238) for the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section, And a control unit for controlling the operation of the respective valves according to the related art.
30 is included in a nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control unit and the disaster prevention preventive control unit and the forest fire natural disaster (148) and a diaphragm pump (144) of a reciprocating pump of a positive displacement type pump type showing a conventional configuration showing a configuration in which the diaphragm pump And shows how the operation of the wing pump 327 and the operation of the wing pump 327 are performed. In the rotary pump 337, the external gear pump 326 and the other rotary pump rotor 338 are partially operated Fig.
FIG. 31 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control unit and the disaster prevention preventive control unit and the forest fire natural disaster The preliminary prevention control unit and the artificial fish and shellfish scattering control unit are connected to each other by the framing 339 and the self-priming pump 340, respectively, in a perspective view showing the turbine pump 140, In the isometric view, the axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146 are schematically shown. The viscous pump 343 is shown in a perspective view, and the viscous pump and the impeller Way If the configuration of the illustrated side operating FIG.
[32] FIG. 32 is a block diagram of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control section showing the construction of the double tube structure block pipe line control shaft (238) for the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section, And a control unit for controlling the operation of the automatic collecting tank in accordance with the operation of the automatic collecting tank.
FIG. 33 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control section showing the construction of the double tube structure block pipe line control shaft (238) for the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section, And a control unit for controlling the operation of the automatic collecting tank in accordance with the operation of the automatic collecting tank.
FIG. 34 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control section showing the construction of the double tube structure block pipe line control shaft (238) for the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section, And a control unit for controlling the operation of the automatic collecting tank in accordance with the operation of the automatic collecting tank.
[Figure 35] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control section showing the construction of the double tube structure block pipe line control shaft (238) for the nuclear waste disposal of the nuclear hydroelectric power plant, the disaster prevention prevention control section, And a control unit for controlling the operation of the automatic collecting tank in accordance with the operation of the automatic collecting tank.
[Figure 36] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control unit and the disaster prevention preventive control unit and the forest fire natural disaster And a plurality of solenoid valve actuating assemblies attached to the hydraulic pneumatic cylinder showing a conventional configuration showing a configuration in which a plurality of solenoid valves are connected to a plurality of solenoid valves, A schematic diagram of the method of application of sensor technology and hydraulic pressure by sensor configuration.
[Figure 37] is included in a nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of a nuclear reactor waste disposal reactor for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control unit and the disaster prevention preventive control unit and the forest fire natural disaster And the operation of the air balloon is shown in a conventional configuration showing a configuration in which the airbag is connected to the anti-dwelling control unit and the airway tunnels scattering control unit. The operation configuration of the air balloon according to the typhoon and weather forecast inside the atmosphere is shown in FIG. A fire and disaster prevention scheme that is configured to achieve initial evolution within 1 second after nozzle and bed nozzle installation.
[Figure 38] is included in a nuclear hydroelectric power plant 811 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control unit and the disaster prevention preventive control unit and the forest fire natural disaster Provisional Preventive Control Section and Ardo Tunnel Control Section of the Marine Corps. The power transmission control section of the substation of Daejeon-Daejeon Transit Railway for the treatment of nuclear waste to provide power transmission, Disaster Prevention Prevention and Control Section includes the disaster prevention and disaster prevention unit of the disaster prevention prevention control unit constituting the ship 1078 having the conventional sinking vessel and rescue force rescue force incapable of sinking, A nuclear power plant of a nuclear power plant showing a configuration showing an embodiment of the nuclear power plant 1078 as a rescue force rescue force for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, The nuclear power plant's nuclear reactor installation including the flood control disaster prevention device distribution dispenser The HVAC which constitutes the international maritime safety system includes the faire damper 583, the damper spindle 584, Ventilation 585, a doctor ventilation inlet 585a, and a doctor ventilation outlet 585b, Side configuration of the flood control disaster prevention devices comprising a vessel having a life saving restoring force into the dispensing chute body (1) of a reactor plant for a nuclear waste in marine nuclear hydroelectric power station processing having an FIG.
[Figure 39] is included in a nuclear hydropower generation facility unit (811) constituted inside the main body (1) of the distribution apparatus of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control unit and the disaster prevention preventive control unit and the forest fire natural disaster Provisional Preventive Control Section and Ardo Tunnel Control Section of the Marine Corps. The power transmission control section of the substation of Daejeon-Daejeon Transit Railway for the treatment of nuclear waste to provide power transmission, Disaster Prevention Prevention and Control Section includes the disaster prevention prevention control section of the ship 1078 constituting the conventional sinking vessel and the rescue force rescue force incapable of sinking, preventing the superfluous wave 1101 from among the flood control disaster prevention apparatuses. (1078) having a rescue force for nuclear waste disposal for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, and a disaster prevention preventive control The nuclear reactor power plant of the nuclear power plant provided with the addition of the disaster control disaster prevention device Dispensation injecting device The HVAC which constitutes the international maritime safety system includes the faire damper 583, the damper spindle 584, A doctor ventilation port 585, a doctor ventilation port 585a, and a doctor ventilation port 585b, Side configuration of the flood control disaster prevention devices comprising a vessel having a life saving restoring force into the dispensing chute body (1) of a reactor plant for a nuclear waste in marine nuclear hydroelectric power station processing having an FIG.
FIG. 40 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control unit and the disaster prevention preventive control unit and the forest fire natural disaster Provisional Preventive Control Section and Ardo Tunnel Control Section of the Marine Corps. The power transmission control section of the substation of Daejeon-Daejeon Transit Railway for the treatment of nuclear waste to provide power transmission, Disaster Prevention Prevention and Control Section includes the disaster prevention and disaster prevention unit of the disaster prevention prevention control unit constituting the ship 1078 having the conventional sinking vessel and rescue force rescue force incapable of sinking, A nuclear power plant of a nuclear power plant showing a configuration showing an embodiment of the nuclear power plant 1078 as a rescue force rescue force for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, The nuclear power plant's nuclear reactor installation including the flood control disaster prevention device distribution dispenser The HVAC which constitutes the international maritime safety system includes the faire damper 583, the damper spindle 584, Ventilation 585, a doctor ventilation inlet 585a, and a doctor ventilation outlet 585b, Side configuration of the flood control disaster prevention devices comprising a vessel having a life saving restoring force into the dispensing chute body (1) of a reactor plant for a nuclear waste in marine nuclear hydroelectric power station processing having an FIG.
[Figure 41] is included in a nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control unit and the disaster prevention preventive control unit and the forest fire natural disaster Provisional Preventive Control Section and Ardo Tunnel Control Section of the Marine Corps. The power transmission control section of the substation of Daejeon-Daejeon Transit Railway for the treatment of nuclear waste to provide power transmission, Disaster Prevention Prevention and Control Section includes the disaster prevention and disaster prevention unit of the disaster prevention prevention control unit constituting the ship 1078 having the conventional sinking vessel and rescue force rescue force incapable of sinking, A nuclear power plant of a nuclear power plant showing a configuration showing an embodiment of the nuclear power plant 1078 as a rescue force rescue force for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, The nuclear power plant's nuclear reactor installation including the flood control disaster prevention device distribution dispenser The HVAC which constitutes the international maritime safety system includes the faire damper 583, the damper spindle 584, Ventilation 585, a doctor ventilation inlet 585a, and a doctor ventilation outlet 585b, Side configuration of the flood control disaster prevention devices comprising a vessel having a life saving restoring force into the dispensing chute body (1) of a reactor plant for a nuclear waste in marine nuclear hydroelectric power station processing having an FIG.
[Figure 42] is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811a) of the nuclear power generation nuclear power plant, and an electronic sensor valve screw control unit and the disaster prevention preventive control unit and the forest fire natural disaster Provisional Preventive Control Section and Ardo Tunnel Control Section of the Marine Corps. The power transmission control section of the substation of Daejeon-Daejeon Transit Railway for the treatment of nuclear waste to provide power transmission, Marine Hydro-Nuclear Power Generation Power Generation Division includes the TVA's Paradise Power Plant steam turbine in the vicinity of the traditional Kentucky paradise, which constitutes a distribution input device for a nuclear waste treatment nuclear reactor nuclear power plant with a dual structural block tank dust collector. A hydrostatic generator and an engine side elementary straighter view showing a structural and engine side view showing an elemental configuration of an embodiment formed for the operation of a nuclear power station of a generator.
[Figure 43] is included in a nuclear hydropower generation facility unit (811) constituting the interior of the main body (1) of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention And a power generation and production unit 811b of a marine nuclear hydroelectric power plant that provides power production, the configuration of one embodiment of operation of a nuclear power plant for generating a thermal power generation operation of a conventional thermal power plant Nuclear power generation facility in operation of nuclear power plant of elementary conventional nuclear power plant showing showing the disassembling side of thermal power generation operation method of conventional thermal power plant. Nuclear power plants operating in nuclear power plants that constitute components of the distribution input unit During the operation of nuclear power plants, Exploded side configuration around the movable operation scheme FIG.
FIG. 44 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. And a power generation and production unit 811b of a marine nuclear hydroelectric power plant that provides power production, the configuration of one embodiment of operation of a nuclear power plant of a nuclear power plant that provides thermal power generation operation of a conventional thermal power plant Nuclear power generation facility in operation of nuclear power plant of elementary conventional nuclear power plant showing showing the disassembling side of thermal power generation operation method of conventional thermal power plant. In the elementary conventional nuclear power plant operating in the distribution system, 79 and a boiler operating core 783 inside the boiler at a high temperature and high pressure steam inlet 780 of steam or a strong gas as shown in the cross-sectional side view of the nuclear power plant of the conventional nuclear power plant. Thermal power generation of thermal power plant Operation method Elemental aspect.
[Figure 45] is included in a nuclear hydropower generation facility unit (811) constituting the interior of the main body (1) of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention And a power generation and production unit 811b of a marine nuclear hydroelectric power plant that provides power production, the configuration of one embodiment of operation of a nuclear power plant for generating a thermal power generation operation of a conventional thermal power plant Nuclear power generation facility in operation of nuclear power plant of elementary conventional nuclear power plant showing showing the disassembling side of thermal power generation operation method of conventional thermal power plant. Nuclear power plant that provides recovery before and after failure during operation of elementary conventional nuclear power plant constituting distribution input device Nuclear power generation facility in operation of nuclear power plant of elementary conventional nuclear power plant showing construction of one embodiment of operation of nuclear power plant Thermal power generation and nuclear power operation with connection structure of conventional production power central control room (781) and power transmission room transformer room (782) A schematic view of the elemental aspects of the operation of a thermal power plant in a thermal power plant, showing the methods in a side view.
[Fig. 28] to Fig. 45, respectively, are diagrams illustrating an embodiment according to the configuration of a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector of the present invention Degree.
[Figure 46] is included in a nuclear hydropower generation facility unit (811) constituting the inside of the main body (1) of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention A nuclear waste disposal unit 811a,Northeast AsiaA dual structure block tank-type dust collector for nuclear waste disposal constituting a distribution input unit of the marine hydro-nuclear power generation control unit 811b for constructing the power production to the transportation transport unit 811c of the construction machine. Operation of Nuclear Hydroelectric Power Plants Having Nuclear Reactor Facilities Operation of Nuclear Hydroelectric Power Plants During Operation of Nuclear Hydroelectric Power Plant Nuclear Hydroelectric Power Plant's nuclear reactor facility is shown in side view, Nuclear Power Hydroelectric Power Plant (811) Disassembled side view.
[Figure 47] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A hydro-nuclear power generation control unit 811b for generating a power production showing a configuration of a double-pipe-structure block pipe line control shaft 238 for nuclear waste disposal of a nuclear hydroelectric power plant, A nuclear power plant having a dual structure block tank dust collector constituting a distribution input device of a transportation transportation part 811c of a construction machine, and a nuclear power plant having a distribution input device for processing nuclear waste of a marine nuclear hydroelectric power plant. In the nuclear power plant operation of the conventional nuclear power plant showing the construction of the example, the construction machine to be put into the reactor facility of the nuclear power hydroelectric power plant is disassembled Nuclear power plant in elementary conventional nuclear power plant shown in cross section, section.
[48] FIG. 48 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention, which is included in a nuclear hydropower generation facility 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor A hydro-nuclear power generation control unit 811b for generating a power production showing a configuration of a double-pipe-structure block pipe line control shaft 238 for nuclear waste disposal of a nuclear hydroelectric power plant, A nuclear power plant having a dual structure block tank dust collector constituting a distribution input device of a transportation transportation part 811c of a construction machine, and a nuclear power plant having a distribution input device for processing nuclear waste of a marine nuclear hydroelectric power plant. In the nuclear power plants of nuclear power plants, which show the composition of the examples, Of the element of the conventional nuclear power plant nuclear hydraulic operating nuclear power plant operation showing the side construction machine exploded In the nuclear power plant side perspective diagram.
[Figure 49] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A hydro-nuclear power generation control unit 811b for generating a power production showing a configuration of a double-pipe-structure block pipe line control shaft 238 for nuclear waste disposal of a nuclear hydroelectric power plant, A nuclear power plant having a dual structure block tank dust collector constituting a distribution input device of a transportation transportation part 811c of a construction machine, and a nuclear power plant having a distribution input device for processing nuclear waste of a marine nuclear hydroelectric power plant. In the operation of the nuclear power plant of the conventional nuclear power plant showing the constitution of the example, the construction machine to be put into the reactor facility of the nuclear power hydroelectric power plant is divided into A schematic view of a construction machine disassembled side view installed in a nuclear power hydroelectric power plant during the operation of the nuclear power plant of a conventional nuclear power plant shown in the side view and the cross section.
50 is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A hydro-nuclear power generation control unit 811b for generating a power production showing a configuration of a double-pipe-structure block pipe line control shaft 238 for nuclear waste disposal of a nuclear hydroelectric power plant, A nuclear-hydroelectric power station showing the construction of a nuclear power plant operating a nuclear power plant having a dual-structure block tank dust collector and a distribution input device for a reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant, ) Hydroelectric power plant of the marine nuclear hydroelectric power plant lifting dock, A nuclear waste disposal unit 811a constituting a nuclear waste disposal reactor apparatus main body 1 of a marine nuclear hydroelectric power plant having an elementary dual structure block tank dust collector, A schematic view of the connection structure of a nuclear power hydroelectric power plant construction machine including a hydraulic tank facility showing the regulatory construction.
[Figure 51] is included in the nuclear hydropower generation facility unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A hydro-nuclear power generation control unit 811b for generating power production showing a configuration of a double-pipe-structure block piping line control shaft 238 for nuclear waste disposal of a nuclear hydroelectric power plant, (SDU) of an elementary marine power plant dock hull deck showing the configuration of one embodiment of the operation of a nuclear power plant providing a distribution input device for a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector Hydroelectric power plant construction equipment of small size, medium size, large size marine nuclear hydroelectric power plant lifting dock (593,594,595) An elementary dual structural block showing the position control arrangement. A small, medium and large sized marine nuclear hydroelectric power plant float in the main body (1) of a reactor installation for nuclear waste disposal of a marine nuclear hydroelectric power plant having a tank dust collector. A nuclear reactor waste reactor treatment unit 811a for a nuclear power plant and a bulldozer 855 for showing a construction machine position adjustment structure for movement control and a wheel type rotator 855a and a wheel type rotator 855b, A straightener, a screwdriver 855c, a deleter, a screwdriver 855d, an angle, a screwdriver 855e, a hinge, a screwdriver 855f, a tripod 855g, Equipped with a dual structure block tank dust collector consisting of a small, medium and large marine nuclear hydroelectric power plant lifting tanks (593,594,595) equipped with crawler (85 5h) and heavy trencher (855i) Construction of a distribution system for the distribution of nuclear reactor waste water treatment plants of marine nuclear power plants A cooling system 855m, a final gear device 855n, a driving gear 855d, a driving gear 855d, a driving gear 855d, a driving gear 855d, (593,594,595) equipped with small-sized, medium-sized, and large-sized marine nuclear hydroelectric power plant lifting dock (593, 594, 595) having a sprocket (855o) .
[Figure 52] is included in a nuclear hydropower generation facility unit (811) constituting the inside of the main body (1) of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention A hydro-nuclear power generation control unit 811b for generating power production showing a configuration of a double-pipe-structure block piping line control shaft 238 for nuclear waste disposal of a nuclear hydroelectric power plant, A nuclear-hydroelectric power station showing the construction of a nuclear power plant operating a nuclear power plant having a dual-structure block tank dust collector and a distribution input device for a reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant, ) Construction of hydropower facilities of small size, medium size, large scale offshore hydroelectric power plant (593, 594,595) An elementary dual structure block showing the configuration of the machine position control. The distribution of the reactor facility for the nuclear waste disposal of a marine nuclear hydroelectric plant with a tank dust collector. (1) Filling small, medium and large sized marine nuclear hydroelectric plants (593,594,595) Hull position transfer Construction machinery equipment control unit (811a) Dual structure block construction of motor grader (862) showing construction machine position control arrangement of movement control Nuclear reactor of marine nuclear power plant with dust collector The internal connection structure of the construction machine connection structure grader, which is mounted on the distribution dispensing apparatus of the waste treatment reactor installation, includes a muffler 862a, an engine flywheel 862b, a cooling fan 862c, A transmission gear 862e, a fixed gear type transmission 862f, a parking brake 862g, a differential gear 862h, a transporter neutral gear reducer 862i, Lake (862j) and to an external structure (862k) connected to the structure of the radar deviation configuration constituting a small, medium, large facilities of the marine floating hydroelectric power plant nuclear expression dock (593 594 595) Fig.
[Figure 53] is included in a nuclear hydropower generation facility unit (811) constituting the inside of the main body (1) of a nuclear reactor waste disposal reactor facility for a marine nuclear power hydroelectric power plant having a double structure block tank dust collector according to the present invention A hydro-nuclear power generation control unit 811b for generating power production showing a configuration of a double-pipe-structure block piping line control shaft 238 for nuclear waste disposal of a nuclear hydroelectric power plant, A nuclear water hydroelectric power plant having a double structure block tank dust collector, a nuclear power plant having a distribution input device for a nuclear waste processing nuclear waste disposal facility of a marine nuclear hydroelectric power plant, SDU), hydroelectric power plant of hull displacement control of small size, medium size, large scale offshore hydroelectric power plant (593,594,595) A small, medium and large sized maritime nuclear hydroelectric power plant constructed inside a main body (1) of a reactor installation for nuclear waste disposal of a marine nuclear hydroelectric power plant having an elementary dual structure block tank dust collector, A dredger 855a and an excavator 856a constituting a bulldozer 855 showing the construction machine position adjustment structure of the shift control, A power shovel 856b, a drag line 856c, an earth drill 856d, a crumb shell 856e, a skimmer 856f, A small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant equipped with a connection structure of a construction machine connecting to a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector Poison (593,594,5 95) Diagram of strabismus constituting equipment.
FIG. 54 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. A hydro-nuclear power generation control unit 811b for generating a power production showing a configuration of a double-pipe-structure block pipe line control shaft 238 for nuclear waste disposal of a nuclear hydroelectric power plant, (SDU) of an elementary marine power plant dock hull deck showing the configuration of one embodiment of the operation of a nuclear power plant providing a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector Hydroelectric power plant construction equipment of small size, medium size, large size marine nuclear hydroelectric power plant lifting dock (593,594,595) An elementary dual structural block showing the position control arrangement. A small, medium and large sized marine nuclear hydroelectric power plant float in the main body (1) of a reactor installation for nuclear waste disposal of a marine nuclear hydroelectric power plant having a tank dust collector. Dock (593,594,595) Hull position shifting Construction equipment installation control (811a) Construction equipment position control arrangement Reaper and router (856g) showing extension arrangement Extension cable (861b) and all six cranes (861p ) And Draeg Crane (887).
[Fig. 46] to [Fig. 54] are diagrams illustrating an embodiment according to the configuration of a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector of the present invention Degree.
[Figure 55] is included in a nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811a) of the construction moving machine for moving the float-type poison hull is provided with the power of the marine nuclear hydroelectric power plant (811a), which provides the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant dock showing the configuration of one embodiment of the operation of a nuclear power hydroelectric power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste disposal reactor facility of a marine nuclear hydroelectric power plant. Hull position shifting tank of a small, medium and large marine nuclear hydroelectric power station lifting tanks (593, 594, 595) constituting the upper part of the hull deck (SDU) (2) Elementary double structural block showing the construction of the hydroelectric power plant construction machinery. (2) Distribution tank of the reactor plant for the nuclear waste disposal of a marine nuclear hydroelectric power plant with a dust collecting tank. (1) (593, 594, 595) of a marine nuclear power hydroelectric power plant hull locomotion equipment control unit (811a) of a forklift (853) and a dump truck (860) in a loader (857) (860a) Diagram of the strabismus of construction machinery connection structure.
[56] FIG. 56 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with an elementary marine nuclear hydroelectric power plant showing the configuration of one embodiment of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device of nuclear nuclear power plant nuclear waste disposal reactor equipment. Hull position shifting tank of a small, medium and large marine hydro-power plant lifting tanks (593, 594, 595) constituting the upper part of the deck of the hull deck (SDU) (2) Elementary double structural block showing the construction of the hydroelectric power plant construction machinery. (2) Distribution tank of the reactor plant for the nuclear waste disposal of a marine nuclear hydroelectric power plant with a dust collecting tank. (1) (593,594,595) HYUNDAI NUCLEAR HYDRAULIC POWER PLANT (593,594,595) CONSTRUCTION MACHINE CONCRETE BATCHING PLANT (865) AND CONCRETE FINISHER (866) CONCRETE MIXER TRUCK (868) Diagram of strabismus of construction machinery connection structure.
[Figure 57] is included in a nuclear hydropower generation facility unit (811) constituting the interior of the main body (1) of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811a) of the construction moving machine for moving the float-type poison hull is provided with the power of the marine nuclear hydroelectric power plant (811a), which provides the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant The hull position of the small, medium and large marine hydroelectric power plant lifting dock (593,594,595) in the power plant dock upper deck (SDU) Controlled hydroelectric power plant Elementary dual structure block showing construction machine position control arrangement Distribution of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with tank dust collector Main body (1) Small, medium and large inside (593,594,595) of the marine nuclear hydroelectric power plant (593, 594, 595) hull position shifting construction machine equipment control unit (811a) shifting control construction machine position control unit configuration (864) asphalt finisher (871) and asphalt spreader 872 is a perspective view of a boom 882a and a diesel pile hammer 883 construction machine connection structure on a pile driver 872 and a pile driver 882;
FIG. 58 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention, which is included in a nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant Small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant floating structure (593,594,595) constructed on the upper part of the power plant docked hull deck (SDU) Hydraulic power plant with adjustable tooth movement. Elementary double structure block showing the position control structure of the construction machine. Dispensing device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant with a tank dust collector. (593,594,595) of the large-scale offshore nuclear hydroelectric power plant (593,594,595) Fleet location control equipment of construction machine (811a) Floating system of small, medium and large scale offshore nuclear hydroelectric power plant (879a) and bucket dredger (879b) construction machine connection structures of dredger (879) showing construction machine position adjustment arrangement of hull position movement control of dock (593,594,595).
FIG. 59 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant The hull position of the small, medium and large marine hydroelectric power plant lifting dock (593,594,595) in the upper part of the power plant docked hull deck (SDU) Controlled hydroelectric power plant Elementary dual structure block showing construction machine position control arrangement Distribution of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with tank dust collector Main body (1) Small, medium and large inside (593,594,595) of the marine nuclear hydroelectric power plant, the pump dredger 879a and the bucket dredger 879b of the dredger 879 showing the construction machine position control arrangement of the shift control of the hull position shifting construction machine 811a, Grab dredger (879l) Construction diagram of construction machine connection structure.
FIG. 60 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. (811a) of the construction moving machine for moving the float-type poison hull is provided with the power of the marine nuclear hydroelectric power plant (811a), which provides the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant The hull position of the small, medium and large marine hydroelectric power plant lifting dock (593,594,595) in the power plant dock upper deck (SDU) Controlled hydroelectric power plant Elementary dual structure block showing construction machine position control arrangement Distribution of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with tank dust collector Main body (1) Small, medium and large inside (593,594,595) Hull position transfer Construction equipment control equipment (811a) Crusher (874) showing the position control structure of the construction machinery for movement control.
[Figure 61] is included in a nuclear hydropower generation facility unit (811) constituted inside the main body (1) of the distribution apparatus of the nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (811a) of the construction moving machine for moving the float-type poison hull is provided with the power of the marine nuclear hydroelectric power plant (811a), which provides the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant The hull position of the small, medium and large marine hydroelectric power plant lifting dock (593,594,595) in the power plant dock upper deck (SDU) Controlled hydroelectric power plant Elementary dual structure block showing construction machine position control arrangement Distribution of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with tank dust collector Main body (1) Small, medium and large inside (593, 594, 595) of the marine nuclear hydroelectric power plant. The hull position shifting construction machine facility control section (811a) includes a conventional cylinder (126) Diagram of a strainer plunger pump (148b) and a radial planer pump (148c).
62 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention, (811a) of the construction moving machine for moving the float-type poison hull is provided with the power of the marine nuclear hydroelectric power plant (811a), which provides the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant Small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant floating structure (593,594,595) constructed on the upper part of the power plant docked hull deck (SDU) Hydraulic power plant with adjustable tooth movement. Elementary double structure block showing the position control structure of the construction machine. Dispensing device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant with a tank dust collector. (593,594,595) Hull position transfer Construction equipment control equipment (811a) Terrain dispute resolution control unit and space power generation showing the construction of the position control structure of the moving machinery (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant connected to the satellite control sections for preventing radioactive contamination and radioactive contamination of the vertical partition wall (605) for disassembling and assembly and the pin connecting shaft (606) (607) and a portable lug pin (608) Large diameter flange connection Connecting hole Processing hole (615) Hydraulic power plant Equipment to construct a marine nuclear power hydroelectric power plant A cylinder 126 showing a construction machine position adjustment structure of hull position movement control of a large-sized and large-scale marine nuclear hydroelectric power plant lifting dock (593,594,595), and a piston motor 885a of a hydraulic crane 885. [ Diagram.
[Figure 63] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the construction moving machine for moving the float-type poison hull is provided with the power of the marine nuclear hydroelectric power plant (811a), which provides the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant Small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant floating structure (593,594,595) constructed on the upper part of the power plant docked hull deck (SDU) Hydraulic power plant with adjustable tooth movement. Elementary double structure block showing the position control structure of the construction machine. Dispensing device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant with a tank dust collector. (593, 594, 595) of a large-scale marine nuclear hydroelectric power plant, a cylinder 126 showing a construction machine position adjustment structure of the hull position shifting construction machine's facility adjustment section 811a and a piston motor 885a of the hydraulic crane 885 Diagram of Construction of Connecting Structure for Construction Machinery.
FIG. 64 is a block diagram of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. (811a) of the construction moving machine for moving the float-type poison hull is provided with the power of the marine nuclear hydroelectric power plant (811a), which provides the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant Small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant floating structure (593,594,595) constructed on the upper part of the power plant docked hull deck (SDU) Hydraulic power plant with adjustable tooth movement. Elementary double structure block showing the position control structure of the construction machine. Dispensing device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant with a tank dust collector. (593,594,595) of a large-scale offshore nuclear hydro-electric power plant (593,594,595), a hydraulic or hydroelectric powerhouse aberration or pump aberration (264) showing the construction machine position control arrangement of the hull locomotion construction machinery control section (811a) Main valve (265) Hydraulic power plant construction Marine structure of the nuclear power plant showing the connection structure Dock Small hull deck upper part (SDU) of small, medium and large sized marine nuclear hydroelectric power plant lifting dock (593,594,595) Of the construction machinery in the form of a windmill showing the control structure of the construction machinery of the marine hydroelectric power generation Perspective configuration of the machine structure connection Fig.
[Figure 65] is included in the nuclear hydroelectric power plant 811 constituting the inside of the distribution dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant Small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant floating structure (593,594,595) constructed on the upper part of the power plant docked hull deck (SDU) Hydraulic power plant with adjustable tooth movement. Elementary double structure block showing the position control structure of the construction machine. Dispensing device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant with a tank dust collector. (593,594,595) Hull position transfer Construction machinery equipment control unit (811a) Hydraulic power plant equipment showing the position control structure of the moving machine Control system of the construction machine connected to the small, medium, large Of Hydraulic Power Plant Construction Machinery Connection Structure Showing Adjustable Construction Machine Location Control of Marine Nuclear Hydropower Plant Floating Tank (593,594,595).
[66] FIG. 66 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. (811a) of the construction moving machine for moving the float-type poison hull is provided with the power of the marine nuclear hydroelectric power plant (811a), which provides the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant The hull position of the small, medium and large marine hydroelectric power plant lifting dock (593,594,595) in the power plant dock upper deck (SDU) Controlled hydroelectric power plant Elementary dual structure block showing construction machine position control arrangement Distribution of nuclear reactor waste water treatment facility of marine nuclear hydroelectric power plant with tank dust collector Main body (1) Small, medium and large inside (593,594,595) of the marine nuclear power plant (593,594,595) Location control of the construction equipment of the hull (811a) Construction of each power plant in the Han river system showing the position control structure of the movement control Hydraulic power plant Construction machine connection Hydraulic power plant construction machine showing the arrangement of the position control of the construction machine in the small-sized, medium-sized, large-scale marine nuclear power plant lifting dock (593,594,595) constituting the upper part of the deck hull deck (SDU) Diagram of the connection structure.
[Figure 67] is included in the nuclear hydropower generation facility 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plants having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant Small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant floating structure (593,594,595) constructed on the upper part of the power plant docked hull deck (SDU) Hydraulic power plant with adjustable tooth movement. Elementary double structure block showing the position control structure of the construction machine. Dispensing device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant with a tank dust collector. (593,594,595) Hull position transfer Construction equipment installation control (811a) Location configuration of each power plant in the Han River water system showing the configuration of the position control system of construction equipment (678p) Hydroelectric power plant Construction machinery Position control structure of small, medium and large sized marine nuclear hydroelectric power plant lifting tanks (593, 594, 595) to control hull position movement, which constitute the upper part of deck hull deck (SDU) Hydraulic power plant showing the connection structure of the construction machine.
68 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention, (811a) of the construction moving machine for moving the float-type poison hull is provided with the power of the marine nuclear hydroelectric power plant (811a), which provides the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant Small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant floating structure (593,594,595) constructed on the upper part of the power plant docked hull deck (SDU) Hydraulic power plant with adjustable tooth movement. Elementary double structure block showing the position control structure of the construction machine. Dispensing device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant with a tank dust collector. (593,594,595) Hull position transfer Construction equipment installation control (811a) Location configuration of each power plant in the Han River water system showing the configuration of the position control system of construction equipment (678p) Hydroelectric power plant Construction machinery Position control structure of small, medium and large sized marine nuclear hydroelectric power plant lifting tanks (593, 594, 595) to control hull position movement, which constitute the upper part of deck hull deck (SDU) Hydraulic power plant showing the connection structure of the construction machine.
[69] FIG. 69 is a schematic diagram of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention, which is included in a nuclear hydropower generation facility 811 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor installation (811a) of the construction moving machine for moving the float-type poison hull is provided with the power of the marine nuclear hydroelectric power plant (811a), which provides the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b is provided with a dual structural block tank dust collector, which is provided with a distribution input device for a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant. The elemental marine nuclear hydroelectric power plant Small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant floating structure (593,594,595) constructed on the upper part of the power plant docked hull deck (SDU) Hydraulic power plant with adjustable tooth movement. Elementary double structure block showing the position control structure of the construction machine. Dispensing device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant with a tank dust collector. (593,594,595) Hull position transfer Construction equipment installation control (811a) Location configuration of each power plant in the Han River water system showing the configuration of the position control system of construction equipment (678p) Hydroelectric power plant Showing the construction machine position control arrangement of hull locomotion control of a small, medium and large sized marine nuclear hydroelectric power plant lifting dock (593, 594, 595) constituting the upper part of the deck hull deck (SDU) Hydraulic power plant construction diagram of a connection structure.
[Figure 70] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor facility of a marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste disposal reactor facility for a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large size marine hydroelectric power plant lifting type poison (593,594,595) constituting upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Vessel position shifting Construction machinery equipment control unit (811a) Moving control construction equipment Vernuni sorting hydroelectric power plant showing regulating structure Construction machine Hydraulic power plant showing connection structure Construction machine connection structure Diagram of the strabismus of.
[Figure 71] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large size marine hydroelectric power plant lifting type poison (593,594,595) constituting the upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric Hydraulic power plant showing construction arrangement position control structure of movement control. (Construction of connecting structure of construction machine).
[Figure 72] is included in the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large size marine hydroelectric power plant lifting type poison (593,594,595) constituting upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric Hydraulic power plant showing construction arrangement position control structure of movement control. (Construction of connecting structure of construction machine).
[Figure 73] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor for marine nuclear hydroelectric power plants having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste disposal reactor facility for a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large size marine hydroelectric power plant lifting type poison (593,594,595) constituting upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric Hydraulic power plant showing construction arrangement position control structure of movement control. (Construction of connecting structure of construction machine).
74 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention, (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large size marine hydroelectric power plant lifting type poison (593,594,595) constituting upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric Hydraulic power plant showing construction arrangement position control structure of movement control. (Construction of connecting structure of construction machine).
[Figure 75] Figure 75 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste disposal reactor facility for a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large size marine hydroelectric power plant lifting type poison (593,594,595) constituting upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Hull position shifting Construction machinery equipment control unit (811a) Movement control construction machine Location of pump control system for hydroplaning unit showing the configuration (943a) Main valve (265) Hydraulic power plant Construction machine connection structure Diagram of the strabismus of.
[Figure 76] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste disposal reactor facility for a marine nuclear hydroelectric power plant. Hydraulic foot of hull position movement control of small size, medium size, large size marine hydroelectric power plant lifting type poison (593,594,595) constituting upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric Power plant floatation (593,594,595) Hull position transfer Construction machinery equipment control unit (811a) Tidal dam showing hydroplaning structure of the construction machine position control system.
[Figure 77] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double-pipe structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste disposal reactor facility for a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large size marine hydroelectric power plant lifting type poison (593,594,595) constituting the upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric Hydraulic power plant of the construction machine (811a) Movement control of the hull position moving ship (593,594,595) Hydraulic power plant of the dam showing the position adjustment structure of the construction machine.
[78] FIG. 78 is a block diagram of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. (811b) Control of hull position of floating-type dock (593,594,595) of small-sized, medium-sized, and large-scale marine nuclear hydroelectric power plant at the upper part of ship's deck (SDU) (269), which includes Toricelli's Theorem Relation, which shows the construction machine position control arrangement of the turbine (269). The theoretical hydraulic power, which provides the manipulation of the flow rate and the flow rate of the seaweed, A water supply facility 680o, a power generation facility 680p and a waterproof facility 680q in the water intake facility 680n which is the same as the arrangement of the pump 2, (944) devices. The small, medium, and large marine hydroelectric power plant floats on the upper deck (SDU) of the hull deck. (593,594,595) Hydroelectric power plant for control of hull position movement Elementary double structure block showing construction arrangement of the construction machine Dispensing device of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant with a tank dust collector (1) Inside (593,594,595) Shipbuilding location control equipment for construction machinery (811a) Flow control for hydroelectric power plants showing construction machinery position control arrangement for construction of moving machinery Construction machinery connection structure Diagram of the strabismus of.
79 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large size marine hydroelectric power plant lifting type poison (593,594,595) constituting upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Location control of the construction equipment of the hull (811a) Terrain dispute resolution and control of the spacecraft And a boom 882a and a diesel engine 882 are connected to a pile driver 876 and a pile driver 882 on an asphalt finishing machine 871 and an asphalt spreader 872 on a hearth safety device 864 connected to a satellite control section for preventing nuclear radiation pollution. Pile hammer (883) Double structural block of construction machinery connection structure Tank pipe bridge pier (928), double structure block tank pipe bridge (937) and nuclear waste treatment Ocean tunnel drilling machine (941) (908) Nuclear Power Generation Equipment.
80 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention, (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large sized marine hydroelectric power plant lifting type poison (593,594,595) constituting the upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Location control of the construction equipment of the hull (811a) Terrain dispute resolution and control of the spacecraft (811a) of the nuclear power generation nuclear waste treatment unit (811a) which is connected to the satellite control units for prevention of nuclear radioactive contamination. The upper tank barge hull (591) and the lower tank barge hull (592) The dual structural block tank (598) is a component-specific assembly process that depicts floating lift tank assembly and auxiliary lifting / lowering portable rocker coupling pin connection shaft (606) and portable lug (607) Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) An elemental nuclear power plant showing the configuration of the control section of hull position shifting construction machinery.
81 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention, (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large size marine hydroelectric power plant lifting type poison (593,594,595) constituting upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Location control of the construction equipment of the hull (811a) Terrain dispute resolution and control of the spacecraft (879a) and a bucket dredger (879b) of the dredger (879) connected to the satellite control parts for prevention of nuclear radioactive contamination and the steel plate bending method for the piping block of the marine power plant lifting dock , A partial partial detail view showing the front side of a steel structure inside a double pipe structure provided with a weld joint basic method, and a construction view of a nuclear power plant lifting dock hull assembly method showing a steel pipe manufacturing structure.
82 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large sized marine hydroelectric power plant lifting type poison (593,594,595) constituting the upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Location control of the construction equipment of the hull (811a) Terrain dispute resolution and control of the spacecraft And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tanks and the auxiliary support coupling split separation shaft (606) for coupling engagement and the portable lug (607) Detailed assembly process Nuclear power plant nuclear waste disposal unit (811a) of nuclear power plant division (811a) Elementary nuclear power plant showing constitution of construction machinery control section of hull position The steel pipe bending method for the pipe block of the marine power plant lifting dock of the construction machinery connection structure and the double pipe construction method for the welding joint basic method The pipe inside the steel structure of a nuclear power plant configuration dependent expression dock hull assembly method showing the front view in part section showing the detailed structure side and also steel pipe manufacturing process diagram.
[Figure 83] is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor facility for marine nuclear hydroelectric power plants having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large sized marine hydroelectric power plant lifting type poison (593,594,595) constituting the upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Location control of the construction equipment of the hull (811a) Terrain dispute resolution and control of the spacecraft And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tanks and the auxiliary support coupling split separation shaft (606) for coupling engagement and the portable lug (607) Detailed Assembly Process Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) Nuclear Power Plant Nuclear Power Generation Facility to show the composition of the construction machinery control section of the ship. (771) of the marine tunnel traffic device consisting of the pipe bridge (928), the bridge bridge (937) and the inside of the marine tunnel traffic device (941) Hydraulic power plant construction diagram of a connection structure.
FIG. 84 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a reactor plant for nuclear waste disposal of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large sized marine hydroelectric power plant lifting type poison (593,594,595) constituting the upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Location control of the construction equipment of the hull (811a) Terrain dispute resolution and control of the spacecraft And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tank and the auxiliary support coupling split separation link (606) and the portable lug (607) Detailed Assembly Process Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) Nuclear Power Plant Nuclear Power Generation Facility to show the composition of the construction machinery control section of the ship. The overall composition of the marine nuclear hydroelectric power plant floodplain composed of the pipe bridge (928), the bridge bridge (937) and the inside of the marine tunnel traffic system (941) The structure of the assembly system showing the construction of a marine nuclear hydroelectric power plant with a dual structure holding tank and a lifting type poisoning system for explaining the equation is shown in a marine nuclear hydroelectric power plant floating type dock block tank A schematic diagram of a floating type docked hull assembly method of a floating type hydroelectric power plant of a marine nuclear hydroelectric power plant showing the decomposition and coupling structure in a block tank unit of a floating dock showing a decomposition coupling unit.
[85] FIG. 85 is a block diagram of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large sized marine hydroelectric power plant lifting type poison (593,594,595) constituting the upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Location control of the construction equipment of the hull (811a) Terrain dispute resolution and control of the spacecraft And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tank and the auxiliary support coupling split separation link (606) and the portable lug (607) Detailed Assembly Process Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) Nuclear Power Plant Nuclear Power Generation Facility to show the composition of the construction machinery control section of the ship. The overall composition of the marine nuclear hydroelectric power plant floodplain composed of the pipe bridge (928), the bridge bridge (937) and the inside of the marine tunnel traffic system (941) The structure of the assembly system showing the construction of a marine nuclear hydroelectric power plant with a dual structure holding tank and a lifting type poisoning system for explaining the equation is shown in a marine nuclear hydroelectric power plant floating type dock block tank A schematic diagram of a floating type docked hull assembly method of a floating type hydroelectric power plant of a marine nuclear hydroelectric power plant showing the decomposition and coupling structure in a block tank unit of a floating dock showing a decomposition coupling unit.
86 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large sized marine hydroelectric power plant lifting type poison (593,594,595) constituting the upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Location control of the construction equipment of the hull (811a) Terrain dispute resolution and control of the spacecraft And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tank and the auxiliary support coupling split separation link (606) and the portable lug (607) Detailed Assembly Process Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) Nuclear Power Plant Nuclear Power Generation Facility to show the composition of the construction machinery control section of the ship. The overall composition of the marine nuclear hydroelectric power plant floodplain composed of the pipe bridge (928), the bridge bridge (937) and the inside of the marine tunnel traffic system (941) The structure of the assembly system showing the construction of a marine nuclear hydroelectric power plant with a dual structure holding tank and a lifting type poisoning system for explaining the equation is shown in a marine nuclear hydroelectric power plant floating type dock block tank A schematic diagram of a floating type docked hull assembly method of a floating type hydroelectric power plant of a marine nuclear hydroelectric power plant showing the decomposition and coupling structure in a block tank unit of a floating dock showing a decomposition coupling unit.
[Figure 87] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (811a) of the moving machinery of the lifting-type poisoning hull structure is provided with the power of the hydro-nuclear power generation plant (811a) for generating the power production showing the construction of the double shaft structure block pipe line control shaft (238) The production control unit 811b includes an elementary marine power plant docking hull showing the construction of a nuclear power plant operating a nuclear power plant having a dual structure block tank dust collector and a distribution input device for a nuclear waste processing nuclear plant disposal facility of a marine nuclear power plant, Hydraulic foot of hull position movement control of small size, medium size, large sized marine hydroelectric power plant lifting type poison (593,594,595) constituting the upper deck part (SDU) (2) Elementary double structural block showing the position control structure of construction equipment. (3) Distribution unit of nuclear reactor waste treatment facility of marine nuclear hydroelectric power plant with tank dust collector. (1) Small, medium and large sized marine nuclear hydroelectric (593,594,595) Location control of the construction equipment of the hull (811a) Terrain dispute resolution and control of the spacecraft And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant nuclear waste treatment unit (811a) enlargement of the marine power plant Tank holding tanks at the top of the marine power plant Upper barge hull (591) and holding tank Lower barge hull (592) to the dual structure block tank (598) center holding tank and the auxiliary support coupling split separation link (606) and the portable lug (607) Detailed Assembly Process Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of Nuclear Power Generation Equipment Division (811a) Nuclear Power Plant Nuclear Power Generation Facility to show the composition of the construction machinery control section of the ship. The overall composition of the marine nuclear hydroelectric power plant floodplain composed of the pipe bridge (928), the bridge bridge (937) and the inside of the marine tunnel traffic system (941) The structure of the assembly system showing the construction of a marine nuclear hydroelectric power plant with a dual structure holding tank and a lifting type poisoning system for explaining the equation is shown in a marine nuclear hydroelectric power plant floating type dock block tank A schematic diagram of a floating type docked hull assembly method of a floating type hydroelectric power plant of a marine nuclear hydroelectric power plant showing the decomposition and coupling structure in a block tank unit of a floating dock showing a decomposition coupling unit.
[Fig. 55] to [Fig. 87] each schematically shows an embodiment of a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector according to the present invention Degree.
FIG. 88 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention, which is included in a nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor (802) of a conventional boiling water reactor (802) nuclear power plant showing the external aspect of a nuclear power plant.
[89] FIG. 89 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. A diesel generator building 688E in a control building 688C and an auxiliary building 688D in a reactor building 688A and a turbine building 688B showing a conventional boiling water nuclear reactor arrangement 802, Diagrammatic view of waste building (688G) in nuclear fuel building (688F).
[90] FIG. 90 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. A conventional boiling water reactor (802) nuclear power plant having a nuclear power plant;
FIG. 91 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. (802) elemental conventional boiling water reactor plant (802) showing the configuration of an embodiment formed from a conventional boiling water reactor plant (802) nuclear power plant.
92 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention, A conventional boiling water nuclear reactor (802) is a component side view showing a nuclear reactor operation operation mode of a conventional boiling water reactor nuclear power plant showing an essential constitution of an embodiment formed by nuclear power plant operation of a nuclear power plant.
[Figure 93] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (Fukushima Boiling Water Reactor Facility 802), which is a conventional accident type nuclear power plant, is shown in a side view of the nuclear power plant of the Fukushima Boiling Water Reactor Facility 802 before the occurrence of an accident showing the essential constitution of an embodiment formed by the nuclear power plant operation of the nuclear power plant Elemental perspective configuration.
FIG. 94 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. (802) of a conventional boiling water nuclear reactor (802). The boiler water reactor (802) is a constituent aspect of a nuclear power plant, showing an elemental configuration of an embodiment formed by the operation of a nuclear power plant. Degree.
FIG. 95 is a block diagram of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. A conventional pressurized water reactor type nuclear reactor (803), and a pressurized water reactor type nuclear reactor (803) of a conventional nuclear power plant showing an essential constitution of an embodiment formed by the operation of the nuclear reactor of a nuclear power plant. Water reactor type nuclear reactor facility (803) side perspective view.
96 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A conventional pressurized water reactor type nuclear reactor (803), and a pressurized water reactor (803) of a conventional nuclear power plant showing the essential constitution of an embodiment formed by the operation of the nuclear reactor of the nuclear power plant. Side view.
[Figure 97] is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor facility for marine nuclear hydroelectric power plants having the double structure block tank dust collector according to the present invention A conventional pressurized water reactor type nuclear reactor (803), and a pressurized water reactor type nuclear reactor (803) of a conventional nuclear power plant showing an essential constitution of an embodiment formed by the operation of the nuclear reactor of a nuclear power plant. Water reactor type nuclear reactor facility (803) side perspective view.
98 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plants having the double structure block tank dust collector according to the present invention A conventional pressurized water reactor type nuclear reactor (803), and a pressurized water reactor type nuclear reactor (803) of a conventional nuclear power plant showing an essential constitution of an embodiment formed by the operation of the nuclear reactor of a nuclear power plant. Water reactor type nuclear reactor facility (803) side perspective view.
99 is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A conventional pressurized water reactor type nuclear reactor 803 is constructed by the operation of a nuclear power plant and a decompressed inner side of a pressure vessel 813 of a pressurized water reactor type reactor 803 of a conventional nuclear power plant, (813) of an elementary pressurized water reactor type reactor installation (803).
FIG. 100 is a schematic view of a nuclear hydroelectric power plant (nuclear hydroelectric power plant) (FIG. 100) constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector according to the present invention 811 shows a structural configuration of nuclear fission of nuclear fuel uranium 235 showing nuclear fission structure of nuclear fuel uranium 235 showing an essential constitution of an embodiment formed by operation of a nuclear power plant of a conventional nuclear power plant,
[FIG. 101] FIG. 101 is a schematic view of a nuclear hydroelectric power plant of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention. 811 is a side view partially showing a method of using a control rod to control a chain reaction of nuclear fuel fission in a nuclear reactor of a conventional nuclear power plant, Is a disassembled perspective view showing a reactor fuel generation and a steam generator 810, a pressurizer 814, and a coolant 816 of a reactor steam intake system 1073, which show the process of generating plutonium in uranium 238;
FIG. 102 is a schematic view of a nuclear hydroelectric power plant (nuclear hydroelectric power plant) having a double structure block tank dust collector according to the present invention, 811, a conventional gas cooling furnace reactor 804, a nuclear reactor furnace 804 of a conventional nuclear power plant showing the essential constitution of an embodiment formed by the operation of a nuclear power plant, An elemental gas cooling furnace reactor (804) lateral straighter configuration.
FIG. 103 is a schematic view of a nuclear hydroelectric power plant (nuclear power plant) having a dual structural block tank dust collector according to the present invention, 811), an elemental conventional gas cooling furnace reactor arrangement 804 showing the construction of an embodiment formed from a nuclear power plant 804, a side view of a nuclear power plant operating system of a nuclear power plant Side view.
[FIG. 104] FIG. 104 is a schematic view of a nuclear hydroelectric power plant (nuclear hydroelectric power plant) having a double structure block tank dust collector according to the present invention, 811), which is a constituent structure of an embodiment of the present invention formed as a connection structure of a steam generator (810) of a conventional nuclear power plant reactor facility. The elementary nuclear power plant reactor (810) of the steam generator of the plant.
[105] FIG. 105 is a schematic diagram of a nuclear hydroelectric power plant (nuclear hydroelectric power plant) having a double structure block tank dust collector according to the present invention, 811) of the conventional multi-purpose high-temperature gas furnace 805 of the conventional nuclear power plant showing the essential constitution of an embodiment formed by the nuclear power plant operation of the nuclear power plant 805, (804) lateral diagonal configuration of an elemental gas cooling furnace reactor as shown in FIG.
[106] FIG. 106 is a schematic view of a nuclear hydroelectric power plant (nuclear power plant) comprising a main body 1 of a distribution and input device for a nuclear waste disposal system of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention 811 of the prior art multi-purpose hot gas furnace 805 showing the construction of one embodiment formed from a conventional multi-purpose high temperature gas reactor 805 nuclear power plant. (805) side view of an integral multi-purpose hot gas.
[107] FIG. 107 is a schematic view of a nuclear hydroelectric power plant (nuclear hydroelectric power plant) having a double structure block tank dust collector according to the present invention, 811 of the prior art multi-purpose hot gas furnace 805 showing the construction of one embodiment formed from a conventional multi-purpose high temperature gas reactor 805 nuclear power plant. (805) side view of an integral multi-purpose hot gas.
[FIG. 108] FIG. 108 is a schematic view of a nuclear hydroelectric power plant (nuclear hydroelectric power plant) having a double structure block tank dust collector according to the present invention, 811), which is an example of a nuclear power plant of the prior art, which shows the essential constitution of one embodiment formed by the operation of the nuclear power plant of the nuclear power plant (806) (806) side perspective configuration.
[FIG. 109] FIG. 109 is a schematic view of a nuclear hydroelectric power plant (nuclear hydroelectric power plant) having a double structure block tank dust collector according to the present invention, 811 shows a configuration of an embodiment of the present invention, which is formed inside a reactor facility body of a nuclear power plant having a dual structure block tank dust collector for nuclear waste treatment, as a new type conversion furnace facility 806 of a conventional nuclear power plant 672, (806) A double conversion furnace (806) provided in a reactor facility of a nuclear power plant having a dust collector for nuclear waste treatment according to the present invention has a dual structure for elementary nuclear waste treatment Nuclear Power Plant Reactor Facility Having a Block Tank Dust Collector In the present invention, FIG.
FIG. 110 is a schematic view of a nuclear hydroelectric power plant (nuclear hydroelectric power plant) having a double structure block tank dust collector according to the present invention, Sectional view of the elemental conventional nuclear power plant reactor building 688 showing the configuration of one embodiment formed of a conventional nuclear power plant included in the nuclear reactor building 688 shown in detail in the side view of the fuel rod 689, And fuel rod (689).
[FIG. 111] FIG. 111 is a schematic view of a nuclear hydroelectric power plant (nuclear hydroelectric power plant) having a double structure block tank dust collector according to the present invention 811 of the prior art nuclear reactor plant (838). The nuclear reactor plant (838) of the conventional nuclear power plant showing the essential constitution of an embodiment formed by the operation of the nuclear reactor of the nuclear power plant, An elemental side perspective configuration.
[Figure 112] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (838) of a nuclear power plant of a conventional nuclear power plant showing the essential constitution of an embodiment formed by the operation of the nuclear power plant of the nuclear power plant (838) Lateral strap configuration diagram.
[Figure 113] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (838) nuclear fuel plant, which constitutes a conventional high-speed breeder reactor facility (838), which constitutes an elementary fast breeder reactor Nuclear reactor facility (838) side view.
[Figure 114] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Which shows the structure of the nuclear waste disposal method according to the previous design of the plutonium disposal process 1040 in the nuclear dismantling from the disposal facility 1030 of the nuclear base 1029 of the conventional nuclear power plant nuclear waste disposal method, Constitutional diagram of elemental nuclear waste disposal method.
[Fig. 88] to [Fig. 114] each schematically illustrates one embodiment of a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector according to the present invention Degree.
[FIG. 115] is a view similar to FIG. 115 showing the nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A thermal power plant 622 of a conventional thermal power plant 626 showing an essential constitution of an embodiment formed by thermal power generation operation of a conventional thermal power plant 626 having a power plant connection structure, (772) operation of the thermal power plant (626).
[Figure 116] is included in the nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plants having the double structure block tank dust collector according to the present invention (838) Nuclear reactor plant (838) An elemental conventional fast breeder reactor facility (838) showing the configuration of an embodiment formed from a nuclear power plant. The elementary fast breeding Nuclear reactor facility (838) Deformed lateral strait configuration.
[Figure 117] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Which is a nuclear waste disposal apparatus for operating a nuclear power plant having a nuclear waste disposal apparatus that provides a nuclear waste disposal apparatus for recovering the nuclear power plant before and after a failure during operation of a nuclear power plant of a conventional nuclear power plant, A schematic view of a nuclear waste disposal system for the operation of a nuclear power plant of a nuclear power plant, which shows a side view of a nuclear waste disposal apparatus for nuclear power plant operation.
[Figure 118] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Nuclear power plant operation of Nuclear Power Plant which provides Nuclear Waste Treatment System for recovery before and after breakdown of Nuclear Power Plant Operation of Nuclear Power Plant Deep Safety Nuclear Power Plant Operation of Elemental Conventional Nuclear Power Plant Fig. 5 is a schematic view of a fifth aspect of the present invention, in which the fifth safety barrier is shown as a side view and a cross-sectional view in a conventional nuclear power plant.
119 is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention The operation of a nuclear power plant operating a nuclear power plant having an evaporator structure 1005 of a nuclear power generation facility 811 and a steam generator 810 and an intermediate heat exchanger 657 during operation of a nuclear power plant of a conventional nuclear power plant, The steam generator 810 and the intermediate heat exchanger 657 of the atomic power generation facility unit 811 steam generator 1005 and the intermediate heat exchanger 657 during the operation of the nuclear reactor of the conventional nuclear power plant, Nuclear Power Plant Operation Nuclear Power Plant (811) Evaporator Structure (1005), Steam Generator (810) and Intermediate Heat Exchanger (657)
120 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A reactor of a conventional nuclear power plant as shown in a sectional view of a conventional nuclear power plant showing an essential constitution of an embodiment formed by operation of a nuclear power plant of a boiling water reactor (802) and a pressurized water reactor (803) A nuclear power plant of a boiling water reactor system 802 and a pressurized water reactor system 803 of a nuclear power generation facility 811 constructed inside the facility main body 1.
121 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (1) of a conventional nuclear power plant showing an operation method of a nuclear power plant of a conventional nuclear power plant as a side view of the nuclear power plant of the nuclear power plant (811).
[Figure 122] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention And a steam generator 810. The steam generator 810 and the evaporator structure 1005 of the steam generator are connected to the intermediate heat exchanger 657. The nuclear power plant (811) The intermediate heat exchanger 657, the evaporator structure 1005 of the steam generator, and the steam generator 810 are shown in side elevational and side elevational views, while nuclear power plants of the conventional nuclear power plant are operated. ) Diagram of an intermediate heat exchanger (657) and an exploded side view of an evaporator structure (1005) and a steam generator (810) of a steam generator.
123 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention The steam generator 810 of the nuclear power plant 811 of the elementary conventional nuclear power plant showing the construction of one embodiment of the nuclear power plant having the steam generator 810 provided with the steam generator 810, Nuclear Power Plant Nuclear Power Plant (811) Steam Generator (810) Side View.
124 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Of the nuclear power plant installed in the central control room 781 and the robot 912 is provided with the remote control cutter and the robot 912. The operation of the nuclear power plant of the nuclear power plant, A nuclear waste disposal method of a nuclear power plant providing a cutting machine and a robot 912 by a remote control of a nuclear waste disposal apparatus remote from the production power central control room 781 of the power generation facility unit 811, A nuclear waste disposal apparatus (not shown) constituted inside the nuclear power generation facility 811, the production power central control room 781, Cutters, and the robot 912 side exploded perspective structure of a nuclear plant operating nuclear waste processing method according to the remote control Fig.
[Figure 125] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention The nuclear fuel cycle 1077 of the nuclear power plant 811 during the nuclear power plant operation of the elemental conventional nuclear power plant showing the configuration of the nuclear power plant operation example of the nuclear fuel power plant 1077 of the nuclear fuel industry cycle 1077, A schematic view of the disassembly side view of the fuel transfer process and the repair inspection scene of the nuclear fuel industry cycle (1077) of the nuclear power plant (811) during the operation of the nuclear power plant of the conventional nuclear power plant showing the side view and the sectional view of the inspection scene.
[Figure 126] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A hydrostatic generator and an engine side elementary strainer configuration showing a structural and engine side view showing an elemental configuration of an embodiment formed for operation of a nuclear power plant of a TVA paradise power station steam turbine generator in the vicinity of a conventional paradise in Kentucky;
127 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention The nuclear power plant of the conventional thermal power plant is operated. The nuclear power plant of the conventional nuclear power plant showing the construction of the embodiment is shown. Which is a decomposition side view of the operation method of the thermal power generation operation of the thermal power plant during operation of the nuclear power plant of the conventional nuclear power plant shown in FIG.
128 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention The nuclear power plant of the conventional thermal power plant is operated. The nuclear power plant of the conventional nuclear power plant showing the construction of the embodiment is shown. Of the nuclear power plant (811) constituting the inside of the main body (1) of the nuclear power plant for nuclear waste disposal shown in the side view of the turbine rotary blade (267) Elementary side view of the operation method.
129 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention The operation of a nuclear power plant for generating a thermal power plant of a thermal power plant, a nuclear power plant of a conventional nuclear power plant showing an essential constitution of an embodiment, a nuclear power plant portion 811, a steam pipe 779, The high pressure steam inlet 780 and the boiler operation rods 783 inside the boiler are disassembled side by side in a sectional view of the nuclear power plant of the conventional nuclear power plant while the nuclear power plant portion 811 is disassembled. Elemental aspect of the way of operation.
130 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plants having the double structure block tank dust collector according to the present invention The nuclear power plant of the conventional nuclear power plant showing the configuration of one embodiment of the nuclear power plant in which the nuclear power plant is restored during the operation of the conventional nuclear power plant, ) And Transmission Measuring Room Transformer Room (782). The diagram shows the elemental aspects of the operation of the thermal power generation operation of the thermal power plant showing the thermal power generation and operation methods of operation of the nuclear power plant.
131 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Nuclear Power Plant (811) Nuclear Power Plant Nuclear Power Plant (811) Nuclear Power Plant Nuclear Power Plant (811) Nuclear Power Plant Nuclear Power Plant Of the nuclear power plant (811) during operation of the nuclear power plant.
[Figure 132] is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of a nuclear reactor waste disposal reactor for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention Nuclear Power Plant (811) Nuclear Power Plant Nuclear Power Plant (811) Nuclear Power Plant Nuclear Power Plant (811) Nuclear Power Plant Nuclear Power Plant Of the nuclear power plant (811) during operation of the nuclear power plant.
FIG. 133 is a schematic view showing a conventional nuclear hydroelectric power plant 811 constructed inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention, Showing an arrangement of an embodiment of a bulldozer 855 and an excavator 866 of a construction machine constituting the construction site of the North Korean construction ceremony 1083a connected to the north and south roads of the electronic control adjusting apparatus construction machine control unit 811f, The bulldozer 855 of the construction machine constituting the construction site 1083a connected to the North and South of the electronic control regulator construction machine controller 811f included in the nuclear power generation facility 811 during the operation of the nuclear power plant of the conventional nuclear power plant, And an exploded side perspective view of an elemental conventional nuclear power plant 811 shown in cross section.
[134] FIG. 134 is a schematic view of a conventional nuclear hydroelectric power plant 811 constructed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, A hydraulic cylinder or a hydraulic actuator key 623 and a hydraulic cylinder key 623 are provided in the construction machine 108a of the electronic control regulating device construction machine control unit 811f included in the hydraulic control rotary cylinder 620, The construction site 1083a of the construction site 1083a connected to the North and South of the electronic control apparatus construction machine control unit 811f included in the nuclear power generation facility unit 811 during operation of the nuclear power plant of the conventional nuclear power plant A disassembling side of the bulldozer 855 and the excavator 866 of the construction machine, a construction machine integral of the elementary conventional nuclear power plant 811 shown in cross section and a hydraulic cylinder (623) Exploded side perspective configuration of Figure hydraulic cylinder control sakgi excavator 856. Fig.
FIG. 135 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. (214) of a construction machine control unit (811f) and a distributor device of a weighted load accumulator, a spring loaded accumulator, a breather type accumulator, and a nuclear reactor waste treatment facility The filter 214 of the electronic control regulating device construction machine control section 811f included in the nuclear power generation facility section 811 during the operation of the nuclear power plant of the conventional nuclear power plant constituting the embodiment and the load- A schematic view of the decompression side of the impeller, the bridder type, and the accumulator.
[Fig. 114] to [Fig. 135], respectively. Each of the structures according to the present invention comprises a double structure block tank dust collector constructed according to the present invention, a distribution input device for nuclear waste processing nuclear waste hydro- FIG. 8 is a configuration diagram illustrating one embodiment of an apparatus. FIG.
[Figure 136] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A selenium rectification type DC arc welder and an AC arc welder to be added to a plurality of types of welding methods to be installed in a nuclear power plant, and a nuclear power plant of a conventional nuclear power plant constituting one embodiment of a nuclear power plant A selenium rectification type DC arc welding machine and an AC arc welding machine to be installed in a plurality of types of welding methods of the electronic control adjusting device construction machine control part 811f included in the nuclear power generation equipment part 811, A side view showing a conventional welding machine and an AC arc welding machine.
[Figure 137] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention The superconducting power generator 1060 and the superconductor 1062 constituted by the superconducting power generator 1060 of the superconductor constituted by the power transmitting portion 811d for transmitting the power of the electromagnetic propulsion line 1063, a magnetic force 1064, a magnetic levitation highway 1065, a magnetic levitation train 1066, a semiconductor 1067, and a new material 1068, A superconducting superconducting generator 1060 composed of a power transmitting portion 811d for transmitting power included in a nuclear power generating plant 811 during the operation of a nuclear power plant of a conventional nuclear power plant, A superconductor 1062, an electromagnetic propulsion system Side perspective configuration of the electromagnetic force (1063), a magnetic force (1064), a magnetic levitation highway 1065, and a magnetic levitation train 1066, a semiconductor 1067, and a new material 1068 constituting a (1079) FIG.
138 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention And a power transmission unit 811d for transmitting the power to the submarine mineral collection robot 912. The submarine mineral collection robots 912 are constructed of a partial new material 1068 composed of the shape memory alloy new materials 1068, Fig.
[Figure 139] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention And a superabsorbent resin (1081) of a partial new material (1068) composed of new materials (1068) made by a nuclear waste hydrothermal apparatus The crushing pressure crusher 1080 of the partial new material 1068 constituted by the new materials 1068 included in the nuclear power generating facility 811 during the operation of the nuclear power plant constituting the embodiment of the present invention, Side view showing the resin (1081).
140 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (IC) circuit (1082) constituted by an electronic control regulating device construction machine control unit (811f) constituting an embodiment of a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant (IC) circuit (1082) of a partial new material (1068) composed of new materials (1068) included in a nuclear power generation facility part (811) during operation of a nuclear power plant.
141 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants, consisting of rockets (612) for launching satellites and spacecraft, ) Nuclear Hydroelectric Power Plant Body Dock equipped with Electronic Control Regulator Construction Control Section (811f) of Nuclear Hydroelectric Power Plant (811) To launch the satellites and spacecraft made by each country on the upper deck (SDU) FIG. 6 is a side view showing the installation of the rocket 612; FIG.
142 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants, consisting of rockets (612) for launching satellites and spacecraft, ) Nuclear Hydroelectric Power Plant Body Dock equipped with Electronic Control Regulator Construction Control Section (811f) of Nuclear Hydroelectric Power Plant (811) To launch the satellites and spacecraft made by each country on the upper deck (SDU) FIG. 6 is a side view showing the installation of the rocket 612; FIG.
[Figure 143] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention An air intake port 1106a, a fuel supply port 1106b, a pipe 1106c, a compressor 1106d, and a combustion chamber 1106e are connected to the structure 1106 of the jet engine and the operation mode 1107 for the jet engine to carry, A turbine 1106f, and nozzles 1106g.
144 is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (1109) constituting an airplane (1108) facility of an airplane (1108), and an airplane inspection structure (1110).
145 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594,595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant of land and sea among a plurality of nuclear reactor facilities, and a boiling water reactor facility (802) as a construction machine (1) a plurality of nuclear reactors constituting the inside of the main body (1) of the nuclear reactor, a small, medium and large sized marine nuclear power plant (593,594, 595) of hydroelectric power plants (672), nuclear power plants (672), and boiling water reactor facilities (802) Side cross-section perspective view of the same system configuration scene.
146 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention One exemplary embodiment of the present invention is directed to a boiling water reactor facility 802 for loading a plurality of nuclear reactor facilities into a floating nuclear power plant 672 of a small, medium and large marine nuclear hydroelectric power plant of land and ocean, (1) a plurality of nuclear reactors constituting the inside of the main body (1) a small, medium, and large structure showing the construction of the nuclear power plant (593,594,595) of a marine nuclear hydroelectric power plant, and a boiler water reactor (802) to be supplied to a nuclear power plant (672) Side cross-section perspective view of a surface configuration FIG.
147 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention One embodiment of an embodiment includes a boiling water reactor facility 802 for charging a plurality of reactor facilities to a floating nuclear power plant 672 of a small, medium and large sized marine nuclear hydroelectric power plant on land and ocean, (803), gas cooling furnace reactor facility (804), multi-purpose hot gas reactor facility (805), new conversion furnace reactor facility (806) and high speed propagation furnace reactor facility (838) (1) The distribution system of elemental nuclear waste disposal facility, which shows the side view of the operation method of the nuclear power plant, the floatation of small, medium and large sized nuclear hydroelectric power plants. (593,594,595) Numerous nuclear reactor installations Lifting tanks of small, medium and large sized marine nuclear hydroelectric power plants showing the operation method of nuclear reactors (593,594,595) Boiling water reactors (802) and pressurized water reactor installations (803), a gas cooling furnace reactor facility (804), a multipurpose hot gas furnace reactor facility (805), a new conversion furnace reactor facility (806) and a fast breeder reactor facility (838) Side cross section view of the scene.
[Figure 148] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (802) constituting a nuclear hydroelectric power plant having a double structure block tank dust collector in which a boiling water reactor facility (802) is charged into a nuclear waste disposal reactor facility of a nuclear waste disposal facility One embodiment of constructing the boiling water reactor installation (802) as a distribution input device of a reactor installation for elementary nuclear waste treatment showing the coupling system is shown in FIG. ) As a construction machine.
[149] FIG. 149 is a block diagram of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. A double structure block tank dust collector constituting one embodiment of a nuclear waste treatment reactor installation combining a boiling water reactor installation (802) with a construction machine to a nuclear waste treatment reactor installation constituting an atomic hydroelectric power plant A boiling water reactor (802) disassembling and coupling system, which is an apparatus for distributing a nuclear reactor facility for elementary nuclear waste disposal, (802) constituting the boiler water reactor unit (802) constituting the distribution injector of the reactor facility for nuclear waste disposal A side view of the coupling method.
150 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (802) constituting a nuclear waste disposal reactor installation of a nuclear waste disposal facility (802); a dual structure block tank disposer constituting an embodiment of a nuclear waste disposal reactor installation disposal system for providing an input of a boiling water reactor installation The present invention relates to an apparatus for disassembling and dispensing a nuclear reactor facility for elementary nuclear waste disposal showing a disassembling and coupling system of a reactor facility (802) to a construction machine. A boiling water reactor (802), which constitutes a distributing and inputting device of a reactor facility for nuclear waste disposal of a hydroelectric power plant, Fig. 3 is a side view and cross-sectional view of the disassembly-and-bonding system.
151 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (802) constituting a distributing and inputting device of a nuclear waste disposal reactor for treating nuclear waste, comprising: a double structure block tank which constitutes an embodiment of a distributing and inputting device coupling method for providing a nuclear reactor water supply facility (802) A constitution comprising a distributing and inputting device for elemental nuclear waste treatment reactor equipment showing a decomposition and coupling method in which a boiling water reactor equipment (802) constituting a distributing and inputting device of a nuclear waste disposal reactor of a power plant is constituted by a construction machine The present invention relates to a method for decomposing a nuclear waste of an atomic power plant having a dual structure block tank dust collector, And a boiler water reactor (802) constituting the distribution dispensing apparatus of the facility is constituted by a construction machine.
152 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (802) constituting a nuclear waste disposal reactor facility is constituted by a construction machine. The nuclear waste of a nuclear hydroelectric power plant having a dual structure block tank dust collector constituting one embodiment of a nuclear waste disposal reactor facility installation method As shown in the cross-sectional view of the nuclear reactor facility of disassembly coupling type, which is constituted by a construction machine, a boiling water reactor (802) constituting a distributing and inputting apparatus of the processing nuclear reactor, In one embodiment, the present invention provides a deep reactor safety reactor arrangement structure of a disassembly type. Power hydroelectric plant decomposition constituting a boiling water reactor plant (802) constituting a dispensing chute of the reactor facility to the construction method of in-depth safety coupling reactor equipment-side, cross-sectional configuration diagram.
153 is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (802) constituting a distributing and inputting device of a nuclear waste disposal reactor facility for nuclear waste disposal (802); a nuclear power plant having a dual structure block tank dust collector constituting an embodiment of a nuclear waste disposal reactor facility installation method , A decompositionally coupled deep reactor safety reactor unit (802) constituting a boiling water reactor unit (802) constituting a distribution injector of a reactor facility for nuclear waste disposal of the nuclear waste disposal facility, and an elementary double structure block tank dust collector One embodiment of a nuclear power plant nuclear waste disposal reactor arrangement is a disassembly type deep reactor safety reactor The present invention relates to a nuclear power plant having a dual structure block tank dust collector and a nuclear power plant, and more particularly, to an explosion- Reactor Facility Side, Cross Section View.
[154] FIG. 154 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention, which is included in a nuclear hydroelectric power plant 811 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor (802) constituting a distributing and inputting device of a nuclear waste disposal reactor facility for nuclear waste disposal (802); a nuclear power plant having a dual structure block tank dust collector constituting an embodiment of a nuclear waste disposal reactor facility installation method (927) for explosion-proof type deep-water safety reactor equipment consisting of boiling water reactor equipment (802) of construction equipment, cross-sectional nuclear waste treatment control product, and elemental dual structure An embodiment of a nuclear power plant having a block tank dust collector and a distributing and inputting device for a reactor facility for nuclear waste disposal, The present invention relates to a double reactor block reactor (hereinafter referred to as &quot; nuclear reactor reactor &quot; Combination Type Deep Safety Nuclear Reactor Facility Side, Cross Section Nuclear Waste Treatment Controllable Yellow Loam Mixture (927).
[155] FIG. 155 is a block diagram of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. (593,594,595) nuclear power plant (672) of the offshore and offshore marine nuclear hydroelectric power plants, and a pressurized water reactor facility (803) which injects the nuclear power plant into the nuclear power plant. (1) of a nuclear reactor plant for the treatment of elemental nuclear waste as shown in side elevation of the nuclear power plant operation scene, and (3) (593, 594,595) of the nuclear power plant, the nuclear power plant consisting of a pressurized water reactor (803) to be installed in the nuclear power plant (672) Side view of the side view of the method.
156 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593, 594, 595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant of land and sea among a plurality of nuclear reactor facilities, and a pressurized water reactor facility (803) Construction of a nuclear power plant, which consists of a construction machine, and a side view of the nuclear power plant. Figure 1 is a side view of a nuclear power plant. (593,594,595) for nuclear power plants of medium and large sized marine nuclear power plants, nuclear power plants (672), nuclear power plants (803) Construction view of side view of movable type scene.
[Figure 157] is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (803) into a nuclear waste disposal reactor facility (803) for nuclear waste disposal, comprising a nuclear water disposal system (803) constituting a nuclear hydroelectric power plant having a double- An embodiment in which the pressurized water reactor installation 803 is constituted by a construction machine as a distribution input device of an elementary nuclear waste treatment facility showing a coupling method is described as a pressurized water reactor installation 803 of the present invention, ) As a construction machine.
158 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (803) to the nuclear waste disposal reactor facility (803) for constructing the nuclear waste disposal reactor facility (803) into a nuclear power plant having a double structure block tank dust collector constituting one embodiment of the nuclear waste disposal reactor facility installation method Disclosed is an apparatus for disassembling and disassembling a nuclear reactor waste disposal reactor, which is an apparatus for disposing a nuclear waste. Side construction of the decompression-coupling system in which the pressurized-water reactor installation 803 constituting the distribution dispensing apparatus of the present invention is constituted by a construction machine .
[159] FIG. 159 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. doing
A double structure block tank dust collector constituting one embodiment of a nuclear waste treatment reactor facility facility for providing a pressurized water reactor facility (803) constituting a nuclear waste disposal reactor facility to a construction machine is constituted in a nuclear hydroelectric power plant The present invention relates to a double structure block tank dust collector for disassembling and assembling a nuclear reactor waste disposal unit for disposing a pressurized water reactor unit 803 into a construction machine. A side view and a cross-sectional view of a disassembly-type system constituted by a pressurized water reactor facility (803) constituting a distribution injector of a reactor facility for nuclear waste disposal of a nuclear power plant equipped with a construction machine.
160 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (803) Nuclear waste disposal reactor facility An embodiment of a nuclear disposal reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a dual structure block tank dust collector constituting an embodiment of a nuclear reactor facility disposal system Disclosed is a disassembly-and-coupling type side structure of a pressurized water reactor installation (803) to be charged into a distribution input device of a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a double structure block tank dust collector .
FIG. 161 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention. A double structure block tank dust collector constituting an embodiment of a distribution input apparatus coupling method of a nuclear reactor facility for inputting a pressurized water reactor apparatus 803 constituting a distribution injector apparatus for a nuclear waste disposal reactor to a construction machine, (803) constituting a distributing and inputting apparatus for a reactor plant for nuclear waste disposal of a nuclear power plant equipped with a nuclear power plant is constituted by a construction machine. The nuclear waste disposal of a nuclear hydroelectric power plant having a dual structure block tank dust collector (803) constructed in a distributing and dispensing apparatus of a water treatment reactor installation is constituted by a construction machine.
162 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention One embodiment of the present invention is applied to a gas cooling furnace reactor facility 804 that feeds an embodiment of the present invention to a floating nuclear power plant 672 of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant of land and sea, (1), which is composed of a plurality of nuclear reactors (1, 2, 3, 4, 5, 6, 7, 8, (593, 594,595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant showing the construction of a nuclear power plant consisting of a construction machine Side cross-section perspective configuration of the nuclear power plant operation method scenes constituting a nuclear reactor plant (804) distribution chute to the cooling gas fed to the machine is also set.
[Figure 136] to [Figure 162] each illustrate an embodiment of a distribution input device of a reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector according to the present invention constitution of the related art. .
163 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593, 594, 595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant of land and ocean among a plurality of nuclear reactor facilities. (804) is shown as a side cross-sectional view. The lifting type catheter constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor is shown in the side elevational view. (593,594,595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant showing the construction of the nuclear power plant of the nuclear power plant (804) Side cross-sectional view of a nuclear power plant scenario constituting a distribution input device of a nuclear reactor installation (804).
164 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (804) constituting the nuclear reactor furnace (804) as a construction machine is shown as a side cross-sectional view of a nuclear reactor main body (1) (593,594,595) of a small, medium and large sized marine nuclear hydroelectric power plant showing the nuclear plant construction of the gas cooling furnace reactor (804) among the nuclear reactor facilities. The gas cooling furnace FIG. 8 is a side cross-sectional view of a nuclear reactor operating system including a nuclear reactor (804) as a construction machine.
165 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (804) constituting the nuclear reactor furnace (804) constituting the reactor core is constituted inside the main body (1) of the distribution reactor (593, 594, 595) at nuclear power plant (672) of a small, medium and large sized marine nuclear power plant showing the nuclear construction of the nuclear reactor furnace facility (804) among the many nuclear reactor facilities (804) of a gas cooling furnace reactor (804) for use in a construction machine.
[166] FIG. 166 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention, which is included in a nuclear hydropower generation facility 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor (804) to a construction machine for a nuclear waste treatment reactor installation having a double structure block tank dust collector constituting an embodiment of a nuclear waste treatment reactor installation. (804) of the reactor cooling system (804) showing the disassembling and coupling system showing the constitution of the atomic nuclear waste disposal unit of the nuclear disposal reactor main body (1) (593,594,595) of a small and medium-sized and large-scale marine nuclear power plant showing the construction of a nuclear power plant (672) Stock is a side configuration of the decomposition combined method of configuring a nuclear reactor plant (804) to a gas cooled to a construction machine Fig.
[167] FIG. 167 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention, which is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor (804) into a construction machine for a nuclear waste treatment reactor installation having a double structure block tank reactor constituting an embodiment of the nuclear waste disposal reactor arrangement for gas cooling of a nuclear power plant having a dust collector (804), which is a disassembly-coupled-type deep-safety reactor installation showing the construction of the nuclear power plant, and an elementary dual-structure block tank showing the cross-section. Distribution of nuclear reactor waste disposal facilities for marine nuclear hydroelectric power plants An embodiment of a double structure block tank of the present invention showing an arrangement structure of a deep-safety nuclear reactor of an explosive- Deep-coupling type deep-layer safety reactor system consisting of a gas-cooling furnace reactor (804) constituting a distributing and inputting device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a nuclear power plant. .
[168] FIG. 168 is a block diagram of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention. (804) to a construction machine for a nuclear waste treatment reactor installation having a double structure block tank dust collector constituting an embodiment of a nuclear waste treatment reactor installation. Dispensing injector of nuclear reactor waste disposal facility Disassembly coupling type deep reactor safety reactor facility showing reactor operation configuration of gas cooler furnace reactor (804) Facility side, elementary dual structure block showing sectional view Marine nuclear power One embodiment of a distribution input device of a reactor plant for the treatment of nuclear waste of a hydroelectric plant is a decompositionally coupled deep- Unconfigured showing decomposition combination constituting a nuclear reactor plant (804) to the cooling gas constituting the present invention as a construction machine method of in-depth safety nuclear reactor equipment-side, cross-sectional perspective diagram.
169 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593, 594, 595) of a small, medium and large sized marine nuclear power plant of land and ocean among a plurality of nuclear reactor facilities, a multi-purpose high temperature gas reactor installation (805) to a nuclear power plant (672) (1), which is composed of a plurality of nuclear reactor facilities, which are composed of a plurality of nuclear reactor facilities, and a nuclear reactor facility (593, 594,595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant showing the construction of a nuclear power plant consisting of a construction machine A side cross-sectional view of a nuclear power plant with a multi-purpose high-temperature gas reactor (805) as a construction machine.
170 is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor for a marine nuclear hydroelectric power plant having a dual structural block tank dust collector according to the present invention (593, 594, 595) nuclear power plant (672) of a small and medium-sized and large-scale marine nuclear hydroelectric power plant of land and ocean among a plurality of nuclear reactor facilities, a multi-purpose hot gas reactor installation (805) (1), which is composed of a plurality of nuclear reactor facilities, which are composed of a plurality of nuclear reactor facilities, and a nuclear reactor facility (593,594,595) nuclear power plants (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants showing the construction of the nuclear power plant, Side cross-section perspective configuration of the nuclear power plant operation method scenes constituting a multi-purpose high-temperature gas reactor plant 805 in a construction machine Fig.
171] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (805) as a construction machine, which is a multi-purpose high-temperature gas, and a side-by-side view of the nuclear power plant. (593,594,595) nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants showing the construction of a nuclear power plant consisting of multi-purpose high temperature gas reactor equipment (805) A side cross-sectional view of a nuclear power plant with a high temperature gas reactor (805) as a construction machine.
172 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (805) as a construction machine is constituted by the inside of the main body (1) of the distributing and inputting apparatus of the nuclear reactor facility for elementary nuclear waste treatment, (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants showing the construction of a nuclear power plant consisting of a multi-purpose high-temperature gas reactor (805) A side view of a decompositionally coupled system in which a nuclear reactor facility 805 is constructed by a construction machine with a multipurpose hot gas at a power plant 672;
[173] FIG. 173 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention, which is included in a nuclear hydropower generation facility 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor (805) to a construction machine for a multi-purpose hot gas reactor in a nuclear waste disposal reactor facility having a double structure block tank dust collector constituting an embodiment of a nuclear waste disposal reactor facility disposal system. (805) into a construction machine, which is a multi-purpose high temperature gas of the nuclear reactor (805). A small, medium-sized and large-scale offshore nuclear hydroelectric power station showing the construction of a nuclear power plant consisting of a high-temperature gas reactor (805) (593,594,595) A side view of a decomposition coupling system in which a nuclear power plant (672) is equipped with a multipurpose hot gas reactor (805) as a construction machine.
[174] FIG. 174 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention, which is included in a nuclear hydropower generation facility unit 811 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor (805) as a multi-purpose high-temperature gas reactor (805) to a nuclear waste disposal reactor installation to construct a nuclear waste disposal reactor installation. Distribution of nuclear reactor waste treatment facilities for marine nuclear hydroelectric power plants equipped with elemental dual structure block tank dust collectors, which show the cross-sectional side view of the deep-seated safety reactor facility, which consists of a reactor with high temperature gas (805) One embodiment constructed as a dosing device is a double structure block tank of the present invention showing a disassembly type deep safety reactor configuration. (805) as a construction machine in a multi-purpose high temperature gas reactor (805) constituting a distribution input device of a nuclear reactor waste disposal facility of a marine nuclear hydroelectric power plant having a nuclear power plant. Degree.
175 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (805) to a construction machine for a multi-purpose hot gas reactor in a nuclear waste disposal reactor facility having a double structure block tank dust collector constituting an embodiment of a nuclear waste disposal reactor facility disposal system. (805) as a multi-purpose high temperature gas furnace 805 as a construction machine in the distribution apparatus of nuclear reactor waste disposal facility for nuclear waste disposal, with a double-structure block tank dust collector An embodiment of a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant is described as an example of a deep- In the equipment configuration shown exploded combination constituting a nuclear reactor plant (805) to the multi-purpose hot gases that make up the present invention as a construction machine method of in-depth safety nuclear reactor equipment-side, cross-sectional perspective diagram.
[176] FIG. 176 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention, which is included in a nuclear hydropower generation facility 811 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor (593, 594, 595) nuclear power plants of small and medium sized and large sized marine nuclear hydroelectric power plants constituting a new type conversion reactor facility (806) among a plurality of nuclear reactor facilities, (1) constituting a nuclear reactor operation facility for constructing a nuclear reactor facility (806) as a new type conversion reactor furnace (672) inside a main body (1) of a nuclear reactor waste disposal reactor (672) of a marine power plant showing the construction of a nuclear power plant consisting of a new type of reactor facility (806) A side cross-sectional view of a nuclear power plant in which a nuclear power plant (806) is constructed as a conversion machine.
177] is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593, 594, 595) nuclear power plant (672) of a small, medium and large sized marine nuclear power hydro power plant of land and ocean among a plurality of nuclear reactor facilities (1) of a nuclear reactor waste disposal facility for elemental nuclear waste disposal shown in side cross-section in a nuclear reactor operating system configuration consisting of a machine. (593, 594,595) nuclear power plants (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants, Side cross-section perspective view of a nuclear power plant as configured movable manner scenes constituting the equipment 806 in the construction machine Fig.
178 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (806) as a construction machine is shown as a side cross-sectional view of a nuclear reactor waste disposal nuclear reactor facility (1). (593, 594,595) nuclear power plant (672) of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a new type of reactor facility (806) A side cross-sectional view of a nuclear power plant in which a nuclear power plant (806) is constructed as a conversion machine.
[179] FIG. 179 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention. (806) is constructed as a construction machine. The operation of the nuclear power plant constituting the nuclear power plant (806) is divided into a side section. The elementary nuclear power plant (593,594,595) Nuclear power plant (672) of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a new type of reactor facility (806) (806) as a construction machine.
180 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (806) to a nuclear waste disposal reactor facility to construct a nuclear reactor waste disposal reactor facility (806) into a construction machine. (806) as a construction machine, showing the disassembly-and-coupling system, which is constituted by a new type of conversion reactor. A floating-type dock of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a conversion reactor (806) (593,594,595) A side view of the disassembly and coupling system in which a nuclear reactor (672) is equipped with a new conversion reactor (806) as a construction machine.
181 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A new type of nuclear power plant with a double structure block tank dust collector constituting one embodiment of a nuclear waste treatment reactor facility facility which provides a nuclear waste disposal reactor facility to install a new conversion reactor facility (806) into a construction machine. (806) of the nuclear reactor facilities (806) as a construction machine, the side of the nuclear reactor hydroelectric power plant having an elementary double structure block tank dust collector An embodiment of a distribution input device of a reactor facility for nuclear waste disposal is shown in FIG. (806) constructed in a distributing and inputting device of a reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, Cross - sectional view.
[182] FIG. 182 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention, which is included in a nuclear hydropower generation facility 811 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor (806) to a nuclear waste disposal reactor facility to construct a nuclear reactor waste disposal reactor facility (806) into a construction machine. (806) constituting a new type conversion reactor (806) constituting a distributing and inputting apparatus of a reactor facility for nuclear waste disposal and a construction machine. (806) as a construction machine to a distribution reactor of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant. The embodiment of the present invention is an explosion-proof type deep reactor safety reactor structure constituting a new type conversion reactor facility (806) constructed in accordance with the present invention, .
183 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594, 595) nuclear power plants of small and medium sized and large sized marine nuclear hydroelectric power plants constituting a high speed multiproduct reactor facility (838) among a plurality of nuclear reactor facilities as a construction machine, (1) constituting the nuclear reactor operation system constituted by the reactor plant (838) of the fast breeder reactor facility (672) in the main body (1) of the reactor apparatus for elementary nuclear waste treatment, Fuel of small, medium and large sized marine nuclear power plants showing the construction of the nuclear power plant consisting of the construction equipment of the high-speed multiproduct reactor facility (838) among the many nuclear reactor facilities Dock (593 594 595), the side cross-section perspective configuration of the nuclear power plant operation method scene constituting the plant reactor to the fast breeder nuclear power plants 672 838 a construction machine Fig.
[184] FIG. 184 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention, which is included in a nuclear hydropower generation facility 811 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor (593,594, 595) nuclear power plants of small and medium sized and large sized marine nuclear hydroelectric power plants constituting a high speed multiproduct reactor facility (838) among a plurality of nuclear reactor facilities as a construction machine, (1) constituting the nuclear reactor operation system constituted by the reactor plant (838) of the fast breeder reactor facility (672) in the main body (1) of the reactor apparatus for elementary nuclear waste treatment, Fuel of small, medium and large sized marine nuclear power plants showing the construction of the nuclear power plant consisting of the construction equipment of the high-speed multiproduct reactor facility (838) among the many nuclear reactor facilities Dock (593 594 595), the side cross-section perspective configuration of the nuclear power plant operation method scene constituting the plant reactor to the fast breeder nuclear power plants 672 838 a construction machine Fig.
185 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Which constitutes a reactor plant 838 as a construction machine, as a side view, and a plurality of lifting-type docks constituting the inside of the main body 1 of the nuclear reactor disposal apparatus for nuclear waste treatment, (593,594, 595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant showing the construction of a nuclear power plant consisting of a fast breeder reactor facility (838) A side cross-sectional view of a nuclear power plant with a reactor plant (838) as a construction machine.
[186] FIG. 186 is a schematic view of a nuclear hydroelectric power plant including a dual structure block tank dust collector according to the present invention, which is included in a nuclear hydropower generation facility 811 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor (838) constituting the nuclear reactor plant (838) constituting the nuclear power plant is constructed as a side section of the nuclear power plant (838). (593,594,595) Nuclear power plant (672) of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a fast breeder reactor facility (838) (838) as a construction machine.
[187] FIG. 187 is a schematic view of a nuclear hydroelectric power plant including a double structure block tank dust collector according to the present invention, which is included in a nuclear hydropower generation facility 811 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor (838) to the construction machine for the nuclear waste treatment reactor installation of the nuclear waste disposal plant (838) constituting an embodiment of the nuclear waste disposal reactor installation of the marine nuclear power plant (8) Rapid propagation furnace reactor facility (838) Dispensing unit for elemental nuclear waste treatment facility showing disassembly and coupling system. (1) Lifting fuel system constituting inside of main body (1) Among many nuclear reactor facilities, (593,594, 595) Nuclear Power Plants (593,594, 595) of small, medium and large sized marine nuclear hydroelectric power plants, 672) is a side view of a disassembly-coupled system in which a high-speed reactor 738 is constructed of a construction machine.
188 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A nuclear waste disposal reactor arrangement for providing a high-speed multiproduct reactor installation (838) to a construction machine for a nuclear waste disposal reactor installation. A double structure block tank constructing an embodiment of a joint installation type. (838) as a construction machine, the side of which is a disassembly-coupled type deep-safety reactor installation side, the elementary dual-structure block showing a cross-sectional view of the nuclear reactor plant A double structure block tank house of the present invention showing an arrangement structure of a deep-safety nuclear reactor of a disassembly type, Marine nuclear hydraulic plants of nuclear waste disposal of the degradation combined method of configuring a nuclear reactor plant (838) fast breeder constituting the distribution chute of the reactor facility to the construction machine in-depth safety nuclear reactor equipment-side for a cross section perspective view configuration having an FIG.
189 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (838) to the construction machine for the nuclear waste treatment reactor installation of the nuclear waste disposal plant (838) constituting an embodiment of the nuclear waste disposal reactor installation of the marine nuclear power plant Nuclear Reactor (Nuclear Power Plant) Nuclear Reactor (Nuclear Power Plant) Nuclear Reactor (Nuclear Power Plant) Nuclear Power Plant (Nuclear Power Plant) An embodiment of a nuclear reactor waste disposal unit of a hydropower plant is divided into a deep reactor safety reactor Safety equipment showing depth of the decomposition reactor combined method of configuring a nuclear reactor plant (838) fast breeder constituting the present invention as a construction machine side, cross-sectional perspective diagram.
[Figure 163] to [Figure 189] each illustrate an embodiment of a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector according to the present invention constitution of the present invention. .
190 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594,595) Nuclear power plants (593,594,595) of small and medium sized and large sized marine nuclear hydroelectric power plants consisting of a plurality of nuclear reactors constituting an embodiment of the nuclear power generation nuclear waste treatment unit (811a) 672) Nuclear power plant (672) that constitutes a nuclear waste disposal facility consisting of a plurality of nuclear reactor facilities constructed by a construction machine in a dual structural block tank bridge bridge (929) The construction of a nuclear power plant in a small and medium-sized and large-sized marine nuclear power plant, (593,594,595) Nuclear waste disposal at nuclear power plant (672) Double structure block tank pipe bridge (929) Nuclear power plant (672) Nuclear power plant (672) Nuclear power plant Layout Side View Cross-sectional view.
191] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594,595) Nuclear power plant (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants consisting of a plurality of nuclear reactors constituting an embodiment of the nuclear power generation nuclear waste treatment section (811a) 672) Nuclear power plant (672) that constitutes a nuclear waste disposal facility consisting of a plurality of nuclear reactor facilities constructed by a construction machine in a dual structural block tank bridge bridge (929) The construction of a nuclear power plant in a small and medium-sized and large-sized marine nuclear power plant, (593,594,595) Nuclear waste disposal at nuclear power plant (672) Double structure block tank pipe bridge (929) Nuclear power plant (672) Nuclear power plant (672) Nuclear power plant Layout Side View Cross-sectional view.
192 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Disconnection preventive control section of marine power station Tackle winch and connection structure of tower The tower building winch 137 and the wire rope 19 of the elevator machine room constructed by the reducer 251 and the motor body 192 on the roof of each building and the building are connected to the steel tower And a fire prevention disaster prevention line in which an initial evolution is made within one second by mounting a driving wheel roller (135) on the upper part of the cable car (116) Which constitutes the cable car 256 of the nuclear power generation facility unit 811 showing the construction of the disaster prevention preventive control unit of the nuclear power generation facility unit 811 in which the fire fighting and disaster prevention line around the coast and the beach is built, Strabismus configuration of the fire prevention measures disaster prevention equipment, supplies pumps also.
193] is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's deck (SDU) The structure of the microswitch 580 showing the position adjustment arrangement and the hydraulic force comprising the pneumatic-sensor pressure switches 104b in the microswitch 183 and the diaphragm type pressure switch 104a in the limit switch 580 Construction of power plant construction machine connection structure.
194 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's deck (SDU) A reference point 102e is formed at the measurement point 102d of the thermoelectric current generation 102b and the thermoelectric power generation 102c according to the thermocouple configuration method 102a of the fire heat temperature sensor detection sensor bimetal 102 Thermocouple thermometer switch (103) for the sensing sensor that constitutes a side view of the thermocouple.
195] is included in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's deck (SDU) A partial side view showing a partial side view constituting a relief valve 474 with a plurality of gear pumps 326 and vane pump 142 showing the position adjustment arrangement.
[196] FIG. 196 is a schematic view of a nuclear hydroelectric power plant including a dual structural block tank dust collector according to the present invention. (593,594,595) of a small, medium and large sized marine nuclear power plant constructed at the upper part of the ship's deck (SDU). The nuclear waste of the first regulated shaft lifting dock dam, which is provided as a hydrological control regulator of a plurality of lifting dams located at the upper part of the hydrological gate (293) of a riverbed dam (680) (293) of the riverbed dam (680) showing the step of constructing the distribution dispenser of the hydrological irrigation control machine included in the distribution dispenser of the processing nuclear reactor facility It is dependent expression dock perspective diagram.
197 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594,595) of a small, medium and large sized marine nuclear power plant constructed at the upper part of the ship's deck (SDU). In the upper part of the floodgate (293) of the riverbed dam (680) showing the construction of the dam flood control system of the flood control facility, a flood control of the first adjustable float dock dam A float-type poisoning arrangement structure located at the upper end of the water gate (293) of the riverbed dam (680) showing the steps of constructing the dispensing device of the machine.
198 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593,594,595) of small-sized, medium-sized and large-sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's deck (SDU) The upper end portion of the water gate (293) of the riverbed dam (680) showing the structure of the dam operation of the flood control facility showing the regulating arrangement is provided with a first regulated axial flood dam (293) of a riverbed dam (680) showing a step of constructing a distribution dispenser of a hydrological construction adjustment machine of a flood control system.
199 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Disaster prevention Preventive control Marine power plant body Each fire type to provide initial evolution within one second Mountain tops and buildings and buildings Elevators for each building Collection of machine room for disaster prevention of pumps and fire prevention installation prevention Preventative control flood control Disaster prevention (1) of a reactor installation for nuclear waste disposal of a nuclear power hydroelectric power plant showing a configuration for illustrating an embodiment of the present invention and a distribution input device connected to a hydroelectric power generation facility and a flood control disaster prevention device Sectional view.
200 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Disruption prevention Preventive control part Wire rope and injection nozzle and double pipe structure Disaster prevention prevention operation of fire hose installation operation Preventive control part Discharge control Dispensing input of reactor facility for nuclear waste disposal showing an example showing disaster prevention device Fig. 8 is a side perspective view of a disaster control and disaster control system for a typhoon in a nuclear hydropower generation facility unit 811 constructed inside the apparatus main body 1; Fig.
201 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Disaster Prevention and Control Section of Fire Fighting Hose Installation Operation of Wire Rope and Injection Nozzle and Double Tubular Structure Fire Hose Installation Operation The nuclear water hydropower generation facility section 811 showing the construction of one embodiment showing the flood control and disaster prevention device A side view and a cross-sectional view of the operation of the distribution input device of the disaster control disaster prevention device.
202 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plants having the double structure block tank dust collector according to the present invention Preventing disaster Preventing control Preventing fire Preventing fire in less than one second Three-step stepping pump Fire extinguisher Fire prevention type collecting tank and manmade turn type level balancing pipe to replace it Disaster prevention prevention part of nozzle installation Disaster control Disaster prevention FIG. 8 is a perspective view of a manometer turn type level balance pipe nozzle of a distribution input device of a hydro-power generation equipment disinfection control disaster prevention apparatus constituting a nuclear hydroelectric power plant unit 811 showing a configuration illustrating an embodiment of the apparatus.
203 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Disaster Prevention and Control Unit for Preventing Disaster Prevention Disaster Prevention and Control Unit for Carbon Dioxide Gas Fire Extinguisher According to Installation of Tube Nozzle Collection Collection Tank of Stepwise Nonmotor Power Water Pump (393) (811) showing the construction of the hydropower generation facility disaster control disaster prevention apparatus constituting the aspect of the installation method of the distribution input apparatus.
204 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Disaster Prevention Control Preventing Disaster Preventing Disaster Preventing Disaster Preventing Disaster Preventing Disaster Prevention of Preventing A Fire and Installation of Hurricane Disruption Device for Anyone in a Double Vinyl Tent Nozzle Fire Protection Supply System in Ridges in Less than 1 Second by Water Pump FIG. 8 is a side view showing the construction of a nuclear power plant constructed in the nuclear hydroelectric power plant unit 811 showing an example of an embodiment of the present invention. FIG.
205 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Preventing disasters Preventing control Preventing forest fires in less than one second Early-stage fire extinguishers Fire extinguishing system Fire prevention type collecting tanks and manmade turn level equilibrating tubes to replace them Preventing disaster prevention by installing nozzles Preventing disaster A power generation facility included in a nuclear power plant power generation facility constituting a nuclear power hydroelectric power plant unit 811 showing a configuration exemplifying the embodiment of the present invention, a three stage stepped pump fire extinguisher, a fire fighting type collecting tank, And an alternate constitution of a manometer turn type level balance pipe nozzle.
206 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (1101) of the disaster prevention and disaster prevention apparatus among the disaster prevention prevention disruption apparatus which can not overcome the disaster prevention preventive control unit constituting the ship 1078 having the conventional rescue force for the sinking vessel and the life rescue disaster prevention disaster prevention apparatus A nuclear waste disposal apparatus of a nuclear power plant of a nuclear power hydroelectric power plant unit 811 showing a constitutional example illustrating an elemental example showing a hatch cover 153 and the lifesaving bed nozzle 172 and the rope 629 and the rope knot claw 630 and the emergency stairs 631 and the elevator alley 632 and the conveyor 633, A nuclear hydraulic power plant part (1) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor with a rod (638), anchor (639), anchor chain (640) and a helicopter (647) (914) side view of a ship (1078) having rescue force for rescue life rescue force constructed in a reactor facility of a nuclear power plant included in a preventive control section of a nuclear power plant (811).
207 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Space power generation The satellite 611b, the geodeset 611b and the geodesic satellite 611c included in the spacecraft and the satellite 611 of the lunar journey constituting the radioactivity contamination preventing satellite 811z, A communication satellite 611a included in the spacecraft and the satellite 611 of the lunar journey constituting the disaster prevention preventive control unit constituting the nuclear hydroelectric power plant unit 811 showing the conventional configuration exemplifying one embodiment, The spacecraft 611b and the geodesic satellite 611c are connected to each other so that the nuclear hydropower generation facility 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility is connected to the ship A satellite 611a included in the satellite 611, a weather satellite 611b, and a geodesic satellite 611c.
208 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Space power generation An ion rocket 612b, a plasma rocket 612c, and a rocket 612b included in a spacecraft and a space rocket 612 of a lunar journey constituting the nuclear radioactive contamination-free satellite control unit 811z, The rocket 612d and the nuclear rocket 612e, which constitute the nuclear hydroelectric power plant unit 811 showing a conventional configuration illustrating an example of the apparatus of the nuclear rocket 612e, An ion rocket 612b, a plasma rocket 612c, a photon rocket 612d, and a liquid fuel rocket 961 in a nuclear rocket 612e, The nuclear power station 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal with the connection of the solid fuel rockets 962 is included in the spacecraft of the lunar and space rockets 612 An ion rocket 612a, an ion rocket 612b, a plasma rocket 612c, a photon rocket 612d, And a side view diagonal view constituting a device of a liquid fuel rocket 961 and a solid fuel rocket 962 in a nuclear rocket 612e.
209 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Space power generation And the combustion chamber 961a constituting the liquid fuel rocket 961 included in the spacecraft and the satellite 611 and the space rocket 612 of the lunar journey constituting the nuclear radioactive contamination prevention satellite control section 811z are provided with the nozzles 961b ), The propellant injection 961c, the control valve 961d, the fuel pump 961e, the fuel tank 961f, the oxidant pump 961g, and the oxidant tank 961h The igniter 962b and the combustion chamber 962c constitute the liquid fuel rocket 961 with the gas generators 961i for the solid fuel rocket 962 and the heat exchanger 962a for the solid fuel rocket 962, And a nuclear power plant 811 constituting the solid fuel rocket 962 with the nozzles 962e and constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility, And a Viking No. 1 probe 1111 included in the satellite 611 and the space rocket 612 and the earth 1112 and the Mars lander 111 5) to probe orbit the orbit of the sun 1116.
210 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention The heat transfer unit of the nichrome wire 659 is installed inside the doctor ventilation 585 in front of the fan 195 constituted by the power transmission unit 811d for transmitting the disaster prevention preventive control power for blowing hot air And the cooling air is supplied to the engine 226 of the electric power generating apparatus through the cooling fan 641. In this case, the cooling fan 642 is installed in front of or behind the fan 196, And a control room 781 and the like in the transformer room 782 and the central control room 781 to constitute a nuclear hydropower generation facility unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor installation Several Punggi 941 side perspective configuration of the type also.
211 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A computer using a vacuum tube constituted by a power transmission unit 811d for transmitting a disaster prevention preventing and regulating power to the first generation, a second generation using a transistor, a third generation using an IC, an LSI or a VLSI IC, the fourth generation, is now the fourth generation, and the heart of the fifth generation of computers that will be equipped with artificial intelligence to judge and compute computation and processing. IC, the heart of the computer, (Nuclear &lt; Desc / Clms Page number 7 &gt; power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus shown in FIG. Also shown is a side-by-side view of the type consisting of several semiconductors, new materials, and rotary cylinders (rack and pinion type -NR P, 620).
212 is included in the nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Which is an excavation equipment used on the land and is equipped with an excavator 845 equipped with a squeegee drill and is configured to be disassembled and disassembled into a hydraulic cylinder 623 and an excavator 845 by a crane 861, After the excavation work (623) and excavator (845) are disassembled, a construction machine is used to build a foundation pier of the seabed by using a bolt nut hammer to break the bolt nut connection for pier foundation post work. A lateral strapless construction view of a construction machine mounted on top of deck deck.
[FIG. 190] to [FIG. 212] each illustrate a configuration for illustrating an embodiment of a distribution input device of a nuclear reactor waste disposal facility for a marine nuclear hydroelectric power plant having a dual structure block tank dust collector according to the present invention. Degree.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Therefore, the present invention is not limited to the embodiments described below, but may be embodied in other forms. In the drawings, the width, length, thickness, and the like of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

In the present invention, the main constituent of the distribution input device of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant having the tank dust collector is K SD 3705 hot rolled stainless steels as the material, and the upper part of the sea surface and the ground surface The use of a dual-structure fire-fighting nozzle injection nozzle device provided at the upper end,

In a nuclear power plant facility constituting a distribution input device of a nuclear reactor waste treatment facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

K SD 3705 Hot-rolled stainless steel pipe with cylindrical shape Double structure block tank holding tank and double structure block tank Barge hull supporting inner block tank and outer block tank installed outside the circumferential surface of the holding tank KS D 3705 steel (KS symbol: S TS x HP, S TS te ain less S-Steel H-Hot P-plate) which constitutes the nuclear hydroelectric power plant facilities,

The flood size of a number of marine nuclear hydroelectric plant facilities,

Small floating upholstery block that makes up a small floating buoy The top of the tank top barge hull,

Width × length × height × thickness of steel plate (Tie), 600M × 800M × 40M × 30mm,

Medium lifted poison pillars that make up the medium lifting poison The upper tank barge hull size,

Width × length × height × thickness of steel plate (Tie; mm), 2 km × 3.2 km × 40 M × 32 mm,

Large floating upholstery block that constitutes a large float-type poison tank The top barge hull size,

Width × length × height × thickness of steel plate, 10km × 12km × 40M × 35mm in three forms of the distance of the standard crossing the earth,

Nuclear waste treatment of 40.000km standard constituting the crossing of the earth Double structure block tank pipe bridge In the marine tunnel traffic equipment,

40.000km Nuclear waste treatment Double structure block tank pipe bridge Marine tunnel equipment,

The standard specification of the above-mentioned Marine Nuclear Hydroelectric Power Plant equipment distributing /

It is composed of a marine nuclear hydroelectric power plant facility distribution dispenser which consists of four sides of width × length × corner thickness × thickness of steel plate × production unit length (15M × 15M × π 15M × 35mm × 0.5km).

Nuclear waste treatment dual structure block tank bridge bridge composed of marine nuclear hydroelectric power plant facility distributing and inputting equipment Marine tunneling equipment of marine tunnel traffic facility of marine tunnel traffic equipment facility (15M × 15M × π15M × 35mm × 0.5km) The bridge,

5m in diameter and 5m in depth of 5m at the depth of the sea floor,

A double pipe structure tank pipe which composes a marine tunnel traffic facility. Several bands for construction of a pier bridge and several construction machines are installed. The pipe bridge is installed at a height of 300m above sea level,

It is designed to be built up with several band guides and several construction machines for the installation of sinking prevention rescue ships which constitute the distribution equipment of marine nuclear hydroelectric power plants, and then height adjustment is made within 100M below the sea level (SLL) Of marine vessels shall be equipped with safe navigation vessels to prevent sinking,

The nuclear power plant of the marine nuclear power plant having the dual structural block tank dust collector and the marine tunnel transportation apparatus of the control shaft for regulating the flow of the nuclear reactor facility constituting the distribution input apparatus main body of the nuclear reactor waste disposal apparatus, In the buoyancy type dock nuclear power plant,

×핀 몸체 직 경∮;500×2×10∮mm)을 접속하면서 핀 연결축 끝단 부위로 가공된 나사 산 위치에 너트로 분해결합을 마련하고 예인선에 이송된 이중구조블록탱크는 반 잠수 작업 선에 탑재되는 밴드 지 그대에 의해서 조립되는 지주탱크 상단의 바지선선체(가로×세로×높이×철판두께;600M×800M×40M×18mm)와,지주탱크 하단의 바지선 선체는, 관 교량(가로×세로×4곳 모서리 직 경×두께×제작단위;15M×15M×π15M×24m m×1Km)에 지주탱크와 내부 블록탱크의 둘레 면에 구성하는 외부블록탱크에 각개로 결합 구성된 크기는 소형의 해양발전소 부양 식 독(가로×세로×높이;600M×800M×800M)에 중형의 해양발전소 부양 식 독(가로×세로×높이;2Km×3.2Km×2Km)과 대형의 해양발전소 부양 식 독(가로×세로×높이;10Km×10Km×10Km)으로 해양수심에 따라 구성 작동하고,휴대용 러 그 핀이 러 그 연결축의 가공 홀에서 볼트 너트 체결하고,러 그 핀이 이탈 방지를 핀 꺾기로 설치를 마무리하고 지주탱크 하단의 바지선 선체의 받침대 조절기구 작 키 베 드 와 코 아 드릴(직 경 350Ø 또는 400Ø)로 구비된 홀 캇 팅 굴착 드릴 장치가 탑재되어 구성하는 해양원자력수력발전소는,External tank tanks in the holding tanks and inner block tanks The lengths of the connecting shafts for connecting the portable luggers to the inner and outer walls of the respective tanks are 800 mm, the diameter is 300 mm, the thickness of the iron plate of the portable rhea is 150 mm, (Diameter x 30 mm) of the connection pin connecting shaft is connected with a connecting rod pin (length x

× 500 × 2 × 10 ∮ mm), while the double structure block tank transferred to the tugboat is provided with a nut at the screw thread position machined to the end of the pin connection shaft, (Width × length × height × thickness of steel plate: 600M × 800M × 40M × 18mm) at the top of the holding tank assembled by the ship and the barge ship hull at the bottom of the holding tank, The size of which is connected to the outer block tank which is formed on the circumferential surface of the holding tanks and the inner block tanks in the size of 15 mm × 15 mm × 15 mm × 24 mm × 1 km) (Length × width × height: 2Km × 3.2Km × 2Km) and large-scale marine power plant lifting dock (length × width × height = 600M × 800M × 800M) × height; 10 Km × 10 Km × 10 Km), and the operation is carried out according to the depth of the sea. The bolt nut is tightened in the machining hole of the connecting shaft and the lug pin is finely set by finishing. Finish the installation with the keybed and the core drill (350 Ø or 400Ø in diameter) on the bottom of the holding tank The marine nuclear hydroelectric power plant, which is equipped with a hole cutting drilling rig equipped,

Injection nozzles composed of upper and lower deck deck tops at the top of the barge hull at the top of the holding tank, assembled at sea by anti-sinking buoyancy control device, have a nozzle hole diameter of 3 mm or 7 mm nozzles, Type nozzles and 490 nozzle holes Firebox with water pressure inside the fire hose inside the nozzle and piping nozzle body (B) Sprayed out through the gap between the spray nozzles Sprayed water is discharged from the nozzles, And a dispensing device of a flood control device of a flood control facility which includes controlling the flow of a typhoon and a tornado stream while removing the pillar at the moment of decontamination, and a plurality of spray nozzles are installed in a marine A nuclear power plant, a nuclear power plant,

Nuclear waste treatment double-structure block tank for regulating the distribution input device installation of nuclear reactor waste disposal facility of marine nuclear power hydro-electric power plant equipped with dual structural block tank dust collector Marine tunnel transportation device and marine nuclear power plant floatation system Dock distribution device In nuclear plant facilities,

It is necessary to construct the ship so that crews and passengers will not be killed by sinking while the safety voyage does not lose their restoring force even in the weather condition of any bad condition, and the load of the pipe bridge object of the barge hull is dispersed We have prepared the repair facilities of the hydroelectric power plant of the marine nuclear power plant,

A dual-structure block tank system for the operation of the nuclear power plant of the global nuclear power plant and a plurality of nuclear reactors and the nuclear power plant for the nuclear waste disposal of marine nuclear hydroelectric power plants, The present invention relates to the provision of nuclear cranes for construction equipment in accordance with the economic development of the marine environment industrial industry. The present invention relates to the distribution of reactor facilities for processing nuclear waste of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector Device.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 145, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (593, 594, 595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant of land and marine, among a plurality of nuclear reactor installations, to construct a boiling water reactor plant (802) (1) A plurality of nuclear reactors constituting the inside of the main body (1) Small, medium and large sized marine nuclear power plants showing the construction of the nuclear power plant operation system (593,594, 595) nuclear power plant (672) of the nuclear power plant and a boiling water reactor facility (802) put into the nuclear power plant constitute the construction machine Is a perspective side cross-sectional configuration of the nuclear power plant operation method road scene,

Referring to FIG. 146, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention One embodiment includes a boiling water reactor system 802 for loading a plurality of nuclear reactor facilities into a floating nuclear power plant 672 of a small, medium and large sized marine nuclear hydroelectric power plant of land and sea, (1) of the nuclear reactor plant for the treatment of nuclear waste. (1) A plurality of nuclear reactors constituting the inside of the nuclear reactor main body (1). Small and medium-sized nuclear reactors (593,594,595) of large-scale marine nuclear hydroelectric power plants, nuclear power plants (672), and boiler water reactor facilities (802) Scene of the way side cross-sectional configuration deviation road,

Referring to FIG. 147, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, One embodiment includes a boiling water reactor facility 802 for charging a plurality of reactor installations to a floating nuclear power plant 672 of a small, medium and large sized marine nuclear hydroelectric power plant on land and ocean, It consists of a pressurized water reactor (803), a gas cooling furnace reactor (804), a multipurpose hot gas reactor (805), a new conversion furnace reactor (806) and a fast breeder reactor facility (838) (1) of a nuclear reactor plant for the treatment of elemental nuclear waste as shown in side elevation of the nuclear power plant operating scene of the nuclear power plant, (593,594,595) Numerous nuclear reactor installations A floating nuclear reactor hydraulics plant (593,594,595) of a small, medium and large sized nuclear power plant showing the nuclear reactor operation configuration The boiling water reactor facility (802) charged to a nuclear power plant (672) (803), gas cooling furnace reactor facility (804), multi-purpose hot gas reactor facility (805), new conversion furnace reactor facility (806) and fast breeder reactor facility (838) Nuclear operation method Side view of the scene Sagittal configuration of the road,

Referring to FIG. 148, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, A boiler water reactor system 802 constituting a nuclear hydroelectric power plant having a dual structure block tank dust collector of a nuclear waste treatment type in which a boiling water reactor system 802 is charged into a nuclear waste treatment reactor system including the reactor One embodiment of constructing the boiling water reactor (802) as a construction machine by a distributing and inputting device of an elementary nuclear waste treatment facility showing the decomposition and coupling method is a boiler water reactor facility of the present invention 802) as a construction machine,

Referring to FIG. 149, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention A nuclear waste disposal reactor arrangement for providing a boiler water reactor installation (802) into a construction machine for the nuclear waste disposal reactor installation including the nuclear waste disposal reactor configuration The present invention relates to an atomic power plant having a double structure block tank dust collector having a disassembly and coupling type structure and an apparatus for distributing and supplying atomic nuclear waste to a boiling water reactor facility (802) A boiling water reactor (802) constituting a distributing and inputting device of a reactor facility for nuclear waste disposal of a power plant is connected to a construction machine A decomposition-coupled configuration to the side road,

Referring to FIG. 150, a nuclear hydroelectric power plant 811 having a dual structural block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for processing marine nuclear hydroelectric power plants. (802) constituting a nuclear waste disposal reactor installation comprising a nuclear waste disposal facility (802) comprising a dual structure block tank constructing an embodiment of a nuclear waste disposal reactor installation arrangement providing a boiler water reactor installation The present invention is an apparatus for distributing nuclear reactor facilities for atomic nuclear waste treatment, which is a disassembling and coupling system for a water reactor (802), to a construction machine. The dual structure block tank dust collector Construction of the boiling water reactor facility (802) constituting the distribution input device of the reactor facility for nuclear waste disposal of the nuclear hydroelectric power plant Side of the combined degradation method of configuring to step, road sectional configuration,

Referring to FIG. 151, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor facility for processing marine nuclear hydroelectric power plants. (802) constituting a distribution dispensing apparatus for a nuclear waste disposal reactor including the nuclear waste disposal apparatus (802), and a nuclear waste disposal apparatus (802) consisting of a boiler water reactor unit (802) constituting a distribution input unit of a reactor facility for nuclear waste disposal of a hydroelectric power plant is constituted by a distribution input unit of elementary nuclear waste processing reactor unit DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings, in which: Decomposition of combining method to configure a boiling water reactor plant (802) constituting a dispensing chute of the reactor plant for a construction machine side configuration road,

Referring to FIG. 152, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear waste hydro- A nuclear waste treatment reactor consisting of a boiling water reactor arrangement (802) constituting a nuclear waste disposal reactor installation including a nuclear reactor, comprising a double structure block tank dust collector constituting an embodiment of a coupling system A disassembly-coupled type deep-safety nuclear reactor equipment side constituting a boiling water reactor apparatus (802) constituting a distribution injector of a waste treatment reactor apparatus, A double structure block tank dust collector according to the present invention, which shows an arrangement structure of a deep-safety nuclear reactor of disassembly type, A nuclear power reactor of the hydroelectric power plant in depth safety nuclear reactor of the distributed input decomposition constituting a boiling water reactor plant (802) to configure the device to the construction scheme of the coupling facility equipment-side, cross-sectional configuration road,

Referring to FIG. 153, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, (802) constituting a distribution injector of a nuclear waste disposal reactor including the nuclear waste disposal facility (802). A nuclear waste disposal facility comprising a dual structure block tank dust collector A disassembly-coupled type deep-safety reactor installation side that constitutes a boiling water reactor system (802) constituting a distribution injector of a nuclear reactor waste disposal reactor of a power plant is constructed by a construction machine, and an elementary dual structure block tank collector An embodiment comprising a distributing device of a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant is described as a deep safety The present invention relates to a reactor structure, and more particularly, to an atomic hydroelectric power plant having a dual structure block tank dust collector having a boiler water reactor (802) Safety reactor side, cross-section diagonal construction road,

Referring to FIG. 154, a nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (802) constituting a distribution injector of a nuclear waste disposal reactor including the nuclear waste disposal facility (802). A nuclear waste disposal facility comprising a dual structure block tank dust collector (927) for explosion-proof type deep-water safety reactor equipment consisting of a boiling water reactor plant (802) of a power plant and construction equipment, and an elementary duplex An embodiment comprising a distributing device of a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a structural block tank dust collector, The present invention relates to a double reactor structure tank reactor having a boiler water reactor (802) constituting a distribution injector of a reactor facility for nuclear waste treatment of a nuclear hydroelectric power plant having a dust collector, (927) for blast furnace for nuclear waste disposal control equipment, and the unconfined state of the explosion scene of the former unprotected nuclear power plant,

As shown in FIGS. 145 to 154, a nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, ) Having a double structure block tank dust collector constituting an embodiment of a nuclear waste treatment reactor facility coupling method for providing a boiling water reactor facility (802) for constituting a distribution injector of a nuclear waste treatment facility A boiling water reactor (802) for the treatment of nuclear waste of a nuclear hydroelectric power plant having a dual structure block tank dust collector constituting a disassembling and coupling system with a distributing and inputting device of a reactor plant for nuclear waste disposal of a nuclear hydroelectric plant, Consists of.

CLAIMS 1. A distribution dispensing apparatus for a nuclear waste disposal facility for a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

A double structure block tank 598 or a nuclear waste treatment dual structure block tank precipitator 794 in the form of a cylinder located in the ocean for providing global land and connection axes; the double structure block tank 598 and the nuclear waste treatment dual structure block tank 598; An inner block tank 596 connected to the dust collector 794 and an outer block tank 599 double structure block tank reactor nuclear reactor connection structure; a small, medium and large sized (593,594,595) of the Nuclear Hydroelectric Power Plant, and a nuclear reactor (672) and a double structure block tank dust collector are equipped with a plurality of nuclear reactor facilities constituting the inserting into the construction machine, and the nuclear waste treatment facility and the marine nuclear power plant A double-structure block tank dust collector equipped with anti-sinking and anti-nuclear fuel control devices to prevent nuclear fuel explosion. Including the separation of the distribution axis and the control axis of the connection shaft, the nuclear waste treatment dual structure block tank bridge located in the ocean with land and connection axes, the distribution shaft of the marine tunnel, and the natural disaster prevention of the marine (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants, which are equipped with disaster control equipment and construction machinery for disaster control facilities. Several concrete dams (680), hydrants (293) and waterways (294) located in the lower valley below the mountain are formed by mountain ridges and are connected to the downstream of the river. (672a) for overcoming natural disasters and nuclear reactors before and after the renovation of reactor facilities. It is equipped with power generators, thermal power generators and hydropower generators, and it is equipped with nuclear reactor equipment distributing and input devices that are put into production and production of alternate power generation for nuclear power plants. A plurality of nuclear reactor facilities of a nuclear power plant having a dual structure block tank dust collector for nuclear waste treatment nuclear power generation constituted inside the distribution dispensing apparatus main body 1;

As shown in FIGS. 145 to 154, the double structure block tank dust collector constructed in the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In facilities for storing nuclear waste,

(596) capable of disassembling and disassembling the reactor plant, and an outer block tank (599) having a double structure connection structure. The dispenser is equipped with a laser cutter and a distributor of welding processes. A double structure block tank dust collector (794)

A double structure block tank 594 is provided at the lower end portion of the connection structure of the double structure block tank 598 in which the inner block tank 596 connected to the double structure block tank collector 794 of nuclear power generation and the outer block tank 599 are assembled, By storing the nuclear waste on one side having the dust collector 794, it is possible to prevent disasters caused by the leakage of the fuel radiation performance combined with the plurality of reactor facility connection shafts,

The nuclear waste discharged from the operation of a plurality of nuclear reactor facilities is stored in the empty space of the double structure block tank dust collector 794 connected to the nuclear waste disposal apparatuses and stored in one side of the dual structure block tank dust collector 794,

An inner block tank 596 connected to a nuclear waste disposal double structure block tank dust collector 794 provided with nuclear waste disposal control objects constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor facility, (599), which is a connection structure of a double structure block tank, a nuclear waste is stored at one side of the lower part of the vacant space to prevent a nuclear waste disaster caused by leakage of nuclear fuel radiation capability,

As shown in FIGS. 145 to 154, the double structure block tank dust collector constructed in the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In a number of reactor installations of a nuclear power plant storing nuclear waste,

The nuclear waste is stored in one place at a lower portion between a plurality of inner block tanks 596 and a plurality of outer block tanks 599 at a time before and after a large explosion accident which constitutes a plurality of reactor facilities, An inner block tank 596 having a number of reinforcing concrete mats 225 of thickness m and a plurality of double structure block tank dust collectors 794 fixed and secured with steel beams 149 to enter the GLD reactor facility, The nuclear waste disposal unit is located inside the third wall of the nuclear reactor in which the nuclear fuel is injected, and is equipped with a brush for remote control of the UAV and a dispensing apparatus for controlling the nuclear fuel explosion,

(811) comprising a main body (1) of a reactor installation for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, a nuclear waste disposal pipe manufacturing process distributing shaft And a marine tunnel transmission device 941, which is a connection structure of a plurality of nuclear reactor facilities of a nuclear power plant having a dual structural block tank dust collector 794 for nuclear waste treatment of the nuclear power plant 705, To accomplish the task,

As shown in FIGS. 145 to 154, in a plurality of nuclear reactor equipments constituting a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector,

A plurality of reactor installations inserted into the double structure block tank dust collector 794,

A first wall pellet 681 of a secure nuclear fuel,

A cover tube 682 for protecting the second wall fuel rod 689,

A third wall reactor pressure vessel 813,

A fourth wall container 808,

A double structure block tank dust collector 794 configured by replacing the reactor building 688 portion of the reactor facilities of the reactor building 688 composed of the fifth wall reinforcing concrete mat with the protective walls provided in five layers, A nuclear waste disposal dispensing device,

A nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant provided with the nuclear fuel explosion control distribution dispenser and equipped with the double structure block tank dust collector A double structure block tank dust collector 794 is provided as a connection structure for repairing the inside and outside of the marine tunnel communication equipment 941 combined with the dual structure block tank dust collector 794 of the nuclear waste disposal pipe manufacturing process distribution shaft 705, The nuclear waste treatment plant includes a plurality of reactor facilities in the manufacturing process so as to perform the operations constituting the nuclear power plant operation,

The facility of the nuclear power plant having the double structure block tank dust collector 794 constituting the operation of the nuclear power plant in the distribution input device of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,

The double structure barge hull (591) at the bottom of the holding tank of the control shaft prevents leakage of nuclear fuel to the inside of the hull deck center (SDM)

A plurality of nuclear reactor facilities for nuclear waste disposal of nuclear power plants are provided on both sides of a bow and aft end of a central portion of a plurality of inner block tanks 596 provided with a dual structure block tank dust collector 794, A guide rail 618 located on the upper part SDU of the double structure barge hull 591 at the upper end of the holding tank is installed on the left and right sides of the deck deck and crane 861 of 5000 ton capacity is installed A position is provided on the deck plate guide rail 618,

Transporting the reactor installation to the inside where the crane (861) is located at the top of the deck deck guide rail (618)

And a nuclear waste disposal and dispensing apparatus having a double structure block tank dust collector 794 constructed by replacing five layers of protective walls inside the barge hull,

The nuclear fuel explosion-control distribution dispenser is provided with the crane 861 and the construction machine crane 861 is installed inside and outside of the marine tunnel traffic device 941 connected to the dual structure block tank dust collector 794, And includes a plurality of nuclear reactor facilities of the dual structure block tank dust collector 794 for manufacturing a nuclear waste treatment pipe,

145 and FIG. 154, a dual structure block tank dust collector 794 constituting a nuclear power plant is installed in a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the dual structure block tank dust collector, In the nuclear reactor of the nuclear power plant,

A double hull and a three-hull installation of a double-structure large-sized sliding hatch cover 153 is provided at a place where the crane 861 for providing the renovation of the plurality of nuclear reactor facilities passes, A nuclear waste disposal pipe manufacturing process including a nuclear waste disposal apparatus main body 1 of a nuclear waste disposal reactor facility having a construction transportation transport section for adjusting the position of the control shaft, Comprises a dual structure block tank scrubber (794) of a distribution shaft (705) connected to perform nuclear waste disposal with a plurality of nuclear reactor facilities to constitute nuclear reactor operations,

A plurality of nuclear reactor installations of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 constituting a nuclear reactor operation in a distribution input device of nuclear reactor waste nuclear reactor facility having a double structure block tank dust collector, ,

Nuclear waste disposal facility before and after operation of reactor facility safety Nuclear waste disposal system (1) Exhaust gas outlet and inlet, same as the dust collector of the exhaust gas facility, And a double structure block pipe line (74) located inside a double structure block tank dust collector (794) for shielding nuclear waste and nuclear radiation pollutants stored in a nuclear reactor facility composed of a nuclear reactor To provide a nuclear waste location pathway,

Nuclear radioactive contaminants, constituting the nuclear waste location channel,

Multiple temperature pressure sensors Sensors of temperature and pressure sensors of safety valves 700 to 800 degrees Celsius of the inside of a nuclear reactor when the nuclear reactor is in operation. When the high and high pressure pressures reach dangerous state, To constitute a boiling water reactor nuclear power plant operation among a plurality of nuclear reactor facilities having a dual structure block tank precipitator 794 connected to provide an alarm message transmission to a computer,

And a dual structure block tank dust collector (794) constituting a nuclear plant operation of a plurality of nuclear reactor facilities in a distribution input device of a nuclear reactor waste disposal facility for a marine nuclear hydroelectric power plant having the dual structure block tank dust collector In a plurality of reactor installations,

A plurality of the temperature-pressure-sensing sensors constituting the nuclear reactor operation of the plurality of nuclear reactors and the pressure block internal piping line (74a) of each of the small-sized pressure vessels opened by the safety valves are passed through the explosive nuclear waste, Pressure sensor sensor safety valve 472 connected to the inner block tank at the lower end of the pressure vessel 813,

As the outer block piping line 74b constituting the nuclear plant operation of the nuclear reactor facility,

A thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 101 and a temperature sensing sensor bimetal 102 and a flow rate check sensor 103 connected to the fuel explosion- And the safety valves 472 of the pipeline line automatic pneumatic valve conveying device 916 are provided at the upper end of the reactor building 688 to provide a constant 45 degree A boiler water reactor unit among a plurality of reactor facilities having a double-structure block tank dust collector 794 connected by a laser beam cutter, a construction machine and a drilling machine through a plurality of through holes located at an inclination angle, To perform the constituent operations,

As shown in Figs. 145 to 154, among boiler water reactor facilities among a plurality of reactor facilities constituting the nuclear power plant operation,

A plurality of through holes are formed in a block pipe line 74 having a double pipe structure and a plurality of safety valves 472 are connected to the block piping line 74 and the bolts 24 and the gaskets 32 And a flange connecting connection is provided,

On the outer wall surface of the reactor building 688 constituting the nuclear power plant operation,

A nuclear waste disposal dispensing device coupled to the outer block tank 599 for nuclear waste disposal and storage in a radiation type connection structure in a double structure block tank 598 having a size twice as large as that of the nuclear reactor building 688 ,

A dual structure block tank 803 constituting a distribution injector of the nuclear fuel explosion control unit is provided with a reactor facility connected to the dust collector 794 to control the inside of the inner core 681 of the reactor facility and the outside of the core 681 to prevent explosion of nuclear fuel immediately before the explosion of the reactor. (811) constituting the inside of the main body (1) of the dispensing apparatus main body of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant equipped with the double structure block tank dust collector To constitute a boiling water reactor plant nuclear operation among a plurality of nuclear reactor installations connected to the dual structure block tank cleaner 794 of the pipe manufacturing process distribution shaft 705,

As shown in FIGS. 145 to 154, among the plurality of nuclear reactor equipments constituting the distributing apparatus of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector, the boiling water reactor facility ,

The connection structure is formed by the steam generator 810 and the steam dryer 786 installed outside the pressure vessel 813 of the dual structure block tank dust collector 794,

In the boiling water reactor equipment constituted by the storage container 808 constituting the fourth wall of the nuclear reactor and the double structure block tank precipitator 794 contained in the fifth wall,

A plurality of inner block tanks 596 and a plurality of outer block tanks 599 are connected to each other to provide a mixing equipment mixer machine 649 and a circulating water pump 242 of a distribution injector for control of nuclear fuel explosion, Cooling water 287, which is a control object of the fuel explosion preventive control, which is inputted to the same pressure vessel 813 as the furnace just before, and yellow loess mixtures which generate soap bubbles in the form of toothpaste are supplied into the reactor installation at once,

As the distribution input device mixer machine 649,

Loess mixtures which generate soap bubbles in toothpaste form,

A plurality of fire-fighting nozzle nozzles 10 for cleaning the inside of the nuclear reactor facility after the occurrence of the earthquake, and the inside of the pressure vessel 813 and the inside of the vessel 808 Fuel explosion control device,

It is possible to perform the cleaning process inside the nuclear reactor facility without the input of the UAV, to provide the distribution input device of the nuclear fuel explosion control and the control items of the fuel explosion prevention control, A reactor structure equipped with a double structure block tank dust collector constituted in land and ocean nuclear hydroelectric power plants,

A nuclear waste treatment plant consisting of a nuclear hydropower plant (811) composed of a main body (1) of a distribution reactor of a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, (794) Nuclear waste disposal pipe manufacturing process Including the internal structure of the marine tunnel communication device connected to the double structure block tank dust collector (795) and the double structure block tank dust collector (794) The boiling water reactor facility includes a nuclear hydroelectric power plant unit 811 to perform the operation constituting the nuclear power plant operation,

As shown in FIGS. 145 to 154, a dual structure block, which constitutes a nuclear reactor operation of a plurality of nuclear reactor facilities in a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector, Of the plurality of nuclear reactor installations of the nuclear hydroelectric power plant having the tank dust collector 794,

The nuclear water waste tank 295, which is located at the upper end of the double structure block tank precipitator 794, is sequentially mixed with the cooling water 287 stored in the water tank 295, The mixture 927 is supplied to the inside of the third wall reactor pressure vessel 813 located below the water tank and the safety valve 472 formed with the plurality of temperature pressure sensors immediately before the explosion in the fourth wall vessel 808, The burrs 153 are opened,

Constituting the loess mixture 927 generating toothpaste-form soap mixed with the cooling water 287 stored in the inner block pipe 74a of each of the block piping lines 74 at the upper end of the pressure vessel 813, The opening and closing of the safety valve for coupling the nuclear waste disposal control article into the third wall reactor pressure vessel 813 and the fourth wall partition vessel 808 at the same time with the circulation water pump 242 is provided ,

The nuclear waste treatment boiling water reactor equipment constituting the transfer of the cooling water 287 and the loess mixture 927 to the inside of the pressure vessel 813 and the fourth protection wall storage vessel 808 by the water supply pump 241,

The mixture of loess mixtures mixed with the cooling water is mixed with nuclear waste treatment control cooling water inside the core 681 inside the reactor and outside the core 681. The loess mixture 927, which generates soap bubbles in the form of toothpaste, The feed pump 241 constitutes a transfer inside the pressure vessel 813 and the fourth protective walled vessel 808 inside the pressure vessel 813,

The mixture of the loess mixtures 927 is injected all at once into the boiling water nuclear reactor facility. After the earthquake stops, immediately after the earthquake stops, a plurality of reactor internals are cleaned by the circulating water pump 242,

A dual structure block tank dust collector 794 configured to maximize safety operation of the nuclear reactor facility to prevent explosion of the boiling water reactor,

When the nuclear waste disposal apparatus is provided with the fuel injecting apparatuses for controlling the fuel explosion control and the yellow mortar mixture 927 is filled inside the core 681 inside the reactor and outside the core 681, nuclear fuel collision of the nuclear fuel chamber is controlled, Immediately,

Nuclear power plant consisting of nuclear and nuclear offshore nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant with double structure block tank collector A block tank dust collector is provided to prevent the explosion of the reactor,

A nuclear waste disposal pipe manufacturing process consisting of a nuclear power generation facility unit 811 constituting the inside of a distribution dispensing apparatus main body 1 of a nuclear waste disposal reactor installation, and a double structure block tank dust collector 794 of a dispensing shaft 705 (794) Nuclear Reactor (Nuclear Reactor) Nuclear Reactor (Nuclear Reactor) Nuclear Reactor (Nuclear Reactor) Nuclear Reactor (Nuclear Reactor) Lt; / RTI &gt;

As shown in FIGS. 145 to 154, from the first wall of the nuclear reactor facility constituting the operation of the nuclear reactor of the nuclear power plant having the double structure block tank dust collector of the distribution input device of the nuclear reactor processing facility, A double structure block tank of the fifth wall, and a plurality of double reactor block tanks (794) for storing radiation nuclear waste (224) connecting the outer wall surfaces of the nuclear reactor building together. In the boiling water reactor facility nuclear power generation facilities,

Nuclear Power Plants of Boiling Water Reactor Facility Nuclear Power Plants of Combined Connected Structure The nuclear power generation facility of the nuclear power plant before and after operation of the nuclear power plant generates nuclear fission in a plurality of nuclear reactors, A steam turbine 267 for rotating the steam turbine 267 to produce power,

A rotary shaft for a nuclear power generator installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the atomic power generator 772 for converting the power generated from the steam turbine 267; An electromagnet coil 774,

A nonrotating armature coil 773 for a nuclear power generator installed on the circumference of a rotating rotor electromagnet coil 774 for the nuclear power generator and a rotor 773 integrally formed with the nuclear power generator 772 and the rotary shaft 198 to the steam turbine 267, And a frame 775 for fixing the nuclear waste to the nuclear power plant 811. The nuclear power plant 811 comprises a reactor facility of a nuclear hydroelectric power plant of land and ocean and a nuclear power plant The nuclear waste disposal pipe manufacturing process distribution shaft 705 composed of the nuclear hydroelectric power generation facility unit 811 and the marine tunnel communication equipment connected to the dual structure block tank dust collector 794, Structure block tank dust collector (794) Including the boiler water reactor facility among the plurality of nuclear reactor facilities connected to the nuclear waste treatment plant manufacturing process,

Large-scale hydropower generators (944), which are constructed inside a marine nuclear hydroelectric plant,

The distribution and input device of the hydroelectric power plant 943, which is provided as a connection structure of the large hydroelectric power plant 944 of the marine hydro-power plant 943 constituting the marine hydroelectric power plant,

(593,594,595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting the distribution apparatus of the hydroelectric power plant 943, and a marine nuclear power plant A power generating and producing unit 811b of a nuclear hydroelectric power generating unit 811 constituting a distribution dispensing apparatus main body 1 of a nuclear reactor waste disposal apparatus for a hydroelectric power plant includes a plurality of generators for power generation, (811b) Distribution facility of the marine, small and medium sized and large sized marine nuclear hydroelectric power station (593,594,595) The marine Siiso hydroelectric power station And a large hydroelectric power plant (944) connection structure of the power plant (943) to constitute a nuclear hydroelectric operation for a plurality of power generation apparatuses,

In preparation for the remodeling of nuclear power plant facilities of the above distribution and dispensing apparatus, a large hydroelectric power plant of Ishizu Hydroelectric Power Plant (943), which is a substitute for power generation and power generation, is installed in the barge line. The distributing and charging apparatus,

A head tank 189 for a pressure tank located at an upper end of the barge line connected to the large hydroelectric power plant 944 of the offshore iso hydroelectric power plant 943 constituting the distribution input device of the hydroelectric power plant 944, An inlet pipe 191 having a pressure tube shape of a reed 35 is provided at the inlet of the inlet pipe 191 in front of the head tank 189 to provide a connection structure with the head tank 189,

A plurality of inlet pipes 191 are connected to the upper end of the offshore iso hydroelectric power plant 943 constituting the hydroelectric operation of the nuclear power plant and the discharge port on the rear of the head tank 189, Hydraulic power generation iso hydroelectric power plant 944 The pump aberration 943a of the turbine 267 and the Pelton aberration 943b are connected to the lower part of the body by a suction port 269 in front of the Francis turbine 943c and a discharge port 270 ) Including the hydroelectric power distribution and input device in the ocean constituting the hydroelectric power generation production performance with the connection structure,

(191) having the shape of a hydraulic pipe reeder (35) for providing the flow velocity of the water with kinetic energy of the water having the flow velocity of the water current constituting the hydraulic operation of the nuclear power plant to provide mechanical energy conversion, A large hydroelectric generator 944 having a seesaw crane boom frame 942 of a tower crane that performs a vertical rotation operation with a large hydroelectric generator seesaw facility 944 having a seesaw center shaft frame 673 to provide a large- (593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant equipped with distribution equipments and reactor for nuclear waste disposal of marine nuclear hydroelectric power plant with dual structural block tank dust collector And a large hydropower distribution dispenser for constituting a further hydraulic hydroelectric operation inside the main body (1) of the distribution dispensing apparatus of the facility,

As shown in FIGS. 145 to 154, in the large hydrostatic generator desiccation facility 944 which further constitutes the nuclear hydroelectric operation of the nuclear reactor,

A hydrodynamic power generator rotational speed detector 944a for providing a position at the top of the center of the rotational shaft 944q constituting the large hydrostatic generator desiccator 944 and the bottom of the hydrodynamic power generator rotational speed detector 944a A dcrc ring 944c for pushing the ring-shaped flange 944c, an upper rotary shaft receiver 944d and a rotary shaft receiver 944b for supplying a current to the electric motor coil of the alternator, The stator frame 944g and the center stator 944h and the rotary shaft receiver 944i and the braking device ring 944j of the low speed cooler and the jack 944k of the braking device 944e, And a large hydrostatic generator isotope facility 944 in which the low speed rotary shaft receivers 944l are positioned at the upper end of the center of the rotary shaft 944q to have a connection structure with the rotary shaft 944q, The rotating shaft receiver 944n, the casing 944o, Id bay includes a hydro assembly composed of phosphorus and impellers (944q),

(35), which forms the kinetic energy of water with mechanical energy by providing the flow velocity of the current to the inside of the hydroelectric power room constituting the hydroelectric operation of the nuclear power plant, In the large-scale hydroelectric power generation facility 944 constituting the plant,

The central shaft frame 673 constituting the large hydrostatic generator desiccation facility 944 is provided with a multi-stage entrainment type manometric turn and is provided with a large hydrostatic generator desiccation facility 944, A crane boom is installed at the crane boom zone (942) to generate electrical energy to provide a power generating unit connection structure for the marine small, medium and large marine nuclear hydroelectric power plants. Dock (593,594,595) Includes a large hydropower distributor and dispenser that constitutes the operation of a nuclear power plant inside a nuclear hydroelectric plant,

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the large-scale hydropower generators (944), and a distribution input device A double structure block tank dust collector included in the power generation and production section 811b of the nuclear hydroelectric power plant section 811 constituting the inside of the main body 1 is provided with a plurality of generators for nuclear waste treatment and power generation of nuclear reactor facilities, (811b) of a nuclear hydroelectric power plant (811) constituting a nuclear power plant of a nuclear reactor, and a power transmission unit (811d) composed of transformers for transmitting power,

As shown in FIGS. 145 to 154, a dual structure block tank dust collector for constituting a nuclear power plant operation of a plurality of nuclear reactor facilities of a nuclear power plant having a double structure block tank dust collector of a distribution input apparatus of the nuclear waste processing nuclear reactor facility, And the boiler water reactor (794) among the plurality of nuclear reactor facilities of the nuclear power plant,

A cooling water inlet 352 of a cooling water piping line constituting a connection structure with the condenser 790 is provided below the body of the steam turbine 267 of the nuclear hydroelectric power generation facility unit 811,

In front of the condenser 790 constituting the nuclear power plant 811,

And a circulation water pump 242 connected to the piping line 169 for connection to the cooling water inlet 352 of the cooling water piping line through the water passage constituting the front of the condenser 790, A nuclear waste disposal pipe manufacturing process consisting of a nuclear hydropower generation facility unit 811 constituting a distribution dispensing apparatus main body 1 of a nuclear waste disposal reactor apparatus and a double structure block tank collector 794 of a distribution shaft shaft 705 (794) Nuclear waste treatment plant manufacturing process with connection structure for internal and external repair of marine tunnel traffic equipment (794) Nuclear waste treatment plant manufacturing process Including the boiler water reactor facility among the plurality of reactor facilities to constitute operation ,

The apparatus for dispensing a reactor facility for nuclear waste treatment comprises a double structure block tank dust collector 794 constituting a nuclear reactor operation of a plurality of reactor facilities, In nuclear power plants,

A water supply pump 241 is provided at the tail of the condenser 790 and outside the reactor facility,

The nuclear power plant includes a purifier 809 outside the reactor in front of the feed pump 241, and a plurality of coolant pumps 243 are provided in the reactor internal piping line in front of the purifier 809 Inside the pressure vessel 813 of the nuclear reactor facility constituted outside the nuclear reactor pressure vessel 813 containing the fuel-enriched uranium 812 fuel,

In the case where the safety device control rod 798 is installed and shaking occurs,

The control rod 798 is inserted into the pressure vessel 813 at a time so that the operation of the nuclear power plant of the nuclear reactor can be stopped at an emergency and the nuclear power plant of the nuclear power plant of the land and the ocean and the nuclear power plant of the nuclear power plant, The nuclear waste water treatment pipe manufacturing process of the nuclear hydroelectric generating unit 811 constituting the inside of the water tank 1 and the double structure block tank collector 794 of the distribution shaft 705, (794) Nuclear waste treatment plant manufacturing process Including the construction of a boiling water reactor plant nuclear power plant among a plurality of nuclear reactor facilities,

The operation of the nuclear reactors constituting the nuclear reactor main body 1 of the nuclear waste disposal reactor installation is carried out by a boiling water reactor of a plurality of reactor facilities of the nuclear power plant having the dual structure block tank precipitator 794, In the nuclear power plant of the facility,

The first wall pellet 683 of the nuclear reactor reactor installation constituting the boiling water reactor installation and the covering pipes 682 protecting the second wall flaring rods 689 are covered with a covering The safety valves 472 in which the plurality of temperature pressure sensors are formed are opened in the third wall reactor pressure vessel 813 and the fourth wall vessel 808 caused by the collision of the pipe 682 and immediately before the fuel explosion, The loess mixture 927 which generates toothpaste form soap mixed with the cooling water 287 stored inside the nuclear waste treatment tank 295 located at the upper end of the container upper end double structure block tank dust collector 794 A safety valve 472 and a hatch cover 472 in which a plurality of temperature pressure sensors are formed in the third wall reactor pressure vessel 813 located below the water tank tank 295 and immediately before the explosion in the fourth wall vessel 808, 153 are opened and the upper end of the pressure vessel 813 The loess mixture 927 generating toothpaste-like soap bubbles mixed with the cooling water 287 stored in the inner block piping 74a of the block piping line 74 of each small- The cooling water 287 and the loess mixture 927, which are the nuclear fuel explosion-proof control products, are supplied to the boiling water reactor equipment in the reactor pressure vessel 813 and the fourth wall vessel 808,

In the inner block piping 74a of each block piping line 74 constituting the boiling water reactor installation,

The detoxified nuclear waste 224 constituting the inner block piping 74a passes through and the outer block piping 74b is connected to the cooling water 287 which is the fuel explosion prevention control product stored in the inner block tank 596 Of the loess mixture 927 generating the soap bubbles is provided with the feed pump 241 to transfer the fuel explosion prevention control article into the pressure vessel 813 and into the fourth protective walled vessel 808,

At the internal lower end of the double structure block tank 598, which constitutes storage of the nuclear waste 224,

The nuclear waste 224 constituting the individual structure block 598 is moved and stored and the temperature pressure sensing sensor safety valve 472 connected to the inner block tank 596 of the pressure vessel 813 is opened, The nuclear waste disposal facility consists of a nuclear power plant (811) consisting of the reactor facility of the nuclear power plant of land and ocean and the nuclear power plant (1) A dual structural block tank collector (794) in the manufacturing process and distribution shaft (705), a connection structure in the interior and exterior of the marine tunnel traffic device for repairing the nuclear waste, and a double structure block tank dust collector (794) comprises a plurality of nuclear reactor installations connected to the nuclear waste treatment line manufacturing process to perform the operations constituting boiling water nuclear reactor operation,

As shown in FIGS. 145 to 154, the nuclear power plant operation of a plurality of nuclear reactor units constituting the distribution apparatus of the reactor facility for nuclear waste treatment is performed by a plurality of nuclear power plants having a dual structure block tank collector 794 Among the reactor facilities, nuclear power generation facilities composed of boiling water reactor facilities,

The outer block piping 74b of the block piping line 74 constituted by the boiling water reactor equipment in the nuclear power generation facility is provided with the cooling water storage tank 295 disposed inside the nuclear waste treatment tank tank 295 located at the upper end of the inner block tank 596, And a yellow soil mixture 927 for generating soap bubbles in a toothpaste form mixed with the first reservoir container 287 and the second reservoir container 808 by the operation of the feed pump 857 and,

Fuel mixture deterioration control products prepared by converting energy of water into energy of kinetic energy of the loess mixture 927 which generates soap bubbles in the form of toothpaste mixed with cooling water constituted by a nuclear hydroelectric power plant is divided into an inner block tank 596 and an outer block tank (599) When the inside of the nuclear reactor facility is filled with the yellow soil mixture (927) generating the soap bubbles mixed with the cooling water (287) stored in the individual sites, the nuclear fuel explosion inside the nuclear reactor facility is terminated, The operation of the nuclear power plant consists of a nuclear waste disposal facility consisting of a reactor facility for nuclear hydroelectric power plants of land and sea and a nuclear hydroelectric power plant (811) inside the main body (1) A connection structure for the interior and exterior of the marine tunnel traffic device connected to the double structure block tank dust collector 794 of the manufacturing process distribution shaft 705, It comprises achieve the performance that make up the dual-structure block precipitator tank 794 nuclear waste pipe manufacturing process a plurality of nuclear reactor plants in a boiling water reactor nuclear power plant of the movable,

As shown in FIGS. 145 to 154, a nuclear power plant having a double structure block tank dust collector 794 constituting a nuclear power plant operation of a plurality of nuclear reactor equipments constituting a distribution input device of the reactor facility for nuclear waste treatment, Among boiler water reactor installations among a plurality of reactor facilities,

The boiling water reactor facility of the nuclear power plant constituting the nuclear waste treatment,

(811) consisting of reactor facilities of nuclear power plants of land and ocean and nuclear power plants (1) of nuclear power plant for nuclear waste disposal facilities equipped with alternate input devices of reactor buildings, nuclear waste A double structure block tank (794) connected to a double structure block tank dust collector (794) of a process pipe manufacturing process distribution shaft (705) Of the plurality of reactor installations of the boiler water reactor,

Among the plurality of nuclear reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 included in the plurality of nuclear reactor facilities constituting the operation of the nuclear power plant in the distribution input apparatus of the nuclear waste treatment facility,

A boiling water reactor system comprising a reactor facility for a nuclear power plant constituting a boiling water reactor plant and a cutting or submarine mineral collection robot for remote control in disassembling the reactor facility is provided and the nuclear fuel in the reactor vessel pressure vessel (813) When the explosion is stopped, the plurality of temperature-sensing-sensor safety valves 472 provide full closing,

When the nuclear power plant constituting the entire safety valve 472 of the reactor facility is operated, normally,

A boiling water reactor installation of a nuclear power plant provided with a barge 591 of the ocean among a plurality of reactor facilities constituting the entirety of the thermal pressure sensing sensor safety valves 472 is provided, The installation of the anti-sinking type barge that constitutes the nuclear reactor facility is also provided,

Prevention of sinking of the ocean Nuclear waste consisting of nuclear power plants of nuclear and marine nuclear power plants constituting barges and nuclear power plants of nuclear power plants (1) A double structure block tank (794) connected to a double structure block tank dust collector (794) of a process pipe manufacturing process distribution shaft (705) Of the plurality of reactor installations of the boiler water reactor,

As shown in FIGS. 145 to 154, a nuclear power plant having a double structure block tank dust collector 794 of a plurality of nuclear reactor facilities constituting a nuclear power plant is installed in a distribution input device of the reactor facility for nuclear waste treatment. Among boiler water reactor installations among a plurality of reactor facilities,

The boiling water reactor equipment that constitutes a nuclear power plant,

A nuclear waste disposal control article may be provided with a nuclear waste disposal control article and a loess mixture that generates soap bubbles in a toothpaste form mixed with cooling water constituted inside the core 681 inside the reactor and outside the core 681 The water feed pump 241 is provided to transfer the nuclear waste treatment and control article into the pressure vessel 813 and into the fourth protective walled container 808 so as to be disposed inside the reactor core 681 and outside the reactor core 681 The control of nuclear fuel combustion in the nuclear fuel chamber is controlled by the nuclear waste disposal control equipment, and the nuclear power plant is equipped with disaster prevention devices for controlling the leakage of the nuclear fuel radiation capability coupled with the boiling water reactor connection axes among the plurality of nuclear reactor facilities. (1) of a nuclear reactor plant for the treatment of waste, the control shaft being connected to boiler water reactor plant connection shafts during operation of the nuclear power plant Constitute the disposal of nuclear waste at the upkeep poison (593,594,595) of small, medium and large marine nuclear hydroelectric power plants;

(593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants constituting the nuclear waste disposal, nuclear waste processing dual structure block tank dust collector (794) constructed in marine nuclear hydroelectric power plant, Block tank pipe bridge Marine tunnel transport device (941) Dual structure block of nuclear waste treatment providing a nuclear waste disposal dual structure block tank scrubber (794) with a control shaft coupled by connecting shafts Tubes of nuclear power plants with tank dust collectors A plurality of nuclear reactors constituting a nuclear waste treatment dual structure block tank precipitator 794 having an adjustment shaft coupled with bridge shaft marine tunnel traffic apparatuses 941 connecting shafts to constitute a combination of boiling water reactor facilities during the nuclear operation;

As shown in FIGS. 145 to 154, a plurality of nuclear power plants having a double structure block tank dust collector 794 constituting a nuclear power plant in the main body 1 of the nuclear power plant for nuclear waste treatment, In reactor installations,

A double structure block tank dust collector provided with connection structure construction machine crane 861 that can be disassembled and coupled in a marine vessel manufacturing plant constituting a plurality of reactor facilities to provide production control of the dual structure block tank dust collector 794 A nuclear power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant;

A double structure block tank (not shown) constituting a nuclear power plant in the main body 1 of the nuclear power plant for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting the nuclear hydroelectric power plant 811, In a plurality of nuclear reactor facilities constituting a nuclear power plant having a dust collector 794,

The boiler water reactor unit 802, the pressurized water reactor unit 803, the gas cooling furnace reactor unit 804, the multipurpose hot gas reactor unit 805 and the new conversion furnace reactor unit 806 constituting the reactor facility The nuclear power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor main body 1 is provided with a plurality of nuclear reactor facilities for providing connection shafts of the fast breeder reactor facility 838, A nuclear waste nuclear waste disposal unit 811a included in the nuclear power plant;

A plurality of nuclear reactors of a nuclear power plant having a double structure block tank dust collector 794 constituting a nuclear power plant in the main body 1 of the nuclear reactor waste disposal reactor constituting the nuclear waste nuclear waste treatment section 811a, In the facility,

Nuclear power plants operating nuclear power plants safely and consistently in nuclear power plants Nuclear power plant explosion-proof nuclear reactor facilities Before and after the nuclear power plant replacement Alternative power generation Power generation We have wind power generators, thermal power generators and hydro generators A power generation and production unit 811b of a nuclear hydropower generation facility unit 811 constituting the inside of a distribution and dispensing apparatus main body 1 of a nuclear waste treatment facility including nuclear power generation alternative generation power;

And the inside of the main body 1 of the nuclear reactor disposal reactor for nuclear waste treatment of a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting the power production and production unit 811b of the nuclear hydroelectric power plant unit 811 A plurality of internal block tanks 596 connected to a plurality of reactor facilities and construction transportation vehicles of the construction machine and a double structure block tank reactor 596 composed of both the center portion and the aft portion of the outer block tank 599 794 are opened to provide a position shift control to a carrier equipped with a crane boom rest 651, a crane boom rest hook 652 and a conveyor 633 of the position movement control device construction machine crane 861,

A plurality of reactor facilities constituting the electric power production and production unit 811b are inserted into the transportation vehicles of the construction machine constituting the insertion into the distribution apparatus of the reactor facility for nuclear waste disposal of the nuclear hydroelectric power plant having the dual structure block tank dust collector In addition,

The dual structure block tank (598) dust collector arrangements that make up the reactor facility,

(2) A double structure block tank that provides transport to and from a marine installed connection structure capable of disassembly and coupling in the production of industrial docking dock areas. (1) Inside of the dispensing apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dust collector A traffic transportation unit 811c of the construction machine connected to the power generation and production unit 811b included in the nuclear hydroelectric power plant 811 constituting the nuclear power plant;

In the transportation transportation unit 811c of the construction machine constituting the nuclear hydroelectric power plant 811,

(1) of nuclear power plant nuclear waste water treatment plant equipped with dual structure block tank dust collector, and (2) nuclear waste disposal system consisting of nuclear waste disposal system An adjusting shaft provided on the shaft;

The control shaft, which is constituted by the distribution input device of the reactor facility for nuclear waste treatment,

Disclosed is a disassembly / disassembly method in a strut block tank (590) of a nuclear hydropower generation facility unit (811) constituting a main body (1) of a nuclear reactor waste disposal reactor apparatus as a main body of a dispensing apparatus main body of an individual nuclear waste disposal reactor facility The decomposition coupling of the nuclear waste treatment dual structure block tank bridge pier 928 of the double structure block tank 598 and the connection shaft of the double structure block tank pipe bridge marine tunnel traffic apparatus 941 is connected to the power transmission unit 811d (1) of the nuclear reactor waste disposal apparatus main body (1), and the storage tanks of the nuclear waste disposal shield apparatus A distribution shaft for distributing nuclear waste to constitute discharge;

The distribution shaft, which distributes the nuclear waste and constitutes discharge,

And a nuclear waste disposal shielding apparatus. The nuclear power plant unit 811 of the nuclear waste disposal reactor main body 1 of the nuclear waste disposal reactor apparatus 1, A power transmission unit 811d provided with transformers for distributing nuclear waste to constitute discharge;

In the power transmission unit 811d equipment for distributing the nuclear waste to constitute discharge,

Power transmission unit (811d) Equivalent to the dust collector of the exhaust gas facility which is installed inside the main body (1) of the dispensing apparatus main body of the reactor facility for nuclear waste treatment before and after the operation of the nuclear reactor safety facility constituting the facility A nuclear power plant safety control and management production electric field section 811e constituting a nuclear power hydroelectric power plant 811 constituted by the inside of a main body 1 of a nuclear reactor waste disposal reactor provided with a gas outlet and an inlet;

As shown in FIGS. 145 to 154, in the nuclear power plant safety control management production electric field section 811e equipment constituting the nuclear hydroelectric power plant section 811,

(688A), a turbine building (688B), a control building (688C), an auxiliary building (688D), and a diesel generator building (688E) constituting a nuclear power plant internal distribution dispensing apparatus main body (688Z) consisting of a nuclear fuel building (688F) and a waste building (688G) connection structure. Prevention of nuclear explosion before and after the operation of the nuclear power plant Nuclear waste treatment Double structural block tank When the nuclear power plant is operating in the nuclear power plant, the electronic control regulating device construction machine control unit 811f is provided with the crane boom support 651 and the conveyor 633 of the position movement control device construction machine crane 861, ) Of the reactor main body (1) of the reactor facility for nuclear waste treatment, provided with electronically controlled regulating devices, each of which is provided with carriers Electronic regulating control construction machine hydraulic St. nuclear power plant unit 811 to control unit (811f) and;

As shown in Figs. 145 to 154, in the electronic control regulating apparatus construction machine regulating unit 811f equipment constituting the nuclear hydropower generation facility unit 811,

(1) of the nuclear waste disposal reactor for nuclear waste disposal facility, and a control shaft for controlling the nuclear waste capacity by means of the storage tanks of the nuclear waste disposal shielding apparatus, (1) of the distribution dispensing apparatus main body (1) of the facility is provided with a safeguarding apparatus for the safe and continuous nuclear waste disposal and a nuclear fuel disposal prevention apparatus In the barge hull 591 at the upper end of the dual structure holding tank, the barge hull 592 at the lower end of the double structure holding tank is connected to the power production equipment constituting the reactor production and power generating unit 811b of the nuclear power plant, A plurality of nuclear reactor equipments of the power plant, and an electronic control unit constituting the nuclear hydroelectric power plant unit 811, A portion 811g;

In the screw control unit 811g that constitutes the nuclear power plant 811,

Disassembly of the block tank position shifting device from the holding tank 590 Coupling of the lug pin 606 and the lug 607 to the lug connection shaft coupling bolt 603 and the lug connection shaft 606, A nuclear waste disposal unit (not shown) included in the nuclear hydropower generation facility unit 811 provided in the main body 1 of the nuclear reactor waste disposal facility, 811a to the electronic sensor valve thread adjusting portion 811aa;

As shown in FIGS. 145 to 154, in the disaster prevention preventive controller 811h provided in the nuclear hydroelectric power plant 811,

(1) of the nuclear waste disposal reactor for nuclear waste disposal facility, and a control shaft for controlling the nuclear waste capacity by means of the storage tanks of the nuclear waste disposal shielding apparatus, In the barge hull (591) at the top of the double structure holding tank where the nuclear hydroelectric power plant (811) composed of the inside of the distribution dispensing apparatus main body (1) of the facility provided safe and continuous explosion prevention of the nuclear fuel fission, (811d) that constitutes the discharge, and the barge hull (592) at the lower end of the double structure holding tank has a plurality of nuclear reactor facilities of the nuclear waste-treated nuclear hydroelectric power plant A disaster prevention prevention regulating unit 811h constituting a connection with the electronic control regulating unit constituting the nuclear hydroelectric power generating unit 811;

As shown in FIG. 145 to FIG. 154, in the other facilities constituting the connection with the disaster prevention prevention regulating unit 811h constituting the nuclear hydropower generation facility unit 811,

The fire fighting natural disaster prevention control unit 811i, the yellow dust natural disaster prevention control unit 811j, the heavy snow natural disaster prevention control unit 811k, Disaster prevention control section 8111, a typhoon natural disaster prevention control section 811m, a flood natural disaster prevention control section 811n, a drought natural disaster prevention control section 811o, a landslide natural disaster dictionary A control unit 811p for controlling the fish and shellfish scattering control unit 811p, a control unit 811q for controlling the fish and shellfish moving control unit 811r, 811s), groundwater and deep ocean water capacity supply control unit 811t, groundwater and deep sea water capacity control unit 811t, groundwater and groundwater depth control unit 811u, After confirming the postal code to postal service (811v) of the Postal Service and the Controlling Section of Free Trade Service (811w) of the International Community Currency in the World Bank for the Free Trade Control, A credit control unit 811x, a territorial dispute resolution control unit 811y, A satellite control unit 811z for preventing radioactive contamination of the nuclear radiation, and an electronic sensor valve screw control unit 811aa for a distribution input device and a marine tunnel transportation device 941 ) And a disaster-controlled disaster prevention system for preventing natural disasters in the ocean, and a construction machine in which the positional movement control is provided by the carriers, is included in the main body (1) of the nuclear reactor waste disposal unit;

A postal matter transportation regulating unit 811u of the nuclear hydropower generation facility 811 and a postal matter burial process regulating unit 811u of the nuclear water hydropower generation facility 811, 811v), as well as the World Trade Center for the Control of Free Trade (811w), the International Community Credit for the World Bank, and the Check and Claims Free Trade Service Credit Control Department (811x) (Which will be described later)

The double structure block tank dust collector 794 constituting the nuclear power generation nuclear waste processing unit 811a to the electronic sensor valve thread adjusting unit 811aa of the nuclear power hydroelectric power plant unit 811 is inserted In many reactor installations,

A reactor apparatus is installed on both sides of the fore and aft ends of a central portion of a plurality of inner block tanks 596 of the double structure block tank reactor accumulator 794 to a crane boom stand 651 of a position movement control apparatus construction machine crane 861, The position shift control is provided to the carrier having the ring 652 and the conveyor 633 operation,

(811) of the distribution dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a dual structure block tank dust collector, Performing a nuclear power plant operation comprising a nuclear waste disposal apparatus in a structural block tank collector (794);

The execution of the nuclear power plant operation constituted by the nuclear waste disposal apparatus,

A double structure block for the operation of the nuclear power plant constituting the main body (1) of the dispensing apparatus main body constituting the nuclear waste disposal reactor constituting the operation of the nuclear power plant. A plurality of nuclear reactor facilities to be injected into the dust collector are provided,

It is equipped with the distributing and input device of the reactor facility for the nuclear waste disposal that constitutes a plurality of nuclear reactor facilities,

The nuclear waste disposal tank 295 located at the upper part of the double structure block tank precipitator 794 is sequentially arranged without being mixed with the plurality of reactor facilities of the nuclear hydroelectric power plant constituting the reactor facility and,

As shown in FIGS. 145 to 154, a water pump 241 constituting the conveying of the yellow loam mixture is provided and the inside of the pressure vessel 813 and the inside of the fourth protective walled container 808, Of the multiple reactor installations of waste treatment, boiling water reactor installations include,

A mixture of loess mixtures mixed with cooling water constituting a boiling water reactor facility is mixed with cooling water which is a control waste of nuclear waste treatment inside the core (681) inside the reactor and outside the core (681) 927 and nuclear waste disposal apparatuses so that the safety valve 472 and the hatch cover 153 are opened to fill the inside of the reactor core 681 and the reactor core 681 outside the reactor core 681, As the nuclear fuel collision of the yarn is controlled, the reactor explosion prevention of the boiling water reactor equipment is immediately established,

(593,594,595) of a small, medium and large sized marine nuclear power plant constructed inside the main body (1) of the distribution reactor of the nuclear reactor for nuclear waste disposal and the prevention of sinking of the marine nuclear power plant,

Nuclear waste disposal dual structural block tank pipe bridge for prevention of nuclear fuel explosion marine tunnel traffic device (941)

This system constitutes the connection axis between the disaster control disaster prevention device and the construction machine of the flood control facility equipped with the electronic control adjustment device for preventing the natural disaster of the ocean,

Nuclear Power Plant Alternative Electric Power Generation and Power Generator;

(941), a disaster control device (941), and a disaster control disaster prevention device and a carrier for the prevention of natural disaster of the ocean And a construction machine for constructing the inside of the dispensing apparatus main body 1 of the nuclear waste disposal reactor facility with the position movement control.

Referring to FIG. 155, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. (593,594,595) nuclear power plant (672) of the offshore and offshore marine nuclear hydroelectric power plants and a pressurized water reactor facility (803) to the nuclear power plant among a plurality of nuclear reactor facilities (1), which is composed of a plurality of nuclear reactors (1). The reactor is composed of a small, medium and large-sized reactor (593, 594,595) of a marine nuclear hydroelectric power plant, a pressurized water reactor installation (803) to be installed in a nuclear power plant (672) Around the movable method scene side section perspective road configuration,

156, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (593, 594, 595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant of land and sea among a plurality of nuclear reactor facilities, (1) a nuclear reactor system consisting of a construction machine, and a side view showing a scene of a nuclear reactor plant for the treatment of nuclear waste; And a pressurized water reactor facility (803) to be loaded on a floating nuclear power plant (593,594,595) and a nuclear power plant (672) of a medium and large sized nuclear hydroelectric power plant. Is a perspective side cross-sectional configuration of the nuclear power plant operation method road scene,

Referring to FIG. 157, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, (803) constituting a nuclear hydraulic power plant having a double structure block tank dust collector for nuclear waste disposal to which a pressurized water reactor installation (803) is inputted into a nuclear waste disposal reactor installation including a construction machine An embodiment in which the pressurized water reactor installation 803 is constructed by a construction machine as a distribution input device of an elementary nuclear waste treatment facility showing the decomposition and coupling method is shown in the pressurized water reactor facility of the present invention 803) as a construction machine,

Referring to FIG. 158, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention A nuclear waste disposal reactor arrangement comprising a pressurized water reactor arrangement (803) into a nuclear waste disposal reactor arrangement comprising a nuclear waste disposal reactor arrangement comprising a double structure block tank collector The present invention relates to a nuclear waste disposal reactor of a nuclear hydroelectric power plant having a double structure block tank dust collector, A decompression-coupling-type side constituting the pressurized water reactor installation 803 constituting the distribution dispensing apparatus of the facility is constituted by a construction machine Surface configuration Road,

Referring to FIG. 159, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. A nuclear waste disposal reactor arrangement for providing a pressurized water reactor arrangement (803) constituting the nuclear waste disposal reactor facility including the nuclear reactor construction apparatus to the construction machine; The present invention relates to a double structure block tank of the present invention, which is a disassembly and coupling type structure, which is constituted by a distribution input device of a nuclear reactor reactor for elementary nuclear waste treatment, A pressurized water reactor system constituting a distribution input device of a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a dust collector 803, the decomposition consists of the construction of the coupling system side, cross-sectional configuration road,

160, a nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (803) Nuclear waste disposal reactor facility comprising a dual structure block tank dust collector constituting one embodiment of a coupling system An embodiment comprising a distributing and inputting apparatus for a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant Side structure of a decompression-coupling-type reactor constituting a pressurized water reactor installation (803) to be charged into a distribution injector of a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a dual structure block tank dust collector road,

Referring to FIG. 161, in a nuclear hydroelectric power plant 811 constituting the inside of a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, A double structure block tank dust collector constituting an embodiment of a distribution input apparatus coupling method of a nuclear reactor facility for providing input of a pressurized water reactor installation 803 constituting a distribution input apparatus of a nuclear waste processing reactor including the reactor (803) constituting a distributing and inputting apparatus of a reactor facility for nuclear waste disposal of a nuclear power plant having a nuclear power plant, The present invention provides a double structure block tank dust collector having a disassembly type structure. Nuclear waste decomposition constituting a pressurized water reactor plant (803) constituting a dispensing chute of the processing plant reactor for the construction method of in-depth safety coupling reactor equipment-side, cross-sectional perspective road configuration,

Preferably, the distribution shaft 705, which constitutes the nuclear waste treatment pipe manufacturing process included in the nuclear hydroelectric power plant 811,

As shown in FIGS. 155 to 161, lifting tanks 593, 594, and 595 of a small, medium and large sized marine nuclear power plant constituting the nuclear power plant 672 and the main body of the distribution input apparatus of the nuclear waste processing nuclear plant 1) a dual structure block tank pipe bridge 928 consisting of a nuclear waste treatment dual structure holding block tank 590 and a nuclear waste treatment dual structure block tank 598 of an individual reactor facility of a nuclear hydroelectric power plant, Structure block Tank tube bridge (937) and double structure block tank leak detector (794) to control leakage of nuclear radiation capability of connection shaft Dual structure block tank pipe bridge (937) Nuclear power plant Lt; RTI ID = 0.0 &gt; 672, &lt; / RTI &

The distribution shaft 705 constituting the nuclear waste processing pipe manufacturing process of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste processing reactor facility,

In the reactor installation of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the distribution shaft 705,

Steel plates 597 made of high-strength stainless steels constituted by reactor facilities are provided to assemble the double structure block tank 598,

An inner block tank 596 positioned at the center of the double structure block tank 598 and an outer block tank 599 positioned outside the inner block tank 596 constitute the reactor structure, (794) Dual waste water treatment plant on one side of the facility Double structure block tank pipe bridge (937) Dispensing device A double structure block tank 598 provided with a connecting structure distributing and inputting device for a cutting process and a welding process and having a first auxiliary steel pipe 600 and a second auxiliary steel plate 601 for a block tank to be connected, And a large flange (614) constituting a position as a connecting structure of the connecting shaft to the stern connecting position,

Large flange connection connection of large flange composed of reactor facility Connection hole machining hole (615) Large flange (614) located as a connection structure at the connection part is equipped with a drill lathe and cutter of cutting tool and double structure block tank dust collector (794) (1) of the nuclear waste disposal reactor apparatus, the nuclear waste disposal apparatus manufacturing process of the nuclear power plant (811) constituting the nuclear waste disposal apparatus main body (1) And a dual structure block tank cleaner (794) of a distribution shaft (705) to configure the nuclear plant to operate as a reactor facility for nuclear waste treatment,

As shown in FIGS. 155 to 161, in a reactor installation of a nuclear hydroelectric power plant including a double structure block tank 598 dust collector 794 of a distribution shaft 705 constituted by the reactor facility,

(625) of the distribution shaft (705) of the nuclear waste disposal tube manufacturing process consisting of the inside of the distribution dispensing apparatus main body (1) constituting the nuclear reactor waste disposal facility composed of the nuclear reactor facility is equipped with the safe manufacturing process It is equipped with double structure block tank dust collector (794) facilities of distribution shaft (705) of one pipe manufacturing process and is equipped with steel plate (597) material of high strength stainless steel. And a conveyor 633 having a crane crane 861 and a conveyor 633 having a double structure block tank dust collector 794 placed in a conveying process, (A) in which the high-strength stainless steels steel plate 597 is bent at right angles to the forming bending machine, V-shaped bending (b), circular bending (c) Providing a processing section performing the song with, and

The nuclear waste treatment plant for the nuclear waste disposal unit consisting of the reactor facility is constructed in the main body (1) of the nuclear waste treatment plant manufacturing division of the nuclear waste disposal pipe manufacturing process distributing shaft (705) 794) of the nuclear power plant to perform the operation of the nuclear reactor with the reactor facility for the nuclear waste treatment of the reactor facility of the nuclear hydroelectric power plant,

155 to 161, a double structure block tank 598 of a distribution shaft 705 constituted by the nuclear reactor facility is connected to a pipe manufacturing process distribution shaft (not shown) of a reactor facility of a nuclear power plant having a dust collector 794 705, at the stopper plate 625,

It is equipped with a bending type press braking type bending type bending machine, a bending type roller bending type bending type machine and a bending type bending type bending type bending type bending machine which are composed of a nuclear reactor facility and have high tensile strength A banding and bending machine of a steel plate 597 is provided to perform cutting and cutting operations,

The crane crane 861 and the conveyor 633, which are installed in the transporting process constituted by the nuclear reactor facility, are provided with the welding position shift control to the banding joint portion of the high-strength stainless steel plate 597, The welding process is performed at the banding joint portion of the high-strength stainless steel plate 597 with the welding machine, the cutting tool, the drill lathe and the cutter, and the inside of the main body (1) The nuclear reactor of the nuclear power plant of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the nuclear waste processing pipe manufacturing process distributing shaft 705 of the nuclear power hydroelectric generating unit 811 constituting the nuclear power plant, To &lt; RTI ID = 0.0 &gt;

155 and 161, the nuclear waste processing pipe manufacturing process distribution shaft of the nuclear hydroelectric power plant having the double structure block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility, In the reactor installation of the reactor 705,

The large flange 614 is connected to the large flange 614 located at the aft and stern connection portion of the dual structure block tank 598 of the reactor unit and has a predetermined size of the stopper plate 625 And is provided as a connection structure of the pipe manufacturing process distributing shaft 705 of the manufacturing and processing shelf process,

In the inner block tank 596 composed of a nuclear reactor facility and the outer block tank 599 located outside the inner block tank 596, the dual structure block tank dust collector 794 is installed in the nuclear waste disposal pipe manufacturing facility The inner block tank 596 is provided with a crane crane 861 and a conveyor 633 which are inserted into the outer block tank 599 to prepare a welding process while controlling the movement of the pipe manufacturing facility ,

(1) Nuclear power plant part (811) consisting of nuclear waste treatment plant manufacturing process distribution shaft (1) inside the nuclear plant waste processing facility with double structure cylindrical structure consisting of reactor facilities 705), comprising a dual structure block tank cleaner (794) for the nuclear reactor of the nuclear power plant,

155 and 161, the nuclear waste processing pipe manufacturing process distribution shaft of the nuclear hydroelectric power plant having the double structure block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility, In the reactor installation of the reactor 705,

A double structure block tank 598 composed of a nuclear reactor facility, a dust collector 794, a plurality of outer block tanks 599 outside the plurality of inner block tanks 596, a first auxiliary type steel 600 for a block tank, The second auxiliary steel plate 600 for the block tank and the second auxiliary steel plate 600 for the block tank are provided with the second auxiliary steel plate 601, the vertical partition wall 605, the horizontal partition wall 609 and the steel beam 149, A nuclear reactor 601, a vertical partition 605, a horizontal partition 609, a steel beam 149, a snap hole 602 and a partition wall manhole 610 are provided with a computer laser cutter,

The nuclear reactor facility is provided with the welding machine of the welding process while the cutting process comprising the reactor facility is performed and the fifth protective walls formed on the outer wall surface of the fourth protective walled container 808 are installed in the distribution input Nuclear waste treatment of a reactor plant of a nuclear power plant having a double structure block tank dust collector 794 of a nuclear waste processing tube manufacturing process distribution shaft 705 of a nuclear power hydroelectric power plant unit 811 constituting the inside of the apparatus main body 1 Of the nuclear power plant,

155 and 161, a nuclear waste treatment plant manufacturing process distribution shaft (not shown) of a nuclear power plant having a double structure block tank 598 dust collector 794 of a distribution shaft 705 constituted by the nuclear reactor facility 705,

The vertical partition wall 605 and the horizontal partition wall 609 provided with the partition wall manhole 610 of the double structure block tank dust collector 794 constituted by a nuclear reactor facility are provided with a traffic device hydraulic cylinder door 624, 631 are provided in the welding processes and are equipped with the marine tunnel traffic devices for distributing the double structure block tank dust collector 794 for preventing the explosion of the nuclear reactor facility and are arranged inside the main body 1 of the nuclear reactor waste disposal unit A nuclear water hydropower generating plant 811, and a double structure block tank precipitator 794 as a connection structure for a nuclear water hydroelectric power plant inside and outside the marine tunnel transportation device in a nuclear waste processing pipe manufacturing process distribution shaft 705. [ The nuclear reactor of the nuclear power plant having the nuclear power plant,

As shown in FIG. 155 to FIG. 161, a nuclear waste disposal pipe manufacturing process distribution shaft 705 of a nuclear power plant having a double structure block tank dust collector 794 of a distribution shaft 705 constituted by the nuclear reactor facility In reactor installations,

Double structure block tank dust collector (794) consisting of nuclear reactor facility. It is equipped with a bending type bending machine, a press braking type bending machine, a bending type roller bending machine, Three bending type roller bending machines are provided to perform the banding and bending process of the high-strength stainless steels steel plate 597, and a stopper plate 625 dust collector 794 ) Facilities,

A double structure block tank 598 having a cylindrical egg-shaped coupling structure made up of a nuclear reactor facility and constituted by a plug-and-loop fitting assembly of a double structure block tank 598, and a plurality of inner block tanks 596 and a plurality of outer block tanks 599) said large flange to a dust collector (794) facility having machines of the welding process at the upper and lower ends of the block tanks, respectively, provide a bolting connection device and a reactor block explosion-proof dual structure block tank dust collector And a nuclear power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus having the marine tunnel traffic apparatuses with the distributed nuclear power plant 794 distributed therein, A nuclear power plant having a double structure block tank dust collector (794) as a connection structure of a nuclear power plant inside and outside the marine tunnel transportation device of the shaft (705) And the operation of the reactor to operate the nuclear reactor with the nuclear waste disposal reactor apparatus as a distribution input device of the self-

In the reactor facility of the distribution shaft of the nuclear waste processing pipe manufacturing process of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,

(794) Dual structure block tank (598) of the reactor plant The welding process assembly of the bolting coupling assembly and the stopper plate (625) is provided with a stopper plate (625) of the stopper plate (625) A nuclear power plant unit (1) having a double structure block tank dust collector (794) for preventing explosion of a plurality of nuclear reactor equipments constituting a combined welding process assembly and constituting the inside of the main body (811), and a welding process assembly and bolting coupling assemblies, which are composed of a nuclear waste disposal dispensing apparatus and a nuclear fuel explosion control apparatus,

Nuclear waste treatment plant consisting of nuclear reactor facility The nuclear reactor plant with a double structure block tank dust collector (794) as a connection structure of nuclear power plant inside and outside of the marine tunnel traffic apparatus in the distribution shaft (705) The nuclear waste disposal of nuclear reactors,

As shown in FIGS. 155 to 161, nuclear waste disposal of the nuclear hydraulic power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility In the reactor installation of the reactor,

(593,594,595) equipped with small, medium and large sized nuclear and hydroelectric power plants composed of nuclear reactor facilities, and 40m at the top of the sea surface excluding the weather condition of tsunami as a disaster prevention device, And a plurality of nuclear reactors of the nuclear power plant excluded the effect of earthquake and tsunami by means of disaster prevention by adjusting the position of the nuclear power plant by arranging the mooring device and the diving buoyancy adjusting device formed on the barge preventing sinking type It is structured to operate nuclear power plants with explosion prevention,

As shown in FIGS. 155 to 161, nuclear waste disposal of the nuclear hydraulic power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility In the reactor installation of the reactor,

In the nuclear hydropower plant 811 comprising the reactor facility,

A double structure block tank dust collector (794) installed to prevent the explosion of a large number of reactor facilities in the nuclear fuel chamber that prevents environmental pollution caused by nuclear waste composed of reactor facilities is installed in a marine nuclear power plant, (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants, which are equipped with the operation of nuclear power plants, to ensure the safety of nuclear power generation facilities. (705) Marine tunnel inside and outside repair system Nuclear power plant connection structure Nuclear waste of nuclear waste treatment system Dispensing device of reactor facility for nuclear waste disposal with nuclear fuel cycle of nuclear fuel industry Which comprises a dual structure block tank cleaner 794 of a distribution shaft 705, (811) of the nuclear power plant of the firing plant to perform nuclear power plant operation,

As shown in FIG. 155 to FIG. 161, a nucleus consisting of a nuclear waste disposal device of a nuclear hydroelectric power plant 811 of a nuclear power plant having a double structure block tank dust collector 794 of the distribution shaft 705 In the nuclear fuel cycle of the waste fuel industry,

(593,594,595) Nuclear power plants (672) of small, medium and large sized nuclear hydroelectric power plants constituting the nuclear fuel cycle of the nuclear fuel industry, and distributions constituting the inside of the distribution input unit main body (1) of nuclear reactor facilities for nuclear waste disposal The spent nuclear fuel 683 of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the nuclear power hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the shaft 705,

The remaining uranium 812, which constitutes the nuclear fuel cycle of the nuclear fuel industry, provides the nuclear fuel 683 processing at the reprocessing plant 228,

In the conversion plant 229 constituting the nuclear fuel cycle of the nuclear fuel industry,

The fuel is supplied to uranium fluoride 812 and the nuclear fuel cycle of the nuclear waste fuel plant of the nuclear waste treatment facility is provided to transfer the nuclear fuel 683 to the concentrator 230,

Providing a conversion at uranium dioxide conversion plant 229, uranium fluoride 812 constituting the nuclear fuel cycle,

And a fuel rod (689) constituting processing in the state of pellets (683) constituting the fuel cycle,

Plutonium 801, processed at the reprocessing plant that makes up the nuclear fuel cycle,

The fuel rods 689 are prepared at the conversion / processing factory 231,

The reprocessing fuel rods 689 constituting the nuclear fuel cycle,

Again, it includes a forklift carrier that constitutes a transfer of nuclear fuel 683 to the nuclear power plant 672,

The nuclear power plant 672 constituting the nuclear fuel cycle, the reprocessing plant 228, the concentration plant 230, the conversion plant 229, the conversion and processing plant 231,

(672), equipped with a nuclear fuel cycle distribution shaft (705) and a nuclear waste (224) disposal input device facility located at the top of the deck plate at the top of the sea, Including the nuclear fuel cycle of the nuclear fuel industry, which consists of internal and external nuclear radiation pollution prevention,

A nuclear power plant of a nuclear power plant having a double structure block tank dust collector 794 of a distribution shaft 705 constituting a distribution dispensing apparatus main body 1 of a nuclear waste treatment facility for treating nuclear waste 224 A nuclear fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the unit 811,

(593,594,595) of small, medium and large sized nuclear hydroelectric power plants constituting the nuclear fuel cycle, and mooring devices and diving buoyancy control devices and nuclear waste disposal devices installed in nuclear power plants (672). The nuclear hydroelectric power plant of the nuclear power plant having the double structure block tank dust collector 794 of the nuclear waste disposal dispenser equipment distribution shaft 705 of the reactor facility at the nuclear hydroelectric power facility 811 before and after the safe operation of the nuclear reactor facility (811) of the nuclear shipbuilding plant of nuclear waste disposal facility, which is composed of disassembly-connectable connection structures at the marine shipbuilding factory of Shipbuilding Corporation (811)

As shown in FIGS. 155 to 161, a nuclear waste disposal apparatus of a nuclear waste disposal apparatus of a nuclear power plant 811 of a nuclear power plant having a double structure block tank dust collector 794 of the distribution shaft 705, In the nuclear fuel cycle of the nuclear fuel industry,

A distribution shaft 705 of a nuclear waste processing pipe manufacturing process composed of a reactor facility of a nuclear power plant of land and sea and a nuclear hydroelectric power plant unit 811 constituting a nuclear reactor waste disposal reactor main body 1 (794) a stage of operation of the nuclear power plant of the nuclear power plant which has prepared the nuclear fuel cycle of the nuclear waste fuel processing equipment of the nuclear waste disposal unit to operate the nuclear power plant of the reactor facility;

Nuclear waste treatment pipe manufacturing process consisting of a nuclear hydropower generation facility part (811) constituting a distribution dispensing device main body (1) of a nuclear waste disposal treatment facility In the case of repairing the inside and outside of the transportation device of the distribution shaft (705) (794) a nuclear waste disposal pipe manufacturing process; (c) a reactor structure having a control rod brush structure;

Nuclear power plant of nuclear power station of land and ocean and nuclear power plant of nuclear power plant of nuclear power plant which is composed of main body (1) of nuclear power plant for distribution of reactor facility for nuclear waste treatment (811) And the nuclear waste disposal marine tunnel communication device 941 connected to the nuclear waste disposal marine tunnel transportation device 941 before the failure of a plurality of nuclear reactor facilities of the nuclear power plant constituting the nuclear power plant to operate the nuclear power plant with the double- A nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, and a nuclear waste disposal truck, A plurality of nuclear reactors installed in a reactor facility of a nuclear power plant equipped with a generator and a hydroelectric generator and having a dual structural block tank dust collector (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal apparatus main body (1) and constituting a nuclear waste disposal pipe manufacturing process 705)

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the nuclear power plant (672)

Nuclear waste treatment of individual reactor facilities of a nuclear power plant consisting of the main body (1) of the distribution dispensing apparatus of the nuclear waste disposal facility consisting of the dual structure support block tank (590) and the nuclear waste treatment dual structure block tank (598) A dual structure block tank sorter 794 for controlling the leakage of the nuclear radiation performance of the double structure block tank bridge bridge 928 and the double structure block tank bridge 937 and the connection shaft,

Double structure block tank pipe bridge (937) Includes the reactor facility of a nuclear waste disposal nuclear reactor (672) that constitutes the disassembly of the connecting shaft,

As shown in FIGS. 155 to 161, in a reactor installation of a nuclear hydroelectric power plant having a double structure block tank dust collector 794 of a distribution shaft 705 constituting the nuclear reactor facility,

Steel plates 597 of a high-strength stainless steel constructed in a reactor facility of a nuclear hydroelectric power plant are provided to assemble a double structure block tank 598,

An inner block tank 596 located at the center of the double structure block tank 598 constituting the double structure block tank 598 and outer block tanks 599 located outside the inner block tank 596 (794) Double-structured block tanker (794) which constitutes production by distributing and supplying equipment of connecting structure that performs cutting process and welding process in industrial structure in the form of dual structure. Nuclear waste treatment Double structure block tank pipe A double structure block tank provided with a first auxiliary type steel 600 for a block tank and a second auxiliary steel plate 601 connected to a distribution and input device of a bridge 937 and provided by a connecting and distributing device of a connection structure of a cutting process and a welding process (598) a dust collector (794), and a large flange (614) forming a position as a connection structure of the connection shaft to the stern connection position,

Large flange 614, which is located as a connecting structure at the connection position, is connected to a drill lathe and a cutter of a cutting tool (594) And a dual structural block tank dust collector (794). The nuclear waste water treatment system (1) includes a nuclear power plant Comprises a dual structure block tank dust collector (794) on the distribution shaft (705) of the nuclear waste treatment line manufacturing process of the power generation facility unit (811) to perform the operation of constructing the nuclear power plant with the reactor facility of the nuclear waste treatment,

(625) of the distribution shaft (705) of the nuclear waste processing pipe manufacturing process which is constituted inside the dispensing apparatus main body (1) of the nuclear reactor waste disposal reactor equipment, (597) of the high-strength stainless steels by using the double structure block tank dust collector (794) of the distribution shaft (705), and the process sequence of cutting, cutting and transportation A high strength stainless steel plate 597 having a crane crane 861 and a conveyor 633 in which a double structure block tank dust collector 794 is put in a conveying process and constituting facilities of a nuclear waste processing pipe manufacturing process, (A) and V-type folding machines (a), (b) and (c), respectively. The high-strength stainless steel plate 597 is formed by a forming machine and a roll- b), and a circular waving (c) To provide a distribution chute body (1) to perform internal machining comprising a track section of the distribution shaft (705) that make up the nuclear waste disposal tube manufacturing process of the nuclear power plant hydraulic unit 811 in the equipment, and

(811) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor constituting the nuclear waste disposal reactor main body (1) constituting the dividing shaft (705) And a dual structure block tank cleaner (794) of a nuclear power plant (704, 705) to constitute a nuclear power plant for nuclear waste disposal.

155 and 161, a pipe manufacturing process distributing shaft 705 of a reactor facility of a nuclear hydroelectric power plant having a double structure block tank 598 dust collector 794 constituting the distribution shaft 705, In the stopper plate 625 fixture,

A bending type press braking type bending machine, a bending type bending type bending machine and a bending type bending type bending machine which are constituted by a reactor facility of a nuclear hydroelectric power plant,

It is equipped with three bending roller bending machines composed of a reactor facility and has a bending and bending machine of high tensile strength steel plate (597) to prepare bending and cutting process ,

As shown in Figs. 155 to 161, the transverse crane 861 and the conveyor 633 conveying body, which are put into the conveying step constituted by the reactor facility,

The welding position shift control is provided at the banding joint portion of the high-strength stainless steel plate 597 constituted by the reactor facility,

A welder, a cutting tool, a drill lathe, and a cutter constituting a nuclear reactor facility, and performing a welding process to a banding joint portion of a high-strength stainless steel plate (597) (1) A reactor for nuclear waste disposal of a reactor facility of a nuclear power plant having a double structure block tank dust collector (794) of a distribution shaft (705) of a nuclear waste processing pipe manufacturing process of a nuclear hydroelectric power plant unit (811) And performing an operation to operate the nuclear power plant with the facility,

155 and 161, the nuclear waste processing pipe manufacturing process distribution shaft of the nuclear hydroelectric power plant having the double structure block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility, In the reactor installation of the reactor 705,

The large flange 614 is connected to the large flange 614 located at the aft and stern connection portion of the dual structure block tank 598 of the reactor unit and has a predetermined size of the stopper plate 625 And is provided as a connection structure of the pipe manufacturing process distributing shaft 705 of the manufacturing and processing shelf process,

In the inner block tank 596 constituted by the nuclear reactor facility and the outer block tank 599 located outside the inner block tank 596, the prefabrication of the nuclear waste disposal pipe manufacturing facility of the double structure block tank collector 794 And,

The internal block tank (596) facility, which consists of a reactor facility,

A crane crane 861 and a conveyor 633 conveying body to be introduced into the outer block tank 599 to prepare a welding process while controlling the positional movement of the pipe manufacturing facility,

(811) consisting of the inside of the main body (1) of the nuclear reactor waste disposal unit equipped with the double structure cylindrical connection structure composed of the reactor facility, the nuclear waste disposal pipe manufacturing process distributing shaft Comprises constructing a reactor plant to operate nuclear reactors in a reactor facility of a nuclear hydroelectric plant having a dual structure block tank cleaner (794) of a nuclear power plant (705)

A double structure block tank dust collector 794 composed of the nuclear reactor facility; a plurality of outer block tanks 599 outside the plurality of inner block tanks 596;

A first auxiliary steel pipe 600 for a block tank and a second auxiliary steel plate 601 for a block tank, a vertical partition wall 605, a horizontal partition wall 609 and a steel beam 149 The first auxiliary steel 600 for the block tank, the second auxiliary steel plate 601 for the block tank, the vertical partition 605, the horizontal partition 609, the steel beam 149, the snap hole 602, (610), a nuclear reactor facility is provided by a computer laser cutter,

The fifth protective walls formed on the outer wall surface of the fourth protective walled container 808 by providing the reactor facility with the welding machine of the welding process while performing the cutting process constituted by the reactor facility,

A double structure block tank dust collector 794 of a nuclear waste disposal pipe manufacturing shaft distributing shaft 705 of a nuclear hydroelectric power generation facility 811 constituting the inside of a distribution dispensing apparatus main body 1 of a nuclear waste disposal reactor installation This includes the construction of nuclear reactors to operate nuclear reactors for the nuclear waste disposal of reactor facilities of nuclear hydroelectric plants,

155 and 161, the nuclear waste processing pipe manufacturing process distribution shaft of the nuclear hydroelectric power plant having the double structure block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility, In the reactor installation of the reactor 705,

A vertical partition wall 605 provided with a partition wall manhole 610 of a double structure block tank dust collector 794 constituted by a nuclear reactor facility and a horizontal partition wall 609 are provided with a traffic device hydraulic cylinder door 624, 631,

Welding process, and a double structure block tank dust collector 794 for preventing explosion of the nuclear reactor facility is installed in the marine tunnel transportation apparatus provided with the distribution input, A double structure block tank dust collector 794 is provided as a connection structure of a nuclear water hydraulic power plant inside and outside the marine tunnel transportation device in a nuclear waste treatment pipe manufacturing process distribution shaft 705 composed of a hydroelectric power generation facility unit 811 This includes the construction of nuclear reactors to operate nuclear reactors for nuclear waste disposal of reactor facilities of a nuclear power plant,

155 and 161, a nuclear waste processing pipe manufacturing process distributing shaft 705 of a nuclear hydroelectric power plant having a double structure block tank dust collector 794 of a distribution shaft 705 constituted by the nuclear reactor facility, In the reactor facility constituting the reactor,

Double Structure Block Tank Dust Collector (794) A bending type bending machine, a press braking type bending machine, a bending type roller bending machine, and three bending Type roller bending machine to perform the banding and bending process of the high-strength stainless steel plate 597,

The closure iron plate (625) dust collector (794)

A double structure block tank 598 having a cylindrical egg-shaped coupling structure constituting a dust collector 794 and constituted by a cap-tight coupling assembly of a dual structure block tank 598, a plurality of inner block tanks 596, External block tanks (599) Each of the block tanks has a dust collector (794) facility which constitutes machines of the welding process at the upper and lower ends, the large flange being provided with a bolting connection device,

(794) is installed in the marine tunnel transportation apparatuses provided with the distribution input to prevent the nuclear explosion prevention of the egg type coupling structure composed of the nuclear reactor facility, and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment And a double structure block tank dust collector 794 as a connection structure for a nuclear power plant inside and outside the marine tunnel transportation device of the nuclear waste processing pipe manufacturing process distribution shaft 705 composed of the nuclear hydroelectric power plant part 811, And performing the operation of the nuclear reactor with the reactor facility of the nuclear waste disposal of the reactor facility of the nuclear power plant having the nuclear power plant,

155 and 161, a reactor structure (not shown) in the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the distribution shaft 705, In addition,

A double structure block tank (594) constituting a nuclear reactor plant, a dual structure block tank dust collector (794), a welding process assembly of the bolting coupling assembly and the stopper plate (625) The nuclear hydroelectric power plant unit 811 includes a double structure block tank dust collector 794 of an explosion-proof type of a plurality of nuclear reactor facilities constituting the nuclear waste disposal unit main body 1, A nuclear waste disposal dispensing apparatus comprising a welding process assembly and bolting coupling assemblies,

The apparatus is provided with distribution dispensing apparatuses of a nuclear fuel explosion control apparatus constituting a nuclear waste disposal dispensing apparatus,

Nuclear waste of a reactor facility of a nuclear power plant equipped with a double structure block tank dust collector (794) as a connection structure of a nuclear power plant inside and outside of a marine tunnel traffic apparatus constituting a nuclear waste disposal pipe manufacturing process distribution shaft (705) And performing the operation of the nuclear reactor with the reactor facility of the treatment,

As shown in FIGS. 155 to 161, a reactor structure for the nuclear waste disposal in the nuclear hydroelectric power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 In addition,

(593,594,595) equipped with small, medium and large sized marine nuclear power hydroelectric power plants (593,594,595) constituting the reactor facilities for nuclear waste disposal. The disaster prevention device excludes the weather condition of the earthquake and tsunami, A plurality of nuclear power plants having an installation position of the nuclear power plant 811, a mooring device formed on a barge preventing sinking type, and a diving buoyancy adjusting device to adjust the position of the nuclear hydroelectric power plant, It is designed to operate nuclear reactors that prevent explosion of reactor facilities,

In the reactor facility for nuclear waste disposal in the nuclear hydroelectric power plant 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705,

In the nuclear hydropower generation facility unit 811 constituting the reactor facility for nuclear waste treatment,

(794) installed in marine nuclear power plants to ensure safe and continuous operation of nuclear reactors by installing a dual structure block tank dust collector (794) installed to prevent explosion of a large number of nuclear reactor facilities in the nuclear fuel chamber constituting the prevention of environmental pollution caused by nuclear waste (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants to ensure the safety of nuclear hydroelectric power plants and to guarantee the renovation of nuclear reactor facilities through continuous operation. ) Nuclear waste in the nuclear waste treatment system, which is a connection structure of nuclear hydroelectric power plants, in and out of the marine tunnel transportation device inside and outside of the system Dispensing device of the reactor facility for nuclear waste disposal with the fuel cycle of the nuclear fuel industry Having a dual structure block tank cleaner 794 of a distribution shaft 705, Nuclear reactor plant with a bovine hydraulic nuclear waste in power plants unit 811 processing includes performing a configuration achieve a nuclear power plant operation,

As shown in FIGS. 155 to 161, the nucleus of the nuclear waste disposal apparatus constituting the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 In the nuclear fuel cycle of the waste fuel industry,

(593,594,595) Nuclear power plants (672) of small, medium and large sized nuclear hydroelectric power plants constituting nuclear fuel cycle of nuclear waste fuel industry and distribution facility of nuclear reactor waste treatment facility (1) The spent fuel fuel 683 of the nuclear waste fuel industry of the nuclear waste disposal apparatus constituting the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 which distributes the spent nuclear fuel, Wow,

The remaining uranium 812 constituting the nuclear fuel cycle provides for the processing of fuel 683 at the reprocessing plant 228,

At the conversion plant 229, processing is provided with uranium fluoride 812,

The nuclear waste fuel processing equipment of the nuclear waste disposal facility is provided with the fuel cycle of the nuclear waste fuel industry, and the enrichment plant 230 is provided with the transfer of the nuclear fuel 683 to the carrier,

The conversion of uranium fluoride 812 to uranium dioxide conversion plant 229 is provided,

And a fuel rod (689) constituting processing in the state of pellets (683) constituting the fuel cycle,

Plutonium 801, processed at the reprocessing plant that makes up the nuclear fuel cycle,

The fuel rods 689 are prepared at the conversion / processing factory 231,

The reprocessing fuel rods 689 constituting the nuclear fuel cycle,

And a forklift carrier constituting transfer of the nuclear fuel 683 to the nuclear power plant 672,

The nuclear power plant 672 constituting the nuclear fuel cycle, the reprocessing plant 228, the concentration plant 230, the conversion plant 229, the conversion and processing plant 231,

(705) of the nuclear fuel industry located at the top of deck-top deck, and a nuclear waste (224) disposal input and output facility equipped with a nuclear power plant (672 Including the nuclear fuel cycle of the nuclear fuel industry to prevent nuclear radiation contamination,

A nuclear power plant having a dual structure block tank dust collector 794 of a distribution shaft 705 constituting a distribution input apparatus main body 1 of a nuclear waste treatment facility for treatment of nuclear waste 224 constituting a nuclear fuel cycle, The nuclear fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the nuclear hydroelectric power plant 811 of the nuclear power plant,

(593,594,595) of small, medium and large sized nuclear hydroelectric power plants constituting the nuclear fuel cycle, and mooring devices and diving buoyancy control devices and nuclear waste disposal devices installed in nuclear power plants (672). The nuclear hydroelectric power plant of the nuclear power plant having the double structure block tank dust collector 794 of the nuclear waste disposal dispenser equipment distribution shaft 705 of the reactor facility at the nuclear hydroelectric power facility 811 before and after the safe operation of the nuclear reactor facility (811) of the nuclear shipbuilding plant of nuclear waste disposal facility, which is composed of disassembly-connectable connection structures at the marine shipbuilding factory of Shipbuilding Corporation (811)

As shown in FIGS. 155 to 161, the nuclear waste treatment of the nuclear hydraulic power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituting the nuclear reactor facility The nuclear fuel cycle of the nuclear waste fuel industry,

Nuclear waste treatment plant manufacturing process consisting of reactor facilities of nuclear power plant of land and ocean constituting nuclear fuel cycle and nuclear power plant (811) constituting inside of main body (1) of distribution dispensing apparatus of nuclear waste treatment facility A dual structure block tank (794) of the distribution shaft (705) of the nuclear waste disposal facility (794), constituting a nuclear fuel plant of the nuclear waste disposal apparatus, constituting the nuclear fuel cycle of the nuclear power plant before and after the nuclear power plant operation;

Nuclear waste treatment pipe manufacturing process consisting of a nuclear hydropower generation facility part (811) constituting a distribution dispensing device main body (1) of a nuclear waste disposal treatment facility In the case of repairing the inside and outside of the transportation device of the distribution shaft (705) (794) a nuclear waste disposal pipe manufacturing process; (c) a reactor structure having a control rod brush structure;

Nuclear power plant facilities (811) of the reactor facilities of nuclear reactors constituting nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant facilities (1) A plurality of nuclear reactors of the nuclear power plant configured to operate the nuclear power plant with a double structure block tank dust collector 794 of the process tube manufacturing distribution shaft 705 and a nuclear waste disposal marine tunnel transportation device 941 ), A construction machine equipped with a nuclear waste disposal truck and a position control system, a wind power generator, a thermal power generator,

And a plurality of nuclear reactor facilities installed in the reactor facility of the nuclear hydroelectric power plant having the dual structure block tank dust collector.

Preferably, the storage tank of the reactor nuclear waste disposal shielding apparatus constituting the inside of the distribution dispensing apparatus main body (1) of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector The connection axis of the regulating shaft, which is connected to the distribution shaft constituting the nuclear waste disposal capacity regulation,

As shown in FIGS. 155 to 161, in a plurality of nuclear reactor installations of a nuclear hydroelectric power plant having a double structure block tank dust collector 794 constituting a nuclear power plant of the connecting shaft,

A boiler water reactor unit 802, a pressurized water reactor unit 803, a gas cooling furnace reactor unit 804, a multipurpose hot gas reactor unit 805 and a new conversion furnace reactor unit 806 constituting a plurality of reactor facilities. And a high-speed proliferation furnace reactor (838), which is provided with a plurality of reactor facilities for providing connection shafts of control shafts connected to each other. The nuclear waste disposal unit 811a of the nuclear hydroelectric power plant 811 constituting the inside of the apparatus main body 1 is provided with storage tanks for the nuclear nuclear waste disposal shielding apparatus,

At the connection axis of the regulating shaft constituting the nuclear waste disposal capacity regulation,

The main body 1 of the nuclear reactor waste disposal reactor constituting the connecting shaft of the control shaft is connected to the holding block tank (not shown) of the nuclear hydropower generation facility 811 constituting the inside of the distributing and inputting apparatus main body of the individual nuclear waste disposal reactor apparatus 590 are connected to a power transmission unit 811d that provides decomposition coupling to the nuclear waste treatment dual structural block tank bridge pier 928 and dual structure block tank bridge bridge marine tunnel traffic equipment 941 ) Having a connection structure capable of disassembling and coupling coupling shafts and having a plurality of reactor equipment manufacturing apparatuses constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus and storage tanks of the nuclear waste disposal shield apparatus Nuclear power plants and nuclear reactors of nuclear power plants, which are equipped with connection shafts of regulating shafts which are provided with discharged nuclear waste, As anti-explosion equipment (803), and

A double structure block tank dust collector 794 for controlling the nuclear radiation leakage constituting the pressurized water type reactor reactor facility 803 is provided with reactor facilities to prevent leakage of nuclear radiation,

As shown in FIGS. 155 to 161, the nuclear power plant (593, 594, 595) of the small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plant of land and ocean and the nuclear power plant 672 of the nuclear power plant, (803) of a nuclear power plant of a nuclear power plant connected to a nuclear reactor nuclear waste treatment section (811a) of a reactor facility constituting a double structure block tank dust collector reactor facility of a nuclear hydroelectric power generation facility section (811) In addition,

(593,594,595) Nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants constituting the pressurized water reactor facility (803) and the inside of the distribution input unit main body (1) of nuclear reactor waste treatment facility (683) Explosion Control Distribution Dispensing Apparatus with Dual Structure Block Tank Dust Collector (794) Controlling Nuclear Radiation Leakage to Control the Nuclear Radiation Leakage of Nuclear Fuel The method of claim 1,

(811) located at the top of the sea level (40 m above sea level) excluding the weather condition of the earthquake and tsunami constituting the pressurized water reactor installation (803) by the disaster prevention device, Barge line Reactor facility Safety operation Reactor facility to establish safe reactor facility safety facility Safety device Double structure block to control nuclear radiation leak that prevents explosion of nuclear power plant nuclear power plant Nuclear power plant Double structure block tank Dust collector (794) Reactor facility And the operation of the nuclear power plant is performed by providing a pressurized water type reactor installation 803,

As shown in FIGS. 155 to 161, in the pressurized water type nuclear reactor facility 803 on the connecting shaft of the nuclear power generation nuclear waste processing unit 811a constituting the pressurized water type nuclear reactor facility 803,

The steam generator 810 exchanges the water and the steam 780 without generating water vapor by applying pressure constituting the pressurized water reactor assembly 803 so as to make the steam turbine rotate while exchanging the water and the steam 780 in the steam generator 810, A control rod 798 is provided inside the reactor pressure vessel 813 and a coolant pump 243 is provided below the steam generator 810 and the steam generator 813 on the side of the pressure vessel 813, Provide turbine rotation,

A turbine 267 and a generator 772 are formed at an intermediate portion between the pressure vessel 813 constituting the pressurized water reactor assembly 803 and the steam generator 810 and the cooling water 287 is injected into the condenser 790 Provide cooling water discharge with waterproofing,

The water supply performance is provided to the steam generator 810 through the water supply pump 241 connected to the condenser 790 constituting the pressurized water type reactor installation 803 and the water supply performance of the small, (593,594,595) Nuclear power plant (672) and double tube structure block piping line located inside the dispensing device main body (1) of nuclear reactor waste treatment facility (74) Nuclear waste location movement path And a nuclear waste disposal unit 811a to provide a nuclear waste disposal unit 811a, and a nuclear waste disposal location control unit and a nuclear waste disposal site including a double piping line 74 are provided ,

To constitute the pressurized water type nuclear reactor facility 803 and to operate the nuclear reactor of the connection shaft constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the pressurized water reactor facility 803,

The nuclear radioactive contaminants constituting the inside of the nuclear power generation nuclear waste processing unit 811a of the nuclear power generating facility unit 811 constituting the pressurized water type nuclear reactor facility 803 are connected to a plurality of temperature pressure detecting sensor safety pressure sensor In addition,

When the nuclear power plant constituting the pressurized water type nuclear reactor facility 803 is in operation,

When the temperature reaches 700-800 degree high temperature and high pressure inside the nuclear reactor facility, the temperature and pressure sensors provide alarm messages to the computers in the safety control room, The inner block piping line 74a of the small pressure vessel 813 is connected to the inner block tank of the pressure vessel 813 while the explosive nuclear waste passes through and the nuclear waste is stored at the lower end of the double structure block tank. (472) is opened,

As the outer block piping line 74b constituting the pressurized water reactor assembly 803, the fuel explosion prevention control article stored in the inner block tank is connected to the flickering warning lamp 99 of the temperature pressure sensor, the pressure gauge 101, A thermostat thermometer sensor switch 103 having a connection structure with the bimetal 102, a level pressure switch 104 for controlling flow rate check, a flow meter 105 for flow rate check, and a pipeline automatic pneumatic valve transfer device A plurality of through holes of the double pipe structure block piping line 74 are cut at a predetermined angle of 45 degrees at the upper end of the reactor building 688 by a cutter and a construction machine drill machine Through hole processing is provided,

A double pipe structure block piping line (74) is formed in a plurality of through holes of a double structure block tank reactor reactor facility constituting the pressurized water reactor installation (803)

A plurality of safety valves 472 constituting the pressurized water reactor assembly 803 are provided on the block piping line 74 with bolts 24 and nuts 25 with flanges connected to gaskets 32,

The outer block tank 599 for storing the nuclear waste is disposed at one location of the double structure block tank 598 having a size twice the diameter of the reactor provided on the outer wall surface of the reactor building 688 constituting the pressurized water reactor installation 803. [ And dual structure block tank dust collector reactor facilities, and combined with a radiation type connection structure to provide nuclear waste disposal dispensing apparatus and nuclear fuel (683) explosion control dispensing apparatus,

To constitute the pressurized water type nuclear reactor facility 803 and to operate the nuclear reactor of the connection shaft constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the pressurized water reactor facility 803,

Explosion prevention of the nuclear fuel 683 of the pressurized water reactor reactor facility 803 constituting the pressurized water reactor installation 803 can be prevented,

The nuclear reactor 681 of the pressurized water reactor installation 803 and the nuclear fuel 683 immediately before the reactor explosion outside the reactor core 681 are provided with explosion- A double structure block tank reactor in the main body 1; a nuclear waste disposal unit 811a having a nuclear reactor facility; a temperature sensor for detecting the temperature and pressure of the pressurized water reactor reactor 803, Provide explosion-proof control supplies,

(593,594,595) of marine nuclear power hydroelectric power plants of small size, medium and large scale, which constitute a pressurized water reactor installation (803). Distribution of mooring devices and diving buoyancy control devices and nuclear waste disposal in nuclear power plants (672) Device and pressurized water reactor (803) before and after operation of the reactor facility Dual structure block in the nuclear power plant (811) at the nuclear power plant nuclear waste treatment section (811a) of the reactor facility (794) And the pressurized water reactor reactor facility 803 among a plurality of nuclear reactor facilities therein,

(803), which is a disassembly-connectable connection structure, is a double structure block of a connecting shaft constituting a distribution dispensing apparatus main body (1) for nuclear waste disposal unit. A tank dust collector (794) Which is connected to a plurality of nuclear reactor facilities connected to the reactor main body (1) of the nuclear power plant for nuclear waste disposal of a nuclear hydroelectric power plant having a double structure block tank dust collector, 811) is applied to a pressurized water reactor reactor (hereinafter referred to as &quot; reactor &quot;) that feeds a nuclear power plant 672 of a floating nuclear power plant of a small size, And facilities 803.

Referring to FIG. 162, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, One embodiment of the present invention is applied to a gas cooling furnace reactor facility 804 (hereinafter referred to as a &quot; nuclear reactor furnace facility &quot;) in which a plurality of nuclear reactor facilities are loaded into a floating nuclear power plant 672 of a floating nuclear power plant, ) As a construction machine, and a side view of the nuclear reactor operation system of the nuclear reactor waste disposal unit, which constitutes the nuclear reactor main body (1). The nuclear reactor furnace (593, 594, 595) of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a plant (804) (672) to the construction machine. (804) Side-by-side cross-sectional configuration of a nuclear power plant scene constituting a distribution dispenser.

Figures 136 through 162 are diagrams illustrating an embodiment of a dispensing apparatus for a nuclear waste disposal facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector according to the present invention .

Referring to Figure 163, a nuclear hydroelectric power plant 811 comprising a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, One embodiment that is included is a gas-cooled furnace facility (eg, a gas-cooled furnace facility) that feeds a construction machine into a floating nuclear power plant (672) of a small, medium and large sized marine nuclear power plant, 804), which is a side view of the nuclear reactor, and a side-by-side view of the nuclear reactor operating system, (593,594,595) of a small and medium-sized and large-scale marine nuclear power plant showing the construction of the nuclear power plant of the nuclear power plant (674) Is the side of the nuclear power plant operation method scenes constituting a distribution chute of a nuclear reactor plant (804) into a gas cooling section perspective road configuration,

164, a nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor for a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (804) constituting the nuclear reactor furnace (804) as a construction machine is shown as a side cross-sectional view, and the supporting system constituting the inside of the main body (1) of the reactor installation for elementary nuclear waste treatment (593,594,595) of a small, medium and large sized marine nuclear power plant showing the nuclear plant construction of the gas cooling furnace reactor facility (804) among the nuclear reactor facilities of the nuclear power plant (672) (804) as a construction machine, a side cross-sectional configuration of a nuclear power plant scene,

Referring to FIG. 165, the nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus for marine nuclear hydroelectric power plants having the double structure block tank dust collector according to the present invention The nuclear reactor furnace facility 804 including the gas cooling furnace reactor 804 as a construction machine is constituted inside the main body 1 of the distributing and inputting apparatus of the reactor facility for elementary nuclear waste treatment, (593, 594, 595) Nuclear power plant (672) of a small, medium and large sized marine nuclear power plant showing the nuclear plant construction of the gas cooling furnace reactor (804) And a gas cooler furnace facility (804) for entering a construction machine into a construction machine.

Referring to Figure 166, the nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear power plant having the double structure block tank dust collector according to the present invention A nuclear waste treatment reactor arrangement providing a gas cooling furnace reactor installation (804) to a construction machine in a nuclear waste treatment reactor installation comprising a dual structure block tank comprising an embodiment of a coupling arrangement Marine Nuclear Hydroelectric Power Plant (804) showing the decomposition and coupling system showing the construction of the nuclear reactor of the gas cooling furnace (804) of the nuclear reactor main body (1) (593,594,595) of a small, medium and large sized marine nuclear hydroelectric power plant showing the construction of the operation system. Construction at nuclear power plant (672) To step of configuring a nuclear reactor plant (804) to the cooling gas fed to the construction machine to disassemble the side-coupled road configuration,

Referring to Figure 167, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for nuclear marine nuclear power plant, A nuclear waste treatment reactor arrangement for providing a gas cooling reactor installation (804) to a construction machine in a nuclear waste treatment reactor installation comprising a dual structure block tank constructing an embodiment of a coupling system for a nuclear power plant having a dust collector Distribution of nuclear reactor waste treatment facility for marine nuclear hydroelectric power plant with elemental double structure block tank dust collector showing side view of the breakdown coupling type deep reactor safety reactor facility showing the nuclear power plant construction of the cooling furnace reactor facility (804) One embodiment constructed as a dosing device is a dual structure of the present invention Deep-coupling type deep-water safety reactor system consisting of a gas-cooling furnace reactor (804) constituting a distribution injector of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a tank dust collector, road,

Referring to FIG. 168, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention, A nuclear waste treatment reactor arrangement providing a gas cooling furnace reactor installation (804) to a construction machine in a nuclear waste treatment reactor installation comprising a dual structure block tank comprising an embodiment of a coupling arrangement Marine Nuclear Hydroelectric Power Plant Of nuclear reactor waste treatment facility nuclear reactor facility (804) disassembly coupling type reactor showing the construction of nuclear reactor facility (804) deep reactor safety reactor side, elementary dual structure block showing tank with a dust collector An embodiment comprising a distributing apparatus of a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant is described as an in- Reactor facility, showing the configuration of the decomposition-coupled in-depth safety nuclear reactor equipment-side constituting a nuclear reactor plant (804) to the cooling gas constituting the present invention as a construction machine, the cross-sectional perspective road configuration,

As shown in FIGS. 162 to 168, the nuclear reactor furnace facility 804 constituting the gas-cooling furnace reactor facility 804 comprises a nuclear reactor waste processing shielding apparatus The connection shaft of the regulating shaft, which is connected to the distribution shaft having the storage tanks and for adjusting the nuclear waste disposal capacity,

In the gas cooling furnace reactor facility 804 among the plurality of reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the operation of the connection shaft constituting the gas cooling furnace reactor facility 804,

(593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the gas cooling furnace reactor facility (804) The nuclear reactor facility 811 of the nuclear power plant 811 inside the reactor core 1 is provided with a gas cooling furnace reactor 804 constituting a double structure block tank collector 794 for nuclear waste treatment of the connection shaft,

A nuclear radiation leakage control dual structure block tank dust collector (not shown) comprising a floating nuclear fuel plant 672 of a marine power plant constituting a nuclear reactor furnace facility 804 and a distribution input apparatus main body 1 of a reactor facility for nuclear waste treatment, (794), and a nuclear fuel explosion control distribution dispensing apparatus. A plurality of nuclear reactor facilities are installed on a barge of an anti-sunken double structure block tank of the ocean.

Earthquake, and tsunami disaster prevention devices, the installation of the nuclear power plant (811) located at the top of the sea level at sea level (811) Safety building and safe operation device Double structure block tank dust collector equipped with nuclear radiation leak control to prevent nuclear explosion of nuclear power generation of nuclear power plant of nuclear power plant (794) Nuclear power generation facility (811 (804) of the nuclear cooling waste furnace reactor (811a) of the nuclear power generation nuclear power plant (801) to be installed in the reactor main body (1) of the nuclear waste disposal reactor,

A double structure block tank for treating a nuclear waste in a connection shaft of a nuclear power generation nuclear waste treatment section 811a of a nuclear hydropower generation facility section 811 constituting the gas cooling furnace nuclear reactor facility 804 as shown in Figures 162 to 168, In the gas cooling furnace reactor facility 804 constituting the dust collector 794,

A nuclear egg of a nuclear power plant is injected into the inside of the connection shaft constituted by the floating type nuclear power plant 672 of the marine power plant constituting the gas cooling furnace reactor facility 804 and the inside of the distribution injecting apparatus main body 1 of the nuclear waste treatment nuclear plant, A nuclear reactor furnace facility 804 among a plurality of nuclear reactor facilities for nuclear explosion-proof nuclear waste treatment in the form of a nuclear reactor, and graphite is provided with a moderator 676,

The coolant 816 includes a gas-cooled furnace reactor 804 equipped with carbon dioxide 164,

When the natural uranium 812 and the enriched uranium 235 812 are provided for the gas cooling furnace reactor 804 constituting the gas cooling furnace reactor facility 804 and the carbon dioxide is provided as the coolant 816 ,

The gas cooling furnace 804 is provided with high-pressure, high-pressure steam of a strong gas as a vapor condition, and a nuclear power plant having the same thermal efficiency as that of the thermal power generation in the dual structure block tank dust collector 794. Includes a reactor installation 804,

On the circumferential surface of the nuclear reactor furnace facility 804 constituting the reactor facility of the nuclear power plant,

Nuclear explosion-proof dual structure block tanks in the form of a cylindrical egg making up a nuclear reactor furnace facility (804) Radioactive nuclear waste treatment reactor equipment and nuclear fuel (683) Distribution of reactor facilities for nuclear waste disposal with explosion control equipment And a gas cooling furnace reactor facility (804) constituted by charging a nuclear waste disposal unit (811a) having a double structure block tank dust collector reactor unit constituted inside the apparatus main body (1)

(593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant of the ocean which constitutes a gas cooling furnace reactor facility (804), a mooring device and a diving buoyancy control device and a nuclear waste treatment (811a) Nuclear power plant nuclear waste treatment section (811a) Double structure block tank dust collector (794) Before and after safety operation of nuclear power plant in distribution facility and reactor facility Nuclear power plant facilities (811a) (804) of the gas cooling furnace (804) to provide the connection shaft to constitute the operation of the nuclear power plant and to be disassembled and coupled, and is constituted inside the main body (1) of the nuclear reactor waste disposal unit And a gas cooling furnace reactor facility 804 that includes the nuclear reactor operation of the connection shaft.

Referring to Figure 169, a nuclear hydroelectric power plant (811) comprising a main body (1) of a nuclear reactor waste disposal reactor of a marine nuclear power plant having a double structure block tank dust collector according to the present invention One embodiment includes a multi-purpose high temperature gas reactor installation 805 in a floating nuclear power plant 672 of a small and medium and large marine nuclear hydroelectric power plant of land and sea among a plurality of nuclear reactor facilities, 593,594, 595, (1) of the nuclear reactor waste disposal unit (1), which is a side view of the nuclear reactor operation system composed of the construction machine, (593, 594,595) of small, medium and large sized marine nuclear hydroelectric power plants showing the construction of the nuclear power plant consisting of construction equipment (805) Of nuclear movable manner scenes constituting a nuclear reactor plant (805) to the multi-purpose hot gas to 672 to the construction machine side cross-section perspective road configuration,

Referring to FIG. 170, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear nuclear hydroelectric power plant. One embodiment includes a multi-purpose high temperature gas reactor installation 805 in a floating nuclear power plant 672 of a small, medium and large sized marine nuclear hydroelectric power plant of land and sea among a plurality of nuclear reactor installations, 593, 594, 595, (1) of the nuclear reactor waste disposal unit (1), which is a side view of the nuclear reactor operation system composed of the construction machine, (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants showing the construction of a nuclear power plant consisting of construction equipment (805) Of nuclear movable manner scenes constituting a nuclear reactor plant (805) to the multi-purpose hot gas to 672 to the construction machine side cross-section perspective road configuration,

Referring to FIG. 171, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (805) as a construction machine with a multi-purpose high-temperature gas containing a high-temperature high-temperature gas, (593,594,595) nuclear power plant (672) of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a multi-purpose high temperature gas reactor (805) (805) as a multi-purpose hot gas with a construction machine.

Referring to FIG. 172, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed in the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. (805) as a construction machine with a multipurpose hot gas containing a high-temperature gas, which is decomposed into a side section, into a main body (1) of a dispensing apparatus main body (593, 594, 595) of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a multi-purpose high-temperature gas reactor (805) Side construction of a disassembly-type system in which a nuclear power plant (672) is constituted by a multi-purpose high-temperature gas reactor (805) as a construction machine,

Referring to FIG. 173, a nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Nuclear waste treatment reactor plant to provide a multi-purpose high temperature gas reactor installation (805) into a construction machine for nuclear waste disposal reactor installations Including a double structure block tank dust collector that constitutes one embodiment of a coupling system Marine nuclear hydroelectric (805) as a multi-purpose high-temperature gas of a power plant is divided into a construction machine and a decomposition-coupling system. Small and medium-sized and large-scale marine nuclear hydroelectric power plants showing the construction of a nuclear power plant consisting of a multi-purpose high-temperature gas reactor (805) Decomposition of the combined method of configuring a nuclear reactor facility 805 multi-purpose high-temperature gas in the flotation type dock (593 594 595) nuclear power station (672) of the burn as construction machinery Road-side configuration,

174. Referring to Figure 174, a nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (805) to a construction machine for a multi-purpose hot gas reactor in a nuclear waste disposal reactor installation including a nuclear waste disposal reactor structure having a double structure block tank dust collector constituting an embodiment of the nuclear waste disposal reactor installation system (805) as a multi-purpose high-temperature gas reactor as a construction machine. The nuclear reactor hydropower plant equipped with an elementary dual-structure block tank dust collector with a cross-sectional view One embodiment constructed as a dispensing device is a dual structure of the present invention, Deep-coupling type deep-water safety reactor unit consisting of a multi-purpose high-temperature gas furnace reactor (805) constituting a distribution input unit of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a lock tank dust collector, Straight configuration Road,

Referring to FIG. 175, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant. Nuclear waste treatment reactor plant to provide a multi-purpose high temperature gas reactor installation (805) into a construction machine for nuclear waste disposal reactor installations Including a double structure block tank dust collector that constitutes one embodiment of a coupling system Marine nuclear hydroelectric (805) as a multi-purpose high temperature gas furnace (805) as a construction machine for a nuclear reactor waste disposal nuclear reactor facility of a power plant, and an elemental double structure block tank dust collector An embodiment comprising a distribution input device of a nuclear waste disposal facility of a marine nuclear hydroelectric power plant, Before the reactor facility, showing the configuration decomposition combination constituting a nuclear reactor plant (805) to the multi-purpose hot gases that make up the present invention as a construction machine method of in-depth safety nuclear reactor equipment-side, cross-sectional perspective road configuration,

As shown in FIGS. 169 to 175, the storage of the nuclear reactor waste processing shielding device constituting the nuclear reactor facility 805 with the multipurpose hot gas into the main body 1 of the nuclear reactor waste disposal reactor main body 1 The connection shaft of the regulating shaft, which is connected to the distribution shaft, which is provided with tanks and which regulates the nuclear waste disposal capacity,

The multipurpose hot gas furnace reactor 805 among the plurality of reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the reactor operation of the connection shaft constituting the reactor facility 805 with the multi- ,

(593, 594, 595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting reactor facilities (805) with multipurpose hot gas, and a distribution dispensing apparatus main body A multi-purpose high-temperature gas furnace reactor (804) constructed in a double structure block tank dust collector (794) for nuclear waste treatment on a connection shaft of a nuclear power nuclear waste treatment section (811a) included in a nuclear hydroelectric power generation facility section (811) 805)

A nuclear waste disposal control unit comprising a nuclear radiation leakage control dual structure block tank dust collector 794 constituting a nuclear waste disposal reactor facility constituting a reactor facility 805 with a multipurpose hot gas, Apparatus and Nuclear Fuel (683) Explosion Control Dispensing Apparatus A method of disposing a plurality of reactor installations on a barge of an anti-sunken dual structure block tank of the ocean,

The nuclear power generation nuclear waste treatment section 811a of the nuclear reactor facility in the nuclear hydroelectric power generation facility section 811 located at the upper 40 m of the sea level excluding the weather condition constraints of the earthquake and tsunami constituting the nuclear reactor facility 805 by the multipurpose hot gas, ) Barge line reactor facility with anti-sink type barge with installation location of distribution shaft of connecting shaft Includes reactor facility which constitutes safety of reactor facility before and after safe operation,

(805) with multi-purpose high-temperature gas. A double structure block tank dust collector (794) equipped with a nuclear radiation leak control for preventing explosion of a plurality of nuclear reactor facilities of a nuclear power plant of a nuclear power plant, The nuclear reactor nuclear waste treatment unit 811a of the nuclear power generation facility 811 constituting the inside of the main body 1 of the distribution reactor of the nuclear reactor installation of the present invention, And,

The multi-purpose high-temperature gas furnace reactor 805 constituting the inside of the connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power plant unit 811 constituting the nuclear reactor facility 805 with the multipurpose hot gas,

Graphite is provided as the moderator 819 constituting the reactor facility 805 with the multi-purpose high-temperature gas, helium gas 176 is provided as the coolant 816,

The fuel constituting the reactor facility 805 with the multipurpose hot gas is supplied with enriched uranium 812 and thorium and the heat of the helium gas 176 is transferred to the water to generate the steam 780 from the steam drum 792 Water and steam (780) separate and provide for transferring the steam (780) to the turbine (267)

(593,594,595) nuclei of small, medium and large sized marine nuclear hydroelectric power plants in the ocean while generating power within the generator (772) by rotation of the turbine (267) constituting the reactor facility (805) And a double structure block tank dust collector 794 of a connecting shaft constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear reactor facility for waste treatment,

A nuclear waste locating passage is provided by a double tube structure block piping line 74 constituting a nuclear reactor facility 805 by a multipurpose hot gas,

A multi-purpose high-temperature gas is used to constitute a nuclear reactor (805). A plurality of nuclear radiation pollutants are detected by a temperature sensor. A temperature sensor of a safety valve detects the temperature of the reactor. The temperature inside the reactor is 700 to 800 degrees. The temperature and pressure sensor includes an alarm message for preparing a transmission to the safety control room computer,

The explosion nuclear waste is passed through the internal block piping line 74a of the pressure vessel 813 of each of the individual units while providing a plurality of openings for each of the plurality of temperature pressure sensor safety valves constituting the reactor facility 805 by multi- And a safety valve 472 for storing the nuclear waste at the bottom of the structural block tank precipitator 794 and providing an opening to the temperature pressure sensing sensor connected to the inner double structure block tank at the lower end of the pressure vessel 813,

As the outer block piping line 74b constituting the reactor facility 805 with the multi-purpose high-temperature gas, an explosion-proof control material fuel explosion-preventing control article stored in the inner block tank 683 is connected to the automatic injector flashing warning lamp 99 A thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 101 and a temperature sensing sensor bimetal 102, a level pressure switch 104 for flow rate check operation, a flow rate meter 105 for flow rate check, And a connection structure provided with safety valves 472 of the automatic pneumatic valve transport device 916,

A plurality of through holes are formed at an angle of 45 degrees at an upper end of the reactor building 688 constituting the nuclear reactor facility 805 by the multi-purpose high-temperature gas, the through holes are machined by a cutting machine and a construction machine drilling machine,

The block piping line 74 and the plurality of safety valve 472 facilities are provided in the plurality of through holes constituting the reactor facility 805 with the multipurpose hot gas to form the double pipe structure block piping line 74, And a flange forming a connection connection with the nut (25) and the gasket (32)

As shown in Figs. 169 to 175, on the outer wall surface of the reactor building 688 constituting the interior of the double structure block tank dust collector 794 constituting the reactor facility 805 with the multipurpose hot gas,

The double structure block tank dust collector 794, which is twice as large as the reactor building 688 constituting the reactor facility 805 with the multi-purpose high temperature gas, is equipped with an outer block tank 599 for storing nuclear waste treatment, (683) explosion control dispensing device combined with a nuclear waste disposal dispenser combined with a form connection structure and the reactor facility is installed inside the reactor core (681) and outside the reactor core (681). The nuclear fuel (683) And a plurality of nuclear reactors connecting structures constituting the interior of the main body 1 of the nuclear reactor waste disposal facility for land and marine nuclear waste,

A multi-purpose high-temperature gas reactor (805) comprising nuclear fuel explosion-proof control articles to control the nuclear waste disposal reactor main body (1) Nuclear Radiation Leakage Control of Waste Shielding Equipment and Nuclear Reactor Facilities Dual Structure Block Tank Dust Collector (794) Dispensing input and distribution system of nuclear reactor waste disposal unit for marine nuclear power plant (794) A multi-purpose high-temperature gas reactor (805) structure that constitutes the operation of a nuclear reactor by including it in a nuclear reactor facility.

Mooring devices and diving buoyancy control devices and distribution and input devices for nuclear waste disposal and nuclear reactor facilities installed in a marine power station floating nuclear power plant (672) constituting a reactor facility (805) with multi-purpose hot gas. A double structure block tank dust collector 794 equipped with a nuclear radiation leakage control of the nuclear reactor facility in the hydroelectric power generation facility 811, a nuclear waste nuclear power plant 811a of the nuclear hydroelectric power plant 811 constituting the inside of the nuclear reactor facility, (805) from the multi-purpose high-temperature gas among the nuclear reactor facilities, and can be disassembled and coupled at a marine vessel manufacturing plant, the main body 1 of the reactor apparatus for nuclear waste treatment, (805) for multi-purpose high-temperature gas to make operation of the nuclear reactor of the connecting shaft constituting the inside.

Referring to FIG. 176, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, One embodiment of the present invention is a support system for a small-sized, medium-sized, and large-sized marine nuclear hydroelectric power plant (593, 594, 595) The operation of the nuclear reactor operating system in which the new conversion furnace reactor facility 806 is constituted by the construction machine in the power generation plant 672 is constituted inside the main body 1 of the distributing and inputting apparatus of the nuclear reactor facility for elementary nuclear waste treatment, (672) of a marine power plant showing the construction of a nuclear power plant consisting of a new type of reactor facility (806) (806) as a new type of conversion reactor (806) as a construction machine.

Referring to FIG. 177, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention One embodiment of the present invention includes a new conversion furnace facility 806 at a floating nuclear power plant 672 of a small and medium and large marine nuclear hydroelectric power plant of land and ocean among a plurality of nuclear reactor facilities 593,594 and 595 (1) A nuclear power plant consisting of a nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, and a construction machine. (593, 594,595) nuclear power plant (672) of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a construction machine, (806) as a construction machine as a conversion reactor.

Referring to FIG. 178, a nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (806) as a construction machine is shown as a side cross-sectional view, and the supporting system constituting the inside of the main body (1) of the nuclear reactor waste disposal unit (593, 594,595) nuclear power plant (672) of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a new type of reactor facility (806) Construction of nuclear reactors (806) as a new type of conversion reactor Construction of the side view of the scenes Construction of roads,

Referring to FIG. 179, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for processing marine nuclear hydroelectric power plants. And a nuclear power plant (806) constituting a new type conversion reactor (806) constituting the nuclear power plant is constituted inside the main body (1) of the nuclear power plant for elementary nuclear waste treatment, (593,594,595) Nuclear power plant (672) Nuclear power plant (673) Nuclear power plant (673) Nuclear power plant (673) Nuclear power plant (673) Nuclear power plant (806) is constructed by a construction machine. In this way,

Referring to FIG. 180, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (806) into a construction machine for the nuclear waste treatment reactor installation including the nuclear waste disposal facility including the dual structure block tank dust collector constituting one embodiment of the nuclear waste disposal reactor installation (806) is constituted by a construction machine. It shows the disassembling and coupling method in which the nuclear reactor facility (806) is constituted by a construction machine. A small, medium-sized and large-scale marine nuclear power plant showing the construction of a nuclear power plant consisting of a nuclear power plant (806) (593,594,595) Side construction of disassembly-coupling system that constructs a new conversion reactor facility (806) as a construction machine at a nuclear power plant (672)

Referring to Figure 181, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (806) to a nuclear waste disposal reactor facility including a nuclear waste disposal reactor facility (806) to construct a nuclear waste disposal reactor facility. (806) among the reactor facilities (806) as a conversion reactor, a nuclear reactor hydroelectric power plant having an elementary double structure block tank dust collector Of the nuclear reactor waste disposal apparatus of the present invention. The present invention relates to a double reactor core reactor (hereinafter, referred to as &quot; nuclear reactor reactor &quot;) having a double tank reactor Side, cross-section diagonal configuration Road,

Referring to FIG. 182, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor apparatus for processing marine nuclear hydroelectric power plants. (806) into a construction machine for the nuclear waste treatment reactor installation including the nuclear waste disposal facility including the dual structure block tank dust collector constituting one embodiment of the nuclear waste disposal reactor installation (806) is constructed by a construction machine. The reactor is equipped with an elementary double structure block tank dust collector, which shows the cross-sectional side view of the deep-safety reactor installation side. Construction of a new conversion furnace facility (806) to constitute a distribution input unit of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant One example of the construction of the system is a decompression coupling type deep reactor safety reactor structure constituting a new conversion furnace reactor facility 806 constructed in the present invention, road,

176 to 182, in the nuclear waste disposal reactor apparatus, the inside of the distribution dispensing apparatus main body 1 is connected to a storage tank of a nuclear reactor nuclear waste disposal shield apparatus constituting the new conversion furnace nuclear reactor facility 806 The connection shaft of the control shaft connected to the distribution shaft for providing the control of the nuclear waste disposal capacity,

In the new conversion furnace facility 806 among the plurality of reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the operation of the nuclear power plant connected to the connection shaft constituting the new type conversion furnace 806,

(593, 594, 595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting reactor facilities (806) The new conversion furnace facility 806 constituting the double structure block tank dust collector 794 for treating nuclear waste as a connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power generation facility unit 811 constituted inside ,

A nucleus having a double structure block tank dust collector 794 in the form of a nuclear radiation leak control cylindrical egg constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the nuclear reactor waste facility 806 constituting the new type conversion (683) Explosion-Controlled Dispensing Apparatus A number of reactor installations are included in the barge of an anti-sinking dual structure block tank of the ocean,

(811) located at the top of the sea surface (40 m above sea level), which excludes the weather condition of the earthquake and tsunami constituting the reactor facility (806) with the disaster prevention device, Nuclear Reactor Installed on the Barge of the Nuclear Power Plant Reactor Facility Safety Operation Unit,

(593,594,595) Nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting reactor facilities (806) The nuclear radiation leak control dual structural block tank dust collector 794 provided at the connection axis of the nuclear power nuclear waste treatment section 811a of the nuclear hydroelectric power generation facility section 811 preventing the nuclear explosion of a plurality of nuclear power generating nuclear power plants, And includes a new conversion furnace reactor arrangement (806)

The structure of the new conversion furnace facility 806 constituting the connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power plant unit 811 constituting the nuclear power plant 806 of the new conversion type,

The coolant 816 is provided with the hard water 654a whose degree of utilization of the nuclear fuel 683 constituting the nuclear reactor facility 806 is increased by the new conversion,

The water cooler 816 constituting the reactor facility 806 is selected as the new type of conversion and the hard water 654a is selected as the coolant for the reactor equipment 806 and the water 654 and the steam 780 are separated and the steam 780 is transferred to the turbine 267 through the steam pipe 779 and the turbine 267 rotates to provide power generation inside the generator 772, ) Equipment,

The heavy water 654b has a smaller absorption of the neutrons 675 than the light water 654a and the use efficiency of the uranium 812 is lower than that of the heavy water 654a, As the rising fuel, plutonium (801) and natural uranium (812) are mixed with a mixer mixer machine (649)

The operation of the nuclear reactor (806), which is a new type of conversion, includes rotating operation of the turbine (267) by using the nuclear fuel (683) (794) Nuclear power plant part (811) consisting of nuclear reactor internal parts Nuclear waste treatment part (811a) New type conversion reactor part (806) A dual structure block tank scrubber 794,

(794) Double pipe structure piping line (74) to establish the position inside the nuclear reactor facility (74) Nuclear waste location movement control device is provided to control the location of nuclear waste movement and,

A new type of reactor converts the nuclear radiation pollutants constituting the nuclear reactor facility (806) to a plurality of temperature pressure sensors. The temperature sensor of the safety valve detects the temperature of the reactor inside the nuclear reactor at a temperature of 700 to 800 degrees Celsius In case of reaching, the temperature and pressure sensor sets up the alarm message transmission to the computer of the safety control room,

As a result of the new conversion, explosive nuclear waste passes through the inner block piping line 74a of the pressure vessel 813 of each of the individual bins while providing a plurality of openings for each of the plurality of temperature-sensing sensor safety valves constituting the reactor facility 806, A safety valve 472 constituting an opening is provided for the temperature pressure sensor connected to the inner double structure block tank at the lower end of the pressure vessel 813 while the nuclear waste is stored in the lower portion of the block tank precipitator 794,

The outer block piping line 74b constituting the reactor unit 806 with the new type of conversion is provided with the mixture of the heavy water 654b and the yellow water mixture 656 stored in the inner block tank and the nuclear fuel 683, The explosion prevention control device is connected to the thermostat thermometer sensor switch 103 having a connection structure with the flashing warning lamp 99 of the input device temperature sensor, the pressure gauge 101 and the bimetal sensor 102, And a safety valve 472 having a connection structure to a pressure switch 104, a flow meter 105 for flow rate check, and pipeline automatic pneumatic valve conveying devices 916,

A plurality of through holes are formed at an angle of 45 degrees at an upper end portion of the reactor building 688 constituting the reactor facility 806 by the new conversion, and a through hole processing is provided by a laser cutting machine and a construction machine drilling machine, Block piping line 74 while forming structural block piping line 74 A plurality of safety valve 472 arrangements are provided with flange connection connections with bolts 24 and nuts 25 and gasket 32, The double structure block tank dust collector 794, which is twice the diameter of the nuclear reactor building 688 formed on the outer wall surface of the reactor building 688, is provided with an outer block tank 599 for storing nuclear waste, (683) explosion-control distribution dispensing devices coupled to a nuclear reactor waste disposal unit (806) coupled to the nuclear waste disposal unit (806)

A new type of reactor is used to construct nuclear reactor (681) inside the nuclear reactor facility (806), and to prevent nuclear explosion immediately before the nuclear reactor explosion outside the reactor core (681) (1) of the reactor installation for nuclear waste disposal of a marine nuclear hydroelectric power plant having a block tank dust collector, and a nuclear reactor waste containment control device (1) Nuclear reactor nuclear fuel explosion prevention reactor consisting of internal nuclear reactor facility (1) Nuclear reactor leakage and nuclear reactor waste disposal system and nuclear reactor waste disposal control system (794) Provide a distribution input,

(683) Dual structural block with explosion-proof tank dust collector (794) Nuclear reactor nuclear fuel (683) that constitutes inside the main body (1) of the nuclear reactor waste disposal facility constituting the reactor facility (806) And includes a new conversion furnace reactor facility 806 for constructing a nuclear reactor to operate the nuclear reactor,

(593, 594, 595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the reactor facility (806) with the new conversion type, and the mooring device, diving buoyancy control device and nuclear waste treatment (794) Nuclear Hydroelectric Power Plant (Nuclear Power Plant) Consisting of Nuclear Hydroelectric Power Plant (Nuclear Power Plant) in Nuclear Power Plant (811) Before and After Safety Operation of Nuclear Power Plant Of the plurality of reactor facilities of the nuclear power plant having the nuclear reactor nuclear waste treatment unit 811a and the dual structure block tank collector 794 of the facility unit 811, And a new conversion furnace facility (806) including a connection structure capable of being disassembled and coupled at a marine vessel manufacturing plant.

Referring to Figure 183, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (593, 594, 595) nuclear, hydro, and nuclear power plants of small size, medium size and large scale of land and sea constituting a fast breeder reactor facility (838) among a plurality of nuclear reactor equipments The operation of the nuclear reactor operating system in which the high-speed multiproduct reactor facility 838 is constructed as a construction machine in the power plant 672 is constituted inside the main body 1 of the distributing and inputting apparatus of the nuclear reactor facility for elementary nuclear waste treatment, A small, medium-sized and large-scale marine nuclear hydroelectric power plant showing the construction of a nuclear power plant consisting of a high-speed multiproduct reactor facility (838) among a plurality of nuclear reactor facilities Dependent Expression dock (593,594,595) nuclear power plant operation method scenes side perspective sectional configuration that consists of a reactor facility (838) to a construction machine fast breeder nuclear power plant (672) Road,

Referring to Figure 184, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention (593, 594, 595) nuclear, hydro, and nuclear power plants of small size, medium size and large scale of land and sea constituting a fast breeder reactor facility (838) among a plurality of nuclear reactor equipments The operation of the nuclear reactor operating system in which the high-speed multiproduct reactor facility 838 is constructed as a construction machine in the power plant 672 is constituted inside the main body 1 of the distributing and inputting apparatus of the nuclear reactor facility for elementary nuclear waste treatment, A small, medium-sized and large-scale marine nuclear power plant showing the construction of a nuclear power plant consisting of a high-speed multiproduct reactor facility (838) among a plurality of nuclear reactor facilities Dependent type dock (593 594 595) nuclear power plants operating in the side cross-section isometric method Scene configuration that consists of a reactor facility (838) to a construction machine fast breeder nuclear power plant (672) Road,

Referring to FIG. 185, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, (838) as a construction machine is shown as a lateral cross-sectional view of a nuclear reactor main body (1) of a reactor installation for nuclear waste treatment. (593,594, 595) nuclear power plant (672) of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a fast breeder reactor facility (838) A side-by-side cross-sectional configuration of a nuclear power plant scene constituting a fast breeder reactor facility (838)

Referring to Figure 186, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear waste water nuclear power plant, A nuclear reactor operating system for constructing a nuclear reactor facility 838 including a high-speed breeder reactor facility 838 as a construction machine is constituted inside the main body 1 of the nuclear reactor effluent treatment facility for elemental nuclear waste treatment, (593,594,595) Nuclear power plant (672) of a small, medium and large sized marine nuclear power plant showing the construction of a nuclear power plant consisting of a fast breeder nuclear reactor facility (838) among a plurality of nuclear reactor facilities ) Is a side construction of a disassembly-type reactor in which a high-speed reactor 738 is constituted by a construction machine,

Referring to FIG. 187, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Nuclear waste treatment reactor facility providing a high speed breeder reactor facility (838) to a construction machine containing a nuclear waste treatment reactor facility comprising a dual structure block tank comprising an embodiment of a combined approach Marine Nuclear Hydroelectric Plant (838) Dispensing device for elemental nuclear waste treatment facility showing disassembly method. (1) Lifting device consisting of inside of main body (1) Among many reactor facilities, fast breeder reactor facility (593,594, 595) atoms of a small, medium and large sized marine nuclear hydroelectric power plant showing the construction of a nuclear power plant consisting of a construction machine, Decomposition of the combined method that consists of fast breeder power plant 672 nuclear reactors and equipment (838) in construction machinery Road-side configuration,

Referring to FIG. 188, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention A nuclear waste disposal reactor arrangement for providing a fast breeder reactor installation (838) to a construction machine for a nuclear waste disposal reactor installation including a dual structure block tank Disassembly coupling type deep reactor safety reactor unit which constitutes reactor reactor facility (838) as construction equipment, elementary dual structure block tank unit showing sectional view Dispensing input of reactor facility for nuclear waste disposal of marine nuclear hydroelectric power plant An example of construction of a device construction machine is shown in the double structure block of the present invention, Deep-coupled safety reactor with decomposition and connection system consisting of a high-speed multiprocess reactor facility (838) constituting a distribution input apparatus of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a large dust collector, road,

Referring to Figure 189, a nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Nuclear waste treatment reactor facility providing a high speed breeder reactor facility (838) to a construction machine containing a nuclear waste treatment reactor facility comprising a dual structure block tank comprising an embodiment of a combined approach Marine Nuclear Hydroelectric Plant (838) of the distribution reactor of nuclear reactor waste disposal facility for nuclear waste disposal facility is composed of a construction machine. Deep coupled safety reactor facility side, elemental double structure block showing the cross section. Marine equipped with dust collectors An embodiment comprising a distribution input device of a reactor facility for nuclear waste disposal of a nuclear hydroelectric plant is referred to as a deep reactor safety reactor Configuring showing decomposition combination constituting a nuclear reactor plant (838) fast breeder constituting the present invention as a construction machine method of in-depth safety nuclear reactor equipment-side, cross-sectional perspective road configuration,

Figures 163 through 189 are diagrams illustrating an embodiment of a distribution input device of a nuclear reactor waste disposal facility for a marine nuclear hydroelectric power plant having a dual structure block tank dust collector according to the present invention .

As shown in FIGS. 183 to 189, a reactor for nuclear waste treatment of a marine nuclear hydroelectric power plant having the double structure block tank dust collector is installed in a main body 1 of a distribution reactor 838) as the storage tanks of the nuclear reactor nuclear waste disposal screening apparatus, and the connection shaft of the control shaft connected to the distribution shaft for adjusting the nuclear waste disposal capacity,

In the fast breeder reactor facility 838 among the plurality of nuclear reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear reactor operation of the connection shaft constituting the fast breeder reactor facility 838,

(593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting a fast breeder reactor facility (838) The high speed propagating furnace reactor 838 constituting the double structure block tank precipitator 794 in the form of a cylindrical egg for nuclear waste treatment is connected to the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power plant 811, ),

A nuclear waste disposal dispensing apparatus and nuclear fuel (683) explosion control dispensing apparatus having a dual structure block tank dust collector (794) in the form of a nuclear radiation leak control cylindrical egg constituting a fast breeder reactor facility (838) The installation includes the step of providing the installation to the marine anti-sinking double structure block tank float type double barge,

The installation position of the distribution power input unit of the nuclear hydroelectric power plant unit 811 positioned at the upper 40 m of the sea level excluding the weather condition constraints of the earthquake and tsunami constituting the reactor plant 838 of the fast breeder reactor, (672) of the reactor facility safety operating device and the marine power plant that form the safety of the nuclear reactor facility safety operation of the barge line of the nuclear power plant of the nuclear power plant and the nuclear power plant (1) The nuclear radiation leakage control unit provided in the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power generation facility 811 for preventing the explosion of the nuclear power generation of the nuclear power plant, (FBR, 838) reactor,

 (593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting a fast breeder reactor facility (838) The concentrated uranium 235 (812) is concentrated in the central portion of the fuel rod 689 to about 20% in the high-speed propagating furnace reactor 838 constituting the double structure block tank precipitator 794 of the nuclear hydroelectric power plant 811, A mixture of enriched uranium (812), natural uranium (812) and plutonium (812)

The fuel rod 689 constituting the reactor plant 838 is surrounded by natural uranium 812,

In the fuel rod 689 constituting the fast breeder reactor facility 838, the uranium 238 (653a) is converted into the plutonium 801,

The entry and exit of the plutonium 801 constituting the high-speed propagation furnace reactor facility 838 is provided,

Use is provided as the next fuel constituting the fast breeder reactor facility 838,

Liquid sodium metal is provided in the coolant 816 constituting the reactor plant 838 for fast breeder reactor,

In the fast breeder reactor facility 838 constituting the coolant 816,

It is not necessary to decelerate the neutrons 675 constituting the reactor plant 838 and the heat generated in the reactor installation in the intermediate heat exchanger 657 is transferred from the intermediate heat exchanger 657 &Lt; / RTI &gt; other liquid metal sodium constituting the &lt; RTI ID =

The heat exchanger 658 constituting the fast breeder reactor facility 838 transforms the water 654 into steam 780 by the heat of the liquid sodium to form the nuclear power while the steam turbine 267 provides rotation, Nuclear power generation facilities (811) of the nuclear power plant (811) consisting of the main body (1) of the distributing and inputting device of the nuclear waste treatment facility of the floating type poison (593,594,595) of the marine nuclear hydroelectric power plant of small, (811a) a double structure block consisting of a cylinder egg for nuclear waste treatment as a connection axis, and a high-speed multiplication reactor unit (838) constituting a double tank block dust collector (794) And a nuclear waste locating passage constituting a nuclear waste locating motion regulating device (74), which is located at a nuclear reactor facility (838)

The temperature of the safety valve of the safety valve is detected by the sensor. The temperature of the inside of the reactor facility is 700 to 800 degrees. The dangerous state of the high temperature and high pressure state , The temperature and pressure sensor sets up an alarm message transmission to the computer of the safety control room,

The explosion nuclear waste is passed through the internal block piping line 74a of the pressure vessel 813 of each pit while providing a plurality of openings to each of the plurality of the temperature and pressure sensing sensor safety valves constituting the fast breeder reactor facility 838, And a safety valve 472 for storing the nuclear waste at the bottom of the block tank precipitator 794 and providing an opening for the temperature pressure sensing sensor constituting the connection with the inner double structure block tank at the lower end of the pressure vessel 813,

As the outer block piping line 74b constituting the high-speed breeder reactor facility 838, the fuel explosion-proof control fuel element explosion prevention control article stored in the inner block tank is connected to the flashing warning lamp 99 of the input unit temperature sensor, A thermostat thermometer sensor switch 103 having a connection structure with a bimetal sensor 101 and a temperature sensing sensor 102, a level pressure switch 104 for flow rate check operation, a flow meter 105 for flow rate check, And a safety valve 472 of the pneumatic valve conveying device 916. A plurality of through holes are formed at the upper end of the reactor building 688 at a predetermined angle of 45 degrees to cut the cutter and the construction machine drill machine And a plurality of through holes are formed in a double pipe structure block piping line (74);

The block piping line 74 constituting the fast breeder reactor facility 838 includes a plurality of safety valves 472,

A bolt 24, a nut 25 and a gasket 32 constituting a reactor plant 838 for a fast breeder reactor are provided to connect flanges to each other,

In a single installation of a double structure block tank dust collector 794 having a size twice as large as the diameter of the reactor building 688 constituting the outer wall surface of the reactor building 688 constituting the fast breeder reactor facility 838,

The nuclear waste disposal dispenser and the nuclear fuel (683) combined with the outer block tank (599) for the nuclear waste disposal and the radiation type connection structure constituting the fast breeder reactor facility (838) Inside the core (681) inside the facility and outside the core (681), it is equipped with control items to prevent the explosion of the nuclear fuel just before the explosion of the nuclear reactor, and distributes the nuclear reactor facilities for land and ocean nuclear waste. (838) connection shaft comprising a reactor

A plurality of reactor facility connection structures are provided on the connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydropower generation facility unit 811 constituting the fast breeder reactor facility 838,

(683) constituting the nuclear fuel reactor (838) constituting the fast breeder reactor constitutes an explosion-proof control apparatus, and constitutes the operation of the nuclear fuel explosion prevention nuclear reactor constituting the inside of the main body (1) of the nuclear reactor waste disposal apparatus. (794) distribution of nuclear reactor effluent control nuclear reactor waste disposal system and nuclear reactor waste disposal system,

A double structure block tank dust collector installed in the main body (1) of the distribution input device of the nuclear waste disposal reactor for supporting the floating nuclear fuel of the marine nuclear hydroelectric power plant constituting the fast breeder reactor facility (838) (794) to construct a nuclear reactor plant with a high-speed multiproduct reactor facility (838);

Mooring devices and diving buoyancy control devices for nuclear power plant floating nuclear power plant (672) constituting the fast breeder nuclear reactor facility (838), nuclear power plants before and after safe operation of distribution facility and reactor installation for nuclear waste disposal A double structure block tank dust collector 794 equipped with a nuclear radiation leakage control of the nuclear reactor facility in the power generation facility 811, a nuclear waste nuclear power plant 811a of the nuclear power hydroelectric power plant 811 constituting the inside of the nuclear reactor facility, A connection axis for establishing a fast breeder reactor installation (838) among reactor installations;

And it is preferable that the connection structure for decommissioning and disassembling at a marine shipbuilding factory is constructed to include the operation of the nuclear power plant.

Referring to FIG. 190, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention, (593,594,595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric plant consisting of a plurality of nuclear reactors constituting an embodiment of the nuclear waste nuclear waste processing unit (811a) including the nuclear power plant (672) to a nuclear power plant (672) that constitutes a nuclear waste disposal of a nuclear power plant constituting a plurality of nuclear reactor facilities as a construction machine in a double structure block tank bridge bridge (929) Of the Nuclear Hydroelectric Power Plant of small size, medium size and large size showing the elemental structure showing the side view of the nuclear plant operation method (593,594,595) Nuclear waste treatment at nuclear power plant (672) Double structure block tank pipe bridge (929) Nuclear power plant (672) consisting of a plurality of nuclear plant construction machines at construction site Nuclear reactor facility layout Side section configuration Road,

Referring to Figure 191, a nuclear hydroelectric power plant (811) comprising a main body (1) of a nuclear reactor waste disposal reactor of a marine nuclear power plant having a double structure block tank dust collector according to the present invention (593,594,595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant consisting of a plurality of nuclear reactor facilities constituting an embodiment of nuclear power generation nuclear waste treatment section (811a) including a nuclear power plant (672) to a nuclear power plant (672) that constitutes a nuclear waste disposal of a nuclear power plant constituting a plurality of nuclear reactor facilities as a construction machine in a double structure block tank bridge bridge (929) Of the Nuclear Hydroelectric Power Plant of small size, medium size and large size showing the elemental structure showing the side view of the nuclear plant operation method (593,594,595) Nuclear waste treatment at a nuclear power plant (672) Double structure block tank pipe bridge (929) A plurality of nuclear power plants (672) constituting nuclear power plants Reactor Facility Layout Side Section Configuration Road,

Preferably, a dual structure of the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the land and sea double structure block tank dust collector, Structure Block Tank Dust Collector Nuclear Waste Treatment Tube Manufacturing Process Dispense Shaft (705)

As shown in FIGS. 190 to 191, the nuclear power plant 672 of a marine small-sized and large-scale marine nuclear hydroelectric power plant constituting the distribution shaft 705 is equipped with a nuclear power plant 672, (1) Nuclear waste disposal pipe manufacturing process (705) In connection with the marine shipbuilding factory of the connecting axis, it is necessary to arrange the production control with the disassembly-connectable connection structure,

The small-diameter electric resistance welded pipe 706, which is manufactured in the nuclear hydroelectric power plant part 811 constituting the distribution shaft 705,

Includes the rough connection 711 which constitutes the cutting and forming 712 process of the raw material 707 uncoil 708 constituting the distribution shaft 705 to the ring level ring 709 and side trimming 710 and,

The facility of the nuclear power plant 672 constituting the nuclear waste disposal pipe manufacturing process distribution shaft 705,

The welding and internal / external surface bead removal 713 constituting the facility of the nuclear power plant 672 is completed with the welding heat treatment 715 of the nuclear power plant 672 while completing the ultrasonic wave and the eddy current test 714, ) And a water cooling (717) device,

The cut 719, which constitutes the facility of the nuclear power plant 672,

(720) of the nuclear power plant (672), and the process of the facility is installed in the intermediate load (723) and the induction heating furnace (724) (SRM, 725), which is composed of hot cutting (726), chamfering (727), hydraulic test (728), ultrasonic wave and eddy current test (729), and weight and length measuring device (731)

A screw 732 constituting a facility of the nuclear power plant 672 and a galvanized steel pipe 735 and a galvanized steel pipe 736 and a boiler tube 737 of the oil pan 733 and the general pipe 734, (731), the nuclear water hydropower plant (811) comprising the main body (1) of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector A double structure block tank (794) and a double structure block tank bridge (937) constituting a small diameter electrical resistance welding pipe (706) (593,594, 595) of a nuclear power plant of medium size and large size, and nuclear power plant (672) of nuclear power plant of nuclear power plant of medium size and large size. 811) Block precipitator tank configured to achieve a nuclear waste disposal pipe manufacturing process to distribution shaft provided with 705 marine nuclear hydroelectric power station with a double tank structure block precipitator nuclear reactor facilities, and waste disposal,

The large-sized, medium-sized and large-sized marine nuclear hydroelectric power plant of the ocean constituting the above-mentioned distribution shaft 705 has a large-sized casing-shaped electric resistance welded pipe 739 of a floating nuclear power plant (593,594,595)

Completion of the pipeline ultrasonic wave 743 and the test test 744 is completed by the casing forming device 742 connected to the side trimming 741 with the coil mugging iron plate raw material 740 constituting the electric resistance welding pipe 739 (672) nuclear power plants,

(745) constituting the electrical resistance welded pipe (739), and a caliper-shaped electrical resistance welded pipe (739) which is provided with the production distribution input devices to control the distribution input device main body 1) internal structure of the nuclear hydroelectric power plant 811, a dual structure block tank dust collector nuclear waste processing pipe manufacturing process distribution shaft 705,

As shown in FIGS. 190 to 191, an oil pipeline constituting the equipment of a floating nuclear power plant (593, 594, 595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting the distribution shaft (705) The large-diameter steel pipe 747 of the steel industry steel pipe 746,

An edge milling machine 748 constituting a large-diameter steel pipe 747 of a steel pipe 746 for a pipeline for oil industry and a three-roll banding machine 749 and a post-banding machine 750 are provided. The manufacturing of the large-diameter steel pipe 747 is configured in the nuclear hydropower generation facility 811 constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus to be controlled,

The outer weld 754 constituting the nuclear power plant 672 facility for performing the welding cut 751 constituting the large diameter steel pipe 747, the inner surface weld 752 and the backgrinding 753,

(755), tube section (756), X-ray test (757), cold section spreading (758), marking and packing shipments (759) constituting the nuclear power plant (672) (672) of a nuclear power plant (672) facility that comprises a nuclear power plant (672) facility operation with process steps as distribution input devices,

The uncoiling pipe 763 of the steel pipe pile 762 is provided with the structure pipe of the uncoiling 761 constituting the spiral welded steel pipe 760 of the nuclear power plant 672,

An outer surface blast cleaning 764 constituting the non-coated pipe 763 of the steel pipe pile 762, a primary paint 767 of the inner surface brush cleaning 765 and the inner surface paint 766, (760) of the nuclear power plant (672), and the ultrasonic waves and the X-ray inspection (770) are passed through the process to prepare the large-diameter steel pipe (746) of the oil- (747) as distribution and dispensing devices to constitute a nuclear reactor (672) reactor facility;

190 to Fig. 191, the reactor facility of a nuclear power plant constituted by the above-mentioned large-diameter steel pipe 747 distributing /

The leakage control device of the nuclear radiation capability that does not cause the explosion of the reactor inside and outside of the nuclear fuel chamber constituting the nuclear reactor facility. It is equipped with the distributing and inputting devices of the double structure block tank dust collector (794) (593,594,595) of marine nuclear power hydroelectric power plants of small size, medium size and large scale in the main body (1), a mooring device, a diving buoyancy control device and a distribution input device of nuclear waste treatment device And nuclear reactor waste water treatment plant manufacturing process at the reactor facility nuclear waste water treatment facility (811) before the safe operation of the nuclear reactor facility of the nuclear reactor facility. It consists of nuclear power plants and reactor facilities.

     The double structure of the nuclear power plant (811) consisting of the nuclear power plant and the inside of the main body (1) of the nuclear power plant for treating nuclear waste of land and ocean constituting the nuclear power plant, The process dispense axis 705,

    (593, 594, 595) nuclear power plant (672) of a maritime small, medium and large sized marine nuclear hydroelectric power plant constituting the pipe manufacturing process distribution shaft (705), and a distribution input device main body A double structure block tank dust collector of a nuclear hydroelectric power plant unit 811 and a nuclear power plant 672 of a nuclear waste disposal treatment apparatus, And a distribution dispensing apparatus constituting the dispensing apparatus,

As shown in FIGS. 190 to 191, a floating nuclear power plant (593, 594, 595) nuclear power plant 672 of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting the nuclear power plant 672 of the distribution shaft 705 ) The distribution dispensing apparatus comprises:

Nuclear power plant (672) Nuclear waste disposal unit that constitutes distribution dispenser Dispensing unit of nuclear waste disposal unit Nuclear waste disposal pipe manufacturing process (1) Inside process (705) Disassembly connection connection An inner block tank 596 for providing a position to the center of the double structure block tank 598 of the distribution and dispensing apparatus double structure block tank 598 constituting the nuclear hydroelectric power plant 811 for controlling the production by the structure, And a double structure block tank 598 that constitutes a double pipe structure coupling to an outer block tank 599 located outside the inner block tank 596,

The high-strength steel plate 597 constituting the dual structure block tank 598 is provided as a distributing and inputting device of a cutting process and a welding process connection structure at an industrial site and is provided with a dual structure block tank 598, Tank tube bridge The marine tunnel traffic device (941)

The first auxiliary steel pipe 600 for the block tank and the second auxiliary steel plate 601 for the block tank are connected to the nuclear waste disposal and dispensing apparatus of the nuclear power plant 672 constituting the double structure block tank pipe bridge marine tunnel traffic apparatus 941, The parts are produced by the distributing and inputting device of the connection structure between the cutting process and the welding process,

And a large flange (614) that constitutes the coupling to the fore and aft connecting position of the double structure block tank (598) constituting the marine tunnel traffic device (941)

A large flange 614 located at a nuclear reactor connection part of a nuclear power plant constituting the large flange 614 is provided with a stopper plate 625 of a certain size as a nuclear power plant distribution input apparatus of a nuclear power plant facility process,

A distributing / dispensing apparatus for a double structure block tank 598 constituting a distributing and dispensing apparatus of the nuclear power plant is provided, and a distributing and dispensing apparatus for a nuclear power plant is provided with a steel plate 597 of high strength stainless steel,

The dual structure block tank 598 distributing and charging apparatus constituting the nuclear power plant,

The nuclear power plant 672 having a crane crane 861 and a conveyor 633 which are installed in the process sequence of cutting and conveying and constituting the nuclear power plant facility and the double structure block tank 598 is inserted into the conveying process, ) Nuclear waste disposal and dispensing equipment,

190 to Fig. 191, in the double structure block tank 598 constituting the nuclear reactor facility,

A forming block and a roll forming bending machine are provided with steel plates 597 of high strength stainless steels constituting the double structure block tank 598,

(597) of the high-strength stainless steels constituting the double structure block tank (598) is prepared as a connection structure capable of disassembling and coupling at the marine vessel manufacturing factory,

In the forming bending machine constituting the double structure block tank (598) facility,

(B), (c), and (c), respectively. In this study,

A double bending block tank (598) which constitutes the bending process, a bending type press braking type bending type bending type bending type roller bending type machine, and three The bending roller is provided with a bending machine to constitute the bending process of the iron plate,

The welded joint portion is provided with a position control of the banding welded joint portion of the high-strength steel plate 597 of the high-tension steels steel by the crane crane 861 and the conveyor 633, which constitute the bending process of the steel plate,

A double structure block tank (598) equipment constituting the welding process to the banding weld joint region of the steel plate with the welding machine, the cutting tool, the drill lathe and the cutter constituting the cutting process of the steel plate,

A large flange 614 provided with a connecting portion of a large flange 614 located at a stern connection portion and a bow constituting the double structure block tank 598 is connected to a connecting structure of a manufacturing process lathe process (593,594,595) Nuclear Power Plant (672) facilities of nuclear, hydro, and nuclear hydroelectric power plants of small size, medium and large scale in the ocean;

The inner block tank 596 constituting the double structure block tank 598 and the outer block tank 599 which provides the position outside the inner block tank 596,

The inner block tank 596 constituting the double structure block tank 598 is adjusted to the inner position of the outer block tank 599 to be moved to the crane crane 861 and the conveyor 633 to complete the welding process,

190 to Fig. 191, the nuclear hydroelectric power plant equipment constituted by the double structure block tank 598,

A double structure block tank (5988) constituting a nuclear hydroelectric plant is provided as a distribution input nuclear waste treatment device of a dual structural block tank dust collector (794) for controlling nuclear radiation leakage, (593,594,595) of marine nuclear, hydro, and nuclear power plants of small size, medium and large scale, which are composed of the inside of the main body (1), the mooring device, diving buoyancy control device and nuclear waste disposal and dispensing device formed in the nuclear power plant (672) Nuclear Waste Treatment Plant (Nuclear Power Plant) (811) before nuclear reactor safety facility operation of nuclear reactor facility Nuclear waste treatment facility (705) And a nuclear power plant (672) including the interior of the main body (1) of the distribution reactor of the processing nuclear reactor.

The double structure block tank dust collector of the nuclear hydroelectric power plant part (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal facility for land and ocean nuclear waste constituting the nuclear power plant (672) The manufacturing process dispense shaft 705,

(593,594,595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting a distribution shaft (705) of the nuclear waste processing pipe manufacturing process, and a distribution input device The double structure block tank dust collector of the nuclear power generation facility unit 811 constituting the inside of the main body 1 is connected to the nuclear waste treatment pipe manufacturing process 705 of the reactor facility by the diving preparation preparation operation control adjustment dispensing apparatus screw control unit 811g)

190 to Fig. 191, the diving progression ready controllable dispense and dispenser screw control unit 811g, which constitutes the pipe manufacturing process dispensing axis 705,

A double structure block tank hull disassembling and engaging portable lug 607 provided in a horizontal and vertical type coupling structure at respective portions of the strut tank upper barge hull 591 and the strut tank lower barge hull 592 constituting the screw adjusting portion 811g, A double structure block tank having a plurality of rugged holes 615 and a double structure block tank 602 constituting the block unit and having an elongated hole 616 for hull disassembly and movement regulating device constituting the block unit hull disassembly portable rug pin connection Shaft 606 Double structural block tank vertical to the machining hole 615 Hull disassembly coupling Portable rudder pin connection shaft 606 Machining hole 615 and block unit Double structure block tank Hull disassembly joint Holes 616 are provided for connecting the piercing hull 591 at the upper portion of the paired double-structure block tank holding tanks 590 to the paired double structure block tank holding tanks 591 and the barge hull at the lower portion of the dual structure block tank holding tanks 592 are coupled to a plurality of processing holes 615 of a plurality of connection shafts 606 bound to a plurality of processing holes 615 provided at respective portions in a vertical form of the double- The pin connecting shaft 606 is removed,

And a holding tank (590) constituted by a connecting shaft (606) double structure block tank (598) provided with a single row connecting shaft (606) binding constituting the removal of the pin pin connecting shaft (606)

The diving progress-ready movable-control-dispensing device screw adjusting portion 811g, which constitutes the holding tank 590,

(593,594,595) nuclear power plants (615, 595) of marine small, medium and large marine nuclear hydroelectric power plants by providing the distribution input devices of the anti-sinking resident line (634) ) Is provided with a screw adjusting portion 811g which constitutes assembly on the sea surface,

(593,594,595) Nuclear power plant (615) Facility Nuclear waste treatment pipe manufacturing process (705) Preparation of diving progress making up the connection axis Operation control Arrangement dispensing device Screw adjuster 811g) Double structure block tank 598 Connection part at the lower end of the holding tank 590 Connected to each part of the barge hull Block unit of diving control device Block unit Double structure Block tank (598) The intake port 585a of the doctor butterfly valve 622 and the high pressure multistage multi-stage emission pump 8 and the doctor ventilation 585 of the diving control device and the exhaust port 585b of the doctor ventilation 585 Double structure block tank Hydraulic cylinder for the traffic control system (624), stopper plate (625) and dual structure piping line Automatic pneumatic valve transport device (916) and engine control power motor control module (106) Including barge hulls consisting of and,

(593,594,595) of a small, medium and large marine nuclear hydroelectric power plant with an offshore, submergible control system for the nuclear power plant (615). The horizontal dual structure block tank holding tank 590 is provided for switching to the vertical holding block tank 590,

(593,594,595) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constructed to prepare for the submergence proceeding to the lower part of the sea level (SLD). Distribution distribution of the sinking resident line (634) constituting the nuclear power plant (672) The apparatus comprises a device butterfly valve 622, a high pressure multistage multi-stage disaster prevention pump 8, and a blower 641 of the doctor ventilation 585, (593,594,595) nuclear power plants (672) installations of nuclear hydroelectric power plants,

(593,594,595) nuclear power plants (672) facilities of the marine small, medium and large sized marine nuclear hydroelectric power plants are equipped with the distributing and inputting devices of the sink prevention rescue lines (634) to protect the nuclear power plants (672) Respectively,

Nuclear Reactor Nuclear Reactor (Nuclear Reactor) Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Reactor Nuclear Reactor Reactor Nuclear Reactor Reactor The dual structure block tank dust collector of the nuclear hydroelectric power plant unit 811 constituting the nuclear power plant is constructed to be ready for diving including the connecting shaft of the nuclear waste processing pipe manufacturing process 705 of the reactor facility. And a screw adjusting portion 811g,

190 to FIG. 191, the diving progression ready-operation-control-distribution-dispensing apparatus constituting the connecting shaft of the screw adjusting portion 811g includes:

Double structure block tank tank 590 constituting the operation regulating dispensing device for diving progression Double structure block tank formed at each of the upper and lower barge lines of the holding tank 590 The connection shaft 606 constituted by the hull disassembly portable rug 607 )and,

Preparation of Diving Progression The screw thread 603a of the lug connection shaft coupling bolt and the screw thread 603b of the lug connection shaft coupling and disassembling nut 604 and the pin connection shaft 606) The ergonomic pins 608 are connected to a hydraulic rotary cylinder machine (619) for position control of a traffic control equipment distribution input and a hydraulic cylinder machine (624) To be decomposed and bonded,

A plurality of lug processing holes 615 provided in the double structure block tank hull disassembly and engaging portable lug 607 constituting disassembly and coupling with the hydraulic cylinder machine 624, The horizontal double structure block tank 598, which constitutes the device hole 616,

Dual structure block tank 598 Double-structure tank tank with a towing and transport of a tugboat 636 provided on a semi-submerged operation line 637 constituting the disassembly tank. And a band guide 621 for a block unit double structure block tank hull breaking-disengagement / coupling device constituting the inside of the dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment in the same form as the formwork 617,

The hull diving position adjustment moving device of the sinking ship holding line 634 constituting the band guide 621 and the hull weight 107 for controlling the diving buoyancy are connected to the double structure block tank holding tank lower barge hull 592, (634), which are capable of performing a diving coupling operation, to assemble the sea surface of a nuclear hydroelectric power plant,

(688) constituting a distribution dispensing apparatus main body (1) of a nuclear waste disposal reactor constituting a nuclear hydroelectric power plant, and a double structure block (811) of a nuclear hydroelectric power plant section The tank dust collector includes a submerging-ready-operation-control-distribution-dispensing-apparatus screw control unit 811g constituting a connection axis of the nuclear waste processing pipe manufacturing process 705 of the nuclear reactor facility,

190 to FIG. 191, the nuclear hydropower generation facility 811 constituting the inside of the dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment constituting the screw control section 811g and the connection shaft, The power transmission portion 811d, which is provided with the transforming devices for transmitting the power of the power transmission portion 811d,

A double structure block tank holding tank lower barge hull 592 constituting a connecting shaft of the power transmission unit 811d is provided to prepare for diving progression to a position at the lower end S L D of the sea surface,

(689) into the nuclear reactor building (688) constituting the inside of the distribution dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal constituting the diving progress preparation protection,

An output power source 686 and an input power source 687 of the voltage 684 and the power 685 constituting the diving process readiness protection and the production power is provided as the position movement control devices for providing the production power supply,

The transformer for controlling the movement of the production power supply constituting the diving preparation preparation protection,

A 7-strand steel wire 692 and a transmission wire diameter 695 are arranged in the primary substation 691 from the ultra-high voltage substation 690 constituting the transformer control unit, and the 54-strand aluminum wire 693 And a connecting shaft of the power transmitting portion 811d,

The double structure block tank holding tank lower barge hull 592 constituting the connecting shaft of the power transmitting portion 811d has a submarine line wiring connection structure and is connected to a marine tunnel crossing railway substation 696 and a middle substation 697 A large plant 698 having a production power supply shift regulator transformer 96 of a voltage 684 and a power 685 of high voltage substation 690 to provide a production power supply from the high voltage substation 690 at the primary substation 691, (699 units) to provide production power supply to a location equipped with submarine cable connection structure,

190 to Fig. 191, in the secondary substation 700 that receives the production power from the primary substation 691 constituting the connecting shaft of the power transmitting section 811d,

A substructure line 701 constituting a connection axis of the power transmission section 811d and a submarine line wiring connection structure constituting a production power supply distribution discharge to a household 702 included in a solar house,

A submarine line wiring line which is located in the submarine line wiring connection structure constituting the connecting shaft of the power transmitting portion 811d and a submarine line wiring line composed of the electric pole 95 and the transformer 96,

And a connection structure for providing a production power supply distribution discharge by having a sprung stepped hook bracket 703 constituting a connection shaft of the power transmission unit 811d and a cable high voltage wire balance arm 704 for a wire balance In order to prepare the location of production power supply control device,

In the land constituting the connecting shaft of the power transmitting portion 811d, there is provided a connecting structure for providing a production power supply distribution discharge, which is provided as wirings in the underground GLD ground line of the road surface, (1) of the nuclear reactor waste disposal reactor facility, and a distributing and inputting apparatus for distributing and supplying the production electric power supply that constitutes the inside of the main body (1) of the nuclear waste disposal reactor apparatus. The power transmission unit 811d, which is provided as transformers for transmitting the power of the nuclear hydroelectric power plant 811 and constitutes a connection shaft of the dual structure block tank dust collector to the nuclear waste processing pipe manufacturing process 705 of the reactor plant, Constituting a production power supply to an assumption 702 comprising;

 The power transmission unit 811d is provided with power transmission units that transmit the power of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear reactor processing facility for nuclear waste disposal, (811d) as a connection structure of a transformer having a submarine line wiring connection structure to provide a position in a nuclear hydroelectric power plant facility,

As shown in Figs. 190 to 191, in the nuclear power hydroelectric plant of the power transmission portion 811d,

And a sinking prevention stay line (634) for lifting up a sinking ship constituting a nuclear hydroelectric power plant facility, and a connection structure constituting the inside of the distribution dispenser main body (1) of the nuclear waste disposal reactor facility is provided,

And a nuclear reactor radiation leakage control dual structural block tank dust collector 794 constituted by a dual structure block tank 598 and is installed inside the main body 1 of the nuclear reactor waste disposal reactor installation, Respectively,

(593, 594, 595) of marine nuclear, hydro, and nuclear power plants (592, 595) Mooring devices and diving buoyancy control devices in nuclear power plants (672) (705) of the reactor facility nuclear waste water treatment plant (811) before and after the operation of the nuclear waste treatment plant (705), and the pipe manufacturing process (705) And a screw regulating portion 811g constituted by the submerging-ready preparation regulating distribution dispensing devices.

The double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituted by the inside of the main body 1 of the nuclear reactor waste disposal facility for land and ocean nuclear waste constituting the screw control part 811g, The manufacturing process dispense shaft 705,

(593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the screw control section (811g) and a distribution input apparatus main body ) Duplication of double structural block tank dust collector of nuclear hydroelectric power plant part (811) inside of nuclear reactor waste treatment plant (705) of nuclear reactor plant Preparation of diving buoyancy construction constituting position of connection axis Distribution of nuclear power plant equipment for operation control control Comprising a dosing device,

The distribution input device of the nuclear power plant equipment constituting the nuclear power plant equipment comprises:

(593,594, 595) nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants constituting the distribution input device of the nuclear power plant facilities of the ocean screw control section (811g) A nuclear waste disposal double structure block tank marine tunnel transportation device 941 for establishing a connection between the land and the book constructed inside the distribution dispensing apparatus main body 1 is provided,

Double structural block block tank structure constituting distributing device of nuclear power plant facility Double structure block tank bridge located at the upper part of pipe bridge pier (928) Nuclear waste treatment of nuclear power plant by connection with pipe bridge (937) Double structural block tank Marine tunnel access The apparatus (941) includes a nuclear waste treatment dual structure block tank bridge (929) that the plant comprises in the ocean for buoyant buoyancy advance preparation,

(SLL) of the sea surface (SLD) of the sea structure (SLL) constituting the double structure block tank bridge bridge (929) Nuclear waste treatment to the position of 40M Double structural block tank pipe bridge (929) and,

190 to FIG. 191, the nuclear waste treatment dual structure block tank (929) constituting the connection shaft of the nuclear waste treatment dual structure block tank bridge bridge (929) constituting the dual structure block tank marine tunnel traffic apparatus (941) The pipe bridge (929)

The pipe bridge 929 constituting the diverting buoyancy advance preparation operation control with the capacity dispersion control constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant constituting the dual structure block tank pipe bridge 929, Comprising a connection axis,

The double structure block tank bridge pipe bridge 929 is connected to the upper portion of the pipe bridge 937 and the both sides are allocated to the upper portion of the pipe bridge bridge pipe bridge bridge 928 to insert the connection shaft of the nuclear waste disposal double structure block tank bridge bridge 929, (593,594,595) of a small, medium and large marine nuclear hydroelectric power plant in the ocean to the upper internal position of the bridge bridge (937) of the holding tank pipe pier (928). An inner block tank 596 located at the center of the double structure block tank 598 of the double structure block tank 598 and a position outside the inner block tank 596,

Double structure block tank Structure of double structure block tank 598 constituting bridge bridge 929 and outer block tank 599 Double structure block tank having connection structure inside the body 599 Marine tunnel The traffic device 941 includes a double structure strut block tank pipe bridge 928 which is connected to the nuclear waste treatment double structure block tank pipe bridge 929 and constitutes a position,

(593,594, 595) nuclear power plants (672) installations of marine small, medium and large sized marine nuclear hydroelectric plants that make up the dual structure block tank bridge bridge (929)

The construction equipment located inside the distribution input device hull of the sink prevention resisting line 634 constituting the double structure block tank bridge bridge 929 is provided and the floor base 851 for the mooring device bridge pier is provided on the seabed And then,

(593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the main body (1) of the nuclear reactor waste disposal unit constituting the dual structure block tank bridge bridge (929) A power plant (672) is equipped with a distribution input unit with equipment and connection structure. It has a submergence residence line (634) with submarine line injection nozzle and submarine line connection structure of submarine line injection nozzle connection and nuclear power plant (672) is provided inside the main body (1) of the nuclear waste disposal apparatus main body (1), and the screw control section of the nuclear water hydropower generation facility section (811) (811g), and a double structure block tank dust collector is installed in the nuclear waste treatment pipe manufacturing process (705) of the nuclear reactor facility. Be equipped with the dispensing chute in the plant and marine configuration to achieve a nuclear reactor facilities and hydroelectric power station which consists of internal distribution input apparatus main body (1) of a reactor plant for processing nuclear waste,

A screw control section 811g of the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor constituting the nuclear nuclear hydroelectric power plant and the reactor facility, The nuclear waste disposal pipe manufacturing process 705 is provided with the dispensing apparatus of the block tank-engaging portable lug 607 constituting the connecting shaft,

The nuclear hydroelectric power plant is connected to the nuclear water hydropower plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor, (593,594,595) nuclear plant installations of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants that are not formed on the upper part of the dual structure block tank pipe bridge (937)

A strut tank upper barge hull 591 and a strut tank lower barge hull 592 constituting a nuclear reactor hydroelectric power plant and a nuclear reactor facility,

190 to Fig. 191, a holding tank upper barge hull 591 constituting a nuclear reactor hydroelectric power plant and a nuclear reactor reactor facility and a strut tank lower barge hull 592 constituting a nuclear reactor facility are provided with,

A marine block tank 590 constituting a marine nuclear hydroelectric power plant and a nuclear reactor facility, a separately constructed double structure block tank combined portable lug 607 and a plurality of double structure block tank hull disassembly portable lugs 607 A plurality of hull disassembling and connecting portable lug pin connecting shafts 606 engaged with the block tank hull disassembly portable luggable connecting lug connecting shaft bolt 603 and lug connecting shaft bolts 603a and lug pins 608) combined structure,

(593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants in the floating offshore, consisting of the interior of the distribution input device body (1) of the reactor plant for nuclear waste disposal constituting the marine nuclear hydroelectric plant and the reactor plant,

A nuclear power plant facility is provided in which the landing block tank 590 constituted by the sea depth is constituted by the water depth unit of the sea surface (S L L)

The volume of the double structure block tanks that make up the marine nuclear hydroelectric power plant and the reactor facility,

(0.5 ㎞ x 0.5 ㎞ x 0.5 ㎞) ㎥ of nuclear power plants,

The small floating lifting tanks (593), which make up the marine nuclear hydroelectric power plants and the reactor facilities, are equipped with medium and large lifting tanks (594,595)

A plurality of block tanks provided at respective portions of a double structure block tank combined portable lug (607) constituting a nuclear power hydroelectric power plant and a nuclear reactor facility are connected to a joint portion processing hole (615) of a hull disassembly / (603) and block tank hull disassembly Portable lug connection shaft (606) Disassembly and disassembly Portable lug pin Connection hose (606) Block tank Hull disassembly Portable lug connection Screw thread (603) A nuclear waste treatment dual structure block tank marine tunnel transport apparatus (941) facility of a nuclear power plant constituting a connection structure to a screw thread (603b) of the decomposition coupling nut (604)

190 to Fig. 191, the double structure holding block tank pipe bridge 928 constituting the nuclear nuclear hydroelectric power plant and the nuclear reactor facility,

The construction equipment located at the hull deck deck, which is the distribution input device sink prevention dwelling line 634 constituting the double structure strut block tank pipe bridge pier 928, is provided with a mooring crank 846, Preventing stay line 634 constituted by a connection structure which provides a fixing to the hydraulic cylinder machine 624 and the key bed 616,

(593,594,595) of a maritime small, medium and large scale offshore nuclear hydroelectric power station consisting of the anti-sinking rescue vessels (634), and the nuclear facilities for nuclear waste disposal Of submarine line injection nozzle connecting submerged injector main body (1) Supporting submarine line injection nozzle and submarine line wiring position connection structure to support sinking prevention of marine small, medium and large sized marine nuclear hydroelectric power plants (593,594,595) We have established facilities for nuclear power plants,

(1) a nuclear reactor plant, (2) a nuclear reactor plant, (3) a nuclear reactor plant, (4) a nuclear reactor plant, and (4) Includes a reactor installation of a nuclear power plant configured to fix a sinking prevention stay line (634) to a hydraulic cylinder machine (624) and a key bed (616) as a connecting structure (846)

As shown in FIGS. 190 to 191, the distribution input device of the floating type ocean (593, 594, 595) nuclear power plant of the small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant for the anti-

The dual structure block tank bridge bridge (937), which constitutes a marine nuclear hydroelectric power plant,

(937), consisting of a double structure block tank bridge (937) consisting of a 40 meter upper end of the sea level (SLL), and a bridge for safe collision prevention and safety (1) of the nuclear reactor main body (1) of the reactor facility for nuclear waste disposal,

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constructed in the main body (1) of the distribution input apparatus main body of nuclear reactor waste disposal nuclear reactor plant composed of nuclear power plant connection structure, (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants, and distributing the nuclear power plants for disposal of individual nuclear waste. (593,594,595) nuclear hydroelectric plants of medium and large sized marine nuclear hydroelectric power plants,

(598) of the double structure block tank (598) constituting the nuclear hydroelectric power plant facility, and is provided as a distribution input connection structure of the nuclear hydroelectric power plant facility,

Distribution control equipment constituting nuclear hydroelectric power plant facilities With fixed-type barges and fixed-type barges with empty spaces, it is possible to install nuclear hydroelectric power plant facilities in a large number of floating marine small-, medium- and large-scale offshore nuclear hydroelectric power plants (593,594,595) (598) double structure block tank pipe pier (928) facility which constitutes the support of the nuclear hydroelectric plant facility with the empty space in the connecting distribution control shaft connection structure,

(928) Depth of depth of sea surface (SLL) of the facility and double structure block tank (0.5 km × 0.5 km × 0.5 ㎞) ㎥ Pipe bridge (928) And fixed at the seabed at intervals of 500M,

190 to Fig. 191, in the nuclear power plant equipment constituting the distribution input connection structure of the nuclear hydroelectric plant,

A nuclear power station facility is provided as a fixed installation connection structure by a crane 846 for replacing a mooring car anchor, which is located at the lower base (851) for a pier level base foundation,

(1) The connection structure of the distributing shaft which provides the sinking vessel lifting which is built in the main body (1) of the reactor facility for nuclear waste processing constituting the nuclear hydroelectric power plant. (1) inside the distribution dispensing apparatus main body (1)

(1) The connection structure of the facility to be installed inside the main body (1) of the reactor equipment for nuclear waste disposal to constitute the nuclear hydroelectric power plant facility. The floating structure of the small-, medium- and large-scale marine nuclear power hydro- 593, 594, 595) The distribution dispensing apparatus constituting the dispensing axis,

(593,594,595) of a small-sized and large-scale marine nuclear hydroelectric power plant of the offshore nuclear hydroelectric plant of the above-mentioned nuclear power plant, the upper block barge of the distribution block unit (590) constituting the distribution axis, And the shelter located at the top of the deck deck at the top of the sea level.

At the top of the barge deck deck at the sea level top (S L U)

(1) of the nuclear power plant including the main body (1) of the nuclear waste disposal reactor facility while providing a shelter for protecting the sailing vessel from natural disasters,

Friendly nuclear power plant, which constitutes a reactor plant of a nuclear power plant,

A number of nuclear hydroelectric and wind power plants, which make up reactor facilities,

It is composed of individual power generation units and has a seabed mineral resource collecting place. It is composed of a seabed mineral resource collection site located inside the floating deck deck bottom (SDL), a small-sized, medium-sized and large-scale marine nuclear hydroelectric Each power plant of the marine nuclear hydroelectric power plant is provided at the upper deck of the deck top consisting of the lifting dock (593,594,595) of the power plant,

At the normal position of the block tower (116) constituting the marine nuclear hydroelectric power plant,

Block tower (116) Floating dock at the top of the meteorological observatories at the top of the deck top of the barge at the normal position. ) Submarine line injection nozzle connecting submarine line injection nozzle and bottom line submarine line connecting distributing shaft constituted inside,

In the meteorological observatory on the deck top of the flood-type reservoir (593, 594, 595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant with a distributed shaft structure,

(1) of nuclear power plant for the treatment of nuclear waste in distribution shaft provided with protective equipment for each generation of aircraft emergency landing sites constituting the weather observation station, And an electronic control regulating device construction machine control section (811f)

The operation of the carrier for the distribution shaft construction machine constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal constituting the electronic control regulating apparatus construction machine control section 811f, A distributing and inputting device for a reactor installation of a nuclear hydroelectric power plant constituted by a connection structure of an electronic control regulating device construction machine control section 811f of a nuclear hydropower generation facility section 811 constituting a reactor facility main body of a power plant,

As shown in Figs. 190 to 191, the electronic control regulating device construction machine control unit 811f, which is constituted by the distributing and charging apparatus of the nuclear reactor facility,

Nuclear waste treatment double structure block tank which provides position by connection structure with submarine line connection structure to submarine line injection nozzle injection nozzle of submarine line injection nozzle inside of main body (1) of distributing injecting device for nuclear waste treatment facility Nuclear waste treatment dual structural block tank pipe bridge (929) comprising marine tunnel traffic device (941)

Double Structure Block Tank Tube Bridge (929) Double Structure Block Tank Constructing the Connecting Shaft (937) In the double structure block tank 598 having the connection shaft of the double structure block tank bridge 937 as the connecting structure of the body,

Nuclear waste treatment Double structural block tank Marine tunnel transport device (941) Internal block tank (596) Built-in block tank (596) Built-in guide rail (618) And an internal block tank 596 that constitutes the operation to the internal train 771 for the marine tunnel apparatus of 100 KM to 200 KM per hour,

Nuclear waste treatment Dual structure Block tank Marine trench transport device (941) Inner block consisting of tank (596) Inner and outer block tank (599) Inner empty space Individual position The inner block tank The outer block tank 599 located at the outer connection structure of the inner block tank 596 and the guide rail supporter 852 located at the lower end portion connection structure of the guide rail 618 located at the lower end of the inner block tank 596 And a position of a vacant space located at an inner lower end,

190 to Fig. 191, in the natural gas and crude oil carrier equipment constituting natural gas and crude oil transportation,

A tug line 636 constituting the interior of the main body 1 of the reactor installation for nuclear waste treatment, which is a connection structure provided with a pipeline automatic pneumatic valve conveying device 916 composed of natural gas and crude oil conveying facility, (637) and anti-sinking rescue lines (634) of sinking ships, and nuclear reactor hydropower plant nuclear reactor hydropower plant.

Nuclear power plant's connection structure to constitute the distribution and input device of nuclear power plant Nuclear waste treatment Double structure block tank by providing construction machinery equipment Marine tunnel transportation device (941) Distribution of nuclear waste treatment plant connecting both sides of the book (1) Filling up small, medium and large sized maritime nuclear hydroelectric power plants of stationary marine with distribution axis exposed on the top surface of sea surface on board composed inside An electronic control regulating device construction machine regulator 811f of the nuclear hydropower generation facility 811 constituting the inside of the distributing and inputting apparatus main body 1 of the reactor facility for nuclear waste disposal with construction equipments 593, 594, (593,594,595) nuclear power plants (672) of marine small, medium and large marine nuclear hydroelectric power plants, (810) before and after the operation of the nuclear reactor waste disposal facility and the nuclear reactor waste disposal facility (705).

As a connection structure capable of disassembling and coupling in a marine vessel manufacturing factory.

Preferably, the nuclear water hydroelectric power plant having the double structure block tank dust collector of the land and sea constructed in the marine vessel manufacturing factory is installed in the main body (1) of the nuclear waste disposal reactor, The dual structure block tank dust collector nuclear waste processing pipe manufacturing process distribution shaft 705 of the facility unit 811 is connected to the double-

As shown in FIGS. 190 to 191, the nuclear power plant (592, 594, 595) of the small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plant of land and ocean and the distribution input device A double structure block tank dust collector of the nuclear power generation facility 811 constituting the inside of the main body 1 is made into a nuclear waste treatment pipe manufacturing process 705 of a nuclear reactor facility. Preparation of the diving process constituting the nuclear power hydroelectric power plant of the connection shaft. The nuclear waste nuclear waste treatment unit 811a of the nuclear hydroelectric power plant equipment composed of the barge ship hull 591 at the upper end of the holding tank at the top of the feeder and the nuclear hydroelectric power plant equipment and the connecting connection structures at the bottom of the holding tank 592 ),

The distribution dispensing apparatus constituting the nuclear waste nuclear waste processing unit 811a includes:

(593,594,595) Nuclear power plant (672) of marine nuclear hydroelectric power plant constituting distribution input device and submarine line injection of submarine line injection nozzle connection port constituting inside of main body (1) of nuclear reactor waste disposal facility With the nozzle and subsea line wiring connection structure, it is possible to establish a position as a nuclear power connection structure,

(593,594,595) of a small, medium and large sized marine nuclear hydroelectric power station in the submerged marine that makes up the distribution input unit. The upper tank barge hull (591), which is provided as a connection structure of the nuclear hydroelectric power plant, A strut block tank 590 positioned at the center upper end connection structure of the strut block tank 590 and the strut tank bottom barge hull 592, a barge hull 591 at the upper end of the strut tank upper end of the nuclear hydroelectric plant, The upper portion of the strut tank upper barge hull 591 constituting a plurality of strut block tanks 590 having the connecting structure for connecting the barge hull 592 and providing the connection structure around the center of the barge hull 592 Axis,

(591) The upper part of the support block tank (590) and the lower part of the tank barge hull (591) are connected to the distributing shaft. The barge hull (591, 592)

190 to Fig. 191, in the double structure block tank-engaging portable lug 607 body constituting the connection shaft of the strut tank upper barge hull 591,

A plurality of processing holes 615 constituting the body of the portable lug 607 and a lug hole 616a for the block unit double structure block tank hull breaker position shifting regulator are disposed in the connection structure of the disassembly coupling The screw thread 603a of the connecting shaft 606 for the tank assembly and the bolt 603 for the lug connecting shaft and the nut thread thread 603b of the lug connecting shaft engaging and disassembling nut 603 and the block tank hull disassembling portable portable (593,594, 595) nuclear hydroelectric power plant of a submerged marine power plant equipped with a lug (607) and a block tank combined portable lug pin (608) can be disassembled and controlled by a portable lug In addition,

A hydraulic cylinder machine (619) constituting the disassembly coupling control of the nuclear hydroelectric power plant, and a connecting structure (616) comprising a mooring device and a floating boat to constitute the barge ship hull balance control,

As shown in FIGS. 190 to 191, the floating bed (613, 594, 595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting a connection structure of a small- Submergence line of the submarine line injection nozzle connection port constituting the inside of the main body (1) of the reactor installation for nuclear waste disposal with the prevention of the sinking Double structure block tank bridge pipe arrangement for the submarine line injection nozzle and submarine line connection structure 937 ) Of the construction machine equipment constituting the connection axis and the distribution axis,

(593,594,595) Nuclear power plant (672) of small, medium and large sized marine nuclear hydroelectric power plant with sinking prevention construction consisting of construction machine equipments, and the inside of distribution dispensing apparatus main body (1) of nuclear reactor waste treatment facility Nuclear power plant nuclear waste disposal screening system to prevent the nuclear radiation leakage of the nuclear reactor facility to prevent leakage of nuclear radiation Nuclear power plant facilities (811) of the nuclear hydroelectric power plant with the distribution injector of the dust collector, And a nuclear waste disposal unit (811a)

(593, 594, 595) nuclear power plants (672) and nuclear reactor hydroelectric power plants (811) of nuclear power plants of marine nuclear power plants, which constitute the nuclear waste disposal unit (811a) In the distribution input device of the double structure block tank coupling lug 607 constituting the connection structure to the nuclear power generation nuclear waste treatment section 811a of the nuclear power generation nuclear waste treatment section 811a,

As shown in Figs. 190 to 191, the floating nuclear power plant (672) facility of the floating nuclear power plant (593, 594, 595) constituting the nuclear power nuclear waste processing unit (811a)

(592,594,595) Nuclear power plant (672) Holding tanks (590) constituting the equipment Upper barge hull (591) and holding tank Lower barge hull (592) A plurality of processing holes 615 and an elongated hole 616a are formed in the structural block tank-attached portable lug 607 body to form a horizontal pin connection shaft processing hole 615 and a vertical pin connection shaft processing hole 615, And the upper portion of the strut tank 590 connected to the strut tanks 590 are connected to the strut block tank 590 constituting the nuclear power plant 672 and the upper barge hull 591 And a plurality of processing holes 615 provided at the respective portions in the vertical form of the holding tank 590 and the lower barge hull 592 are connected to several processing holes 615 of the plurality of connecting shafts 606, The connection shaft 606 is removed and the connection shaft 606 is connected to the connection structure 606 Including the nuclear power plant 672 equipment to,

190 to FIG. 191, in the double structure holding block tank 590 of the connecting shaft 606 constituting the nuclear power plant 672,

(634) that provides for the recovery of sinking vessels constituting the double structure holding block tank (590), and it is equipped with the connection structure distributing and inputting devices capable of disassembling and coupling of the nuclear power plant (672) Assembled at sea level (672) installations of nuclear power plants,

The vertical lower block tank 590 composed of the nuclear power plant (672) facilities has a connection structure with excavation equipment and mooring devices at the lower part of the center, and a horizontal support Anti-sink retention lines 634 that constitute a position-regulated switchover of the block tank 590 to the vertical block block tank 590,

In the throttle control device of the nuclear power plant 672 constituting the sinking prevention stay line 634,

The pre-sinking retention line 634, which is prepared for the submerging proceeding, is provided to the lower end (S L D) of the sea surface constituting the submergence control device of the nuclear power plant (672)

(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the prevention of sinking, and nuclear waste constituting the distribution input apparatus main body (1) It is equipped with a double structure block tank leak collector for nuclear radiation leakage control of nuclear reactor facility of treatment shielding system and equipped with excavation equipments and mooring devices provided on the anti-sinking rescue line (634) (593,594,595) Nuclear Power Plant (672) of Nuclear Hydroelectric Power Plant and Nuclear Waste Treatment Unit of Nuclear Power Generation Unit (811) of Nuclear Hydroelectric Power Plant Division (811) 811a. The nuclear waste disposal unit 811a is provided with the excavation equipment and the mooring devices. Including,

As shown in FIGS. 190 to 191, lifting tanks 593, 594 and 595 of a small-sized, medium-sized and large-sized marine nuclear hydroelectric power plant of the nuclear waste treatment section 811a constituting the nuclear hydroelectric power plant section 811, In a rotary table lathe machine 908 of a nuclear power plant 672 and a distribution injector drilling machine of a nuclear reactor nuclear power plant operating in the main body 1 of the distribution reactor of the nuclear reactor for waste treatment,

A crane of a crane crane 651 located at the upper end of the drilling machine room is provided with a crude drill rod connected to a plurality of pipe racks 854 constituting a rotary table lathe machine 908 of a drilling machine, A crude drill rod connection joined to the boom boom, the boom girder loop 652 and the wire rope 19 connection structure is provided,

The pipe rack 854 in the excavation preparation stand-by state constituting the crude oil drill rod connection,

A plurality of pipe racks 854 provided as connection structures of the sea level lower end S L D of the sea level (S L L) constituting the pipe rack 854,

The coil drill 917 constituting the pipe rack 854,

The crusher crank 846 at the position of the excavation hole 936 provided as a connection structure with the excavator 917 and the excavator 917 while being provided with the excavator hole 936, ) Which is provided in the connection structure between the hydraulic cylinder machine (624) and the key bed (616), and which is installed in the construction machine operation connection structure mounted on the upper barge hull at the top of each tie block tank. Residence line 634,

(593,594,595) of marine nuclear, hydro, and nuclear power plants of small size, medium size and large scale, which make up the sinking prevention ship (634). Crude oil and natural gas discharged from the crude oil borehole (936) (593,594,595) of marine small and medium sized and large sized marine nuclear hydroelectric power plants. Connected structure with subsea line wiring, upper part of sea level (SLU) lifting type poison hull deck deck. And,

And a ceiling crane (651) facility constituting a position as a connection structure at the upper end of the lower part inside the block steel tower (116) of the nuclear hydroelectric plant facility,

The rotary table lathe machine 908 of the drilling machine for crude oil, which is located at the connection structure inside the drilling machine machine room constituting the lower part of the ceiling crane (651)

The rotary table lathe 908 is provided with hydraulic cylinder keys 623 for drilling located at the center of a circular table lathe which constitutes the rotating body of the body,

A hydraulic cylinder cylinder key 623 for drilling, and a plurality of operation keys 623 as a connection structure of the center of the lathe,

A rotary table lathe machine 908 of a drilling machine for drilling oil for crude oil constituting the center of a lathe to adjust the position of the connection structure that is spread from the center of the rack to the outside of the center of the rack, And a rotary table lathe machine (908) for connecting the rotary table lathe,

A plurality of pipe racks 854 arranged in a center position with the rotating body connecting structure constituting the rotary table lathe machine 908 continue to be bound to the bottom of the oil borehole 936, (936) for drilling a drilling hole of a crude oil borehole (936) with a connecting structure located as a connection structure of a crude drill rod A nuclear waste disposal unit (811a) composed of a main body (1) of a distribution and dispensing apparatus for a nuclear waste disposal reactor facility,

In the crude drill rod connection that constitutes the distribution input device of the nuclear operation,

190 to Fig. 191, the connection pipe rack 854 constituting the crude drill rod bound to the wire rope 65 of the ceiling crane 651,

(908) Body of Rotary Drill Block Unit Block Tank Hinges Hydraulic Rotary Cylinder Machine for Dismounting Coupling Regulator (619) Drilling Machine for Pipe Rack (854) And a plurality of hydraulic cylinder operating keys 623 for drilling, which are located in the connection structure of the central portion of the circular table lathe,

A rotary table lathe machine 908 of a crude oil drilling machine constituting a crude oil borehole 936 with a transfer arrangement to the top of a rotary table lathe machine 908 of a crude oil drilling machine,

The rotary table lathe machine 908 operation of the drilling machine constituting the crude oil casting is performed so that the crude oil and natural gas discharged from the position of the crude oil borehole 936 are supplied to the tower crane 886 while finishing the oil borehole 936 excavation, A tower crane 886 having a connecting structure located on both sides of the boom of the crane boom band of the tower crane 886 and a vertical rotation operation of the boom and boom hook rings 652 of the tower crane 886, And the deep sea energy resources are provided to the top of deck deck,

Nuclear Reactor Facilities Includes a tower crane (886) dispensing device that constitutes nuclear waste disposal in nuclear operation,

Tower cranes (886) Subsidiary vessels of small, medium and large sized marine nuclear hydroelectric power plants making up the distribution input unit (593,594,595) Distribution equipment of nuclear power plants and reactor facilities for nuclear waste treatment (1) (936) Location of crude oil and natural gas discharged from the location of the crude oil borehole (936) that constitutes the inside of the nuclear power plant. (936) of the crude oil borehole (936) inside the nuclear reactor plant with the submarine line wiring, including all the energy resources constituting the deepwater basin with the connection structure of crude oil and natural gas crude oil borehole distribution and input device and,

A cooling system is connected to the location of the crude oil borehole (936) with the lifting of all the energy resources composing the deep sea bottom to the top of the deck plate and the deep sea oil borehole (936) constituting the excavation. and,

(593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants that make up the nuclear power plant facilities. Nuclear power plant facilities are equipped with mooring devices and diving buoyancy control devices so as to secure the safe mooring of the nuclear power plant facilities. In addition,

Nuclear Waste Treatment Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor (593, 594, 595) nuclear power plant facilities of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the operation of the nuclear waste treatment section (811a) constituting the inside of the distribution dispensing apparatus main body and,

As shown in Figures 190 to 191, the nuclear waste disposal unit (593, 594, 595) constituting the nuclear power plant of the small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants of the above- (593, 594, 595) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant of the offshore nuclear power plant (811a) of the offshore nuclear power plant. In the distribution input apparatus constituting the sinking prevention stay line (634)

(917) to the excavation hole (936), and a hydraulic cylinder machine (39) operation as a structure to connect the crane crank (846) to the crane crank 846 are pushed into the excavation hole 936 and the wrench crank 846 provides compressive expansion inside the excavation hole 936 so that the several interlocking tool tip grinders 185 are embedded in the ground (185) for fixing the connection structure,

The barges with barge line drift prevention by fixing the lower part of each holding tanks constituting the nuclear power plant facilities are equipped with a floating tank (593,594,595) of small, medium and large sized marine nuclear hydroelectric power station, Barge line with a mooring device of nuclear power plant equipment barge at the top barge line construction machine installed on the hull barge line to position as a connection structure hull anti-drift prevention wrench crank (846) equipped with mooring devices to treat nuclear waste (1) of the dispensing apparatus main body (1) of the nuclear reactor installation,

(593,594,595) of a small, medium and large sized marine nuclear power plant constituting the nuclear power plant facilities, a mooring device, a diving buoyancy control device, a distribution input device and a nuclear reactor facility for treatment of nuclear waste, (811) of the nuclear power plant of the nuclear waste disposal unit (811a) at the marine vessel manufacturing plant, which are equipped with connection axes of the nuclear waste processing pipe manufacturing process (705) of the reactor facility at the Hwaseong Nuclear Hydroelectric Power Plant As a connection structure capable of decomposing and bonding,

190 to Fig. 191, a double structure block tank dust collector (not shown) of a nuclear hydroelectric generating plant 811 constituting the inside of a nuclear reactor main body 1 of a nuclear power plant of land and ocean constituting the nuclear power plant equipments The nuclear waste treatment line manufacturing process distribution shaft 705,

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants of land and sea constituting the nuclear power plant facilities and the inside of the main body (1) of the nuclear power plant A double structure block tank dust collector of a nuclear hydroelectric power plant (811) constituting a nuclear reactor waste water treatment plant manufacturing process (705) of a nuclear reactor plant is connected to a docking station which constitutes a nuclear power plant facility. And a nuclear waste treatment unit 811a for a nuclear power plant equipment nuclear reactor, which comprises connecting structures for connecting the upper and lower barge hulls 591 and 592 of the holding tank,

190 to Fig. 191, in the nuclear waste disposal and dispensing apparatus of the nuclear waste disposal unit 811a constituting the nuclear power plant facility,

(593,594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant of the ocean, and the inside of the distribution apparatus main body (1) of the reactor facility for nuclear waste treatment. And a large flange (614) positioned as a nuclear waste disposal dispenser having a submarine line injection nozzle and submarine line wiring connection structure of a submarine line injection nozzle connecting port, and connected to a connection distribution input device connection structure Including the connection structures constructed by

The double structure block tank (598) equipment,

Double structural block tanks 598 in units of 500 meters are provided in the form of a double structure block tank barge,

(634) which constitutes the nuclear power plant facility is provided with a pre-distribution input,

(593,594,595) Nuclear power plants of marine small, medium and large sized marine nuclear hydroelectric power plants constituting the nuclear power plant facilities, and the distribution input apparatus constituting the whole connection of the nuclear power plant facilities are connected at intervals of 500m (929) connecting the double structure block tank bridge pipe (937) with the structure of the double structure block tank pipe bridge (928) in order to construct the double structure block tank pipe bridge In addition,

A double structural block (995) is installed at the deep sea bed with a distribution input device of a nuclear power plant facility, and a double structure block which precisely measures the marine water depth of the double structure block tank pipe pier (928) Includes installation of tank pipe bridge 928,

At the installation position of the double structure block tank pipe bridge 928 constituting the nuclear power plant facility,

Includes the installation of a diaphragm rubber balloon (628)

A distributing and inputting apparatus constituting a nuclear power plant facility,

A wire rope 915 is attached to the lower end of the diaphragm rubber balloon 628, a diving position adjusting mobile unit of the hull and a diaphragm weight 949 of the diving buoyancy adjusting unit are provided, The double structure block tank bridge pier 928 is provided at a mounting position,

(593, 594, 595) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of the ocean, while towing each double structure block tank bridge pier (928) constituting the nuclear power plant facility to a tugboat (636) The transfer is provided to the same immersion prevention stay lines 634,

(946) connection structure to the injection nozzle of the injection nozzle connection port, which is provided with the connection structure constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus equipped with the nuclear power plant facility (614) Distributed input device Connection structures and lifting tanks of small, medium and large sized marine nuclear hydroelectric power plants in the ocean (593,594,595) Mooring devices of nuclear power plants Connection of marine structures (593,594,595) Nuclear power plant (672) of nuclear power plant of small size, medium size and large scale and nuclear power plant of nuclear power plant (811) consisting of inside of main body (1) And a nuclear waste disposal and dispensing apparatus of the waste disposal unit 811a,

190 to FIG. 191, a connection is established with the nuclear waste disposal unit 811a of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility The distribution and dispensing apparatus of the construction machine, which is constituted by the nuclear waste disposal reactor facility as the transportation transport section (811c) of the construction machine,

Sink retention lines 634 constituting a nuclear power plant facility,

After the sink prevention rescue line 634 constituting the nuclear power plant facility is transferred, if the water depth of the installation point is 300 meters,

Positioning of the file column by 50 meters more than the water depth Positioning the crane boom stand (942) of the tower crane for the moving device and setting up the pile (898) vertically, the excavator for the deep drilling rig of the construction drill (634) equipment which comprises a distributing and inputting apparatus of a construction machine of a nuclear power plant equipments including a rock drilling machine 845, a rock drilling machine 847, a drilling machine 876 and an anti- ,

The plurality of construction machines 880 constituting the sink prevention rescue line 634 facility,

A diesel hammer 883, a steam hammer 884, a hydraulic crane 885, a tower crane 886, a crawler crane 887, a truck crane 888 and a squirrel crawler 889 A tandem roller 890, a tamping roller 891, a tire roller 892, a tractor 893 and a trailer 894 to constitute a nuclear power plant facility,

The distribution input device of the construction machine constituting each of the nuclear power plant facilities includes:

The fuel cell system includes the ram 895 and the lead 896, the cooling water cooler 897, the helmet 899, the fuel pump 900, the cam 901 and the fuel tank 902, The boom front pin 904 and the cage work 905 of the starter 903 provided as a connection structure on the seabed at the base of a plurality of double structure block tank pipe bridge 928 are provided as a distributing / Adapter 906 to provide a level balance check of the nuclear waste treatment dual structure block tank bridge 929,

A double structure consisting of a double structure block tank bridge pier (928) at each section constituting the check of the level balance of pipe bridge (929) Comprising a block tank,

At the sea surface top exposed site dual structure block tank pipe bridge 928,

The rope is connected to the double structure block tanks to provide mooring. At the same time, the actuator of the actuator (848) is operated in the construction machine cab, and the connection structure of the construction machine distribution and input device and the small, medium and large scale marine nuclear hydroelectric (593, 594, 595) of the power plant. Protecting nuclear plant facilities with mooring equipment,

A nuclear waste disposal unit 811a constituting the nuclear waste disposal reactor apparatus main body 1 and a transportation transportation unit 811c of the construction machine providing the connection with the nuclear waste disposal unit 811a, (593,594,595) Nuclear power plant facilities of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants in the offshore,

A transportation unit 811c of a construction machine for establishing a connection with a nuclear waste treatment unit 811a constituting a nuclear hydropower generation facility unit 811 constituting the inside of a distribution and dispensing apparatus main body 1 of the nuclear waste treatment facility, And a distribution dispensing apparatus of a nuclear reactor construction machine constituted by a processing distribution dispensing apparatus,

As shown in Figures 190 to 191, in the distribution dispensing apparatus of the construction machine constituting the nuclear power plant facility and the nuclear reactor facility,

A double structure block tank tank pipe bridge 929 connected to the double block tank tank bridge pipe 929 at a distance of 500m within the nuclear power plant facility is connected to the sea water tank SLL), double structure block tank 500㎥ unit volume connection structure,

The double structure block tank bridge 929 constituting the nuclear waste disposal is connected to the crane boom stand 942 of the tower crane substituting for crates, and the connecting structures anchor 639 and the anchor chain 640 are mounted on the seabed ,

A distributing and inputting device for a nuclear reactor construction machine that winds up wind turbine winch 958 constituting nuclear waste treatment and releases anchor 639 and wire rope chain 915 with a tuna winch 958 and,

Nuclear Reactor Facilities Distribution Equipment of Nuclear Reactor for Disposal of Nuclear Reactor with Dispenser and Equipment for Construction Equipment Connected Structure of Nuclear Reactor Equipment for Construction Equipment (1) Dispensing Equipment of Construction Equipment Dual Structure Block Tank Pipe Pier (928) A structural block tank pipe bridge 929,

A connection structure having a submarine line wiring connection structure to the injection nozzle of the injection nozzle connection port and a transportation connection structure for providing a transportation position, and a small, medium and large sized A nuclear waste disposal unit 811a of the nuclear power plant unit 811 constituting the inside of the main body 1 of the nuclear waste disposal reactor facility with the lifting tanks 593, 594, 595 of the offshore nuclear hydroelectric power plant as mooring devices, And a transportation transport unit (811c) of a construction machine for establishing a connection with the nuclear waste disposal and dispensing apparatus. The nuclear waste disposal apparatus includes a nuclear plant facility as a connection structure for protecting the distribution input apparatus of a nuclear reactor construction machine,

190 to FIG. 191, a connection is established with the nuclear waste disposal unit 811a of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility The distribution and dispensing apparatus of the nuclear reactor construction machine constituted by the nuclear waste disposal dispensing apparatus as the transportation transportation unit (811c) of the construction machine,

(1) of the reactor installation for nuclear waste disposal with the distribution dispenser of the nuclear reactor construction machine, and the nuclear waste disposal facility A double structure block is a connection structure which is provided with a distributor for connection of a tank pipe bridge (929), which is wound around a rotating shaft pinch winch (958) and loosens anchor chain (640) by a pinch winch (958) (959), which is connected to the catcher winch (958) constituting it repeatedly,

The saddle replacement use sail 959, which constitutes the dispensing apparatus of the nuclear reactor installation,

A double structure block tank bridge (929) for treating nuclear waste is installed in the tugboat (636) of the nuclear power plant equipment constituting the sail substitute sail (959) while the double structure block tank (598) (929) connecting the nuclear waste treatment dual structure block tank bridge (929), providing a temporary passage to the sailing vessel as a connecting structure with a joint work process at sea level,

Nuclear waste disposal at a single 500m site during the construction of the temporary passage of the sailing vessel Double structure block tank bridge (929) A temporary passage of the sailing vessel was established by holding the combined operation of the nuclear power plant facilities, (929) Double structure block tank (598) as coupling connection structure Position of the connecting block The outer block tank 599 has the even number of connecting parts and the odd number of connecting parts 5, (2) Nuclear waste treatment double structural block tank bridge (929) consisting of the inside of the main body (1) of the reactor installation for nuclear waste disposal with the connecting structure of the double structure block tank as a connection structure. Lt; / RTI &gt;

(1) of the reactor installation for nuclear waste treatment, while providing the distribution and input devices of the nuclear reactor construction machine constituting the temporary passage of the sailing vessel, and connecting the submarine line wiring to the injection nozzle of the injection nozzle connection port (593,594,595) of small-sized, medium-sized and large-sized marine nuclear hydroelectric power plants with anti-sinking marine structures (593,594,595) as mooring devices, A nuclear waste disposal unit 811a of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution apparatus main body 1 of the nuclear waste disposal apparatus main body 1, Nuclear Reactor Equipment It is the connection structure of the equipment that constitutes the protection of the distribution equipment of the construction machine,

A transportation transportation section of a construction machine for establishing a connection with a nuclear waste disposal section 811a constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor apparatus constituting the nuclear power plant facility, (811c) of the nuclear waste disposal and dispensing apparatus,

The Nuclear Power Plant Facility and the Nuclear Reactor Construction Equipment are equipped with a distribution input device for connection of a nuclear waste treatment dual structure block tank bridge (929) that constitutes a nuclear power plant facility. The small, medium and large sized marine nuclear hydroelectric power plants (593,594, 595) Connected structure of nuclear power plant facilities Tubular bridge Disassembly and disassembly External block consisting of disassembling and dispensing device Tank (599) Coupled to external position Hook provided with detachable hinge (27) And a connecting shaft 27b of a hinge type of the hinge 27 and a connecting shaft 27b of a long shaft for a hinge are provided on the hinge 27 of the pawl rug 21 A double structure block tank constituting a binding for the hinge,

And a structure for connecting the connection portion of the double structure block tank to a predetermined distance between the injection nozzle and the submarine line of the injection nozzle, (593,594,595) of small, medium and large sized marine nuclear hydroelectric power stations (593,594,595) for the prevention of sinking, and nuclear facilities A connection is established with the nuclear waste generator 811a of the nuclear power generation facility 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the processing reactor installation,

(811c) of the construction machinery, including a nuclear waste disposal dispenser and a nuclear waste disposal unit,

The ratchet lock releasing device of a mooring device located on a horizontal outer wall constituting a distribution input device of a nuclear reactor construction equipment of the nuclear power plant,

(935), which constitutes the locking device of the mooring device lock release device, is provided by welding while the attachment is provided, and the double structure block tank connection position is provided by the rotation of the upper and lower rotations. ) And a jig base (22) are provided with a double structure block tank disassembly coupling structure, and a block unit double structure block tank hull disassembly and coupling lug hinge socket (613) (593,594,595) of the marine small, medium and large marine nuclear hydroelectric power plants with the combined structure,

Nuclear Power Plant Reactor Facility Dual Structure Block to Provide the Connection Structure of the Injection Nozzle and Submarine Line Wiring (946) at the Injection Nozzle Connection Portion of the Dispensing and Discharging Device of the Construction Machinery Bridge Tank Bridge (937) (593,594,595) of a marine nuclear hydroelectric power plant of medium and large size (593,594,595) Mooring device of a nuclear power plant facility The fixed-ocean offshore power plant, ) Including facilities for nuclear power plants,

Double structural block tank structure of Nuclear Hydroelectric Power Plant facility The location of the connection part of the joint structure of the hydroelectric power plant is divided into two parts: (593,594,595) of a large-sized and large-scale marine nuclear hydroelectric power plant, and the installation of nuclear power plant,

(593,594,595) of small, medium and large sized hydro-nuclear hydroelectric power plants constituting nuclear hydroelectric power plant facilities, and a mooring device, diving buoyancy control device and nuclear waste disposal dispenser and reactor installation of nuclear power plant (672) Dispensing of nuclear waste treatment facilities before and after safe operation of nuclear reactor facility Discharging of nuclear waste treatment facility The nuclear waste water treatment plant manufacturing process (705) of the nuclear reactor facility in the nuclear hydroelectric power plant (811) And a connection structure capable of being disassembled and coupled at a marine ship manufacturing factory is constructed so as to form a connection shaft of the nuclear waste disposal pipe manufacturing process (705)

190 to Fig. 191, a double structure block tank dust collector core (not shown) of a nuclear hydropower generation facility unit 811 configured as the inside of the main body 1 of the distribution apparatus 200 for the nuclear waste disposal facility for land and ocean, The waste treatment pipe manufacturing process distribution shaft 705 is provided with a waste-

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of the land and sea constituting the distribution shaft (705) of the nuclear waste treatment pipe manufacturing process, and the distribution The dual structure block tank dust collector of the nuclear power hydroelectric power generation facility 811 constituting the inside of the charging device main body 1 is provided with a plurality of generators for nuclear waste disposal and power generation of the nuclear reactor facility, And a distribution input device of the electric power production and manufacture section 811b constituting the operation of the nuclear power plant of the facility,

The distribution input device of the power generation and production section 811b, which constitutes the nuclear power plant operation,

The connection structure constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste processing constituting the distribution input apparatus of the power production and manufacture section (811b) is a connection structure of small, medium and large scale marine nuclear hydroelectric power plants (593,594,595) for nuclear power plants (593,594,595) for nuclear power plants (593,594,595) for distribution of nuclear power plants (672) and nuclear waste disposal facilities Nuclear waste treatment double structured block tank pipe bridge (929) provided with connection structure constituting inside of the apparatus main body (1), injection nozzle connecting port submarine line wiring (946) (593,594,595) nuclear power plants (672) of marine small, medium and large sized marine nuclear hydroelectric power plants, ,

As shown in Figs. 190 to 191, in a floating nuclear power plant (593, 594, 595) nuclear power plant (672) facility of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting a mooring control device,

A floating structure of a buoyant deck deck at an offshore plant in a marine power plant constructed as a connection structure of a distribution dispensing apparatus, a double structure block tank, a double structure block tank of a nuclear detonation type inside a deck deck (794) The building,

Nuclear power plants (672), offshore wind power plants (957) and marine nuclear power plants (957) constituting nuclear power plants (592,594,595) and nuclear power plants (692) of marine small, medium and large scale offshore nuclear hydroelectric power plants, A dual structure block tank dust collector 794 for controlling leakage of the nuclear radiation power for the interior of the deck plate and the wind turbine 957a for the environment friendly wind power generator into the inside of the Siiso hydroelectric power plant 943,

A nuclear power generator 772 constructed outside the double structure block tank dust collector 794 and a connection structure provided with a fixed connection structure by a large hydroelectric generator and providing connection to the respective line distribution shafts, And a power transmission portion 811d provided as transformers for transmitting the power of the nuclear power generating unit 811 to the distribution shaft constituting the inside of the apparatus main body 1, (929) for providing a connection structure of a submarine line injection nozzle and a submarine line wiring (946) constituting the inside of the nuclear waste treatment dual tank tank bridge (929)

The power supply control unit constituting the distribution input unit of the transformer 96 of the large-capacity substation is provided with a power transmission tower 776 as a connection structure of the power transmission line 775,

(593,594,595) of marine nuclear, hydro, and nuclear power plants equipped with generators in each connection structure constituting power generation supply. Nuclear waste treatment dual structure The supply of a certain amount of generated power to the connecting process of the large flange 614 of the block tank pipe bridge 929 is provided as a connection and disconnection structure of the input and output device, Including plant facilities,

The power generation power of the nuclear power plant equipment is controlled by the line distribution power supply, and the levers block 123, the chain block 648 and the turn blocks 850 are connected to each other by a double structure block tank. (593,594,595) Nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant, and a distribution structure of nuclear power plant for nuclear waste disposal. And a connection structure of the submarine line wiring 946 is provided,

Submarine line wiring (946) Dual structural block tank bridge bridge (929) that constitutes the connecting structure The combined distribution input unit is equipped with multistage inlet type manometric turn to operate the vertical hydrostatic generator (944) In addition,

A crane boom section 942 of a tower crane constituting a large hydroelectric generator canister facility 944 to provide an electric energy generating device for generating power, (593,594, 595) of a large-scale and large-scale marine nuclear hydroelectric power plant, and a large-scale hydro-generator distribution and input device that constitutes the operation of the nuclear plant of the nuclear reactor plant,

(593,594,595) nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the large hydropower distributing and dispensing apparatus, and the main body of the dispensing apparatus The double structure block tank dust collector of the power transmission unit 811d including the power generation and production unit 811b of the nuclear hydropower generation facility unit 811 and the power transforming devices that transmit the power to the nuclear waste And a connection shaft composed of a plurality of generators for processing and power generation,

As shown in Figs. 190 to 191, the distribution input apparatus of the power generation and production section 811b, which constitutes the nuclear power plant operation of the nuclear reactor facility,

(593, 594, 595) of a marine small, medium and large sized marine nuclear hydroelectric power plant making up the distribution input device, and a connecting structure constituting the distribution input device main body (1) of the nuclear plant and nuclear reactor waste disposal unit And a line distribution input device for power supply for the power generation device,

The dual structure block tank constituting the line distribution input device reactor of the power supply is connected to the vertical partition wall 605, the horizontal partition wall 609, the diaphragm manhole 610, the manhole cover 152 and the hatch cover 153 As a result,

In the hatch cover 153 constituting the nuclear reactor facility,

The hydraulic cylinder door 624 is provided as a connection structure,

190 to Fig. 191, in the double structure block tank 598 constituting the reactor facility,

A lever block 123, a chain block 648, and turn bolts 850, which are a connecting and disposing device connecting structure, are provided to provide horizontal connection,

Considering the side loads of floating marine nuclear power hydroelectric power plants (593,594,595) of small, medium and large sized marine nuclear reactors, the height of the nuclear waste treatment double structure block tank bridge bridge (929) Nuclear power plant (593,594,595) Nuclear power plant (593,594,595) consisting of the inside of the main body (1) of the nuclear reactor waste disposal reactor facility that provides the double structure block tanks to each other by 1.5 times the width of the pipe bridge (929) 672), a nuclear waste treatment pipe manufacturing process (705) of a reactor facility at a nuclear power plant (811) before the safe operation of a nuclear reactor waste disposal apparatus and a nuclear waste disposal apparatus, Connection axis;

As a connection structure capable of being disassembled and coupled in a marine vessel manufacturing factory of a power transmission unit 811d constituted of power generation and production unit 811b of nuclear power generation facility unit 811 and power transformers for transmitting power .

Referring to FIG. 192, a nuclear hydroelectric power plant 811 having a dual structural block tank dust collector according to the present invention is installed inside the main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear waste water nuclear power plant. Disaster Prevention Control Section near the marine power plant The peak tower and connection structure of the marine power plant The tackle winch 137 and the wire rope 19 of the elevator machine room constructed with the reducer 251 and the motor body 192 on the roof of each building and the building A mountain of a mountain range constituting a fire prevention and disaster prevention line provided with a driving wheel roller 135 on the top of a steel tower 116 and equipped with a fire prevention and disaster prevention countermeasure product of a fire sensor pump of a cable car 256, The cable car 256 of the nuclear power generation facility unit 811 showing the disaster prevention preventive control unit configuration of the nuclear power generation facility unit 811 in which the fire and disaster prevention line around the normal site and the beach is built Strabismus configuration of firefighting disaster prevention, disaster supplies equipment of the fire sensor Pump Road,

Referring to Figure 193, the nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector according to the present invention Marine hydroelectric power production control unit producing the power involved Marine power plant body dock Construction of the hull locomotion control of the floating dock (593,594,595) of small and medium sized and large sized marine nuclear hydroelectric power plant at the upper part of the ship deck (SDU) The structure of the microswitch 580 showing the machine position adjustment arrangement and the structure of the microswitch 183 and the pneumatic-sensor pressure switches 104b in the diaphragm pressure switch 104a in the limit switch 580 Hydroelectric power generation equipment Construction machinery Straight configuration of connection structure Road,

194. Referring to Figure 194, a nuclear hydroelectric power plant 811 comprising a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, Marine hydroelectric power production control unit producing the power involved Marine power plant body dock Construction of the hull locomotion control of the floating dock (593,594,595) of small and medium sized and large sized marine nuclear hydroelectric power plant at the upper part of the ship deck (SDU) A reference point 102e is formed at the measurement point 102d of the thermoelectric current generation 102b and the thermoelectric power generation 102c according to the thermocouple configuration method 102a of the fire heat temperature sensor detection sensor bimetal 102, Thermocouple switch (103) for sensing sensor constituting side surface of thermocouple,

195, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, Marine hydroelectric power production control unit producing the power involved Marine power plant body dock Construction of the hull locomotion control of the floating dock (593,594,595) of small and medium sized and large sized marine nuclear hydroelectric power plant at the upper part of the ship deck (SDU) A partial side view showing a partial side view constituting a relief valve 474 with a vane pump 142 and a plurality of gear pumps 326 showing a machine position control arrangement,

Referring to Figure 196, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear waste water nuclear power plant, (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's deck (SDU) Showing the construction of the operation of the dam control of the flood control facility showing the construction of the first control shaft lifting dam dam (680) located at the upper part of the floodgate (293) (293) upper end of a riverbed dam (630) of a riverbed dam (680) showing a step of constructing a distribution input device of a hydrological flood control device included in a distribution input device of a nuclear reactor facility for waste treatment, In this study,

197, a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the ship's deck (SDU) In the upper part of the floodgate (293) of the riverbed dam (680) showing the construction of the dam flood control system of the flood control facility that shows the hydrological construction of the first controlled axial flood dam equipped with a plurality of flood control dams A float-type poisonous configuration located at the upper end of the water gate (293) of the dam (680) of the descending section,

Referring to FIG. 198, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear hydroelectric power plant. Construction machinery of the hull locomotion control of the lifting tanks (593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part (SDU) of the ship's body dock hull deck by means of the transportation section (811c) The position of the upper end of the gate (293) of the riverbed dam (680) showing the construction of the dam operation of the flood control facility showing the position control arrangement is provided with a first control shaft lifting dock The flood dam construction (680), which shows the steps of constructing the dispensing device of the hydrological control system of the dam,

Referring to FIG. 199, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector according to the present invention, Disaster prevention Preventive control Ocean power plant body Each of the different types of fire, each of which provides initial evolution within one second of the mountain top, buildings and buildings, elevators for each building, A distribution input device connected to a hydropower generation facility and a flood control disaster prevention device constituting a distribution dispensing apparatus main body (1) of a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant showing a configuration exemplifying the disaster prevention apparatus, Device Cross Section Configuration Road,

Referring to FIG. 200, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear hydroelectric power plant. Disaster Prevention Control Section including Wire Rope and Injection Nozzles and Double Tubular Structure Disaster Prevention Blocking in Fire Hose Installation Operation Dispensing Control Dispensing Dispensing Dispensing of nuclear reactor facilities for nuclear waste disposal showing an example of the embodiment showing a disaster prevention device The lateral strabismus configuration of the disaster-control flood control apparatus for the typhoon destruction in the nuclear hydroelectric power plant unit 811 constituted inside the charging device main body 1,

Referring to FIG. 201, in a nuclear hydroelectric power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a double structure block tank dust collector according to the present invention, The nuclear hydroelectric power plant unit 811 showing the construction of one embodiment showing the disaster control and disaster prevention device is shown in FIG. The side of the operation of the distribution input device of the disaster control disaster prevention device,

Referring to FIG. 202, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a marine nuclear hydroelectric power plant. Preventing disaster Preventing control Incorporating the early evolution in less than 1 second in the event of a forest fires Fire extinguisher Fire extinguishing tanks and alternate manometer turn level balancing pipes Disaster prevention Prevention of disasters Dispensing device of hydropower generation facility disinfection regulation disaster prevention apparatus constituting nuclear hydroelectric power generation facility unit 811 showing configuration of one embodiment showing disaster prevention apparatus Manifold configuration of manometer turn type level balance pipe nozzle Road,

Referring to FIG. 203, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, Disaster Preventing Control Unit Including Preventing Disaster Prevention of Carbon Dioxide Gas Fire Extinguisher According to Installation of Tube Nozzle Collection Fixing Tank of Stepwise Nonmotor Power Water Pump (393) for Preventing Forest Fires Prevention Example An embodiment showing a disaster control disaster prevention apparatus is shown as an example Side construction of the distribution input device installation method of the hydropower generation facility flood control disaster prevention apparatus constituting the nuclear hydroelectric power generation facility unit 811 showing the construction of the road,

Referring to FIG. 204, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed in the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. Disaster prevention Preventing control Incorporation of double vinyl tent nozzle type fire prevention water supply system in less than 1 second by nonmotor water pump Anyone can easily supply A fire early warning and emergency disaster prevention installation prevention method disaster prevention prevention part Disaster control Disaster prevention device A fire evacuation system including a power plant of a nuclear power plant constituting a nuclear hydroelectric power plant unit 811 showing a configuration exemplifying the illustrated embodiment, and a lateral strap configuration of a disaster-

Referring to FIG. 205, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, Preventing disaster Preventing control Incorporating a fire extinguisher in a trickle step pump that provides initial evolution within one second when a forest fire occurs. Combustion tank of fire prevention method and leveling equipments to replace it with manometer turn level prevention nozzle. The power generation equipment included in the nuclear power plant power generation equipment constituting the nuclear hydroelectric power plant unit 811 showing the configuration of one embodiment of the apparatus is shown in FIG. An alternate constituting anomotron type level balance pipe nozzle containing the device Flushing Disaster prevention device Side construction Road,

Referring to FIG. 206, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed in the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. Prevention of disaster Prevention of disasters Prevention of sinking of heavy storm wave (1101) among flood control disaster prevention devices Prevention of disaster prevention Prevention of disasters constituting vessels (1078) with conventional sinking vessel and rescue force rescue force Disaster control disaster prevention A nuclear waste disposal apparatus of a nuclear power plant of a nuclear power hydroelectric power plant unit 811 showing a constitutional example illustrating an embodiment of the apparatus and a hatch cover constructed of a vessel 1078 having resilience for life- A lifting rope 629, a rope knot claw 630, an emergency staircase 631, an elevator all bed 632 and a conveyor 6 And the helicopter 647 are installed in the main body 1 of the nuclear reactor waste disposal apparatus for nuclear waste disposal with the nuclear reactor 33, the ballast 638, the anchor 639, the anchor chain 640 and the helicopter 647, Disaster Control Disaster Prevention Equipment Consisting of Nuclear Power Plant Reactor Facilities Included in Preventing Disaster Prevention of Hydropower Facilities (811) Dual Structure of Ship (1078) with Rescue Force for Rescue Life Rubber Balloon (914) ,

Referring to FIG. 207, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant. Including space development The satellite 611b, the geodeset 611b and the geodesic satellite 611c included in the spacecraft and the satellite 611 of the lunar journey constituting the satellite control unit 811z of the nuclear radioactive contamination prevention system A communication satellite 611a included in a spacecraft and a satellite 611 of a lunar journey constituting a disaster prevention preventive control unit constituting a nuclear hydropower generation facility unit 811 showing a conventional configuration exemplifying one embodiment, The spacecraft 611b and the geodesic satellite 611c are connected to each other so that the nuclear hydropower generation facility 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility is connected to the ship A lateral satellite configuration 6 constituting the communication satellite 611a, the weather satellite 611b, and the geodesic satellite 611c included in the satellite 611,

Referring to FIG. 208, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant. Including space development An ion rocket 612b, a plasma rocket 612c, and a rocket 612b included in a spacecraft and a space rocket 612 of a lunar journey constituting the nuclear radioactive contamination-free satellite control unit 811z, The rocket 612d and the nuclear rocket 612e, which constitute the nuclear hydroelectric power plant unit 811 showing a conventional configuration illustrating an example of the apparatus of the nuclear rocket 612e, An ion rocket 612b, a plasma rocket 612c, a photon rocket 612d, and a liquid fuel rocket 961 in a nuclear rocket 612e, The nuclear power station 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal with the connection of the solid fuel rockets 962 is included in the spacecraft of the lunar and space rockets 612 An ion rocket 612a, an ion rocket 612b, a plasma rocket 612c, a photon rocket 612d, A side strainer configuration that constitutes a device of a liquid fuel rocket 961 and a solid fuel rocket 962 in a nuclear rocket 612e,

Referring to FIG. 209, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed in the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear power plant, Including space development And the combustion chamber 961a constituting the liquid fuel rocket 961 included in the spacecraft and the satellite 611 and the space rocket 612 of the lunar journey constituting the nuclear radioactive contamination prevention satellite control section 811z are provided with the nozzles 961b ), The propellant injection 961c, the control valve 961d, the fuel pump 961e, the fuel tank 961f, the oxidant pump 961g, and the oxidant tank 961h The igniter 962b and the combustion chamber 962c constitute the liquid fuel rocket 961 with the gas generators 961i for the solid fuel rocket 962 and the heat exchanger 962a for the solid fuel rocket 962, And a nuclear power plant 811 constituting the solid fuel rocket 962 with the nozzles 962e and constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility, And the Viking No. 1 probe 1111 included in the satellite 611 and the space rocket 612 and the earth 1112 and the Mars lander 1115 to explore the orbit of the sun 1116,

Preferably, a dual structure of the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the land and sea double structure block tank dust collector, Structure Block Tank Dust Collector Nuclear Waste Treatment Tube Manufacturing Process Dispense Shaft (705)

(593, 594, 595) nuclear power plants (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants of the land and ocean constituting the pipe manufacturing process distribution shaft (705) And distribution of nuclear reactor waste disposal facility Nuclear power plant part consisting of main body (1) 811 Electronic control control device Construction machine control part (811f) Dispensing device and lifting device Distribution device for equipment And a distribution input device for a connection shaft disaster control device constituting the device in a block steel tower,

(593,594,595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the disaster prevention device of the electronic control regulating device construction machine control section (811f). In a dispensing device for a device and a production facility device,

(593,594, 595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the distribution input device for the lifting device and the production facility device. (SDU) at the upper end of the deck top of the holding tank upper barge hull (591) at the upper end of the sea water surface upper end portion (SDU) with a connection structure with the seabed line injection pipe connecting submarine line wire (946) A machining hole 615 for providing connection with isoformed steel 839 is provided,

The bolts 24, the nuts 25 and the washers 26, which constitute the deck plate of the hull 591,

Shaped springs 838 to provide the connection of the isosformed steel 839,

The connection axis, which constitutes the nuclear power plant facility,

And a temporal crane boom girder (942) of a towage crane replacement tower for mobile devices constituting a position adjustment input of a connecting shaft,

The block unit block pylon 116, which is a connection structure of the iso crane boom band 942,

Is mounted in a shovel (23) of a position adjusting and moving device in a rug machining hole (20) constituting the block unit block pylon (116) and is connected to a seesaw crane boom frame (942) of a tower crane, (116) is provided for assembled transportation,

In the block unit block tower 116 constituting the inside of the block tower 112,

The emergency stairs 631 constituting the block unit block steel tower 116 are provided and the traffic apparatus constituting the emergency stairs 631 is provided with the emergency stairs 631 provided on the block pylon tower 116 to form the mooring tower 644 (589) to the bollards (638) of the mooring platform and to the center of the bottom of the lower portion of the steam jet ship (589) to the ceiling crane (651) and the elevator alley (632) (631), which is a connection structure of a traffic system,

At the position of the deck plate 4 at the upper portion of the strut tank upper barge hull 591 constituting the emergency step 631,

The barge hull (591) has a connection structure of 500m units formed at four positions of the deck deck to fix the block unit boom to the sea floor,

And a block pylon (116) which comprises a plurality of pylon crane boom stands (942) of a crane provided with a disaster device and a lifting device connection structure,

(593,594,595) of marine nuclear hydroelectric power plants of small size, medium size and large scale, constituting the block steel tower (116), and a submarine consisting of the inside of the distribution input apparatus main body (1) of the nuclear reactor plant for nuclear waste disposal Line wiring (946) connection structure to provide the location of nuclear power plant facilities,

As shown in FIG. 192 to FIG. 209, a nuclear waste treatment double structure block tank bridge (929) constituting a nuclear power plant facility is provided as a connection structure of a joint distribution input device to protect the floating operation In the block unit block tower 112 of the equipment provided,

(593,594,595) for the marine small, medium and large sized marine nuclear hydroelectric power plants, equipped with the emergency stairway (631) traffic device constructed on the block pylon (116) Nuclear waste treatment double structure block tank pipe bridge (929) consisting of inside of main body (1) of nuclear reactor facility Nuclear hydroelectric power plant (929) connected to connection shaft connection structure to provide lifting operation (811) electronic control unit construction machine control unit (811f), and it is equipped with dis- charge input devices for the disaster prevention control device which constitutes the dis- tiller input device for the disaster prevention device, the lifting device and the production facility device in the block steel tower It is composed of facilities of nuclear power plant,

(593, 594, 595) of the marine small-sized and large-scale marine nuclear hydroelectric power plants constituting the facility of the nuclear power plant, the nuclear power plant of the nuclear power plant (811 ) Electronic control regulating device Construction machine regulating device (811f) The distribution input device for the disaster control device,

The nuclear power plant 811 constituting the connecting shaft connection structure of the nuclear power plant equipment provided with the disaster prevention water delivery located at the top of the top block top steel tower 116 of the upper end upper part of the mooring tower 644 constituting the distribution dispensing apparatus for the disaster control device, (591) on the upper part of the holding tank, and a disconnection control device for the disaster control device including the electronic control unit construction machine control unit (811f). (8) To the inside of the machine room, press the main switch button (66) on the main switch of the main switch button (66) of the starter switch button of the starter switch (8) Provided that pump operation is performed on a full-

The operation of the pump is stopped by manually depressing the off-time main switch button 66 of the main switch button 66 constituting the pump operation execution, and the high pressure multi-stage multi- (2) of the nuclear power plant (1) constituting the discharge structure of the disaster prevention water (7) by the fire prevention disaster double structure pipe nozzle (10) Comprising a connection axis,

In the distribution control apparatus for the disaster control apparatus of the electronic control regulating apparatus construction machine control section 811f constituting the connection axis of the nuclear power plant facility,

(10) and fire-fighting double-walled pipe nozzle (10) installed in the middle of connection between the fire hose (9) and the water pipe connecting the water pipe. Fixed-type fire-fighting double structure pipe The connection structure of the wire rope 19 of the nozzle 10 and the connection device shack 23 and the connection flange of the disaster prevention nozzle are provided and the weather observation equipment adobe 77, the airship 78 and the radio sonde 134, (42) The lower part of the lower basket is connected to the lower part of the disaster prevention double pipe nozzle (10). The protection wire is composed of a wire rope (19) and a double structure of gas transportation which is lighter than air. Disaster prevention apparatuses are provided with connection structures of connection shafts,

As shown in FIGS. 192 to 209, a distribution input device for the disaster control device, which includes a distribution input device for an emergency control device of an electronic control regulating device construction machine control part 811f constituting a connection axis of the nuclear power plant facility, The production facility devices of the device,

A high performance submersible pump 36 and an air compressor 80 constituting a production facility apparatus of the dispensing and inputting apparatus,

The distributing and inputting apparatus production facility apparatus for the disaster control apparatus of the electronic control regulating apparatus construction machine control section 811f constituting the connection axis of the nuclear power plant facility,

(946) Nuclear waste treatment with double structure block tank bridge pipe (929) Combined distribution input (1) Inside the main body (1) The emergency stairs 631 are provided in the block unit block pylon 116 provided in the connecting shaft connection structure for protecting the floatation type disaster prevention device constituting the disaster control device, As a connection structure,

(593,594,595) of a small-sized and large-scale marine nuclear hydroelectric power plant constituting the disaster control system (1) a nuclear waste disposal system consisting of a main body (1) for distributing nuclear power plants and reactor facilities for nuclear waste disposal; Structural block Tank pipe bridge (929) Nuclear hydroelectric power plant (811) Electronic control equipment Construction machinery control unit (811f) Disaster prevention equipment and lifting equipment And distributing and inputting devices for the production equipment equipments are installed in the block steel towers as the distributing and inputting equipments for the disassembly control devices.

(593,594,595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting a distributing and inputting device for nuclear waste treatment nuclear plant, and a nuclear power plant for nuclear waste disposal, (811) Electronically Controlled Equipment Construction Machinery Control Unit (811f) Disaster Control Equipment, Lifting Equipment, and Production Equipment Dispatching control unit of the connecting shaft that constitutes the dispensing and dispensing unit of the equipment in the block steel tower. ,

The control system and the control system (150), which consist of the connection structure of the nuclear power plant, are equipped with the electronic control distribution and input device of the fire fighting and disaster prevention machine room and are equipped with the floating support system of small size, medium and large scale marine nuclear hydroelectric power plants 593, 594, 595) Distribution equipment of nuclear reactor waste disposal facility Main body (1) Submarine line injection nozzle connecting port Submarine line wiring (946) Floating pump located on the deck A multi-stage multi-stage emergency protection pump (8) constituting a position as an internal connection structure, and a fire prevention emergency electronic control device of a multi-stage pump control box (2) having a connection structure,

Electronic control facility of nuclear power plant equipment constituting fire fighting disaster electronic control equipment Electronic control facility of operation control system 150 Control box for operation (2) Suction join pipe (3 ), The exhaust pipe 4, the pump inner isolation valve high pressure shutoff valve 5, the pump backflow prevention check valve 6, the air hose connection nipple 110, the inlet multi-stage disaster prevention pump 8, A nuclear power plant constituting the fire fighting hose 9, the fire fighting pipe nozzle 10, the fixed frame 11 for fixing the positional multi-stage fire fighting pump 8 and the detection sensor 12 for an electronic control device for detecting fire, And a fire-fighting electronic control unit of the facility,

As shown in FIGS. 192 to 209, the electronic control unit connection structure of the nuclear power plant equipment constituting the detection sensor 12 for the electronic control unit includes:

An overcurrent breaker brake 61, a power supply unit 62, an inverter 47 for an electronic control unit, and an inverter 47 for establishing an internal connection structure of the control box 2 of the power source power source 46 constituting the electronic control unit. Wireless communication antenna 54 is connected to the inside of the monitor 52 and the control board 53 of the control server 51 inside the internet 50 and the wireless router 48 and the security point pointer 49, A connection structure for constituting a rechargeable battery 37 having a connection structure with the wireless communication control module 55 of the apparatus includes an electronic control device connection structure for transmission and reception composed of a mobile 81 and a portable terminal 82 ,

The fire-fighting emergency electronic control devices constituting the electronic control device are,

A display 56 constituting a firefighting and disaster control electronic control device and an electronic control device AIDS 57 and an electronic control device M of the switch input circuit 58, A main switch button 66 and an auxiliary switch button 67 for the start switch button for establishing a position in the electronic circuit connection structure between the analog input 64 and the digital input 65 of the play screen 63, The computer network input 68 for the display input and the identification plate 69 of the pressure setting value which is the set pressure value of the current pressure value and the connection structure between the memory 70 and the power supply power supply line 71, An emergency electronic control device, comprising:

The power source power source 46 constituted by the fire-fighting and disaster control electronic control device,

(46) to the electronic control devices of the fire-fighting operation machinery room constituting the power supply energy source (46), and the lifting dock (593,594,595) of the small, medium and large scale offshore nuclear hydroelectric power plants (946) Nuclear waste treatment double structure block tank pipe bridge (929) to form a joint structure. (929) Combination of nuclear waste treatment facility and nuclear reactor waste treatment facility Discharging input devices Equipment for lifting and dismounting equipment and equipment for production equipment Protected equipment and electronic control equipment for fire fighting and disaster prevention machine room of nuclear power plant Electronic control unit consisting of input devices for connecting and disassembling Marine structure (593,594,595) of small-sized and medium-sized and large-scale marine nuclear hydroelectric power plants (593,594,595) Nuclear power plants and distributors of nuclear reactor facilities for nuclear waste disposal The electronic control unit pre-dispensing and inputting devices of the fire fighting and disinfection operation machine room constituted by the inside of the main body 1 and the disaster prevention device of the electronic control regulating device construction machine control unit 811f included in the nuclear hydroelectric power generation facility unit 811 The power supply of the disconnection control device of the disconnection and disconnection control device which constitutes the distributing input device for the lifting device and the production equipment device in the block steel tower is configured so that the nuclear power plant of the nuclear power plant is operated by turning on the power supply,

(593, 594, 595) of a marine nuclear power plant of small size, medium size and large scale constituting the above operation of the nuclear power plant, and a nuclear power plant constituting the nuclear power plant of the marine nuclear power plant, And a fire-fighting and dis- tribution control distribution dispensing apparatus constituted by a connection-shaft connection structure of a power generation facility unit (811) and an electronic control-regulating apparatus construction machine control unit (811f)

The fire fighting and disinfecting control distribution dispensing apparatus constituting the electronic control adjusting apparatus comprises:

(593,594,595) of a small, medium and large scale offshore nuclear hydroelectric power plant constituting the fire fighting disaster control distribution dispenser (593,594,595) Distribution of nuclear power plants and reactor facilities for nuclear waste treatment (1) The safety valve 258 constituting the connection structure of the piping 89 having the electronic control unit of the fire fighting and disinfection operation machine room and the line distributing and charging unit, the low pressure shutoff valve 83 and the emergency valve 84 for the electronic control unit, And the safety valve 258 of the pressure reducing valve 85. The bolts 24 and the nuts 25 and the shoehorn 26 are connected to the gap 15 of the pipe connecting flange 28 of the pipe 89, And a connection structure of a pipe (89) constituting a connection structure of the rubber packing (32) of the gasket for connecting connection by the valve each,

The connection structure of the pipe 89 constituting the connection structure with each of the above-

The first pressure check sensor 86 and the second pressure check sensor 87 constituting the connection structure of the pipe 89 and the bypass piping line 89 for piping connection of the electronic control unit 88 and the collecting tank 34 Of the disaster prevention control article (7) to the inside of the piping (89) by a connecting structure having a connection structure to the reed 35 (35) and the tee elbow (44) of the piping connection elbow In addition,

Electronic control device constituting fire control disaster control device Main switch button for starting switch button of the connecting shaft multi-stage disaster prevention pump (8) of construction machine control part (811f) and disaster prevention pump auxiliary switch (593,594,595) of marine nuclear hydroelectric power plants with small, medium and large sized marine nuclear power plants and nuclear waste disposal facilities equipped with inverters (67) A nuclear waste treatment dual structure block tank bridge (929) joint distribution dispenser which constitutes a facility connection structure of a nuclear power plant having a submarine line wiring (946) as a structure,

As shown in Figs. 192 to 209, the double structure block tank bridge bridge 929 combination dispensing injection apparatus constituting the nuclear waste treatment is constructed as follows.

Pipe bridge (929) It is equipped with the electronic control device of the fire fighting disaster prevention machine room and the line distribution input device connection structure in the equipment provided as the connection structure that protects the float disaster prevention device and the production facility devices constituting the joint dispensing input device (593,594,595) of the offshore nuclear, hydro, and nuclear power plants in the offshore, small and medium sized and large sized hydroelectric power plants. Distribution of nuclear power plants and nuclear waste disposal facilities. (811) of the nuclear power plant (811), the control unit (811f) of the control unit, and the distribution and input unit for the lifting unit and the production facility unit are put into the block steel tower, And a connection shaft disaster control distribution dispenser for constituting the operation of the nuclear power plant,

(593,594,595) of a small, medium and large sized maritime nuclear hydroelectric power station of the connecting shaft constituting the disruption device of the construction machine control section (811f) and the distribution input device for the lifting apparatus and the production facility apparatus Dispensing and dosing device for operation of atomic power plant that constitutes fire prevention and disaster control device with connection shaft connection structure constituting inside of main body (1) of nuclear reactor waste disposal reactor equipment,

Piping connection consisting of distribution dispenser for operation of nuclear power plant Equipment Connection of elbow with elbow (44) and multistage disaster prevention pump of fire fighting operation machine room (8) The bypass connection line for piping connection of the pipe 34 is provided with a connection structure with the lead 35 and the piping connection elbow of the piping connection elbow 44,

The storage state of the disaster prevention water 7 of the fire fighting and disaster prevention control equipment is provided in the connection structure pipe 89 of the nuclear power plant facility constituting the connection structure with the tee elbow 44 of the piping connection accessory elbow,

The main switch button (66) for the start switch button of the emergency disaster prevention control equipment (7) and the high pressure multi-stage emergency protection pump (8) of the multi-stage disaster prevention pump (8) ) To the on-time main switch button (66) position,

Pressing the switch to the off-time main switch position (66) of the main switch button (66), which constitutes the pump operation performance,

(8) which constitutes the connection structure of the nuclear power plant, before and after firefighting Nozzle hose connection structure The equipment installation stand (33) is equipped with a high-performance submersible pump (36) The connection structure helicopter (647) is provided with a mounting position on the body,

The coupling structure of the nuclear power plant equipment constituting the coupling structure with the claws (13) for the electronic control device,

And a disaster prevention water (7) equipped with a water pressure of the double structure fire hose (9) positioned as a forefront connection structure constituting the fire prevention disaster double structure pipe nozzle (10) When the hand is pushed to the position of the on-time main switch button (66) of the main switch button (66) of the starter switch button of the high pressure multi-stage emergency protection pump (8) Discharge Pump (8) Each suction combined pipe (3) for electronic control, which opens to the connection structure provided on the body, and the internal high pressure shut-off valve (5) Includes a check valve (6) and a solenoid valve (76)

The fire-fighting and disaster control device constituting the solenoid valve (76)

The disaster prevention water 7 having the water pressure inside the piping constituting the firefighting and disaster prevention control device is moved through the piping to move to the position of the fire suppression double structure pipe nozzle 9,

Nuclear power plant and nuclear waste disposal facility for nuclear waste disposal facility (1) The internal connection structure of fire fighting and disaster control equipment with connection shaft connection structure inside the main body (1) Nuclear waste (929) Dispensing injector that constitutes the coupling Floating-type explosion-proof disaster prevention device and production facility Equipment to provide connection structure that protects equipment Fire control disaster prevention machine Electronic control unit of machine room Line dispensing device (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants with connection structures of water nuclear power plants with connection structures of nuclear power plant facilities. The electronic control unit of the fire fighting and disinfection operation machine room constituted inside the main body (1) is equipped with the line distribution input devices, (811) Electronically Controlled Equipment (811f) Discharging device and lifting device of the control device (811f) and distribution device for the production equipment device are connected to a block tower. The nuclear reactor is constructed to operate the nuclear power plant,

(593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant of the connecting shaft constituting the disruption device of the construction machine control section (811f) constituting the nuclear power plant and the distribution input device for the lifting apparatus and the production facility apparatus, (1) Discharge Discharging Control Device Consisting of Connection Shaft Connection Structure Consisting of Nuclear Power Plant and Nuclear Waste Treatment Reactor (1)

The nuclear reactor operation and distribution apparatus constituting the nuclear power plant facility comprises:

The disaster prevention water (7) equipped with the water pressure constituting the distribution dispenser for operation of the nuclear power plant,

A plurality of positioning gaps 15 and a processing hole 20 for the position-adjusting and moving device located in the body of the fire-fighting disaster prevention double-walled nozzle 10 are provided by moving the pipe to the position of the fire- (38) of the fire fighting and disinfection control article (38) constituting the discharge to the outside of the body of the firefighting and disaster prevention double structure nozzle (10) with the disaster prevention water (7) (7) of the water film (39)

The nuclear reactor power plant distribution dispenser of the nuclear power plant constituting the disaster prevention water 7 of the curtain water film 39,

At the positions of the plurality of processing holes 20 constituting the distribution operation apparatus for nuclear power station operation, at the positions of the straight circular discharge sprays 38 and the plurality of processing holes 20 gaps 15,

(38) In the form of a water film curtain (39), a discharge dropping jet is prepared,

A smoldering action for preventing combustion by interrupting the supply of air by surrounding the combustible with an incombustible gas, and a cooling action for reducing the combustible to the ignition point temperature,

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants equipped with hydraulically connected structures in connection structures of nuclear power plant facilities Distribution of nuclear power plants and reactor facilities for nuclear waste disposal 1) Electronic control device of fire fighting and disinfection operation machine room built in. Nuclear hydroelectric power plant 811 Electronic control equipment 811f Disaster prevention device, lifting device and production facility of construction machine control part 811f The system includes a disruption control dispensing device of a connection shaft constituting a distribution input device for a device in a block steel tower to operate a reactor plant of a nuclear power plant,

(593,594,595) of the small, medium and large sized marine nuclear hydroelectric power plants of the connecting shaft shaft constituting the disruption device of the construction machine control section (811f) constituting the operation of the nuclear power plant, ) Dispense and Discharge Unit for Nuclear Power Plant and Nuclear Waste Treatment Facility Discharge Discharging Unit for Nuclear Power Plant that constitutes nuclear disaster control equipment with fire prevention and disposal control equipment,

The fire-fighting control (40) of the fire-fighting and disaster control goods which provided initial deployment within one second with the operation distribution dispenser of the nuclear power plant facilities constituting the above-mentioned operation device for dispatching the nuclear power plant set up early evolution immediately before dispatch to the fire scene The number of ejection nozzles 38 of the fire-fighting disaster control article,

Disinfecting water 7 of the curtain water film 39 of the fire-fighting and disinfection control article constituting the ejection jetting number 38,

As shown in Figures 192 to 209, the number of ejection nozzles 38 constituted by the disaster prevention water 7 is,

At the positions of the plurality of processing holes 20 constituting the ejection sprayer 38, the number of ejection nozzles 38 constituting a linear circular shape,

At the positions of the gaps 15 of the plurality of processing holes 20 constituting the discharge sprayer 38, the radiation discharge sprays 38 are discharged in the form of a water film curtain 39 In addition,

The fire fighting and disinfection of the nuclear power plant equipment constituting the discharge water spraying number (38)

The fire-fighting system is composed of the flammable gas constituting the fire-fighting disaster and the fire-extinguishing action by enclosing the combustible material to block the supply of air to prevent the combustion and to cool down the combustible to the ignition point. An air hose 109 for storing a flammable gas 164 having a water pressure located in the structure and a fire prevention disaster prevention water source for a nuclear power plant constituting a connection structure to the fire hose body,

Disaster prevention control water cooling water 287 constituting the fire prevention disaster prevention disaster prevention water and powdered loess 158 constituting a tooth form to generate a soap bubble mixed with the disaster prevention water, And a main switch button (66) for controlling the operation of the emergency fire pump and a portable wireless communication terminal (82) of the high pressure multi-stage emergency disaster pump control system (150) in the safety control room. The power supply control box above the emergency protection pump auxiliary switch button (67) of the connection shaft includes a coupling coupling (29) for the piping connection which constitutes a distribution arrangement connection to the safety control room and the disaster pump operating machine room,

(40) and a helicopter (647), which are composed of a coupling body of a coupling body and a connecting body of a coupling male thread body (31) composed of a disaster pump operating machine room and a double structure fire hose, powdered loess (158) The combined disaster prevention water is provided to the upper part of the floating deck deck to provide the connection structure connection with the fire fighting emergency electronic control unit,

(593,594,595) of a small, medium and large sized marine nuclear power plant consisting of a disaster pump operating machinery room (593,594,595) Dispensing injector for nuclear power plant and nuclear waste disposal facility Main unit (1) 945) and a connection structure with a submarine line wiring (946) Nuclear waste treatment double structured block tank pipe bridge (929) Produced by a floating electronic control system of a floating type fire fighting and disinfection unit A facility apparatus,

An emergency staircase 631 of the traffic device of the block unit block steel tower 116 is provided in the equipment for providing the protected connection structure constituted by the disaster prevention pump operating machinery room, (1) of the nuclear power plant and the reactor facility for the nuclear waste disposal facility, and a floating nuclear power plant (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants 672) and the nuclear waste disposal facility of the nuclear waste disposal system and the nuclear reactor waste water treatment pipe manufacturing process (705 ) Connection of the nuclear reactor plant of the nuclear power plant Connection shaft constituting the disaster prevention device, the lifting device and the production equipment distribution device of the control shaft of the axis construction machine control unit (811f) (593,594,595) of a large-scale marine nuclear hydroelectric power plant (593,594,595) Distribution facility of nuclear power plant and reactor facility for nuclear waste treatment (1) It is preferable to include as a connection structure capable of disassembling and coupling at a marine vessel manufacturing factory.

(593,594,595) nuclear power plants (672) of nuclear power plants of small size, medium and large size of the above land and sea, and a nuclear power plant (672) The nuclear waste disposal unit 811a of the nuclear power plant 811 includes a dual structure block tank dust collector and a nuclear waste disposal pipe manufacturing process 705 of the reactor facility. The apparatus includes:

The nuclear waste treatment system of the nuclear hydroelectric power plant (811) constituting the reactor facility for nuclear waste treatment is constructed as follows: a dual structural block tank, a dust collector of a small-sized, large-sized and large-scale marine nuclear hydroelectric power plant equipped with a reactor- (593,594,595) Distribution facility of the nuclear power plant (672) and the inside of the distributing and dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal The facilities of the disaster prevention apparatus include,

The nuclear radiation leakage control dual structure block tank dust collector (1) constituted by the floating type nuclear power plant (672) of the marine power plant constituting the facility of the distribution input apparatus disaster prevention apparatus and the inside of the distribution input apparatus main body (794), and a nuclear fuel explosion-control distribution dispensing apparatus, comprising the steps of: providing a plurality of nuclear reactor facilities to a barge of an anti-sunken double structure block tank in the ocean;

The sinking prevention double structure block tank is installed on the barge line with the installation position of the distribution input device of the nuclear hydroelectric power plant part (811) at the top 40m of the sea surface excluding the restriction of the weather condition of the earthquake and tsunami constituting the facilities of the disaster prevention device. Prevention barge line Reactor facility Safety operation before and after operation Reactor facility safety device to establish safety of reactor facility safety Nuclear power plant Nuclear power generation Nuclear power generation Prevention of explosion Nuclear radiation leak control Dual structure block tank Dust collector (794) (811) that constitutes a nuclear power plant operation before and after the operation of the nuclear power station of the power plant moving apparatus,

The connection shaft constituted by the nuclear power plant 672 constituting the facility of the disaster prevention apparatus and the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility,

The range from the ground up to 29 Km, which consists of the buoyancy type nuclear power plant (672) of the marine power plant constituting the facilities of the disaster prevention device and the inside of the main body (1) of the reactor installation for nuclear waste treatment, Respectively,

The surveillance function that prevents the production of military equipment by installing sensor sensor for military defense is installed in the floating sea above the sea surface constituting the equipment of the disaster prevention device and the sea west sea 5, A further enhanced military sensor sensor is provided,

The facilities of Pyongan-do and Hamk-gong, which constitute facilities of disaster prevention system,

When a missile is fired, it is formed as a defensive missile attached to the net at the top of the firing position. When the missile is fired by the other party, the missile is shot down by a collision between a nuclear missile fired by the missile launching party and a sensor for military defense. , Which includes a defense missile attached to a harmful rusty net that constitutes an immediate abandonment of a nuclear weapon build up that constitutes all military provocation abandonment activities by providing a facility to cause its own nuclear missile explosion in the other region,

In addition to the sea bombs above the sea surface above sea level and the sea above the sea in the East Sea and the 38 ° north sea above the sea of the East Sea constituting the equipment of the disaster prevention device, Including a peaceful preserved message photoshop 958 with a stronger weapon,

The system of the disaster prevention device is 29 km above the ground. It is equipped with a sensor for detecting military defense and a disaster prevention device installed on a large number of floating docks. 1) Floating dock (593,594,595) of marine small, medium and large sized marine nuclear hydroelectric power station constructed in the interior of the nuclear power plant (672), docking buoy regulator and nuclear waste disposal dispenser and reactor installation (811) of Nuclear Hydroelectric Power Plant (811) of Nuclear Hydroelectric Power Plant (811) of Nuclear Power Plant of Ministry of Land, Infrastructure and Transport (593,594,595) Nuclear power plant (672) of a large-scale marine nuclear hydroelectric power plant and the main body (1) of the nuclear reactor waste disposal apparatus for nuclear waste treatment, Emergency device comprises a connection structure capable decomposition combined in a marine vessel comprising a manufacturing plant to the connection axis of the composing parts and configurations,

(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with nuclear reactor waste processing double structure block tank dust collector facilities of the above nuclear hydroelectric power plant part (811) Equipment for nuclear reactor waste disposal facility The equipment for the nuclear waste disposal facility of the nuclear power generation facility, which is constructed inside the main body (1)

A buoyant type poisonous nuclear power plant 672 of a marine power plant constituting facilities of a disaster prevention apparatus inside the connection shaft of the nuclear hydroelectric power generation facility unit 811 and an inside of the distribution input apparatus main body 1 of the nuclear waste treatment nuclear plant A nuclear waste disposal dispensing apparatus having a nuclear radiation leakage control dual structure block tank dust collector 794, and a nuclear fuel explosion control dispensing dispenser. A plurality of nuclear reactor facilities are installed on a barge of an anti- Wow,

(811) located at the uppermost 40 m above sea level excluding the restrictions on the weather conditions of earthquake and tsunami constituting equipment of disaster prevention device, Nuclear reactors to prevent explosion of nuclear reactors in nuclear power plants Nuclear radiation leakage control Double structure block tank dust collector (794) Disaster prevention equipment to be installed inside reactor connection shaft And the facility of the nuclear power hydroelectric power plant 811 configured to operate the nuclear power plant with the facilities of the nuclear power plant 811,

(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the facilities of the above-mentioned disaster prevention apparatus and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment. A vertical structure of a typhoon is provided together with a straight discharge outlet 38 of a disaster prevention line that hides a typhoon into a facility of the disaster prevention apparatus of the nuclear hydroelectric power plant 811,

A dropping device is installed on the upper surface of the lower part of the sea surface (S L D) in the troposphere 10 km above the upper part of the sea surface above the upper part of the sea surface constituting the disaster prevention device of the nuclear hydroelectric power facility part 811,

The atmospheric circulation passage 958 for the dual structure disaster prevention apparatus at the equatorial point is provided at the upper end of the arctic pole with the disaster prevention water which has been annihilated and disinfected to constitute the disaster prevention apparatus of the nuclear hydroelectric power plant unit 811,

(958) Displacement piping line for disaster prevention equipment (958) The isocrane crane boom zone (942) of the tower crane for replacing the quadruple crane constituting the atmospheric circulation passage is provided so that the rain cloud is transported to the seabed 10 km below the sea level, The same artificial waterfall as the disaster prevention waterway,

As the natural disaster is made up of internal facilities that make up facilities for the disaster prevention system of the Nuclear Hydroelectric Power Plant (811), the typhoon is a latent heat of the thermal energy quantity of the atomic bombs that were estimated to be one million annually in Hiroshima in the Pacific and the Atlantic And a seesaw crane boom band 942 of a tow-crane replacement tower crane configured to sequentially fall on the sea level of the sea-

And a pipe level piping line 958 for a double structure disaster prevention device constituting facilities of the disaster prevention device,

The human race of the global village is prepared for the sadness and suffering from disaster disaster,

A double-structure high-pressure hose 190 having a 500-meter-high upper part of the sea surface with an electromagnetic control device connection structure provided on the connection shaft provided by the manufacture of the electromagnetic control device connection structure of the control system 150, (190) Coupled with a number of coupling knurls (29) The length of the combined pipe is less than 10 km and the pipe level piping line (958) is located at the deck plate side of several floating docks. The crane boom zone (942) provided a 10 km-long jet stream to change the course of the typhoon,

The seesaw crane boom stand 942 of the tower crane, which constitutes a course change of the typhoon on the jet stream,

It is possible to provide a switching to constitute the descending airflow 926 as the ascending airflow 925,

The tube level piping line 958, which is made of a nonferrous metal with a better thermal conduction efficiency than that of the iron, constitutes the reduction of the damage to the land marine hurricane, and the loess mixture constituting the discharge is supplied from the satellites In order to prevent the disaster, it is necessary to prepare the falling material from the upper part of the sea surface to the sea surface,

Preventive conditions consisting of the nuclear power plant 672 constituting the prevention of typhoon and harmful red tide breeding and the inside of the main body 1 of the nuclear reactor waste disposal apparatus main body 1 are referred to as nuclear radiation leakage control double structure block tank dust collector 794 ) Includes a facility of a connection shaft disaster prevention device of a nuclear hydroelectric power plant part (811) configured to operate a nuclear power plant by a facility of a disaster prevention device constituted inside a connection shaft of a reactor facility,

(672) for land and marine nuclear power plants, and disaster prevention equipment consisting of the inside of the main body (1) of nuclear power plant for nuclear waste disposal, and to prevent explosion of reactor facilities while maximizing the production power by operating the nuclear power plants efficiently. The disaster prevention device of the reactor connection shaft,

(1) of the nuclear power plant for the treatment of nuclear waste, and (2) the installation of the disaster prevention system of the nuclear fuel explosion prevention and distribution shaft. Mooring device and diving buoyancy control device of nuclear power plant (672) and distribution facility of nuclear waste treatment and reactor facility of nuclear reactor facility Safety operation FUJITSU nuclear power plant (811) Structure block Tank dust collector (794) It is composed of the connecting shaft of the disaster prevention device that constitutes the inside of the connecting shaft of the reactor facility, and it is composed as a connection structure that can be disassembled and coupled at the marine ship manufacturing factory.

(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with reactor facilities for nuclear waste disposal double structure block tank dust collector constructed in the nuclear hydroelectric power plant part (811) ) And nuclear reactor waste disposal reactor equipment The installation of the disaster prevention apparatus, which is composed of the inside of the connecting shaft of the main body (1)

The lifting type dock nuclear power plant 672 of the marine power plant constituting the facility of the disaster prevention apparatus constituting the inside of the connection shaft of the nuclear hydroelectric power generation facility unit 811 and the inside of the distribution input apparatus main body 1 of the nuclear waste disposal reactor facility Nuclear Waste Dispensing and Discharging Apparatus with a Nuclear Radiation Leakage Control Dual Structural Block Tank Dust Collector (794) Consisting of a Nuclear Fuel Explosion Control Distribution Apparatus A plurality of nuclear reactor facilities are installed on the barge of an anti- , &Lt; / RTI &

The installation position of the distribution input device of the nuclear hydroelectric power plant part (811) located at the upper 40 m of the sea surface excluding the restriction of the weather condition of the earthquake and tsunami constituting the barge of the anti-sinking double structure block tank is excluded Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Reactor Leakage Control Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Leakage Control Dual Structure Block Tank Dust Collector (794) (811) for constructing a reactor to operate a nuclear power plant, the facility including a facility of a distribution and input device connection shaft disaster prevention device of a nuclear hydropower generation facility (811)

(593,594, 595) nuclear power plant (672) of the marine small-sized and large-scale marine nuclear hydroelectric power plant, and the nuclear power plant (672) (593,594,595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting facilities of the disaster prevention device of the facility (811), and a main body 1) Dual-structure block tank for controlling leakage of nuclear radiation leaked from the inside The equipment for installing the coupling shaft dust collector (794) and the nuclear waste treatment double structure block tank bridge (937) ,

(593, 594, 595) nuclear power plant (672) of a marine small-sized and large-scale marine nuclear hydroelectric power plant, and the inside of the main body (1) of a nuclear reactor waste disposal reactor, Of the power of the weak countries consisting of the storks of the great powers and the leaders of the weak countries composed of the leaders of the powerful countries within the connecting axis, Of the nuclear power plant (811) which constitutes the stork which constitutes the facilities of the nuclear power plant (811) which constitutes the stork to be able to imitate the struggle and to imitate the stork 's foot, ) Of the disconnection device,

Leading members of the international community who make up the facility of the disaster prevention device of the connecting axis,

The disaster prevention system is equipped with disaster prevention equipment for tanks, bombers, bombs, bullets, satellites, missiles, nuclear bombs and rocket bombs on land,

It includes equipment of disaster prevention device which overcame the punctured global economic crisis by establishing it as international social codes and norms constituting facilities of disaster prevention device,

The provision of facilities for disaster prevention equipment on the connecting shafts, which are designed to save the world economy by fostering the environmentally friendly pollution-free energy industry,

When the weather conditions of the bad condition constituting the facilities of the disaster prevention apparatus constituting the connection axis of the nuclear hydroelectric power generation facility unit (811) and the sinking accident of the ship in the bombardment state often occur, And a facility of a disaster prevention device of a connecting shaft constituting prevention of sinking accident,

(948) located inside the steel mill building which constitutes all military materials, and the nuclear hydroelectric power plant part (1) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor equipment for the construction machine heavy equipment 811, the facility connection shaft of the disaster prevention device,

(593, 594, 595) of marine nuclear, hydro, and nuclear power plants (592, 595) Mooring devices and diving buoyancy control devices in nuclear power plants (672) (811) of the nuclear power plant (811) before the operation of the nuclear power plant.

As a connection structure capable of disassembling and coupling at a marine shipbuilding factory,

As shown in Figures 192 to 209, in the nuclear waste disposal and dispensing apparatus constituting the nuclear hydroelectric plant,

The kind of spacecraft and satellite (611) of the Moon Travel that make up the nuclear waste disposal dispensing device,

First, to the communication satellite 611a constituting the communication satellite 611a,

At an altitude of 35.900 km, telepresence is broadcast.

Second, in the meteorological satellite 611b constituting the meteorological satellite 611b,

Take pictures of clouds and send them to weather stations around the world.

Third, in the geodeset 611c constituting the geodesic satellite 611c,

It makes a precise world map or prevents natural disasters.

The communication satellite 611a and the weather satellite 611b are the former practical satellites that are used most frequently.

The spacecraft of the lunar journey constituting the nuclear waste disposal and dispensing apparatus,

I fired a Saturn rocket on the ground and then I turn to the moon.

The mothership separates the lander. The mothership and the lander head toward the moon.

It goes into orbit of the moon.

It leaves the mothership and enters the moon.

After docking with the mothership, discard the moon lander.

It rises to the orbit of the earth.

At this time, the lander launches a drop line.

As shown in Figs. 192 to 209, the space rocket 612 of the lunar journey constituting the nuclear waste disposal and dispensing apparatus includes,

The rocket 612a constituting the space rocket 612, the ion rocket 612b, the plasma rocket 612c, the photon rocket 612d, and the nuclear rocket 612e, It is called chemical rocket because it burns fuel with oxidizer.

The rockets are slow and take too much time to travel in space.

So, to study these chemical rockets and other fast rockets, nuclear rockets 612e and ion rockets 612b.

Therefore, the development of a nuclear rocket (612e) is essential to go to Mars and Venus.

Thus, it is natural to install the space station to be installed in the ocean for small power to leave the universe.

In the structure of the liquid fuel rocket 961 for the lunar journey constituting the nuclear waste disposal dispensing apparatus,

The fuel pump 961e, the fuel tank 961f, the fuel tank 961d, the fuel injection valve 961d, the fuel injection valve 961d, the fuel injection valve 961d, An oxidant pump 961g, an oxidizer tank 961h and a gas generator 961i for operating the turbine, and is constructed as a connection structure capable of being disassembled into a liquid fuel rocket 961 structure.

In the structure of the solid fuel rocket 962 of the lunar journey constituting the nuclear waste disposal dispensing apparatus,

The combustion chamber 962c, the heat insulating material 962d, and the nozzles 962e constituting the solid fuel rocket 962 and the solid fuel rocket 962 are provided as the propellent 962a, the igniter 962b, the heat insulating material 962d, As a connection structure capable of being decomposed and coupled to the substrate,

The mixture of fuel and oxygen in the rocket is called propellant (propellant fuel; 962a), and the propellant fuel is classified into liquid propellant and solid propellant.

On the other hand, the liquid fuel rocket 961 constituting the liquid propellant fuel,

It is a rocket that puts a well-burning liquid and a liquid oxygen to burn it into a tank, pumps it into a combustion chamber, and bursts to burst gas.

In addition, the solid fuel rockets 962, which constitute the solid propellant fuel,

It is a mixture of fuel and oxidizing agent that burns it, and it is stored inside the combustion chamber which is hardened like a big cylinder.

As shown in FIGS. 192 to 209, when launching a rocket toward Mars, first, a satellite 611 running around the earth must be launched, followed by a velocity of 11.9 km per second or more to the rocket and directed toward Mars (611) and space rockets (612), all of which are equipped with Mars surfaces, Viking probes and Mars planes seen from Mars landers.

The connection structure of the nuclear power plant constituting the nuclear waste disposal dispensing apparatus is provided with the nuclear waste disposal unit 811a of the distribution and input device of the facility protection facility,

The connection structure submarine line wirings 946 constituting the lifting type docking nuclear power plant 672 of a marine power plant constituting the nuclear waste disposal and dispensing apparatus and the inside of the dispensing input apparatus main body 1 of the nuclear waste disposal reactor facility are located (SLU) of the sea surface (SLL) of a floating-type hydroelectric power plant,

A floating buoy deck that forms the reactor facility of a buoyancy type nuclear power plant, and a deck top deck which is connected to the top of the bucket. The buoy is installed in the main body (1) of the distribution apparatus of the buoyant nuclear power plant A block pylon 116 of unit volume coupling,

And a safety control room constituting a position as a connection structure on the left side of the top center of the deck plate of the floating type hydroelectric power plant constituting the block steel tower (116)

Many nuclear-weapon states that make up a floating nuclear power plant,

Nuclear Weapons Nuclear waste disposal equipment consisting of nuclear waste disposal facility for nuclear waste disposal facility equipped with interconnecting structures for preventing war and terrorism that constitute a majority of countries Nuclear waste disposed at the launch site of satellite launching and space rocket launching A nuclear waste disposal dispensing apparatus constituting a satellite for processing apparatus and a space rocket,

Prevention of flood drought control Preventing the damage of volcanic ash generation before and after explosion and natural haze and volcanic eruptions and volcanic eruptions of natural hurricanes, earthquakes, wildfires and volcanic eruptions constituting disposal unit of nuclear waste disposal Appearance observation And a peripheral equipment of a block pylon (116) of a nuclear waste disposal dispensing apparatus constituting the equipment management room of the weather forecasting station (958) inside the dispensing apparatus main body (1) of the nuclear waste disposal reactor facility,

A helicopter stop 619 positioned as a positional connection structure around the upper end of the deck plate constituting the peripheral equipment of the block steel tower 116 of the nuclear waste disposal and dispensing apparatus is provided,

A satellite 611 and a space launch pad 643 and a space rocket launch pad 646 of a space rocket 612 are provided to establish a position as a safety control room left side connection structure constituting the peripheral equipment of the block pylon 116, 643) and space rocket launch pad 646,

A reactor structure of the nuclear power plant constituting the upper deck plate, which is provided as a satellite launching platform (643) and a space rocket launching platform (646), and is a connection structure constituting the interior of the main body (1) (921) which is provided with a natural loess soil (158) as a connecting structure for controlling the upper part of the floating deck of the floating deck which is provided with a wiring line (946) And a natural loess soil (158) of a loess mixture which generates soap bubbles in the form of toothpaste mixed with cooling water controlled by fire control system consisting of a connecting structure provided at the upper part,

Sooty Foaming Mixture of Natural Loess (158) Floating Soaking Deck at Top of Deck Deck Control Products Control Natural Loess (158) of loess mixture that generates soap bubbles mixed with cooling water and,

The harmful red tide propagation countermeasure at the seabed constituting the harmful tidal microorganism (921) propagation prevention which occurs in the seabed constituting the natural loess (158) of the loess mixture,

(901) comprising a natural loam (158) in the inside of a greenhouse basket (951) of a harmful redeye suction dust collector constituting a harmful red tide propagation preventive measure and includes a greenhouse basket (951) and,

The harmful redeye microorganisms 921 are stored by the harmful redeye suction dust collector constituting the greeneyed basket 951 and the harmful tidal microorganisms 921 are removed by the natural yellow soil 158 inside the greeneyed basket 951,

In the lower position of the deck deck deck body, the natural loess (158)

The harmful tidal microorganism (921) breeding site includes a tuna winch 137,

A crane boom girder 942, a wire rope 19 and a wire rope chain 915 of a tow crane replacement tower crane constituting the tug boat winch 137, (135)

A moving device tackle winch 137 constituting a natural loess (158) input to the seabed constituting binding to the driving wheel roller (135) and performing position adjustment movement, and a seesaw crane boom stand 942)

Shaped air hoses 109 in the air compressor 80 and the air hose 109 constituting the iso-crane boom band 942 to provide oxygen and air into the sea bed,

(593,594, 595) of small, medium and large sized marine nuclear hydroelectric power plants by arranging control facilities for fire control to protect the marine environment. Distribution of nuclear power plants and reactor facilities for nuclear waste treatment (1) Inside (946) as a connection structure for the marine environmental protection equipment, which is connected to the submarine line (946). The marine environment consists of the connecting and disposing device connecting structures that protect marine environment facilities around the floating deck deck (593,594,595) of nuclear power plants of medium and large sized marine nuclear power plants Nuclear power plant nuclear waste of nuclear power plant (811) consisting of nuclear power plant and nuclear power plant and nuclear power plant (1) The dual structure block tank dust collector is connected to the processing unit 811a by the operation of the nuclear power plant equipment constituting the connection axis position of the nuclear waste processing pipe manufacturing process 705 of the reactor facility For nuclear waste disposal, it is equipped with distribution dispensers to constitute nuclear power plant operation,

(593, 594, 595) nuclear power plant of the small-scale, medium-sized and large-scale marine nuclear hydroelectric power plant of the land and the sea, and a nuclear power plant of the nuclear power plant (811 (811a) of the nuclear power plant nuclear waste disposal unit (811a) of the nuclear power plant equipment constituting the connection axis position of the nuclear waste processing pipe manufacturing process (705) of the reactor facility nuclear oil drilling rig of the crude oil borehole facility 934) nuclear waste disposal dispenser,

(593,594, 595) of a small, medium and large sized maritime nuclear hydroelectric power plant of the ocean. The distribution structure of nuclear power plant and nuclear waste disposal reactor installation (1) The crude oil drilling rig 934, which is located at the top of the upper end of the lifting deck upper deck (SDU)

The drilling machine located at the lower end of the ceiling crane (651), which is located at the upper end of the lower end of the block steel tower (116) constituting the nuclear hydroelectric plant,

(908) Several hydraulic cylinders (623) for drilling that make up the position of the center of the round table lathe with a rotating body of the body Including,

A plurality of compact keys 623 are provided so that a plurality of compact keys 623 are driven to a position of a center of a lathe by adjusting the position of each of the compact keys 623, And a rotary table lathe machine 908 constituting a position shift control device,

The rotary table lathe machine 908 constituting the nuclear waste disposal and dispensing apparatus comprises a connecting structure provided as a linking structure of the center of the lathe and connected to the connection structure position shifter for opening a plurality of work keys 623 A plurality of pipe racks 854 are continuously connected to the central position to form a plurality of pipe drums 854 constituting a crude drill rod provided at the location of the crude oil borehole 936 located at the seabed as a connection structure ),

A crude oil drill rod 936 provided with a crude oil drilling hole 936 for drilling a raw oil bore hole 936 and a nuclear drill rod 936 provided as a connection structure for a crude drill rod fork connection structure provided as a connection structure constituting the pipe rack 854, A crane crane 651 for providing a crude drill rod connection for constituting a nuclear waste disposal and dispensing apparatus of a power plant, and a pipe rack 854 for connecting drill rods for crude oil bound to a wire rope 19, And a hydraulic rotary cylinder (619) for rotary drilling, which is constituted inside the rotary table lathe machine (908) of the drilling machine for crude oil in the machine room,

And a plurality of hydraulic cylinder keys 623 for drilling to position the circular table lathe to the center portion connecting structure constituting the hydraulic rotary cylinder 619 for rotating drills for rotary drilling, 908) to the upper end,

The crude oil borehole 936, which is a crude oil borehole distribution dispenser, is fed into the rotary table lathe machine 908. The crude oil borehole 936, (942) as a connection structure located on both sides of the nuclear waste disposal facility of the nuclear power plant facility,

The sea ice crane boom band (942) constituting the tower crane replacing the above-mentioned crane includes all of the deep-sea energy resources composing the lift to the top of the deck deck by the vertical rotation operation,

(593,594,595) of small, medium and large sized nuclear hydroelectric power plants that make up the whole of the deep-sea energy resources. Distribution facilities of nuclear power plants and nuclear reactor waste treatment facility main body (1) (964), which is provided with a crude oil and natural gas crude oil borehole distributing and inputting apparatus connection structure, and is installed in the main body (1) of the feed-in apparatus of the floating type nuclear hydroelectric power plant and nuclear reactor waste disposal nuclear reactor facility The nuclear plant waste disposal unit 811a of the nuclear hydroelectric power plant 811 having the double structure block tank dust collector is connected to the nuclear waste disposal pipe manufacturing process 705 of the reactor facility by the nuclear power plant A nuclear waste disposal dispenser for operation of a hydroelectric plant,

(593, 594, 595) nuclear power plants (672) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the nuclear waste disposal and dispensing apparatus, and a nuclear power plant (672) The nuclear waste disposal unit 811a of the nuclear hydropower generation facility 811 of the nuclear power plant unit 811a constitutes the nuclear waste processing tower manufacturing process 705 of the reactor facility, Crude oil drilling rigs of crude oil and natural gas oil borehole facilities (934) and nuclear waste disposal input devices for deep sea energy resources and mineral exploitation,

The nuclear waste disposal and dispensing apparatus composed of the nuclear hydroelectric plant facility comprises:

A connection structure composed of a lifting type docking nuclear power plant 672 of a marine power plant constituting a nuclear waste disposal dispensing apparatus and the inside of a dispensing apparatus main body 1 of a nuclear waste disposal nuclear reactor facility is provided with a submarine line wiring 946 In the deep seabed mineral resource collection site that provides the location, there are a garden basket 842 for collecting manganese block 909,

(909) Piping line for moving devices that make gathering Automatic pneumatic conveying device (916) As a connection structure, it is equipped with a suction collecting machine (911) and a mining robot for ash extraction machine for submarine mineral resource collection (912), and a mineral collecting tank (924) to provide a connecting structure located on both sides of the sea crane boom stand (942) of the tower crane for replacing the sea level lower end (SLD)

(942), which constitutes a tower crane for replacement of the above-mentioned crane. (942) Vertical rotation of the deep-sea energy source connected to the deck deck top of the deck deck top, Lt; / RTI &gt;

The nuclear waste disposal and dispensing apparatus, which constitutes the nuclear power plant facility,

(593,594,595) Nuclear power plants (672) of small and medium and large sized marine nuclear hydropower plants (672) and the inside of distribution dispensing apparatus main body (1) of nuclear reactor waste treatment facility Transport equipment supplying materials to the industrial site on land Construction of 500m block unit with dual structure block tank facility Nuclear waste treatment consisting of connecting structure Double structure block tank Marine tunnel transport device (941) Internal connection structure (254), and the electric motor

(593,594,595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the electric motor vehicle (254) and a connection structure constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment (946), the equipment of the marine power plant is connected to the floating deck deck at the top of each deck of floating deck deck and the deck deck of deck at the bottom of the deck deck. And a connection structure for providing a location on the side of the river, and arranging the collection of crude oil and natural gas as the connection structure of the deep sea mineral energy collecting and inputting device,

(672) and the inside of the main body (1) of the distribution apparatus of the nuclear waste treatment facility, which are provided with the crude oil borehole distribution and connection device connection structures constituting the crude oil and natural gas collection, The nuclear waste disposal processing unit 811a of the facility unit 811 transfers the double structure block tank dust collector to the nuclear waste disposal dispensing apparatuses of the nuclear power plant equipment constituting the connection shaft of the nuclear waste disposal pipe manufacturing process 705 of the reactor facility And the distribution of the marine power generation facilities having the connection axis positions constituting the inside of the distribution input apparatus main body 1 of the nuclear waste disposal nuclear reactor facility 672 and the floating nuclear power plant 672 of the marine power generation plant, And to include nuclear power plants as nuclear power plants.

(593,594, 595) nuclear power plant (672) of the small and medium-sized and large-scale marine nuclear hydroelectric power plant and the nuclear power plant (672) consisting of the nuclear power plant 811) is constructed as a nuclear waste disposal pipe manufacturing process (705) of the nuclear reactor facility.

A connecting structure composed of a buoyancy type diesel nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility unit 811 and a distribution input apparatus main body 1 of a nuclear waste treatment facility, A connecting structure constituting a connected structure submarine line wiring 946 to the strut tank upper barge hull 591 and the holding tank lower barge hull 593 provided with individual equipment of the power generation facilities is provided with a hull safety equipment for distribution and input ,

In the hull safety equipment constituting the submarine line wiring 946,

The high-strength bolts 603 and the high-strength nuts 604 are connected to the large-diameter flange 614 through holes 615,

A plurality of double structure block tank holding tanks (590) constituting the hull safety equipment; outer tank tanks (599) with connection structure provided by the body; a large flange (615) (60) and high-strength nuts (604) while connecting the large flange (615) by pre-splitting the connection structure. Structure Large flange (604) (614) includes a distributing / dispensing apparatus of a nuclear hydropower generation facility unit (811) constituting binding in a joint processing hole (615)

A hydraulically rotating cylinder machine 619 for a position regulating device, a hydraulic cylinder machine 624 for a traffic apparatus, and a hydraulic hammer linkage structure for constituting a distributing and inputting device of the nuclear hydroelectric power plant 811, Double structure block tank bridge pier (928) and dual structure block tank pipe bridge (937) decomposition coupling of nuclear reactor hydroelectric power plant nuclear reactor hydropower plant are equipped with hydraulic rotary cylinder machine (619) 598) connecting structures can be disassembled and coupled,

The horizontal dual structure block tank 598, which constitutes the hydraulic rotary cylinder machine 619, is connected to the connecting structure connecting elbow 44 by means of a mounting welder,

At the location of the large flange (614) joints that make up the mounting weld with the mounting welder,

A hydraulic rotary cylinder machine 619 for a positioning device, a hydraulic cylinder machine 624 for a traffic control device, and a hydraulic hammer linkage structure for a transportation device, each of which is composed of a disassembly coupling dispensing device connection structure,

The floating docking station of the hull deck center nuclear power plant (672) of the marine power plant constituting the hydraulic rotary cylinder machine (619) and the center of the hull deck (SDM) constituting the inside of the distribution input unit main body (SDU) Upper part of hull deck (SDU) Upper part of lower deck (SDL) Upper deck top of deck (SDU) Holding tank Upper barge hull (591) and holding tank lower barge hull (592) (946) Maritime power generation facility with connection structure Replacement towers for different towers Crane boats for Isai crane Boom (942) Connected structures Mooring and power generation facilities are connected with each other to form small, medium and large sized marine nuclear hydroelectric power plants. (593, 594, 595) of the nuclear power plant, and a distribution input device of the nuclear hydroelectric power plant (811) constituting the nuclear power plant,

(593, 594, 595) nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants constituting the nuclear power plant facilities and the inside of the main body (1) of the nuclear power plant for nuclear waste disposal The diving process preparatory operation control regulating and distributing apparatus for the hull safety equipment constituting the connection axis position of the nuclear waste disposal pipe manufacturing process 705 of the nuclear reactor plant, the double structure block tank collector of the nuclear hydroelectric power plant 811,

And a control unit for controlling the operation of the auxiliary loading type nuclear power plant 672 of the marine power generation plant and the distribution input apparatus main body of the nuclear waste treatment facility, (1) The connecting structure consisting of the inside of the ship's upper deck (SDU) of the hull deck center (SDM) at the center of the hull deck (591) and the bottom of the holding tank at the lower deck (SDL) A dual structure block tank 598 that provides a position to the hull 592 as a connection structure with a seabed line wiring 946. Submarine mineral resource exploration equipment located outside the connection structure outer block tank 599 Multiple deep sea exploration (843) for the power plant equipment to distribute and input the marine power generation power,

And a lifting / lowering type poisoning lifting device constituting a power generation facility device includes a hull safety facility device connection structure and includes a distribution input device of the nuclear hydroelectric power generation facility part 811,

A harmonics control system and a barge for installing a disaster prevention device were installed as a connection structure of a buoy control device,

A plurality of strut block tanks 590, which are positioned by the outer connecting structure of the strut block tanks 590 constituting the lifting type nuclear power station power plant renovation,

A connecting flange 614 for connecting a large-sized flange 614 constituting the lifting-type docking station reformer, a connecting hole machining hole 615 for connecting the elongated hole 616 and the pin connecting shaft connecting structure by a hydraulic cylinder key 623 The coupling device of the double structure block tank hull disassembly portable lug coupling screw bolt 603 bolt screw thread 603a and the lug screw connecting screw disassembly nut nut screw hole 604b is provided with a Hammer- A cylinder machine 619 and a pin finishing hole 615,

The hydraulic hydraulic power plant part 811 which constitutes the prevention of the nut disengagement from the pin connecting shaft screw thread 603a when the hydraulic rotary cylinder machine 619 is provided with the male thread on the pin node side constituting the binding, A dispensing device,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

It is possible to provide a stable anti-sinking lifting dock even under the influence of any storm waves constituting the nuclear hydroelectric power generation facility 811,

(593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constituting anti-sinking detonation poison (672) and distributing unit of nuclear reactor waste disposal unit (1) (SDM) Upper deck top (SDU) Upper deck (SDU) Upper deck (SDL) Upper deck Upper deck (SDU) Upper deck Upper deck Upper deck Upper deck Upper deck Upper deck Upper bucket hull (592) Connected to the crane boom of each offshore power plant with the submarine line wiring (946) as a connection structure Connected with the mooring device of the crane boom and the connection of the power generation facility device It is equipped with the buoyancy type dock nuclear power plant (672) And a distribution input device of a nuclear hydropower generation facility unit (811) configured to form a nuclear reactor facility inside the main body (1) of the distribution input apparatus of the nuclear reactor facility for waste treatment,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

(SDU) of the floating deck hull deck top (SDU) of the hull deck center (SDM) as a connection structure consisting of a buoyant type docking nuclear power plant (672) of a marine power plant and the interior of the distribution input unit main body (SDL) Upper deck (SDU) Upper stratum (SDU) Upper stratum tank top barge hull (591) and strut tank bottom barge hull (592) (591) and the holding tank lower barge hull (592) that constitute the double structure block tank-combined portable lug (607) at the upper part of the landing block tank and the lower part barge hull, (607) body having a plurality of processing holes (615) and an elongated hole (616), the horizontal pin connecting shaft Hole 615 and pin connection axis machining hole 615 and the ball hole section 616 of a vertically arranged, and

A connecting structure of the connecting portions of the strut block tanks 590 constituting the double structure block tank-combined portable lug 607 body, the vertical upper barge hull 591 and the lower barge hull 592, A plurality of block tanks hingedly coupled to a plurality of processing holes 615 provided with a plurality of processing holes 615. A block tank hinged to several processing holes 615 among connection shafts 606, (606) is removed,

(606) Block Tank Hull Disassembly Portable Rug Fin Pin Connecting Axis (606) Nuclear Waste Treatment Dual Structure Block Tank Marine Tunnel Transportation Device (941) Including,

The dual structure block tank marine tunnel traffic device 941, which constitutes the nuclear waste treatment,

A barge hull 592 of a fixed lifting type hull and a horizontal hull block tank having a level balance on both sides are provided at the upper end constituting the marine tunnel traffic device 941 and a hull diving position control mobile device and a diving buoyancy control device The double structure block tank-combined portable lug 607 provided with the vertical type coupling structure while the level balance of both sides of the barge line hull 592 of the fixed type lifting dock is provided while diving to the bottom of the water, A single block tank hull disassembly portable lug pin connecting shaft (606) block tank hull disassembly engaging portable lug pin connecting shaft axis (606) horizontal standing tackle block tank is built up in a vertical type coupling structure, The upper portion of the strut tank upper barge hull (hereinafter referred to as &quot; upper strut hull &quot;) constituted by the lifting type dock nuclear power plant 672 of the power plant and the inside of the main body 1 of the nuclear reactor- 592) Deck bottom Bottom of the joining joint Location of the concave and convex shape Processing hole (615) of the lug hinge socket (613) and the nuclear waste treatment dual structure block tank marine tunnel traffic device (941 A connecting hook portion lug hinge socket 613 of the fixed lifting type poison holding tank, and a concave and a heft type connecting structure, respectively, and optionally a binding block tank 590,

(590) Nuclear waste treatment dual structural block tank constituting rugged hinge socket (613) located on the top surface of each deck deck which forms a concave / Including,

Double structure block tanks The holding block tanks of the floating marine small-sized and large-scale marine nuclear hydroelectric power station (593,594,595) located at the top of the marine tunnel traffic system (941) constituting the marine tunnel traffic device (941) (593,594,595) connection structures of small, medium and large sized marine nuclear hydroelectric power plants in the fixed ocean,

(SLU) of the sea surface (SLL) of the ship's hull and bottom of the sea surface (SLD) of the offshore power plant (672) and the inside of the dispensing apparatus main body (1) (593, 594, 595) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants with fixed marine vessels that provide coupling to treated dual-structure block tank bridges (929) and small-, medium-, and large-scale offshore nuclear hydroelectric power plants (593, 594, 595) to provide the distribution,

(672) of the marine power plant and the distribution tank of the nuclear reactor waste disposal unit (1). Upper barge hull and holding tank Lower barge ship Several double structure block tanks are connected by hull. Portable A plurality of column block tanks 590 bound to the machining hole 615 of the body 606 and to the lug pin connecting shaft 606 of the dual structure block tank combined portable lug pin connecting shaft 606 body Which includes anti-sinking lifting poisons and anti-sinking lifting devices at sea level,

Hull protective equipment for protection of hull safety equipments and barge lines for mounting disaster prevention devices are provided as a connection structure for rebuilding the reactor facilities of the nuclear power plant and provided with barge lines for mounting disaster prevention equipment and interconnected with the adjustment device Bottom line SLU with a submarine line wiring 946 as a connecting structure composed of a lifting type docking nuclear power plant 672 of a marine power plant and a main body 1 of a distribution input apparatus main body of a reactor facility for nuclear waste disposal, (SDU) connected to the deck top of the deck The offshore power plant located as a connection structure Replacement towers for different towers Cranes for the tower crane Isokine Crane Boom Stand (942) Connection structure Mooring system and power generation equipment Distribution system The reactor facility of the nuclear power plant constituted by the power plant 672 and the inside of the main body 1 of the nuclear reactor waste disposal unit Relevant and

(593,594,595) of a small, medium and large sized nuclear hydroelectric power plant constituting a reactor facility of a nuclear hydroelectric power plant, and a mooring device, a diving buoyancy control device and a nuclear waste disposal dispensing device and a reactor installed at a nuclear power plant (672) It is included as a connecting structure that can be disassembled and combined at marine shipbuilding factory with the connection axes of the nuclear waste processing pipe manufacturing process (701) of the reactor facility at the nuclear hydroelectric power plant part (811) before and after the safe operation of the nuclear plant of the facility. .

(593, 594, 595) nuclear power plants 672 of the offshore, small, medium and large sized marine nuclear hydroelectric power plants, and the nuclear power plant portion 811 ) Doubling structure Block tank Dust collector Reactor nuclear waste treatment pipe manufacturing process (705) Preparation of diving for hull safety equipment constituting connecting shaft Operation control control distribution dispensing device,

A lifting type docking nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility unit 811 and a connection structure constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant In the connection structure of a nuclear hydroelectric plant to prevent the formation of marine bioglass and barnacles located as an external location connection structure constituting the nuclear reactor facility main body 1 of the nuclear power plant at the bottom of the sea level (SLL) The electrode plate anode 938 is provided at regular intervals outside the body of the nuclear waste treatment double structure block tank bridge 929 and the dual structure block tank pipe bridge 928 at the lower sea level SLL, ) Installation,

(907) of a fish finder that constitutes monitoring of the underwater dynamics of the military equipment submarine constituting the dispensing apparatus of the nuclear hydroelectric power plant unit (811)

The connection structure submarine line wiring 946 constituting the floating type docking nuclear power plant 672 of a marine power plant constituting Sowa (907) of the fish finder and the inside of the distribution input apparatus main body 1 of the nuclear waste disposal reactor facility (SLU) Floating upper deck (SDU) Marine devel- opment facility Replacement towers for different towers Crane boats for Isai crane Boom stand (942) Connection structure Mooring device and power plant equipment (960) which constitutes a hull safety device for hull safety distribution input operation and a satellite connection structure for mutual military communication,

(672) constituting the satellite weather forecast information collecting machine (960) and the inside of the main body (1) of the nuclear power plant for nuclear waste disposal, and the land, small, medium and large sized marine (593,594,595) Nuclear power plant (672) Mooring device, diving buoyancy control device, nuclear waste disposal dispenser and reactor facility safety facility FUJITSU Nuclear Hydroelectric Power Plant (811 (705) of the nuclear waste treatment plant manufacturing process of the nuclear reactor plant, and the connection structure capable of being disassembled and coupled at the marine vessel manufacturing plant.

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the disassembly and disassembly of the marine shipbuilding factory, and the main body of the distribution apparatus 1) Dual structure of Nuclear Hydroelectric Power Plant (811) inside of the nuclear power plant (811) Reactor Nuclear waste treatment pipe manufacturing process (705) Preparation of diving for hull safety facility The apparatus includes:

In the distribution and input device constituting the nuclear hydroelectric power plant part 811,

The connecting structure constituted by the floating type nuclear power plant 672 of the marine power plant constituting the nuclear hydroelectric power plant 811 and the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste treatment includes the control room of the mooring tower 644 The upper part of the rooftop block is connected to the meteorological observation equipment (840) located at the connection point of the steel tower (116). The upper block of the control tower (116) is connected to a nuclear hydroelectric power plant ) Dispensing device,

The distribution input apparatus lightning rod 500 constituting the nuclear hydroelectric power plant unit 811 is provided as a hull distributing and charging apparatus for hull safety operation,

And a connection structure submarine line wiring 946 constituting a nuclear reactor power plant 672 constituting the nuclear hydroelectric power plant 811 and the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste treatment, ) Floating deck hull deck top (SDU) Offshore power station Countertop replacement tower Cranes Isa crane Boom stand (942) Connection structure Mooring device and power generation facility Distribution operation of hull safety operation Installation of connecting device Construction of nuclear power plant (593,594,595) nuclear power plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants of the land and ocean which constitute the main body (1) of the nuclear power plant for nuclear waste disposal (672) (811) of nuclear power plants of the Hwaseong Nuclear Hydroelectric Power Plant before the operation of nuclear reactors of the mooring unit, the diving buoyancy control unit and the nuclear waste disposal dispenser and the nuclear reactor facility. Be equipped with waste pipe manufacturing process 705, the connecting shaft includes a marine vessel in manufacturing plant in the connection structure and possible decomposition coupling is configured.

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the disassembly and disassembly of the marine shipbuilding factory, and the main body of the distribution apparatus 1) Double structure of the nuclear power plant part (811) inside the nuclear waste treatment plant manufacturing process (705) of the nuclear reactor installation of the double structure block tank Preparing the diving progress for the hull safety facility Operation control adjustment control input device Quot;

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

The nuclear power plant (672) of the marine power plant constituting the hull safety facility and the nuclear power plant are connected to each other by the nuclear power plant Supply power of the electric power produced by the distribution and input devices of the power generation facility unit 811 is provided, power control is provided to the connection structure of the transformer 96 of the large-capacity substation,

A transmission line and a connection structure constituting a transformer (96) of a large-capacity substation, a plant for producing small-diameter piping, medium-diameter piping and large-diameter piping by providing a predetermined amount of generated power supply by a transmission tower, and a raw material high- (597) manufacturing plant for nuclear power plants, and a nuclear waste disposal unit of the distribution input unit of the nuclear hydroelectric power plant unit (811) constituting the power line supply execution to the steel beam (149) and the steel plant (839) A structural block tank, a marine tunnel transport device (941)

The facilities of the double structure block tank pipe bridge 928 constituting the nuclear waste treatment dual structure block tank bridge 929 are as follows.

The 5M standard has been established,

A double structure block tank pipe pier (928) over the shape of the Rudyasha (35) shape at a depth of 1 kilometer below sea level is provided as a connection structure with a further enlarged diameter of 1M to 5M,

Semi-submerged operation line (637) Double structure block tank at the upper part of the deck deck The connection structure of the large-sized flange (614) provided for the portable construction band guide (621) The nuclear waste processing pipe manufacturing process 705 of the double structure block tank dust collector reactor facility of the nuclear hydroelectric power plant unit 811 constituted by the dock nuclear power plant 672 and the inside of the distribution input apparatus main body 1 of the nuclear waste processing reactor facility ) Includes the provision of a double structure block tank pipe bridge 928, which is provided with a diving preparation preparation operation control control distribution dispensing device for the hull safety equipment constituting the connecting shaft to perform the nuclear waste treatment of the nuclear installation,

A double structure tank bridge bridge part composed of a buoyancy type nuclear power plant 672 of a marine power plant constituting the facility of the pipe bridge 928 and a distribution structure of the nuclear power plant for treating nuclear waste, The same type of traffic equipment as the saddle mold 617 Block tank of the distribution dispenser Combine portable construction band guide 621 Sinking ship Sink prevention line (634) Movement to the upper deck position The double structure tank bridge bridge saddle mold 617 is provided with disassembly coupling,

A connection structure that constitutes the disaster prevention nozzle 945 by the underground line constituted by the nuclear power plant 672 constituted by the floating saddle mold 617 and the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor installation, (SLU) Upper part of the sea surface (SLU) Upper part of the deck (SDU) Marine power generation facility Mooring device and power plant equipment consisting of connecting structure of the iso crane boom band (942) A double structure block tank bridge pier 928 is provided as a connection structure,

The pipe bridge (928) is a connecting structure supplied with the power produced by the marine power plant of the floating type poison which constitutes the manufacturing installation. It is composed of a buoyancy type nuclear power plant (672) of a marine power generation plant and a distribution input device main body 1) The nuclear waste disposal of internal reactor facilities is to be made up,

A connection structure composed of a lifting type diesel nuclear power plant 672 of a marine power plant constituting treatment of the nuclear waste of the reactor facility and a main body 1 of the distribution input apparatus of the nuclear waste treatment facility, In the body-slit engaging hole 20 constituting the various types of pins 22,

A plurality of sharp-pointed, tool-tip cutters 185, which make up the nuclear waste treatment of the nuclear reactor plant,

In the feeder belt 185 constituting the nuclear waste treatment of the reactor facility,

A plurality of jig 22 processing holes 20 and a plurality of jig crushers 185 constituting the nuclear waste treatment are provided so that anchor car replacement crank 846 and bridge pier level foundation base 851) are disassembled into several crankshaft crankshafts (846) provided on the side and lower sides of the saddle mold body, and are connected to a buoyant type diesel power plant (672) A crusher 185, an crusher crank 846, and a piercing level base footrest (not shown) configured to perform nuclear waste disposal of a reactor facility constituted inside the main body 1 of the distribution apparatus of the nuclear reactor installation 851)

A connection structure composed of a floating type nuclear power plant 672 of a marine power plant constituting the nuclear waste treatment and the inside of a distribution input apparatus main body 1 of a reactor facility for nuclear waste treatment includes a sea bottom surface upper end portion (SLU) Floating deck hull deck top (SDU) Offshore power plant Sea cranes boom stand (942) of tower cranes for replacement of separate towers (942)

The double structure block tank bridge pier (928) is constructed and installed as the connection structure of the mooring device and the power generation equipment constituting the nuclear waste disposal,

The nuclear power plant 672 and the nuclear power plant constituting the inside of the main body 1 of the nuclear power plant for treating nuclear waste are provided with the nuclear waste treatment of the nuclear power plant constituting the nuclear power plant, (593,594,595) of nuclear power plants in the small and medium sized and large oceanic hydroelectric power plants of the ocean, and mooring devices and diving buoyancy control devices in nuclear power plants (672) (705) of the nuclear waste processing pipe manufacturing process of the nuclear reactor facility at the nuclear hydroelectric power generation facility (811) before and after the nuclear power plant;

As a connection structure capable of disassembling and coupling in a marine vessel manufacturing factory.

(593, 594, 595) nuclear power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the nuclear waste treatment, and the main body 1) Double structure of Nuclear Hydroelectric Power Plant (811) built inside Nuclear waste treatment pipe manufacturing process (705) of nuclear reactor facility with a dust collector Preparing for diving for hull safety equipments constituting connecting shaft Preparing for operation control The dispensing device comprises:

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

A connecting structure composed of a floating type diesel nuclear power plant 672 of a marine power plant and an interior of a distribution input apparatus main body 1 of a nuclear waste disposal nuclear reactor facility is provided with anchor replacement crankshaft 846, Ship's safety distribution and operation of hull safety devices and construction machinery equipments, which consists of the top position of floating deck deck plate provided as a connection and disconnection structure of the nuclear power hydroelectric plant (811) (842) for collecting seabed mineral resources by connecting both sides to the inner boom hook hook (18) of the boom-to-body tower crane by distributing both sides with the connection structure of the seesaw crane boom (942) (849), which provides seabed mineral resources to the submarine mineral resource manganese (909)

The submarine mineral resource manganese monolith (909) was moved to the upper deck (SDU) of the floating deck to construct the small crane boom zone (942) This is a connection structure that receives the power generated from offshore power plants. It is composed of a buoyancy type diesel power plant (672) of marine power plant and a submarine mineral resource manganese unit (909 ) Lifting device to the upper deck (SDU) of the lifting deck hull which collects Nuclear waste disposal which consists of the isocrane boom stand (942) And a distribution input device of the nuclear hydroelectric power plant part (811)

Submarine mineral collection and construction equipment provided as a connection structure between the floating type nuclear power plant (672) of the marine power plant and the distribution input unit main body (1) of nuclear reactor waste disposal reactor facility. (SLD) of the sea level surface (SLD) of the sea level surface (SLL) constituting the yard basket 842 and the palette 844 for collecting the seabed mineral resources are provided as a connection structure on both sides of the sea ice crane boom band 942 of the tower crane. The tower crane's bucket cranes at the bottom of the seagoing deck (SDL) and at the bottom of the sea bottom (SLU) to the position of the upper deck (SDU) 942), and control of the movement of submarine mineralized manganese block (909) to the upper part of the floating deck (SDU) And a crane boom frame (942), and the distribution input device of the submarine mineral collection construction machine,

In the location of the submarine mineral resource collection site, which consists of the buoyancy type nuclear power plant (672) of the marine power plant constituting the distribution input device of the construction machine and the inside of the distribution input device main body (1) of the reactor facility for nuclear waste treatment, (913) and the mineral collecting robot (912) of the isotope crane boom (912) to the upper end of the lifting deck (SDU) while preparing the submarine mineral resource collection. ) Equipped with a connection structure, which is supplied with power generated from a floating oceanic power plant, and has a floating structure (672) of a marine power plant and a main body (1) of a distribution input device of a nuclear waste treatment facility (911) and a mineral picking robot (912), which are connected to each other, and a submarine mineral collection and construction machine for operation. (911), mineral collection robot (912), and seesaw crane boom stand (942) of towing crane for towing equipment construction machinery. The submarine mineral collection and construction machine A dispensing device,

(672) of the marine power plant constituting the distribution and input device of the underwater minerals collecting construction machine and the inside of the distribution input device main body (1) of the nuclear waste treatment facility, (SLU) with submarine track wiring (946) Upper deck (SDU) of lifting deck hull Deck top location (SDU) Location of offshore power plant located at the connecting structure Each mooring device and power plant equipment It is equipped with a diving control system consisting of buoyancy type dock nuclear power plant (672) and the inside of the dispensing input device main body (1) of nuclear reactor waste treatment facility, 593, 594, and 595) to the seabed to prepare the seats of the connecting structures,

Distribution of hull safety devices, construction machinery equipment, marine power plants, buoyant shipbuilding nuclear power plants (672), and nuclear reactor facilities for nuclear waste disposal, located at the top of the floating deck deck of the dock control system Lifting device composed of the inside of the injection device body (1) Construction machine Replacement towers of the tower Cranes of the iso crane Boom stand (942) Lifting device that constructs the collection of seabed mineral resources by connecting structure Construction machine An isocrane boom band 942,

It is a connection structure that is equipped with a displacement structure to control the position movement to the upper part of the lifting deck (SDU) which constitutes the iso crane boom zone (942), and is supplied with the power produced by the marine power plant of floating dock. (911) and minerals collecting robot (912), which are composed of a buoyant type poisonous nuclear power plant (672) and a nuclear waste disposal reactor main body (1) (911) and mineral collecting robots (912) of the mineral resource collection equipment and the iso crane boom band (942) of the towing crane for the lifting equipment construction machine. The submarine mineral resource collection And a distribution input device of a seabed mineral picking and construction machine constituted so as to realize the above-

(672) of a marine power plant constituting a distribution input device of a submarine mineral collecting construction machine and the inside of a distribution input device main body (1) of a nuclear reactor for nuclear waste disposal, (909), which is composed of submarine location connection structure including submarine mineral resource collecting equipment, is installed on the sampling robot. SDU location of the deck top of the deck is connected to the connecting structure to control the movement of the connecting structure. A connection structure provided in a tower crane 886 having a connection structure of the iso crane boom stand 942 of the replacement tower crane and the connecting structure of the suction collecting machine and the electric magnet magnet 645. The pipeline automatic pneumatic conveying device 916 (SDU) of the connecting tank elevator 632 and the strut tank upper barge line 591 which carry the manganese block 909 and the manganese block 909, The connection structure provided at the upper position is provided with a lifting basket 842 for collecting the seabed mineral resources and a connection structure 844 to carry out positional movement control to the lifting deck upper part SDU position connecting structure Comprising a submarine mineral collection construction machine dispensing device,

Submarine mineral collecting construction machinery Construction machinery equipment making up distribution dispenser Countertop replacement tower Crane boom (942) Connection structure and conveyor (633) Lifting deck (SDL) with connection structure The seabed mineralization process is composed of submarine mineral resource extraction from the submarine mineral resource collection site located at the top of the deck top of the floating deck (SDU) Navigation equipment and connection structure An illuminating device for providing a submarine line wiring 946 as a connection structure is provided for a searchlight 232 and an underwater light for submarine survey lens glass 843,

(672) of a marine power plant constituting the lighting device and the connection structure constituting the inside of the dispensing apparatus main body (1) of the nuclear reactor waste disposal nuclear plant disposal system. The suction collecting machine and the connection structure mineral picking robot and the submarine mineral resource And a collecting device connecting structure, wherein said submarine mineral resource collecting equipment comprises:

Each of the lever blocks (123) for collecting the undersea mineral resources collecting equipment and the collecting equipment provided for enduring the water pressure of the deep sea bed and the flow rate of the deep sea bed, And a rope chain (915) connecting structure to provide an undersea elevator elevator (632) and an underwater excavation equipment location connection structure,

In the seabed mineral resource collecting equipment constituting the prevention of loss due to collecting equipment binding,

(123) body, each of which is connected to the wire rope connection structure of the lever block (123) while adjusting the position movement of the submarine mineral resource collecting place, (184), which is included in the submarine surveying equipment, with the rope being rolled up and loosened. Each submarine mineral gathering system is composed of a connecting shaft having the search condition of the submarine mineral collecting process. A construction machine dispensing dispenser,

The submarine mineral resource exploration equipment consisting of the submarine mineral collection and construction machine distribution and input device connection structure and the searchlight (232) and the connection structure are provided, and an underwater light for the submarine survey lens glass (843) (184) includes a distribution input device of a submarine mineral collection construction machine having a connection structure and constituting a submarine mineral collection process status scene transmission,

The connection state of the container box latching and hoisting device 129 of the container box 132 corresponding to the submarine mineral carrier which constitutes the dispensing device of the seabed mineral collecting construction machine is connected to the undersea camera 184, (SLU) lifting of the sea surface (SCU) to the hull safety facility control room location that provides the location to the upper deck (SDU) position. Structure Submarine cable (946) The submarine line wiring 946 included as a connection structure of the power plant 672 and the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal, (SLU) Upper deck (SDU) Floating deck hull (SDU) Hull safety facility Control room Internal network located in the control room (50) Internal control A connection structure mooring device and a connection structure of each marine power generation facility which constitute transmission of a submarine mineral collecting process state scene with transmission from the unmanned camera 184 into the monitor 52 of the server 51 and the control board 53, Comprising a mineral resource harvesting equipment dispensing device,

The mineral resource collection equipment distribution input apparatus constituting the nuclear hydropower generation facility unit (811)

It is equipped with the construction machines that make up the distribution equipment of the mineral resource collection equipments, and it has the connection structure that the mineral resource collecting equipments can withstand the water pressure of the deep sea bed and the flow rate of the deep sea bed, (1) of a nuclear reactor waste disposal reactor apparatus, a distribution input apparatus for an underwater mineral collection and construction machine is provided,

Mooring devices and diving buoyancy control devices and distribution and input devices for nuclear waste disposal and nuclear reactor facilities of nuclear power plants (672), which constitute a distribution power input device for distribution of mineral resources, And a connection structure capable of being disassembled and coupled at a marine vessel manufacturing plant, which is provided with connecting shafts of the nuclear waste disposal pipe manufacturing process (705) of the reactor facility at the power generation facility section (811).

(593,594,595) nuclear power plants (672) of land, small, medium and large sized marine nuclear hydroelectric power plants constituting disassembly in the marine shipbuilding factory, and the main body (1) of the nuclear power plant for nuclear waste disposal, The diving operation ready controllable control and distribution input device for the hull safety equipment constituting the connection axis of the nuclear waste disposal pipe manufacturing process 705 of the nuclear plant waste facility processing unit of the nuclear power generation facility unit 811,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

(672) of a marine power plant, and a buoyancy type diesel power plant (846) connected to an anchor replacement crank (846) consisting of the inside of the distribution input device main body (1) of the nuclear waste disposal reactor facility A floating structure consisting of a distribution system as a connection structure on the sea floor, a lifting deck with a marine seat of a nuclear power plant installed on the deck, a deck top deck, a hull safety distribution system, In addition,

Hull safety device and connection structure Connection to construction machine equipment Replacement towers for each structure The iso crane boom stand of the tower crane (942) is distributed to the boom-to-shack structure and the hook hook (18) (842), reclaimed submarine mineral resources (842), parat (844), and seismic crane boom band (942) constituting the connecting structure. Provide submarine mineral resource location shift to SDU location,

A power transmission system comprising power transformers for transmitting power of a nuclear hydroelectric power plant unit (811) supplied with power produced by a marine power plant located at the upper part of a lifting deck (SDU) constituting a submarine mineral resource locating movement (811d), and the operation of the lifting type dock nuclear power plant (672) of the marine power plant and the inside of the distribution input apparatus main body (1) of the nuclear waste disposal reactor facility is provided at the isocrane boom stand And a distribution dispenser for operating the submarine mineral collection and construction machine of the nuclear hydroelectric power plant part (811), which is provided with a movement control device to collect seabed mineral resources,

Construction Machinery Equipments Countertop Replacement Tower Cranes for Isai Crane Boom Stand (942) In both connecting structures constituting the connecting structure,

(SLD) of the sea surface (SLL), which is provided with a yard basket 842 and a parat 844 connection structure for collecting seabed mineral resources constituting the connection structure of the iso crane boom band 942, (SDU) in the lower end (SDL) to the upper end of the floating deck (SDU) of the upper part of the sea surface (SLU). The isocrane boom stands (942) And a Si isocrane boom band (942) constituting a mineral resource salvage,

The isocrane boom stands (942) are connected to the seagoing crane boom stand (942) when the submerged mineral resource manganese block (909) constituting the connecting structure is transported and connected to the upper part of the floating deck (SDU) (672) of the nuclear power plant and the inside of the main body (1) of the distribution system of the reactor facility for nuclear waste disposal, the inhalation collection machine of the mineral resource collection equipment and the mineral picking robot are distributed In addition,

The iso crane boom girder 942 is provided with a connection structure for collecting seabed mineral resources, and is provided with a positional shift control to the upper portion of the lifting deck hull deck (S D U)

The iso crane boom band (942) is connected to the upper part of the floating deck (SDU) constituting the connecting structure, and a transformer for transmitting the power of the nuclear hydroelectric power plant part (811) The operation of the buoyancy type dock nuclear power plant 672 of a marine power plant and the inside of the main body 1 of the nuclear reactor waste disposal apparatus is shown in Fig. And a mineral collecting robot of a mineral resource collecting apparatus configured to collect undersea mineral resources with a boom band (942)

(1) of the floating nuclear power plant of a marine power plant constituting the connection structure of the Si-iso crane boom band (942), which is connected to the inside of the reactor main body (1) 942) The distribution dispensing apparatus,

The seesaw crane boom band (942) distributing and inputting apparatus constituting the submarine mineral collection construction machine,

Submarine mineral resource collection location Inside location Submarine line composed of connecting structure Upper part of sea surface (SLU) with wiring (946) Floating docking hull Deck upper part (SDU) Location Marine power generation facility Alternate towers Replacement towers Boom Stand (942) Connection Structure Mooring System and Connection Structure The lifting system is equipped with a power generation equipment and is supplied with power,

Lifting type deck deck Top construction of buoyant type connecting structure with hull safety distributing input Hull safety device and construction equipment for operation Moving towers for different towers Replacement of tower cranes Connecting to the boom area (942) A crusher, a crusher, a crusher, and a crusher,

(811) supplied with power generated by a marine power plant of a floating type having a positional shift control which is located at the upper part of the lifting deck hull deck (SDU), and is provided with transformers for transmitting the power of the nuclear hydroelectric power plant The power transmission unit 811d is provided as a connection structure and the operation of the lifting type dock nuclear power plant 672 of the marine power generation plant and the inside of the distribution input apparatus main body 1 of the nuclear waste treatment reactor facility is provided with the isocrane boom band 942 ) Position shifting regulator to provide a seismic crane boom band (942) distribution input device configured to collect seabed mineral resources,

(909) for establishing a position on the seafloor including a suction collecting machine, a connection structure mining robot and a submarine mineral resource harvesting equipment connecting structure as a reactor facility connection structure of a nuclear power plant constituting a distribution input device of the construction machine, Lifting diaphragm consisting of connecting structures Position shifting to upper deck (SDU) position Moving to control structure connection structure Construction machinery equipments Alternate towers Replacement tower Cranes Isa crane Boom stand (942) Electrical magnet The magnet 645 and the connection structure Pipe line transport device 916 of the aspiration sampling machine is provided to transport the manganese block 909 as a connection structure,

The allybeat 632 connection structure, which constitutes the distribution input device of the construction machine,

Alignment (632) In the upper part of the strut tank top barge hull (591) constituting the connecting structure, a yacht basket (842) for collecting seabed mineral resources and a basin (844) for collecting seabed mineral resources, and a distribution input device for operating the construction machine,

The distribution dispensing apparatus constituting the construction machine includes:

Construction machinery equipment that adjusts position movement to the upper deck (SDU) position of the buoyant type poison hull constituting the construction machinery. Marine power generation facility It is equipped with the connection structure to the iso crane boom stand (942) The conveyor 633 is provided at the upper end of the lifting deck SSU with the conveyor 633 in the seabed mineral resource collecting place located in the lower end SDL of the lifting deck,

A submarine mineral resource search equipment searching submarine mineral collecting process constituting the construction machine, and a submarine line wiring line 946 providing the submarine search underwater illumination lamp 843 as a connection structure. (672) of a marine power plant, and an intake sampling machine, a mineral picking robot and a submarine mineral resource collection device, which are composed of the inside of the main body (1) of the nuclear reactor waste disposal unit, And a power transmission unit 811d provided as transformers for transmitting the power of the nuclear hydroelectric power plant unit 811 supplied with the power generated by the marine power plant of the floating type poison, A crane boom stand (942) for controlling movement of the earth crane boom (942) constituting the power plant (672) and the main body (1) of the nuclear reactor waste disposal reactor apparatus, And a distributing and dispensing apparatus of a construction machine,

The distribution input apparatus constituting the submarine mineral collection construction machine comprises:

(672) of a marine power plant constituting a submarine mineral collecting construction machine and the inside of the main body (1) of a nuclear reactor waste disposal reactor facility, and an unmanned camera 184 are connected to the undersea mineral resource search equipment search light 232 and the deep sea exploration underwater light 843 that detect the seabed mineral collecting process state as a connection structure to the underside camera 184, Container box of the container box that transferred the collecting process status scene to the safety control room is connected to the elevator (SGU) by the unmanned camera (184). The submarine line wiring 946 is provided to the hull safety equipment control room position,

(672) that constitutes the submarine mineral collection construction machinery and the connection structure which is composed of the inside of the dispensing device main body (1) of the nuclear reactor waste disposal unit, the suction collecting machine and the connection structure minerals collecting robot and the submarine mineral resource collecting device And a distributing and inputting device for operating a construction machine constituting a connecting shaft of the connecting structure,

(593,594,595) Hull deck upper part (SDU) Hull safety facility of small size, medium size and large size marine nuclear hydroelectric power plant with sea bottom upper part (SLU) with submarine line wiring (946) A submarine mineral collection process state scene transmitted from the unmanned camera 184 to the monitor 52 of the internal control server 51 and the control board 53 of the Internet network 50 is received at the same time as the connection structure located inside the control room Offshore power plant Seaside Crane Boom Stand (942) for tower crane Replacement structure Mooring system and mineral resource collection equipment Distribution input operation equipment Construction machine Distribution of submarine mining equipment with connection structure Construction equipment Distribution equipment And the connection structure of the mineral resource collection equipment is provided as a connection structure,

(672) and the inside of the distribution and dispensing apparatus main body (1) of the nuclear waste disposal reactor facility are provided with connection structures provided to withstand the water pressure of the deep sea bed constituting the submarine mineral collecting construction machine and the flow rate of the deep sea bed, (593,594,595) of a small and medium-sized and large-scale marine nuclear hydroelectric power station; and a mooring device and a diving buoyancy control device for the nuclear power plant (672) (811) of the Nuclear Hydroelectric Power Plant (811), and a nuclear waste disposal pipe manufacturing process (705) connection axis of the reactor facility.

(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the submarine mineral collection and construction machinery, and the main body (1) of the nuclear reactor waste disposal unit, The diving operation ready controllable control and distribution input device for the hull safety equipment constituting the connecting shaft of the double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituting the inside of the nuclear waste processing pipe manufacturing process 705 of the reactor facility,

The distribution and input device constituting the construction machine of the nuclear hydroelectric power plant part (811)

It is a connection structure consisting of a buoyancy type nuclear power plant (672) of a marine power plant and the inside of a distribution input apparatus main body (1) of a nuclear waste disposal nuclear reactor facility. It is equipped with a mining resource collecting equipment distribution input moving apparatus construction machine connection structure, The distribution structure is provided with a wiring 946 and the connection structure of the mineral resource collecting equipment at the seabed is provided with a connecting structure provided to withstand the water pressure of the deep sea floor and the flow rate of the deep sea floor. The connection structure of the stutter butterfly valve 305 and the damping control device connection structure doctor ventilation 585 is provided as the doctor ventilation inlet port 585a and the doctor ventilation outlet port 585b to directly connect the piping type 581 ) And a base piping type (582) connection structure, and the distribution input device of the nuclear hydropower generation facility (811)

The micro-switch 580 constituting the pressure air supply generated in the air compressor 80 of the prime mover constituting the construction machine of the nuclear hydropower generation facility unit 811, A setting on the time counter 541 is provided with an overpressure prevention scale indication and pressure air is supplied to the air cylinder 138 provided as a connection structure to the paddle damper 583 automatically, The damper spindle 584 connection structure provides pressure air while the phantom damper 583 in the doctor ventilation 585 provides full closure and deployment performance,

The distribution dispensing apparatus constituting the fryer damper (583)

It is provided with devices for controlling the interruption and supply of air constituting the fan damper 583 and has the same connection structure as that of the pipeline auto pneumatic conveying device 916, The same connection structure as that of the butterfly valve 305 is provided,

A connection structure for providing a distributor / dispenser of a butterfly valve (305) of a diving control device of a pipeline line included in a faucet damper (583) constituting a diving control device, A diaphragm pump 583 for controlling the submergence of the fuel cell 672 and the submergence control device composed of the main body 1 of the nuclear reactor waste disposal apparatus main body 1, ,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

And is generated in the air compressor (80) of the prime mover which constitutes the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus and the floating nuclear fuel plant (672) of the marine nuclear power plant constituting the nuclear hydroelectric power plant unit (811) The solenoid valve over-pressure protection switch (108) of each solenoid valve (76) and the solenoid valve main switch button (66) on the main switch button The butterfly valve 305 provides the deployment and the butterfly valve 305 is depressed when the user presses the off switch main switch button 66 of the main switch button 66 by hand, The connection structure is fully closed to provide a shutdown,

When the butterfly valve 305 is manually depressed on the on-time main switch button 66 of the main switch button 66 for the start switch button constituting the connecting structure, the butterfly valve 305 connection structure is expanded Pressure air generated in the air compressor (80) is provided to perform the operation through the pipeline line structure,

A butterfly valve 305 is provided as a connection structure for providing a connection structure to a plurality of fire doors 154 constituting a connection structure and a plurality of hatch cover 153 bodies to be connected to a floating type nuclear power plant 672 of a marine power plant A nuclear power plant constituting a nuclear power plant for nuclear waste disposal apparatus main body 1, a solenoid valve constituting the inside of the main body 1, a nuclear power plant constituting an operating function of the overpressure prevention switch 108 and the butterfly valve 305 connection structure And a distribution dispensing apparatus of the hydroelectric power plant unit 811,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

The hydraulic control rotary cylinder 35 is rotated by the connecting structure constituted by the lifting type docking nuclear power plant 672 of the marine power plant constituting the butterfly valve 305 connection structure and the inside of the reactor facility main body 1 of the nuclear power plant Provide an operational performance,

A plurality of fire doors (154) and a plurality of hatch cover (153) connecting structures constituting the connection structure of the butterfly valve (305) are opened so that mineral resources provided at the seabed mineral collection site are collected inside the holding tank lower barge hull A connection is made between the connection structure of the vacuum pump 635 for the transport lifting device and the connection structure of the power cable 71,

The butterfly valve 305 is provided as the dispensing and inputting devices of the nuclear hydroelectric power plant 811 constituting the connection structure and the on-time main switch button 66 of the main switch button 66 for the start- The mineral resources provided at the seabed mineral collection site located outside the body of the holding tank lower barge hull 592 are provided to the upper portion of the holding tank upper barge hull 591, (35) Hydraulic rotating cylinder (35) for electronically controlling the inside of reactor main body (1) of buoyancy type dock nuclear power plant of marine power plant, (811), and the control unit

A connecting structure composed of a floating type nuclear power plant 672 of a marine power plant constituting a connection structure of the butterfly valve 305 and a distribution input apparatus main body 1 of a nuclear waste processing reactor installation, In the distribution dispensing apparatus for operation,

Butterfly Valve (305) Submersible Positioning of the Hull Constructing the Connecting Structure The connecting structure of the connecting structure of the connecting structure is to replace the submarine mineral resource connection structure with the connecting structure selected by the diving buoyancy control weight (206) Diversion position control Mobile device and connection structure Submarine mineral resources for diving buoyancy control The buoyant nuclear power plant's nuclear reactor facility provides a seam as a connection structure from the sea floor, Upper part of the sea surface (SLU) Upper part of the deck top (SDU) Upper part of the deck (marine power plant) to provide position as a connection structure Replacement towers of different towers Cranes of sea cranes Boom stand (942) Connection structure Mooring device and connection structure It is a connection structure to be provided at the submarine mineral collection site by equipped power generation facilities, And a distributing and inputting apparatus connection structure for operating a construction machine constituted by the nuclear power plant 672 and the interior of the main body 1 of the nuclear power plant for nuclear waste treatment, ,

The mineral resources constituting the submarine mineral collection and construction machine distribution dispensing apparatus are,

(592) Submarine mineral structure harvesting and construction equipment Ship's tie bottom barge hull (592) constituting distribution dispenser Submersible structure of ship's hull structure between submerged spaces Substituting submerged buoyancy regulator (949) for submersible buoyancy control into seabed mineral resources And a submarine mineral resource for controlling the diving buoyancy, and is provided with a plurality of fire doors and a plurality of hatch covers (153) provided on the outer bulkheads of the respective portions of the holding tank lower barge hull (592) A connection structure having a connection structure to a pipeline automatic pneumatic conveying device 916 and a connection structure with a ballast butterfly valve 305 of a diving control device of the pipeline constituting a connection shaft, Solenoid valve of structure solenoid valve (76) Overpressure prevention switch (108) and main switch button for solenoid valve start switch button 66) The connection structure is connected to the power line (71), and the iso crane boom band of the tower crane for replacing the dead band constructed inside the reactor main body (1) of the buoyancy type dock of the marine power plant 942) connecting structure,

Mineral resource collection distribution input device It is provided as a connection structure provided with a seabed which is composed of a construction machine connection structure,

Mineral resource collection distribution input device Construction machinery Upper part of the sea surface (SLU) composed of connection structure Upper part of the deck (SDU) Upper part of deck (marine power generation facility) to establish position as top connection structure Countertop replacement crane Boom (942) connection structure A connection structure is provided with a mooring device and a connection structure, and is provided with connection structures provided at a seabed mineral collecting place by a power generation facility device, so that a nuclear power plant 672 and a distribution input apparatus main body 1 (593,594,595) of a small, medium and large sized maritime nuclear hydroelectric plant consisting of land and ocean in the interior of the nuclear power plant (672), a docking buoyancy regulator and a nuclear waste disposal dispenser and reactor FUEL NUCLEAR WATER TREATMENT PIPE MANUFACTURING PROCESS (705) FROM FUZZY NUCLEAR HYDRAULIC POWER PLANT EQUIPMENT (811) TO NUCLEAR WATER TREATMENT PIPE PREPARATION SYSTEM As a connection structure that can be disassembled and coupled at marine shipbuilding factories.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of land and ocean composed of the above construction machinery connection structure and the main body (1) of the nuclear reactor waste disposal unit The diving operation ready controllable control dispensing input device for the hull safety equipment constituting the connecting shaft of the double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituting the nuclear waste processing pipe manufacturing process 705 of the reactor facility,

The distribution and charging apparatus constituting the nuclear power generating facility unit 811,

(672) of the offshore power plant composed of the construction machinery connection structure and the inside of the main body (1) of the nuclear reactor waste disposal reactor equipment, and the submarine mineral resource collection equipment (590) Upper barge hull (591) Length 500 meters located at the upper side position Double structure block tank A manganese block with a number of hundreds of tons of manganese reserves (909) A plurality of yacht baskets (183) constituting collecting and a connection structure of the nuclear power plant (811) and the connection and disconnection structure of the nuclear power plant part (811) (849) Countertop Replacement Tower Cistern Cistern Cistern Boom Cistern (942) Disconnect both sides of the connection structure and install the iso crane boom stand (9 (842) and a pallet (844) connecting structure for collecting seabed mineral resources located on the hook hooks (18) of the tower crane (42) and arranged on both sides of the seesaw crane boom stand (942) of the tower crane (842) and a pallet (844) connection structure for collecting seabed mineral resources,

(SLD) of sea level (SLL) composed of construction machinery connecting structure Upper part of SLD (upper part of the sea surface) (SLU) Upper part of floating deck (SDU (909) is transferred to the upper part of the lifting deck (SDU), and is controlled by the iso crane boom girder (942) of the tower crane. (672) of the marine power plant and the inside of the main body (1) of the nuclear power plant for nuclear waste disposal, the inhabitants of the submarine mineral resource collection site in the site of the nuclear power plant, And a distribution input device of the nuclear power plant 811 constituting the robot distribution input,

Upper sea level (SLU) of the sea bottom constituting the submarine line wiring (946) Maritime power generation facilities located at the upper part of the deck (SDU) of floating deck hulls Replacement towers of different towers Cranes of sea cranes Boom stand (942) (592,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants equipped with power plant equipment and supplied with electric power, and a nuclear power plant (672) (1) The tower crane at the lower part of the sea surface is divided into seabed mineral resources and seabed mineral collecting equipments by distributing both sides of the iso crane boom stand (942) (811), which is constituted by a connecting structure for providing a distribution and dispensing apparatus for the nuclear power plant And a distribution input device of the nuclear hydroelectric power plant part (811)

(593, 594, 595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting a distribution input device of the nuclear hydroelectric power plant part (811) The distribution input device of the nuclear hydroelectric power generation facility 811 of the mineral resource and the lifting device, which is the connection structure constituting the inside of the apparatus main body 1 and is equipped with lifting poison submarine mineral resource collecting equipment,

The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,

The connection structure of the buoyancy type diesel nuclear power plant 672 of the marine power plant constituting the distribution input apparatus of the nuclear hydroelectric power plant unit 811 and the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant facility A tower tank top barge hull (591) constituting a collection of hundreds of millions of tons of manganese block (909) produced by the hydraulic hydraulic cylinder (39) operated annually is installed at the top of deck deck. Inside the hydraulic cylinder machine 624 in which the hydraulic cylinder machine 624 constitutes a rapid operation,

A piston seal 822 and a piston seal 823 constituting the internal equipment of the hydraulic cylinder machine 624 and a bush seal 824 and a seal ring 825 and a slide ring 826, The bush 827, the O-ring 828, the load seal 829, the backup seal 830, the load seal & backup seal 831, the multistage seal 832, the pin multistage seal 833, And a hydraulic cylinder machine 624 as components of the piston 834 and the bushing ring 835 and the piston ring 836 and the multistring 837 are connected to the distribution input device of the nuclear hydroelectric power plant 811 And a hydraulic pressure control valve (not shown) which is provided as a hydraulic pump connection structure high pressure hose 190, a high pressure pipe and a solenoid valve 76, Cylinder machine 624,

The hydraulic cylinder machine 624 is operated in such a manner that the hydraulic cylinder machine 624 is operated in the same manner as the hydraulic cylinder machine 624 except that the iso-crane boom stand 942 of the tower crane replacing tower crane positioned at the upper end of the deck plate of the holding tank upper barge hull 591 constituting the hydraulic cylinder machine 624 (217), the distribution of inputs to the submarine mineral resource collection equipment,

Submarine mineral resources recovered to the upper part of the deck top (S D U), which is composed of submarine mineral resource collecting equipment,

(SDU) of marine power generation facilities with a submarine line connection line 946 to the upper part of the sea surface (SLU), which is connected to the distributing and loading device of the nuclear hydroelectric power plant 811 composed of submarine mineral resource collecting equipment (942) Mooring system of connecting structure and nuclear power plant (672) and distribution facility of nuclear reactor waste disposal unit (1) Connection structure composed of inside of main body (1) A distribution and input device of the nuclear hydropower generation facility unit 811 constituting the distribution system is provided,

(593, 594, 595) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting the distribution input device of the nuclear power hydroelectric power plant (811) And nuclear waste disposal processing equipment and nuclear reactor facility facility safety operation Fusi Nuclear Hydroelectric Power Plant division (811) before nuclear reactor waste processing pipe manufacturing process (705) connection axis;

As a connection structure capable of disassembling and coupling in a marine vessel manufacturing factory.

Preferably, a floating nuclear power plant (593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting the above-mentioned hull safety equipments and a nuclear power plant 1) Double structure of Nuclear Hydroelectric Power Plant (811) built inside Nuclear waste treatment pipe manufacturing process (705) of nuclear reactor facility with a dust collector Preparing for diving for hull safety equipments constituting connecting shaft Preparing for operation control The dispensing device comprises:

The floating type nuclear power plant 672 of a marine power plant constituting the distribution input device of the nuclear hydropower generation facility unit 811 and the furnace distribution input apparatus for operating the mineral resource heat treatment,

The connecting structure composed of the buoyancy type diesel nuclear power plant (672) of the marine power plant constituting the furnace distributing apparatus for operating the mineral resource and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste disposal includes submarine line wiring 946 (SLU) Floating marine power facility located at the upper part of the deck of the poison hull deck. Replacement towers of different towers Crane boats (942) of the tower crane equipped with connection structure Mooring device and connection structure Power generation equipment (946) Submarine crane boom stand (942) Replacement tower crane with submarine track wiring (946) with submarine mineral resources as a connection structure Internal boom hook hook of tower crane composed of body connection structure (842) and a pallet (844) for collecting seabed mineral resources are provided in the main body (18)

In the undersea mineral resource collecting yard basket 842 and the pallet 844 provided as the connection structures on both sides of the sea cranes boom stand 942 of the tower crane constituting the distribution input device of the tow truck replacement tower crane,

(SLD) of the sea surface (SLL) that make up the seabed mineral resources for the collection of the seabed mineral resource (SLD) from the bottom of the deck bottom (SDL) SDU) position of the atomic hydroelectric power plant unit 811,

The distribution input device of the nuclear hydroelectric power plant unit 811, which provides the position shift control to the upper part (S D U) of the buoyant venomous deck upper part (S D U) constituting the submarine mineral resource manganese block (909)

(SDU) of the upper part of the sea surface (SLU) with the submarine line wiring 946 constituting the connection structure constituting the distribution input device of the nuclear hydroelectric power plant 811. The sea power generation facility Crane Boom Stand (942) Connection structure Mooring system and lifting of marine power plant Nuclear power plant (672) and distribution system of nuclear reactor waste disposal unit (1) And a furnace distributor for operating a mineral resource for heat treatment,

(593,594,595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting the furnace distributing and inputting apparatus for the mineral resource heat treatment operation, and a main body 1) Inside the connection structure, the furnace (948) distributor for operating the mineral resource heat treatment,

(678) of a marine power plant constituting a furnace (948) distribution apparatus and the distribution input device main body (1) of a nuclear waste disposal nuclear reactor facility. Inside the collection site of a submarine mineral resource, (SDU) of the lifting septic tank deck upper part (SDU) with the position movement transportation to the position shift control device by distributing the suction collecting machine and the mineral picking robot of the furnace 948 to the furnace brick 948a to produce a steel plate 597 and a guide rail 618 of a high tensile strength steel by melting a molten manganese ingot 909 into a furnace 948 furnished with a blast furnace for producing molten metal (948) furnace, and to provide production and supply to industrial sites in each region,

A connection structure for providing a nuclear power plant 672 constituting a blast furnace 948 distribution dispensing apparatus and a guide rail 618 for a block tank hull transportation apparatus constituted inside the distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste treatment, Is a double structure block tank (929) connected to a nuclear waste treatment double structure block tank bridge (929) having a connecting shaft of a double structure block tank bridge bridge (937) with production and supply of steel plate (597) and guide rail 598) of the inner block tank (596), and a guide rail (618) provided in the inner structure of the inner block tank (596)

Nuclear waste treatment dual structure block tank At the upper end of the guide rail 618 constituting the marine tunnel traffic apparatus,

A double structure block tank, a train 771 located at an inner position of the inner block tank 596 with an internal train 771 for a marine tunnel device having a speed of 100 to 200 km per hour constituting a marine tunnel traffic device, (597) of the stainless steel and guide rail (618), and is constructed inside the main body (1) of the nuclear reactor main body (1) of the reactor facility for nuclear waste disposal Mooring device and diving buoyancy control device and nuclear waste disposal and disposal device installed in marine power plant buoyancy type nuclear power plant (672) Reactor facility safety operation of FUHI Nuclear Hydroelectric Power Plant (811) Nuclear waste disposal pipe manufacturing process (705) Consists of connection shafts and is composed as a connection structure that can be disassembled and coupled at marine shipbuilding factories.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power station constructed in the above-mentioned double structure block tank marine tunnel traffic apparatus, and distribution dispensing apparatus main body The double structure block tank dust collector of the nuclear hydroelectric power generation facility 811 constituting the inside of the reactor 1 constitutes the connection axis of the nuclear waste processing pipe manufacturing process 705 of the reactor facility,

Diving preparation preparation for hull safety equipment constituting the construction machine dispensing equipment for submarine energy and mineral collection equipment.

A connection structure composed of a floating type nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility unit 811 and a distribution input apparatus main body 1 of a nuclear waste processing nuclear plant, (SLU) with line wiring (946) Upper deck (SDU) for marine power generation Offshore power plant Sea towers for each alternate tower Cranes Boom booms and boom girders of crane boom stand (942) And is provided as a connection structure on one side of the iso crane boom band 942 constituting the yard basket 842 and the pallet 844 for collecting the seabed mineral resources,

(SLD) of the sea level surface (SLD) composed of the yard basket 842 for collecting the seabed mineral resources constituting the sea iso crane boom zone 942 and the connection structure of the Pareto 844, (SDU) of the nuclear hydroelectric power plant 811 constituting the position shifting control operation to the position of the upper part of the lifting deck (SDU) of the upper part of the sea level surface (SLU) Device,

Submarine Mineral Resources A marine power plant consisting of an isocrane boom band (942) connected structure at the position of the manganese unit (909) to the upper part of the floating deck (SDU) constituting the manganese unit (909) It is equipped as a connection structure of Siiso crane boom band (942) in the submarine mineral resource collecting place composed of buoyant type poison nuclear power plant (672) and nuclear waste disposal unit main body (1) (845) and anti-tank erection (877) for the deep-sea digging equipment of the construction machine squirrel drill to prepare solidified manganese block (909)

The crushed manganese block 909 is provided as tower cranes 886 which constitute the input to the blast furnace,

A diesel pile hammer 883 and a steam hammer 884, a hydraulic crane 885 and a tower crane 886 of a plurality of construction machines 880 constituting a manganese block 909 into a furnace, To provide positional movement control,

(911), a mining robot (912), a construction machine excavator and a connection structure, which are composed of tower cranes (886) It is a connection structure composed of buoyancy type dock nuclear power plant (672) and inside of distribution dispenser main body (1) of reactor facility for nuclear waste disposal, and it is equipped with subcontracting equipment of submersible energy and mining equipment, The collection is made up of a plurality of construction machines 880,

(593,594,595) nuclear power plant (672) of the marine power plant, and a crane boom stand (74) connection structure constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment, A construction machine dispensing device for equipment operation,

A connecting structure composed of a lifting type docking nuclear power plant 672 of a marine power plant and the inside of a distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal includes a crane boom And a boom girder (652) having a plurality of heavy oil tanks on both sides of the body and connected to the 500m high pressure hose (190) connected to the bottom of the heavy oil tank (795) A plurality of drill rod pipe racks (854) as a connection structure for a rotary table lathe machine (908) of a drilling machine for crude oil drilling while providing a double structure high pressure hose (190) connected by a plurality of hoses (190) Drill (917) Submarine energy and mining equipment for construction of a certain quantity of piping files with crude oil borehole (936) and natural gas borehole (936) excavated with connection structure. And including,

The loom and the cement constituting the dispensing equipment of the construction machine are supplied to the piping line passage through the pipe line of the drilling rod pipe rack (854) to fill the piping file crevice space with the loess and cement. ) High pressure hose with coupling (29) High pressure hose Double structure of connecting shafts with multiple connecting structures Tanks with joints on both sides of high pressure hose (190) Crude oil and natural gas The gas is supplied to the tower crane boom boom boom of the city iso crane boom band (942) and boom hook ring (652) inside the boom girder hook hook (18) 844 is connected to a construction machine distributing and inputting device for operating the mining equipment of both the undersea mineral resource collecting yard basket 842 and the pallet 844 of the iso crane boom band 942 constituting the connection structure artillery However,

(SLD) of the sea surface (SLL) from the position of the submarine mineral resource collection site inside the SDL to the upside of the SLU to the upper SDU of the floating deck. (672) and the distribution of reactor facilities for nuclear waste disposal, with the provision of control to move to the upper deck area (SDU) of the lifting dock, which constitutes the transportation of manganese monoliths (909) Crude oil and natural gas and undersea energy harvesting equipment that lifts up to the floating deck top deck position in a vertical rotation operation comprised of the interior of the apparatus body (1) is located at a location with the connecting structure submarine line wiring (946) Sea level top (SLU) Floating docking deck Upper deck (SDU) Offshore power plant located at the upper position Countertop replacement tower Cistern of isocenter Boom stand (942) Cranes Boom boom and boom hooks (652) connecting structures, and connecting structures for providing a power generating facility device, and the nuclear waste water treatment pipe manufacturing process (705) of the reactor plant in the nuclear hydroelectric power generating plant (811) As a connection structure capable of disassembling and coupling at a marine shipbuilding factory.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plant of land and ocean and nuclear power hydroelectric power plant The diving operation ready controllable control and dispensing apparatus for the hull safety equipment for the hull safety processing equipment 705 constituting the connecting shaft of the nuclear waste disposal pipe manufacturing process 705 of the reactor facility with the double structure block tank dust collector of the unit 811,

The nuclear power plant 672 of the marine power plant constituting the distribution input device of the nuclear hydropower generation facility 811 and the nuclear power plant 672 constituting the inside of the distribution input apparatus main body 1 of the nuclear waste treatment nuclear plant In reactor installations,

A plurality of nuclear radiation leakage control dual structural block tank dust collectors 794 constituting a reactor facility of a nuclear power plant, a plurality of internal block tanks 596,

A plurality of external block tanks 599, a first auxiliary type steel 600 for a block tank and a second auxiliary steel plate 601 for a block tank are arranged outside a plurality of inner block tanks 596 constituting a reactor facility of the nuclear power plant A vertical partition 605, a horizontal partition 609 and a steel beam 149 to form a first auxiliary steel 600 for the block tank, a second auxiliary steel plate 601 for the block tank, A cutting process is performed by a computer laser cutter 954 for each of the horizontal partition wall 609, the steel beam 149, the snap hole 602 and the partition wall manhole 610,

The welder of the welding process constituting the reactor facility of the nuclear power plant is provided with the double structure block tank dust collector (794)

A fifth protection wall distribution input device formed on the outer wall surface of the fourth protection wall storage container 808 constituting a reactor facility of a nuclear power plant, a nuclear fuel explosion control distribution dispensing device, and a reactor facility nuclear radiation leakage control dual structure block tank dust collector 794 (672) of a marine power plant, and nuclear waste disposal nuclear reactor facility (1) Nuclear reactor facility nuclear reactor Nuclear waste disposal screening system Double structure block tank dust collector 794) for diving operation preparatory operation control control distribution dispensing device for hull safety equipment,

A floating manhole 610 constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing reactor facility and the lifting type mannitol nuclear power plant 672 of the marine power plant constituting the distribution input device of the nuclear hydroelectric power generation facility unit 811, The vertical partition wall 605 and the horizontal partition wall 609 and the communication unit hydraulic cylinder door 624 and the emergency stairs 631 are welded to the floating type nuclear power plant 672 and the nuclear waste disposal reactor In the double structure block tank dust collector 794 constructed inside the distribution dispensing apparatus main body 1 of the facility,

Dual Structure Block Tank Dust Collector (794) Transmission Equipment for Preventing Explosion of Nuclear Reactor Built in the Facility Inside the Dual Structure Block Tank Dust Collector (794) with Hydraulic Cylinder Door (624) and Emergency Step (631) And a distributor / dispenser of the nuclear hydroelectric power plant 811 configured to operate the nuclear reactor as a nuclear waste disposal screening device equipped with transportation devices at the time of renovation of the outside,

A cylindrical double structure block tank 598 composed of a plurality of stopper plates 625 constituting a distribution dispenser of the nuclear hydroelectric power plant part 811 has a plurality of inner block tanks 596, Tanks 599 are provided at the upper and lower ends of the double structure block tanks individually with double structure block tank dust collectors 794 connecting the welding process dual structure block tank dust collector 794 and the large flange, The dust collector 794 is provided in the form of an egg,

A plurality of reactor nuclear waste (224) consisting of a buoyancy type nuclear power plant (672) of a marine power plant and the inside of a distribution input apparatus main body (1) of a nuclear waste disposal nuclear reactor facility, and a nuclear fuel explosion control distribution input apparatus The reactor facilities are divided into a reactor facility by a barge hull (591) at the top of the holding tank and a barge hull (592) at the bottom of the holding tank,

(672) of a marine power plant, and a plurality of nuclear reactor nuclear waste (224) processing apparatus and nuclear fuel explosion control apparatus constituting the main body (1) of a nuclear reactor waste disposal apparatus main body (1) And the distribution of the nuclear hydraulic power plant unit 811 constituting the nuclear power plant 672 and the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste treatment to operate the nuclear power plant, Comprising a dosing device,

And a double structure block tank dust collector 794 constituting a distribution dispenser of the nuclear hydroelectric power plant 811. In the vicinity of the lower portion between the plurality of inner block tanks and the plurality of outer block tank vacancies before and after the reactor large explosion accident, And a double structure block tank dust collector 794 constituting a distribution input device of the nuclear hydroelectric power plant part 811 is provided at the bottom of the nuclear reactor facility,

The lower surface of the road surface (G L D) is provided with the reinforcing concrete mat (225) and the steel beams (149)

The barge hull 591 at the upper end of the holding tank is replaced with a reactor building 688 outside the inner block tank 596 having a single fuel explosion-proof double structure block tank dust collector 794,

A plurality of nuclear reactors of a nuclear power plant on land A nuclear reactor (672) consisting of nuclear reactors of the nuclear waste disposal system is installed in the reactor main body (1) The nuclear fuel pellet 683 is injected into the wall to provide a nuclear fuel explosion control distributing and dispensing unit double structure block tank dust collector 794 to be installed in the floating nuclear fuel plant 672 of the marine power plant and the distribution input apparatus A plurality of nuclear reactor nuclear waste disposal and dispensing apparatuses including the interior of the main body 1 and a nuclear fuel explosion control distribution dispensing apparatus dual structure block tank dust collector 794,

And a distribution input device of a nuclear hydropower generation facility unit (811) configured to operate the nuclear reactor with a nuclear radiation leakage control dual structure block tank dust collector (794)

Inside the reactor facility constituted by the lifting type diesel nuclear power plant 672 of the marine power plant constituting the distribution input device of the nuclear hydropower generation facility part 811 and the inside of the distribution input device main body 1 of the nuclear waste treatment facility, A reactor plant in which an enormous amount of radiation is generated is equipped with a nuclear fuel explosion control dispensing device,

A first wall pellet constituting a distribution input device of the nuclear reactor installation, a covering tube providing protection of the second wall fuel rod, a third wall reactor pressure vessel, a fourth wall separator vessel and a fifth wall reactor building (688) A double structure block tank dust collector 794 constructed by replacing a reinforced concrete mat 225 with a five-layered protective wall is provided as a distribution dispensing apparatus and a nuclear fuel explosion control dispensing apparatus,

A plurality of nuclear reactor facilities constituting the nuclear power plant 672 constituting the distribution apparatus of the nuclear reactor facility and the inside of the main body 1 of the nuclear reactor waste disposal apparatus main body 1 are connected to the barge hull 591 at the upper end of the holding tank (688) double-structured block tank reactors to provide nuclear reactor waste disposal and dispensing equipment,

The barge hull 592 at the lower end of the holding tank constituting the distribution dispensing apparatus of the nuclear reactor facility,

Nuclear Fuel Explosion Control Distribution Equipment such as a Nuclear Power Plant Reactor Facility that Constructs a Barge Hull (592) at the bottom of a Holding Tank Dual Structure Block Nuclear Power Generation in a Tank Dust Collector (794) And a distribution injector of the nuclear hydropower generation facility unit (811) configured to operate the nuclear power plant with the control double structure block tank dust collector (794)

A steam generator 810 and a steam dryer 786 installed outside the body of the pressure vessel 813 constituting the dispensing apparatus of the nuclear hydroelectric power plant 811,

A plurality of through holes 808 are formed at an angle of 45 degrees at an upper end portion of the nuclear reactor building 688 corresponding to the fifth wall and a rupture container 808 corresponding to the fourth wall constituting the distributing and dispensing apparatus of the nuclear hydropower generating facility 811, The holes are provided by cutting machines and construction machines,

The reactor installation includes a plurality of safety valves 472 and a block piping line 74 having a double pipe structure is formed in a plurality of through holes constituting the distributing and dispensing apparatus of the nuclear hydropower generation facility unit 811, A bolt 24, a nut 25 and gaskets 32 are provided on the outer wall 74 of the reactor building 688 to provide a flange coupling connection,

The dual structure block tank dust collector 794 constituting the distribution and charging device of the nuclear hydroelectric power plant 811 has a double structure block tank 598 having a size twice the diameter of the reactor building 688, The combination of the outer block tank (599) for treatment storage and the block piping line (74) of the radiation type double pipe structure is provided with a nuclear waste disposal dispensing apparatus and a nuclear fuel explosion control dispensing apparatus, And a distribution input device of a nuclear hydropower generation facility unit (811) configured to operate the nuclear reactor with a nuclear radiation leakage control dual structure block tank dust collector (794)

In the double structure block tank reactor building 688 constituting the distribution input device of the nuclear hydroelectric power plant part 811,

A double structure block tank A plurality of inner block tanks 596 and a plurality of outer block tanks 599 constituting the nuclear reactor building 688 are separately installed in the nuclear fuel explosion control distribution dispensing apparatus such as loess (158) cement mixing equipment mixer machine (649), it is provided in the same pressure vessel (813) as the blast furnace immediately before the large-scale explosion of the reactor facility,

And a loess mixture 927 in the form of a dentifrice formed by mixing cooling water 287 and loess 158 with a mixer machine 649 constituting an internal cleaning process of the reactor installation, (10) Double-structured fire-fighting nozzle Nozzles (10) are installed at the same time into the reactor facility, and the inside of the reactor facility is cleaned before and after the earthquake. The inside of the reactor facility, which is constructed inside the vessel (813) inside the body of the vessel and inside the vessel (808), and provided with no human and robot input, is installed. and,

A nuclear fuel explosion control distribution dispensing apparatus having a nuclear reactor constituting a nuclear reactor explosion preventive double structure block tank dust collector 794 and a plurality of nuclear fuel explosion control dispensing apparatuses including nuclear fuel explosion prevention control apparatuses, Double structure of reactor facility Block tank Nuclear radiation leak control Dual structure block Nuclear waste disposal dispenser for internal and external refurbishment of nuclear reactor facilities with dust collector (794) Prevention of explosion of reactor facilities before and after safety operation And a distribution input device of the nuclear hydropower generation facility unit (811) configured to operate the nuclear power plant by providing input of control goods,

The internal cleaning of the reactor installation constituting the distribution and injection apparatus of the nuclear hydropower generation facility unit 811 is performed by the circulation water pump 242 connected to the cooling water 287 and the piping line 352 to the distribution and injection apparatus of the fuel explosion control apparatus ) And cooling water 287, which prevented solidification of the loess mixture, was provided with a suitable mixture of loess mixture with loess and cement mixer mixer machine 649,

The yellow loess mixture mixed with the nuclear fuel explosion control article cooling water 287 constituted by the mixing equipment mixer machine 649 is supplied to the inside of the pressure vessel 813 through the plurality of double structure firefighting nozzle 10 and the internal block tank 596 The pressure sensing sensor safety valve 472 is opened and at the same time the hatch cover located at the upper end of the pressure vessel 813 and the upper end of the reservoir 808 is expanded,

The nuclear fuel explosion control appliances of the nuclear reactor facility are injected into the inside of the nuclear reactor facility so that the fuel explosion control is provided so that the outer block piping 74b of the block piping line 74 is prevented from exploiting the fuel explosion stored in the inner block tank 596 Control materials Cool water and yellow loess mixtures which generate soap bubbles in the form of toothpaste are fed to the inside of the pressure vessel 813 and the fourth protective wall vessel 808 by the feed pump 241,

In the nuclear reactor facility constituting the distribution input device of the nuclear hydroelectric power generation facility unit 811,

It is necessary to prepare internal control of the nuclear reactor immediately before and after the earthquake,

A nuclear waste disposal and dispensing apparatus having a nuclear reactor explosion-proof nuclear radiation leakage control dual structural block tank dust collector 794 that maximizes safety operation of a nuclear reactor facility that has been provided with continuous power generation excluding natural disaster constraints by inputting a disaster prevention device And a plurality of nuclear reactor explosion control dispensing apparatuses including a nuclear reactor (672) and a nuclear reactor main body (1) of a nuclear reactor waste disposal apparatus main body (1) The system includes a distribution input device of a nuclear hydropower plant (811) which is configured to operate a nuclear reactor at a nuclear reactor facility,

A nuclear power plant 672 equipped with nuclear waste disposal apparatuses and a mooring device and a diving buoyancy control device formed in a buoyancy type nuclear power plant 672 of a marine power plant constructed inside the main body 1 of a nuclear power plant for nuclear waste disposal, Equipment and Nuclear Waste Dispensing Equipment and Nuclear Reactor Facilities Safety Operation Before and After Nuclear Hydroelectric Power Plant (811) Reactor Nuclear Waste Tube Manufacturing Process (705) Connection Axis;

As a connection structure capable of disassembling and coupling in a marine vessel manufacturing factory.

Preferably, a floating nuclear power plant (593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting the above-mentioned hull safety equipments and a nuclear power plant 1) Nuclear waste water treatment pipe manufacturing process (705) with dual structure block tank dust collector of Nuclear Hydroelectric Power Plant (811) built in Internal Preparation of diving for hull safety equipment constituting connecting shaft Operation Control Control Distribution The charging device comprises:

The nuclear radiation leak control system (1) comprises a floating type nuclear power plant (672) of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility (811) and a distribution input apparatus main body (1) A nuclear waste disposal and dispensing apparatus having a dual structure block tank collector 794 and a nuclear fuel explosion control dispensing and dispensing apparatus having a plurality of nuclear reactor facilities to be installed on a barge of an anti-

The installation position of the distribution power input unit of the nuclear hydroelectric power plant 811 located at the top of the sea level 40 m above sea level excluding the weather condition of the earthquake and tsunami constituting the step to be installed on the barge, Nuclear reactor facility safety operation before and after nuclear reactor safety facility Nuclear reactor leakage control by nuclear reactor of nuclear power plant Nuclear power plant leak prevention control system (794) And a distribution input device of the nuclear hydroelectric power plant part (811)

The upper part of the nuclear water hydropower generation facility part (811) is provided with a distribution input device of the nuclear hydropower generation facility part (811) at the top of the sea surface excluding the restriction on the weather condition constituting the distribution device, (593,594,595) Nuclear power plant (672) Anchor (639), anchor chain (640), small keybed (616) and rotary table lathe machine for crude oil drilling machine 908) and buoyancy regulator piping line Automatic pneumatic valve transport device (916) and vacuum pump (635), high pressure multi-stage multi-stage emergency pump for emergency pump (8) Block tank Dust collector (794) Closures for access to the air space of the nuclear reactor facility and the tank inlet for blocking the foreign matter The tie-bar network (28) and the jet pump (157)

And a control unit for controlling the operation of the nuclear waste disposal storage tank and the doctor ventilation 585 of the nuclear waste disposal control apparatus, Doctor Ventilation Suction (585a), Doctor Ventilation Exit (585b) and Block Tank Hydraulic Cylinder Door (624) for Hull Traffic Control Unit and Hydraulic Cylinder Machine (624) A solenoid valve (76) formed in the solenoid valve (76), a diving position adjusting and moving device for the hull, and an inclination adjusting device for the diving buoyancy adjusting weight (949) And a distribution input device of the nuclear hydropower generation facility unit (811)

Large-scale marine nuclear power plant floating structure (595) With the weight of the hull constituting the structure of the operating structure, sea level gravity and buoyancy generated, buoyancy-type poison (595) The marine nuclear power plant lifting tank 595 includes a strut tank upper barge hull 591 constituting a plurality of bollards 638 for hull rescue of the ship mooring facility rope of a barge slowly floating on the sea, The lower barge hull 592 is formed as an upper portion of the deck plate,

The anchor 639 formed in the anchor chain 640 for connecting the plurality of balls 638 and the mooring device anchor 639 is pierced to the seabed by a winch 137 ,

Large-scale offshore nuclear power plant (595) consisting of tacho-winch (137) machine The vessel is equipped with an anchor-ring anchoring device to provide anchorage to the ship's buoy (595) An earth surface excavation of the seabed is provided by a rotary table lathe machine 908 of a drilling machine for crude oil, which is formed in a floating tank 595,

(595) barge hull mooring anchor constructed by a rotary table lathe machine (908) of the drilling machine, and a mooring device replacing the mooring device anchor The operation of the feed dog 185 is performed by folding the main body of the feed dog 185 with the feed dog 185 and the hydraulic cylinder hydraulic pressure key 623 formed on the hydraulic cylinder hydraulic key 623 of the hydraulic cylinder,

(595) barge hull anchoring that is composed of the hydraulic cylinder hydraulic pressure generating key (623), and the hydraulic cylinder hydraulic pressure key (623) is used to move the main body of the feed dog (185) As a result,

(185) A large-scale marine nuclear power plant lifting tongue (595) consisting of a umbrella body extending from the main body. Anchor bolting mooring devices are installed to form the barge anchoring,

(595) Dual structural block tank barge hull Anchor bolt anchoring system to the nuclear power plant (672) and the main body of the distribution system of nuclear reactor waste treatment facility 1) a nuclear power plant operation unit including an internal nuclear power plant unit 811 configured to operate the nuclear power plant before and after the operation of the nuclear power plant,

A lifting type poisonous fuselage (hereinafter referred to as &quot; fusing type poisonous fuselage &quot;) 6 consisting of a floating type poisonous nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility part 811 and a distribution input device body 1 of a nuclear waste processing facility An air recycling tank 145 for an air storage tank for providing diving control,

A cooling mechanism cooling fan 645 constituting an air liquefying apparatus of this system and an air balloon 78 and a rubber balloon 914 and a tube 188 are floated in the air A heater fan 642 for providing a heater,

In order to prevent the war from occurring,

The parties involved in the international diplomatic dispute should be provided with the satellite launch pad (643), satellites and airships for the expulsion of all expatriates outside the global atmosphere,

A mooring tower 644 for controlling and controlling nuclear bombs and missiles composed of a buoyant type poison nuclear power plant 672 and a distribution input apparatus main body 1 of a reactor facility for nuclear waste treatment,

An air compressor 80 constituting the satellite launching platform 643 and the space rocket launching platform 646 is provided,

And the tackle winch 137 operated by the supplied compressed air constituted by the air compressor 80 is connected to the lifting type docking nuclear power plant 672 of the marine power generation plant and the distribution input device main body 1 ) The Nuclear Hydroelectric Power Plant (811), which consists of a dual structure block tank dispensing device of the Nuclear Hydroelectric Power Plant (811) before the operation of the nuclear power plant inside the nuclear power plant, 811, &lt; / RTI &gt;

A crane 861 installed at the upper end portion of the lifting deck of the poisonous boat deck (S D U) constituting the distribution input device of the nuclear hydroelectric power plant 811,

An air hose 109 connected to the front of the trolley winch 137 in front of and behind the air receiver tank at the rear of the air compressor 80, And an electrical magnet magnet 645 is provided at the lower end SDL of the lifting deck,

The pipeline automatic pneumatic conveying device 916, which constitutes the transportation of the loess and cement to the piping and the high pressure hose,

A mixer mixer machine 73 for providing a position in front of the pipeline automatic pneumatic conveying device 916 is provided and a lever block 123 coupled by a double structure block tank 598 is connected to a tonnage capacity (598) units to provide a combination of nuclear reactor hydroelectric power plants,

The auxiliary steel plate 165, which is coupled with the holding tank and the holding tank combining part by bolt-nuts, is provided with the male and female parts, while the bolt 640 of the atomic hydroelectric power plant part 811 constitutes the distributing- A joining processing hole is provided,

In the double structure block tank facility constituting the distribution dispensing apparatus of the nuclear hydroelectric power plant unit 811,

(1) inside of the distribution input device main body (1) of the floating type nuclear power plant (672) of the marine power plant and the nuclear plant waste disposal nuclear reactor facility, Nuclear Waste Treatment Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Including the dispensing device of the part 811,

The rubber packing 32 of the gasket packing is connected to the intermediate portion of the gap between the large flange 614 and the large flange 614 in the gap between the large flange 614 and the large flange 614 constituting the distribution and charging device of the nuclear hydroelectric power plant 811,

In the double structure block tank facility constituting the distribution dispensing apparatus of the nuclear hydroelectric power plant unit 811,

The double structure block tank 598 is connected to the double structure block tank flange 614 and the other coupling flange 614 by a high-strength bolt and nut in the large flange processing hole 615 constituting the double structure block tank facility. Respectively,

A dual structure block tank connection is constructed in which the dual structure block tank flange 614 is arranged inside the dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment, and the high pressure multi-stage pump 8 and the doctor ventilation The operation of the valve disk inside the bellows butterfly valve 622 in which the float 195 is operated and the float 610 and the hatchback 153 are opened and the float is floated on the seabed, The butterfly valve 622 is opened,

The double-structure vertical lifting tank, which consists of lifting-type poison hulls floating in the sea, is formed as a nuclear waste disposal storage tank in the reactor hull at the bottom of the vertical tanks, and is equipped with a key bed (616) (606), which are connected to the long hole (616) of the long hole at the vertical and horizontal hinge joints of each tank unit, are connected to the buoyancy type diesel power plant (672) Nuclear waste disposal facility of main nuclear power plant consisting of main unit (1) of nuclear reactor installation Continuous reactor facility of nuclear reactor facility safety operation Before and after operation of nuclear power plant division (811) (622) of the nuclear power plant, and the nuclear power plant which constitutes the operation of the nuclear power plant before and after the operation of the nuclear power plant (811), and the control unit

A deck top upper part equipment guide rail 618 for constituting a distribution dispenser of the nuclear hydroelectric power plant 811,

And a helicopter stop 619 located at the top end of the lifting deck deck deck,

A hydraulic cylinder operation key 623 for installing a semi-submerged operation line in which a double structure block tank frame assembly for folding the umbrella, which constitutes a coupling facility of a dual structure block tank,

Tank frame with double pipe structure Double structure block making up joint separation Tank connection area Double structure block for marine safety work on board for offshore cutting and welding Docking tanks (598) 621, the hydraulic cylinder is provided on the semi-submerged operation line 637,

The submarine barge line which constitutes the coupling facility of the double structure block tank constituting the distribution input device of the nuclear hydroelectric power plant 811, the submarine submerged sea surface flotation control device for the submersible barge line control float valve 622 )Wow,

Above-mentioned poisonous ship engine Other motor of double-structured block tanks constituting the preparatory motion before and after the operation of the motor. Combination of the motor body (192) of the power motor and the operation of the nuclear power plant before and after operation And a distribution input device of the nuclear hydropower generation facility unit (811)

A hood 193, a snap ring 194, a fan 195, a body frame 196, a body front reinforcing steel plate 197, a rotating shaft 198, and a hinge 193 constituting internal components of the motor body 192 of the power motor. The motor frame 202 and the terminal box 203, the lifting bolts 204 and the terminal box cover 205 and the front rotation shaft support 200, the stator assembly 201, the motor protection casting frame 202, The assembly 200 having the shaft support 206, the rear reinforcing steel plate 207, the gap 208, the protective cover 209, the rotor iron core 210, the stator core 211 and the stator winding wires 212, And the power is supplied to the motor body (192) of the power motor, and the rotation is provided to the rotating body, and the time required for the prevention of the sinking and the time required for the crew of the sinking extension time is provided. Equipment doctor ventilation 585,

An electronic control device for providing a mineral resource intake / suction control device and a connection structure that constitute the hydrostatic pressure inside the lifting type poisonous hull,

The switch on-off switch is open and includes a hydraulic cylinder door 624 that provides switchover off-

A hydraulic cylinder, a hull of a hull constituting the door (624), a barring tank, an intake port for blocking foreign materials, and a stopper plate (625) formed of a wire netting (28) (672) of the nuclear power plant of the nuclear power plant and the main body (1) of the nuclear power plant of the nuclear waste disposal facility. And a distribution input device of the nuclear hydroelectric power plant part (811) constituting the operation of the nuclear power plant,

The hull sinking prevention air piping line 181 constituting the dispensing and inputting device of the nuclear power hydroelectric power plant 811 and the emergency engine 226 for extending the hull sinking prevention are provided,

In the case of a float-type dock safety marine assembly consisting of a double structure block tank, an air-float type flagpole 628 for identifying the position of a double-pipe structure tank is provided,

In the lifting-type docking facility consisting of a double structure block tank unit,

A rope linkage rope 629 and a rope connecting knot pawl 630 constituting a lifting type poisoning facility and an elevator alley for constructing an emergency stairway 631 facility inside the block steel tower 116 (636) and a conveyor (633) for conveying minerals and mechanical equipment to the outside of the inside of the double structure block tank holding tank upper barge hull (591) and the holding tank lower barge hull (592) (635) and air lifting lines (634) of the air suction and discharge apparatus provided with the hull lifting of the sinking ship,

The division of the nuclear power plant (811) is equipped with a tug line (666) for assembly of marine vessel manufacturing plant and heavy industrial field, The conveyor 633 is formed and the barge line elevation control position is provided with the airbag-type flagpole rubber balloon 628,

(672) of a marine power plant and nuclear waste disposal reactor main body (1) of nuclear power plant with safety equipments, nuclear waste disposal reactor of marine nuclear power plant And a distribution input device of the nuclear hydropower generation facility part (811), which is provided with the distribution and input devices of the facility nuclear hydroelectric power plant part (811)

The distribution input device of the nuclear hydroelectric power plant part 811, which prevents the explosion of the reactor facility of the nuclear power plant of the nuclear power plant excluding the influence of the earthquake and the tsunami constituting the distribution input device of the nuclear hydroelectric power plant part 811, Nuclear waste treatment to prevent environmental pollution caused by nuclear waste Nuclear power plant with double structural block tank to prevent explosion of reactor in nuclear fuel chamber constituting dispensing apparatus Nuclear power plant has nuclear reactor facility formed from 1st wall to 5th wall The nuclear waste treatment storage tank comprises a plurality of dual structure block tanks, the dual structure block tanks comprising an inner block tank and outer block tanks, and a dual structure block tank dust collector 794 for preventing nuclear explosion,

The safety assurance of the nuclear power plant constituting the safe and continuous operation of the nuclear power plant is provided by the distribution input device of the nuclear hydroelectric power plant 811,

The safety of the repair of the reactor equipment is provided by the distributing apparatuses,

And a nuclear explosion preventive double structure block tank dust collector 794 for treating the nuclear waste is installed in the nuclear hydroelectric power plant 811, which includes the nuclear power plant connection shaft, to operate the nuclear power plant before and after the operation of the nuclear power plant. A dispensing device,

A nuclear power plant 672 constituting a distribution input device of the nuclear hydropower generation facility 811 and a dual structure block 673 which prevents nuclear explosion of the nuclear fuel chamber constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear reactor facility Providing storage with the nuclear waste 224 in a reservoir between the dual structure block tanks 598 while passing through the nuclear waste 224 with the tank reactor facility exploded into the block piping line 74,

And a robot 700 that is provided with cutting by remote control when disassembling reactor facilities of a nuclear power plant having a long life to constitute nuclear waste disposal. When the explosion of the reactor pressure vessel 813 stops, a plurality of safety valves 472 are closed To ensure the safety of nuclear power plants,

At the time of operation of the nuclear reactor constituting nuclear waste treatment,

The remote control device robots 700 having a plurality of safety valves 472 fully closed to provide continuous operation of nuclear reactors for nuclear waste disposal facilities of the offshore nuclear power plant before and after the safe operation of the nuclear reactor facility, Provision of pollution prevention is provided by the distribution and input devices of the nuclear hydroelectric power plant 811,

Nuclear power plant (672) that prevents nuclear explosion inside and outside the nuclear fuel chamber that constitutes the nuclear waste disposal and dual structure block tank which consists of the inside of the distribution injector main body (1) of the nuclear waste disposal reactor Nuclear reactor facility And disposal facilities for nuclear waste disposal and nuclear reactors installed in the offshore nuclear power plant (672) of the offshore power plant. 811) as connection shafts of the nuclear waste disposal and dispensing equipment of the nuclear reactor facility and as a connection structure capable of disassembling and coupling at the marine ship manufacturing factory.

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants of the land and sea making up the nuclear waste treatment, and the inside of the main body (1) The nuclear waste disposal and dispensing apparatus of the reactor facility for the hull safety equipment constituting the connecting shaft of the nuclear waste disposal dispensing apparatus of the nuclear reactor facility is composed of a double structure block tank dust collector of the nuclear hydroelectric power plant 811,

The nuclear radiation leak control system (1) comprises a floating type nuclear power plant (672) of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility (811) and a distribution input apparatus main body (1) A nuclear waste disposal dispensing apparatus having a dual structure block tank sorter 794 and a nuclear fuel explosion control dispensing dispenser, comprising the steps of: providing a plurality of reactor installations to the barge of an anti-sunken dual structure block tank of the ocean; (811) located at the upper 40 m above sea level excluding the restrictions on the weather conditions of the sea, and to prevent the sinking of the barge line reactor facilities. Nuclear reactor safety control device Nuclear power plant Nuclear power generation Nuclear radiation leak control to prevent multiple reactor explosion Double structure block tank JINI (794) Includes the distribution and input device of the nuclear hydropower plant (811) that constitutes the operation of the nuclear waste disposal plant of the nuclear reactor facility as the distribution input devices to make the operation of the nuclear power plant before and after the operation of the nuclear power plant operation device continuous. and,

The nuclear waste disposal and dispensing apparatus equipment constituting the nuclear hydroelectric power plant unit (811)

(672) of a marine power plant constituting a nuclear waste disposal and dispensing apparatus facility of the nuclear hydroelectric power plant (811) and nuclear power plant (672) constituting the inside of the dispensing apparatus main body (1) of the nuclear waste disposal nuclear plant The washing water in the case where the water leaking from the valve of the power generation plant 672, the water in the building and the regenerated liquid of the ion exchange resin are liquid is collected in the storage tank 216 and the nuclear waste disposal filtration is provided by the filter 217 ,

The radioactivity measuring unit 218, which constitutes the nuclear waste disposal dispensing apparatus, measures the radioactivity value, and together with the cooling seawater which is confirmed to be free from harm, the water other than the washing water to be sent to the sea is purified by the filter 217 Respectively,

The filtered water and the distilled water constituting the nuclear waste disposal dispenser device are provided with reactor coolant and have monitoring monitoring posts 219 constituting the nuclear waste disposal dispenser device, (672) and the inside and outside of the main body (1) of the nuclear reactor waste disposal unit,

Nuclear Waste Treatment Dispenser The nuclear waste disposal and dispensing system consisting of the inside of the main body (1) of the nuclear reactor waste disposal unit that constitutes the facility of the disposal unit is provided, and the nuclear waste disposal unit is installed in the floating nuclear power plant (672) Mooring device and diving buoyancy control device for nuclear waste disposal Dispensing device of nuclear waste disposal facility and nuclear reactor facility safety operation Fusi Nuclear Hydroelectric Power Plant division (811) Double structure block tank Dust collector Nuclear waste disposal equipment As a connection structure capable of disassembling and coupling at marine shipbuilding factories.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the above-mentioned nuclear waste disposal dispenser installation apparatus, and the main body 1) Double-structured block of the nuclear waste disposal unit (811a) of the nuclear hydroelectric power plant (811) consisting of internal nuclear waste disposal reactor The nuclear waste disposal dispenser facility of the nuclear reactor facility for hull safety equipment, which constitutes treatment of the nuclear waste (224)

The buoyant type diesel nuclear power plant 672 of the marine power plant constituting the nuclear waste disposal dispensing apparatus of the nuclear hydroelectric power plant 811 and the inside of the distribution dispatch apparatus main body 1 of the nuclear waste disposal reactor apparatus Nuclear Waste Dispensing and Discharging Apparatus with Nuclear Radiation Leakage Control Dual Structure Block Tank Dust Collector (794) and Nuclear Fuel Explosion Control Distribution Dispensing Apparatus A plurality of nuclear reactor facilities are installed on the barge of an anti-sunken double structure block tank Including,

(811) located at the uppermost 40 m above sea level excluding the restrictions on the weather conditions of earthquake and tsunami, and the submerged-type barge line reactor facility with the installation position of the distribution input unit. Nuclear reactors to prevent explosion of nuclear reactors in nuclear power plants of Nuclear power plants Leakage control of nuclear reactors Nuclear reactor facilities to constitute reactors to operate nuclear reactors by dual structure block tank dust collector (794) Includes nuclear waste disposal dispenser and,

(593, 594, 595) nuclear power plants (672) of the marine small, medium and large sized marine nuclear hydroelectric power plants, and the nuclear power plant (1) of the nuclear power plant The nuclear waste treatment facility of the nuclear power generation nuclear waste treatment unit 811a,

The nuclear power plant 672 constituting the nuclear waste disposal apparatus of the nuclear power generation nuclear waste processing unit 811a and the inside of the distribution input apparatus main body 1 of the nuclear waste disposal nuclear plant processing apparatus are constituted by small, Long-half-life nuclear wastes (224) from the reprocessing process at the Nuclear Power Plant's (593,594,595) Nuclear Power Plant (672) of the Marine Nuclear Hydroelectric Power Plant are used for equipment construction machinery heavy equipment harbors The reactor 877 and the excavator 845 may be used to provide nuclear waste 224 in the interior of polar glaciers and the nuclear waste 224 processing facility to constitute nuclear waste treatment with construction machines,

The nuclear waste treatment facility, which constitutes the nuclear waste disposal dispenser device,

Fission in the nuclear hydroelectric power plant (811) to constitute conversion into another material;

Construction of nuclear waste (224) is carried out according to the depth of the stratum and the depth of the seabed. At the same time, nuclear waste disposal is carried out by the construction machine heavy equipment hunter (877) and excavator (845)

In the nuclear waste disposal device vessel constituting the nuclear waste disposal dispenser device,

(220), which contains nuclear waste, and nuclear waste (224) in the buried area, to transport nuclear waste to ships. (2) Nuclear hydroelectric power plants, which constitute nuclear power plants to operate nuclear reactors before and after nuclear power plants, And a distribution input device of the power generation facility unit 811,

The space rocket 612 and the space rocket launching rods 646 constituting the nuclear waste disposal apparatus transportation facility of the nuclear power nuclear waste processing unit 811a constituting the nuclear waste disposal dispensing apparatus are installed to the barge deck deck The nuclear waste 224 processing unit space rocket 612 and the space rocket launching unit 612 are constructed so that the dual tubular structure drum 220 containing the nuclear waste at the upper end position is mounted on the space rocket 612 and transferred to the space space. (593,594,595) Nuclear power plant (672) and nuclear reactor plant main body (1) Nuclear radioactive contamination composed of inside and outside of nuclear power plant (1) And to include nuclear waste (224) as a treatment unit space rocket (612) and space rocket launch unit (646) transportation facilities to achieve nuclear waste treatment.

(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the above-mentioned nuclear waste disposal dispenser installation apparatus, and the main body 1) Nuclear Hydroelectric Power Plant (811) with internal structure Nuclear waste nuclear waste treatment unit (811a) from dual structure Block tank Dust Collector Nuclear waste treatment facility of nuclear reactor facility A nuclear waste disposal dispenser remodeling facility of a nuclear reactor facility for a hull safety facility constituting treatment of a nuclear waste (224)

(672) of a marine power plant (672) that constitutes the nuclear waste disposal dispenser refurbishment facility of the reactor facility of the nuclear hydroelectric power plant (811) constituting the nuclear waste disposal dispenser installation facility and the nuclear waste disposal system Nuclear Waste Dispensing Apparatus and Nuclear Fuel Explosion Control Distribution Apparatus Having Nuclear Radiation Leakage Control Dual Structure Block Tank Dust Collector (794) Consisting of Dispensing Apparatus Main Unit (1) of the Reactor Facility A plurality of nuclear reactor facilities sink into the ocean And providing an installation on the barge of the anti-double structure block tank,

Nuclear waste disposal dispenser In the upper 40m of the sea level excluding the restrictions on the weather condition of the earthquake and tsunami constituting the facility, it is equipped with the installation position of the distribution power input unit of the nuclear hydroelectric power plant (811) Nuclear power plant safety operation device to form safety of nuclear reactor facilities before and after safety operation Nuclear power generation to prevent explosion of nuclear reactors of nuclear power plant Nuclear power generation leakage control of nuclear waste disposal unit (811a) Double structure block tank dust collector (794) Reactor And a nuclear waste disposal and dispensing equipment remodeling facility of the nuclear waste disposal facility so as to operate the nuclear power plant before and after the operation of the nuclear power plant moving apparatus,

(593,594,595) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the reactor facility remodeling facilities of the nuclear power generation nuclear waste treatment unit (811a) constituting the nuclear waste disposal dispensing apparatus, In the case of a failure in the nuclear power plant (811) constituting the nuclear power plant (672) constituting the distribution injector main body (1) of the nuclear reactor facility, the reactor piping line With the safety valve 472,

(811a) for providing a substitute for the operation of the boiler (783) of the thermal power generating plant constituting the nuclear waste disposal dispensing apparatus, the nuclear waste processing section (811a) of the nuclear power generation nuclear waste treatment section The company also provided thermal power generation facilities that provided emergency power generation operation by supplying steam to replace the electric power supply with thermal power generation facilities during the period of inspection for the repair of faults inside the reactor facilities. In the case of renovation of the reactor facilities, it is necessary to arrange for the guarantee of the repair of the reactor facilities with the prevention of radioactive contamination,

(1) of the nuclear waste disposal reactor equipment constituting the nuclear waste disposal dispenser installation facility, and (3) a thermal power generation facility consisting of the inside of the main body (1) (593,594,595) Mooring device and diving buoyancy control device for nuclear power plant (672) and nuclear waste disposal and distribution system of nuclear waste disposal Nuclear waste of nuclear facilities at nuclear power plant (811) It is composed of connecting shafts of processing thermal power generation facilities, and it is composed as connection structure that can be disassembled and combined at marine ship manufacturing factory.

(593,594,595) Nuclear power plant (672) of the offshore and offshore marine power plants constituting the above-mentioned nuclear waste disposal dispenser, and the nuclear power plant (672) In the nuclear power generation nuclear waste treatment unit 811a of the power generation facility unit 811, the nuclear waste waste treatment facility 811a is provided with a nuclear fuel cycle of the nuclear waste fuel industry in the connection axis of the nuclear waste treatment distribution apparatus of the dual structure block tank dust collector reactor facility, The nuclear waste disposal and dispensing device remodeling equipment for the nuclear safety equipment for the hull safety equipment,

The floating nuclear power plant 672 of the marine nuclear power plant constituting the distribution input device of the nuclear hydropower generation facility unit 811 constituting the nuclear waste disposal dispenser system and the main body of the distribution apparatus of the nuclear waste disposal system 1), and a nuclear radiation disposal control double structure block tank precipitator 794 constituting a connection structure to the nuclear waste nuclear waste disposal unit 811a with a connection axis of the nuclear hydroelectric power plant unit 811 constituting the nuclear waste disposal unit Dispensing injector and nuclear fuel explosion control dispensing dispenser Providing a plurality of reactor installations to the barge of an anti-sinking double structure block tank of the ocean,

Nuclear waste disposal system The disposal input device installation position of Nuclear Hydroelectric Power Plant (811) located at the upper 40m above the sea level excluding the restrictions on the weather condition of earthquake and tsunami constituting the facility of installation and disposal of the nuclear waste, Type float barriers Reactor facilities Safety pre-operation Nuclear reactors Facility safety devices Nuclear power plants Nuclear reactors Nuclear power plants Nuclear reactors Leakage control Dual structure block tank Dust collector (794) Reactor (811) which constitutes a nuclear power plant to operate the nuclear power plant before and after the operation of the nuclear power plant,

(593,594,595) nuclear hydroelectric power plant (672) constituting the nuclear waste disposal dispenser apparatus and the nuclear hydroelectric power plant (672) constituting the inside of the dispensing apparatus main body (1) of the nuclear waste disposal nuclear reactor facility The nuclear reactor nuclear waste processing unit 811a,

Around the launch pad of the satellite and the space rocket constituting the reactor facility of the nuclear power plant of the nuclear power nuclear waste treatment section (811a) constituting the nuclear waste disposal dispensing apparatus, It is equipped with loess soil and disaster prevention company, and arranges loading of natural loess soil and disaster prevention company on deck deck with construction machine,

In the vicinity of the launching platform constituted by the disaster prevention walls,

A 60 m circular ocher block An earth and space rocket fired at a launch pad and a space rocket launch pad at the top of the deck deck, with a wall of 3 m in height and 15 m in height, has an enormous amount of propulsion for satellite and space rockets Fuel is burned to block the generation of high temperature by disaster prevention walls,

High temperature and high pressure combustion heat generated by firing of satellite and space rocket consisting of disaster prevention walls at high temperature is provided with 60m circular ocher block disaster prevention wall, It is equipped with a hull safety device for replacing dead-end crane. Isocrane crane boom zone (942) is 60m in diameter and 15m high in height. Block tank hull is disassembled and coupled to double pipe structure tank bridge pier ) Of the nuclear power generation nuclear waste processing unit 811a,

A provisional hypothesis is provided on the circumference of the position that constitutes the satellite launch pad and the space rocket launch pad,

The manganese block (909) at the top of the deck plate was laid on the deck plate with a thickness of 2 m,

After the launch of the satellite and space rocket, the removal of the auxiliary saddle mold (617)

At the location of the 10 meter deep water area or the deep sea area,

We prepare length of puncture by depth,

A nuclear waste nuclear waste disposal unit (not shown) constituting a hydraulic cylinder operation, which is formed by a seesaw crane boom stand 942, a hydraulic rotary cylinder machine 619, and a hydraulic cylinder machine 624, 811a, &lt; / RTI &gt;

The hull, which constitutes a quarry at the front of the hull,

The coastal moorings, which constitute the tailworms both at the back and at the front and back,

(593,594,595) nuclear power plant facilities of marine small, medium and large sized marine nuclear hydroelectric power plants constituting vessel shelters of the marine corridor,

Nuclear power plant (672) with anchors and anchor chains constituting nuclear waste disposal dispenser installation facility, small and medium sized and large-sized offshore that consists of main body (1) of nuclear power plant for nuclear waste disposal (593,594,595) of marine nuclear hydroelectric power station (593,594,595) Mooring device and diving buoyancy control device of nuclear power plant (672) and distribution and input device of nuclear waste treatment Reactor facility safety operation of FUHI Nuclear Hydroelectric Power Plant The connection axis of the nuclear reactor facility of the nuclear power generation nuclear waste treatment unit 811a at the reactor 811;

As a connection structure capable of disassembling and coupling in a marine vessel manufacturing factory.

Preferably, the feed-in type poison (593, 594, 595) nuclear hydroelectric power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting the reactor facility of the nuclear power plant and the distribution input (811a) constituting the inside of the apparatus main body (1) constitutes a connection shaft of the nuclear waste disposal dispensing apparatus equipment of the reactor facility to be supplied to the dual structure block tank dust collector by the nuclear waste nuclear waste processing unit (811a) In the boiling water reactor reactor facility 802,

The nuclear radiation leak control system (1) comprises a floating type nuclear power plant (672) of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility (811) and a distribution input apparatus main body (1) A nuclear waste disposal and dispensing apparatus having a dual structure block tank dust collector 794 and a nuclear fuel explosion control dispensing and dispensing apparatus; providing a plurality of nuclear reactor facilities to the barge of an anti-sunken double structure block tank of the ocean;

Earthquake, and tsunami Disaster prevention equipment is installed at the top of the sea (409m above sea level) Restrictions on installation and disposition of the nuclear power plant (811) Nuclear reactor leakage control to prevent explosion of a plurality of nuclear reactors of a nuclear power plant of a nuclear power plant. A double structure block tank dust collector (794) is provided with a boiling water reactor reactor facility (802) (811) for constituting the operation of the nuclear power plant moving apparatus before and after the operation of the nuclear power plant to operate the nuclear power plant,

A double structure block tank which constitutes a distribution input device of the nuclear hydroelectric power plant 811, and a boiling water reactor reactor 802 constituting a connection shaft of a nuclear waste disposal dispenser of the reactor system, Steam to form a turbine spinning operation,

In the boiling water reactor 802 constituting the dual structure block tank dust collector reactor facility,

A control rod 798, a recirculation pump 239, and a pressure control pool 240 for trapping water in the lower portion of the pressure vessel 813 in the reactor pressure vessel 813 constituting the dust collector reactor installation A steam line 780 composed of a turbine 267 and a generator 772 is provided in the steam pipe 779 line to the outside of the reactor,

The residual steam 780, which constitutes generation power generation,

A cooling action is provided in the condenser 790 constituting the remaining steam 780,

The steam 780, which constitutes the cooling action,

The cooling water 287 is provided,

The water supply pump 241 moves the cooling water 287 to the circulating water pump 242 in the inside of the condenser 790 while moving it into the reactor inside the purifier 809 and recirculating it into the reactor constituting the hard water 654a ,

The cooling water 287 is discharged from the condenser 790 external waterproofing passage constituting the cooling water 287 to the circulating water pump 242 as a nuclear power plant power generation production facility,

The distribution and input device of the nuclear hydroelectric power plant unit 811 into the buoyancy type nuclear power plant facility of the marine power plant comprising the generation power generation facility,

A nuclear power plant unit (811) comprising a buoyancy type nuclear power plant (672) of a marine power plant constituted by a power generation production facility and a nuclear power generation facility unit (1) of a nuclear power plant for treatment of nuclear waste, And a distribution input device of the nuclear hydropower generation facility unit (811) configured to operate the nuclear power plant before and after the operation of the nuclear power plant of the power plant operation apparatus,

A nuclear waste disposal unit 811a, and a double piping line 74 constituting a connection structure. The nuclear waste location movement control unit and the nuclear waste location transfer passage are provided as a nuclear waste disposal and dispensing apparatus ,

Nuclear waste disposal Dispenser Nuclear radioactivity Contaminants are composed of a number of temperature and pressure sensors Sensors for safety valves Temperature sensors are in operation when the temperature inside the reactor reaches 700 to 800 degrees Celsius The temperature and pressure sensing sensors provide an alarm message transmission to the computer of the safety control room while opening a plurality of temperature and pressure sensing sensor safety valves, respectively, so that an explosion is generated in the inner block piping line 74a of each pressure vessel 813, And the nuclear waste is stored in each of the double structure block tanks, the temperature pressure sensor safety valve 472 connected to the inner block tank at the bottom of the pressure vessel 813 is opened,

As the outer block piping line 74b constituting the opening of the pressure detection sensor safety valve 472,

An explosion prevention control article of the fuel 683 stored in the inner block tank constituting the opening of the safety valve 472 is connected to the automatic injector flashing warning lamp 99 and the pressure gauge 101 and the temperature sensing sensor bimetal 102 The safety valve 472 of the pipeline automatic pneumatic valve transport device 916 and the flow rate check flow meter 105 and the level switch 104 for the flow rate check operation are connected to the thermostat thermometer sensor switch 103, A plurality of through holes in the double pipe structure block piping line 74 at an angle of 45 degrees at the upper end of the nuclear reactor building 688 with connection structures are formed by a laser cutter and a double structure block tank constituting through- Including dust collector reactor facilities,

In the plurality of through holes constituting the dust collector reactor facility,

A dual tubular block piping line 74 is formed,

A plurality of safety valves 472 are provided to provide a flange connection to the bolt 24 and the nut 25 in the block piping line 74 by gasket 32,

A double structure block tank 598 having a size twice as large as the diameter of the reactor constituting the outer wall surface of the reactor building 688 is provided with an outer block tank 599 for nuclear waste processing storage and a double structure block tank dust collector reactor facility (683) Explosion control Dispensing device for injecting nuclear reactors inside reactor core (681) and outside reactor core (681) Prevent explosion of nuclear fuel immediately before reactor explosion (683) explosion-proof control equipment for a plurality of nuclear reactor facility connection structure fuel elements (683) as nuclear power plants (1) for nuclear waste disposal for land and ocean, 672) and the nuclear reactor waste disposal facility. (683) Nuclear nuclear fuel (683) consisting of the inside of the main body (1) of boiling water reactor By providing a structure of the input equipment 802 double tank structure block dust collector 794 inside the reactor equipment and configured to fulfill a nuclear power plant operation,

Mooring device, diving buoyancy control device, nuclear waste disposal dispenser, and reactor facility safety operation of the off-shore nuclear power plant (672), which constitute the operation of the nuclear power plant, (811a) a double structure block tank dust collector (794), a boiling water reactor reactor (802) is installed in the reactor facility, and the connection shaft is configured to operate the nuclear power plant It is composed as a connection structure that can be disassembled and bonded at a marine vessel manufacturing factory,

(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant with nuclear reactor waste processing double structure block tank dust collecting reactor facility consisting of the above nuclear hydroelectric power plant (811) ) And the equipment of the disaster prevention apparatus constituted by the inside of the connecting shaft of the main body (1) of the nuclear reactor waste disposal reactor apparatus,

The floating nuclear power plant 672 of the marine power plant constituting the facility of the disaster prevention apparatus constituting the inside of the connection shaft and the nuclear radiation leakage control dual structural block tank 672 of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment, A nuclear waste disposal and dispensing apparatus having a dust collector 794, and a nuclear fuel explosion control dispensing and dispensing apparatus. The method includes the steps of: providing a plurality of nuclear reactor facilities on a barge of an anti-

(811) located at the uppermost 40 m of the sea level, which prevents the earthquake and tsunami that constitute the equipment of the disaster prevention device from being obstructed by disaster prevention equipment, is installed on the barge of the anti- Nuclear reactors leak prevention control to prevent explosion of nuclear reactors of nuclear power plants Nuclear power plant leak prevention control system for nuclear power plant Nuclear power plant leakage prevention control system Tank dust collector (794) A disaster prevention device composed of the inside of the reactor connection shaft includes a distribution shaft of the connection shaft nuclear hydroelectric power generation facility 811 configured to operate the nuclear power station before and after the operation of the nuclear power station operation apparatus ,

The disaster prevention line, which weakens the power of the typhoon constituting the facility of the disaster prevention apparatus constituting the inside of the connected shaft nuclear hydroelectric power plant part 811, includes a jet nozzle provided in the water of the seabed, a flagpole rubber balloon 628, A rope knot claw 630, a marine cable car 256, an unmanned camera 184, a high pressure multistage multi-stage disaster prevention pump 8 for a disaster prevention pump, a double structure nozzle hose and a double structure fire hose 9), dual structure firefighting nozzle 10, undersea mining air bag 130 and weather forecasting observation 958, satellite weather forecast information collection machine 960, saddle replacement use sail 959, And an emergency control device comprising an electronic control device of the control system 150, an air supply device, and a disaster prevention device for a connection structure of a city crane boom band 942 of a tow crane replacement tower crane,

In the disaster area where the earth and coastal cumulonimbus and storm surge of the world are equipped with the facilities of the disaster prevention device constituting the dissolution of the global warming phenomenon, facilities of the sound vibration frequency disaster prevention device are provided, , A radiation-type densely packed disaster prevention device and a radiation-type dispersing and dismounting device for submersing a non-spherical shape to the facilities of the disaster prevention device in accordance with the power of the wind equivalent to the falling sound of the submersible (959) and a tower crane replacement ship crane boom (942), which are used for the replacement of the sail (959) and the trunk replacement tower (942) of the crane's iso crane boom,

In addition to the radiation vibration frequency and the wavelength of sound vibration which are alternatively constituted by the radiation type dispersing / disaster prevention device,

Nuclear waste treatment plant manufacturing process (705) of disaster prevention equipment of nuclear power plant which constitutes disaster prevention equipment and pre-intercepts the occurrence of severe typhoon with wind along the sea surface constituting equipment of disaster prevention device It is equipped with disaster prevention devices, A lightning rod 500 positioned at the top of a deck plate upper end block pylon 116 of a floating solar power plant 672 of a marine power plant and a block pylon 116 disaster prevention device The location of the lightning rod 500 is provided on the control room roof of the mooring tower 644,

Weather observation equipment (840) Lightning arresters (500), which provide hull conservation from lightning and lightning, are installed in the control tower to provide a peaceful earth environment preservation.

Double structure block tank composing global environment preservation It is necessary to prepare for disaster prevention structure of disaster prevention line which weakened power of typhoon of disaster prevention device by having reactor facility of nuclear power plant having reactor dust collector,

(672) constituting the Earth Environment Preservation and the inside of the main body (1) of the nuclear reactor disposal unit for nuclear waste disposal, and a mooring device formed at the marine power station floating type nuclear power plant (672) And diving buoyancy control device and nuclear waste disposal processing device and nuclear reactor facility safety facility Before and after safety operation Nuclear power generation facilities section (811) Nuclear waste treatment of nuclear reactor facilities Disconnection facility of the disconnection device inside the connection axis As a connection structure capable of disassembling and coupling at a marine shipbuilding factory,

(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with reactor facilities for nuclear waste disposal double structure block tank dust collector constructed in the nuclear hydroelectric power plant part (811) ) And nuclear reactor waste disposal reactor equipment The installation of the disaster prevention apparatus, which is composed of the inside of the connecting shaft of the main body (1)

The nuclear water power generation facility unit 811 is provided with a disaster prevention apparatus for the distribution and input apparatus and is constructed inside the distribution input apparatus main body 1 of the nuclear waste disposal reactor apparatus and the floating nuclear power plant 672 of the marine power plant. A nuclear waste disposal dispensing apparatus having a nuclear radiation leakage control dual structure block tank dust collector 794, and a nuclear fuel explosion control dispensing dispenser. A plurality of nuclear reactor facilities are installed on a barge of an anti- Wow,

(811) located at the top of the sea surface (40m above the sea level), which does not limit the weather conditions of the earthquake and tsunami, which are also formed on the barge of the anti-sinking double structure block tank, Barge Reactor Facility Safety Operation Before and After Nuclear Reactor Facility Safety Facility Safety Operation Device Nuclear Power Plant Nuclear Power Generation Nuclear Radiation Leakage Control to Prevent Explosion of Nuclear Power Plant Double Structure Block Tank Dust Collector (794) And a disaster prevention device of a distribution and input device of a nuclear hydropower generation facility unit (811) configured to operate the nuclear power plants before and after the operation of the nuclear power plant operation apparatus,

The facilities of the floating nuclear power plant 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal constitute facilities of the floating nuclear power plant 672 constituting the above- In addition, the number of injections for jetting through a gap between the nozzles of the dual structure is provided as a disaster prevention device according to the type of the jet nozzle, and the prevention of the occurrence of harmful red tide is provided as a disaster prevention device,

The reciprocating piston type air compressor 80 which weakens the power of the wind constituting the facility of the disaster prevention device of the nuclear hydroelectric power plant 811 is formed and the air compressor 80 is operated by the electronic control unit 88 In addition,

Is provided together with the first pressure check sensor 86 and the second pressure check sensor 87 by the pressure reducing valve 85 and the safety valve 259 without the electronic control unit 88 constituting the facilities of the disaster prevention device,

A motor belt 252, a motor frame 250, a belt cover 261, an air suction filter 262, and an oil cooler 151 are formed to a predetermined size,

In the tank constituting the oil cooler 151,

And a cooling water inlet 287 and attached to the upper end of the channel base of the bed frame 286 to produce air together with the injection nozzle 10. The rubber tube 947 and the high pressure hose 190, (29) coupled to the high pressure hose, the disruption device of the nuclear hydroelectric power plant part (811) which weakens the power of the typhoon constituting the coupling,

Disaster prevention equipment is installed at the upper and lower sides of the sea surface controlled by the sulfur dust fine dust constituting the rising air current (925) and the descending air current (926) of the typhoon of the nuclear hydroelectric power facility part (811) Respectively,

Equipment that constitutes the disaster prevention device of the nuclear hydroelectric power plant 811 has a number of manhole covers 152, several hatch covers 153, and several fire doors 154) shall be located at the bow, left and right sides of the bow of the sailing vessel, the stern and the sailing vessel, and in any case,

The International Maritime Safety Association, which constitutes the prevention of hull submersion, is responsible for safely implementing the safety regulations, while discharging the number of discharges to reduce the power of the typhoon that constitutes the facilities of the disaster prevention system of the Nuclear Hydroelectric Power Plant (811) 38) is provided at the falling point of the jetting water jetting nozzle (38) to continuously form the jetting jetting number (38)

The number 38 of ejection nozzles (38), together with the number of ejection nozzles (38), which continuously fall and form a fall, such as the same artificial waterfall roughening the power of the typhoon, The strong typhoon also transforms into a warm wind,

The scene of the reduction of the power of the typhoon that constitutes the conversion of the strong typhoon and the warm air wind was prepared by the unmanned camera (184), and the scene was transmitted from the reed meteorological observation center, (593,594,595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants controlled by the Ministry of Energy and Natural Resources (925) and the downward currents (926) An unattended camera 184 and a weather observing device 840 are mounted in the basket 42 on which the lower end pile of the advertising balloon 77 is mounted in the main body 1 of the injecting apparatus ,

A rubber tube 947 for air supply for the inside of a container for an infiltration control device provided in a connection structure to a disaster prevention nozzle 945 and a submarine line wiring 946 on which a meteorological observation layer 840 is mounted, 948 to the inside of the nuclear radiation leak control double structure block tank dust collector 794 by the furnace brick 948a of the blast furnace 948 provided with the continuous safety operation of the nuclear power hydroelectric power plant part 811 and,

The furnace brick 948a of the blast furnace 948 constituting the facility of the disaster prevention apparatus is provided so as to supply power of the nuclear power generation power, and the diving position adjusting mobile device of the hull, A hydrothermal generator pump aberration 943a of a marine iso hydroelectric power plant 943 provided with a thermostat thermometer switch 950 for an automatic sensing sensor and a seesaw crane boom stand 942 of a tow crane replacement tower crane is provided as a connection structure, (943b) for a large hydroelectric power plant and a Francis turbine (943c) for a large hydro-electric power plant. The hydroelectric power plant of the large hydroelectric generator isotope plant (944) And a water hammer pump 952 of a non-powered pump to provide a production power supply,

The yard basket (951) and the military equipment submarine (953) for the hazardous borehole suction /

A computer laser cutting machine 954 constituting a facility of a disaster prevention device is provided to provide a nuclear hydroelectric power plant 672 constituted of a buoyancy type dock nuclear power plant 672 of a marine power generation plant and a distribution input device main body 1 of a nuclear waste treatment facility (811), which is a more powerful weapon than the nuclear bomb that makes up the facility maintenance management check of the disaster prevention equipment, includes equipment for disaster prevention equipment in the Photoshop (955)

The wind power generator windmill 957a of the offshore wind power plant 957 constituting the facility of the disaster prevention device of the nuclear power hydroelectric power plant 811, the underground line disaster prevention nozzle 945 and the submarine line wiring 946, (959) and a satellite weather forecast information collection machine (960) are provided as a facility of a disconnection device connecting shaft of a nuclear hydroelectric power plant part (811) constituting the inside of a nuclear reactor facility body (1) of a nuclear power plant (593,594,595) of marine nuclear power hydroelectric power plants of small size, medium and large scale, and the mooring device and diving buoyancy control device of nuclear power plant (672) (811) of the Fusi Nuclear Hydroelectric Power Plant (811) as a connection structure capable of disassembling and coupling at a marine shipbuilding factory,

(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with reactor facilities for nuclear waste disposal double structure block tank dust collector constructed in the nuclear hydroelectric power plant part (811) ) And the equipment of the disaster prevention device of the connection shaft constituted inside the main body (1) of the nuclear reactor waste disposal reactor apparatus,

The nuclear power plant 672 constituting the facility of the disaster prevention device of the connection shaft and the disaster prevention device 811 constituting the inside of the facility of the disaster prevention device of the connection shaft of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant And a nuclear radiation leakage control dual structure block tank dust collector 794 constituted of a lifting type diesel nuclear power plant 672 of a marine power plant constituting equipment of the apparatus and a distribution input apparatus main body 1 of a nuclear waste treatment facility A nuclear waste disposal dispensing device and a nuclear fuel explosion control dispensing dispenser, comprising the steps of: providing a plurality of reactor facilities to the barge of an anti-sunken double structure block tank of the ocean;

Earthquake and tsunami were excluded as disaster prevention devices by the disaster prevention device. The upper 40m of the sea level was installed at the nuclear power hydroelectric power plant (811) with the position setting of the distribution input device. Nuclear reactor safety control device to form safety Nuclear radiation leak control to prevent explosion of nuclear reactors of nuclear power plant of nuclear power plant Double structure block tank dust collector (794) Nuclear power plant operation And a disaster prevention device of a connection shaft of a nuclear hydroelectric power plant part (811) constituting a nuclear power plant before and after operation of the nuclear power plant,

(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the facilities of the above-mentioned disaster prevention apparatus and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment. The main line of the disaster prevention equipment that constitutes the reactor connection axis of the nuclear reactor facility is the nuclear maritime power line which connects the Russian bladibostock and Ullungdo with Dokdo and Pohang, 941)

The nuclear waste treatment dual structure block tank which constitutes the connection between Yeosu and Jeju Island is connected to the marine tunnel transportation device (941)

Nuclear waste treatment dual structure block tank which connects Pyeongtaek, Baekryeongdo and Shandong Peninsula. Nuclear waste disposal structure that connects to marine tunnel transportation device (941) and connects to Pohang and Japan lower area. Double structural block tank Marine tunnel access A connection is established to the device 941,

One illegal fishing line and all military vessels of other countries that pass through the territory of the 5th degree (NLL) territory of the West Sea, which constitute the conversion into the 1-day living zone, The fishing grounds are the same as seaweeds in the sea constituting the rope knot claws 630 formed in the netting of the flagpoles and the wire rope 19,

Since the fishing net constituting the rope knot claw 630 is prevented from being netted and the rope knot claws 630 can not pull the throwing nets by the hooking nets 630, Respectively,

A small-sized, medium-sized and large-sized ocean composed of a nuclear power plant 672 and an inside of the main body (1) of a nuclear reactor waste disposal reactor apparatus, with the input of disaster prevention apparatus in the sea constituting a rope knot claw 630 (593,594,595) Nuclear power plant (672) Mooring device, diving buoyancy control device, nuclear waste disposal dispenser and reactor facility safety facility Before and after safety operation Nuclear Hydroelectric Power Plant (811) (672) of land and marine marine power plants equipped with reactor facilities and a disposal device consisting of the inside of the main body (1) of the nuclear power plant for the treatment of nuclear waste. Connection axis of equipment;

As a connection structure capable of disassembling and coupling in a marine vessel manufacturing factory.

Preferably, the nuclear waste disposal unit of the nuclear hydroelectric power plant 811 constituting the reactor facility for treating nuclear waste is a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant having the double- (593,594,595) Nuclear power plant (672) and distribution facility of nuclear waste disposal reactor facility Discharging device consisting of inside of main body (1)

The nuclear radiation leakage control dual structure block tank dust collector (1) constituted by the floating type nuclear power plant (672) of the marine power plant constituting the facility of the distribution input apparatus disaster prevention apparatus and the inside of the distribution input apparatus main body (794), and a nuclear fuel explosion-control distribution dispensing apparatus, comprising the steps of: providing a plurality of nuclear reactor facilities to a barge of an anti-sunken double structure block tank in the ocean;

The sinking prevention double structure block tank is installed on the barge line with the installation position of the distribution input device of the nuclear hydroelectric power plant part (811) at the top 40m of the sea surface excluding the restriction of the weather condition of the earthquake and tsunami constituting the facilities of the disaster prevention device. Prevention barge line Reactor facility Safety operation before and after operation Reactor facility safety device to establish safety of reactor facility safety Nuclear power plant Nuclear power generation Nuclear power generation Prevention of explosion Nuclear radiation leak control Dual structure block tank Dust collector (794) (811) that constitutes a nuclear power plant operation before and after the operation of the nuclear power station of the power plant moving apparatus,

The connection shaft constituted by the nuclear power plant 672 constituting the facility of the disaster prevention apparatus and the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility,

The range from the ground up to 29 Km, which consists of the buoyancy type nuclear power plant (672) of the marine power plant constituting the facilities of the disaster prevention device and the inside of the main body (1) of the reactor installation for nuclear waste treatment, Respectively,

The surveillance function that prevents the production of military equipment by installing sensor sensor for military defense is installed in the floating sea above the sea surface constituting the equipment of the disaster prevention device and the sea west sea 5, A further enhanced military sensor sensor is provided,

The facilities of Pyongan-do and Hamk-gong, which constitute facilities of disaster prevention system,

When a missile is fired, it is formed as a defensive missile attached to the net at the top of the firing position. When the missile is fired by the other party, the missile is shot down by a collision between a nuclear missile fired by the missile launching party and a sensor for military defense. , Which includes a defense missile attached to a harmful rusty net that constitutes an immediate abandonment of a nuclear weapon build up that constitutes all military provocation abandonment activities by providing a facility to cause its own nuclear missile explosion in the other region,

In addition to the sea bombs above the sea surface above sea level and the sea above the sea in the East Sea and the 38 ° north sea above the sea of the East Sea constituting the equipment of the disaster prevention device, Including a peaceful preserved message photoshop 958 with a stronger weapon,

The system of the disaster prevention device is 29 km above the ground. It is equipped with a sensor for detecting military defense and a disaster prevention device installed on a large number of floating docks. 1) Floating dock (593,594,595) of marine small, medium and large sized marine nuclear hydroelectric power station constructed in the interior of the nuclear power plant (672), docking buoy regulator and nuclear waste disposal dispenser and reactor installation (811) of Nuclear Hydroelectric Power Plant (811) of Nuclear Hydroelectric Power Plant (811) of Nuclear Power Plant of Ministry of Land, Infrastructure and Transport (593,594,595) Nuclear power plant (672) of a large-scale marine nuclear hydroelectric power plant and the main body (1) of the nuclear reactor waste disposal apparatus for nuclear waste treatment, Emergency device comprises a connection structure capable decomposition combined in a marine vessel comprising a manufacturing plant to the connection axis of the composing parts and configurations,

(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with nuclear reactor waste processing double structure block tank dust collector facilities of the above nuclear hydroelectric power plant part (811) Equipment for nuclear reactor waste disposal facility The equipment for the nuclear waste disposal facility of the nuclear power generation facility, which is constructed inside the main body (1)

A buoyant type poisonous nuclear power plant 672 of a marine power plant constituting facilities of a disaster prevention apparatus inside the connection shaft of the nuclear hydroelectric power generation facility unit 811 and an inside of the distribution input apparatus main body 1 of the nuclear waste treatment nuclear plant A nuclear waste disposal dispensing apparatus having a nuclear radiation leakage control dual structure block tank dust collector 794, and a nuclear fuel explosion control dispensing dispenser. A plurality of nuclear reactor facilities are installed on a barge of an anti- Wow,

(811) located at the uppermost 40 m above sea level excluding the restrictions on the weather conditions of earthquake and tsunami constituting equipment of disaster prevention device, Nuclear reactors to prevent explosion of nuclear reactors in nuclear power plants Nuclear radiation leakage control Double structure block tank dust collector (794) Disaster prevention equipment to be installed inside reactor connection shaft And the facility of the nuclear power hydroelectric power plant 811 configured to operate the nuclear power plant with the facilities of the nuclear power plant 811,

(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the facilities of the above-mentioned disaster prevention apparatus and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment. A vertical structure of a typhoon is provided together with a straight discharge outlet 38 of a disaster prevention line that hides a typhoon into a facility of the disaster prevention apparatus of the nuclear hydroelectric power plant 811,

A dropping device is installed on the upper surface of the lower part of the sea surface (S L D) in the troposphere 10 km above the upper part of the sea surface above the upper part of the sea surface constituting the disaster prevention device of the nuclear hydroelectric power facility part 811,

The atmospheric circulation passage 958 for the dual structure disaster prevention apparatus at the equatorial point is provided at the upper end of the arctic pole with the disaster prevention water which has been annihilated and disinfected to constitute the disaster prevention apparatus of the nuclear hydroelectric power plant unit 811,

(958) Displacement piping line for disaster prevention equipment (958) The isocrane crane boom zone (942) of the tower crane for replacing the quadruple crane constituting the atmospheric circulation passage is provided so that the rain cloud is transported to the seabed 10 km below the sea level, The same artificial waterfall as the disaster prevention waterway,

As the natural disaster is made up of internal facilities that make up facilities for the disaster prevention system of the Nuclear Hydroelectric Power Plant (811), the typhoon is a latent heat of the thermal energy quantity of the atomic bombs that were estimated to be one million annually in Hiroshima in the Pacific and the Atlantic And a seesaw crane boom band 942 of a tow-crane replacement tower crane configured to sequentially fall on the sea level of the sea-

And a pipe level piping line 958 for a double structure disaster prevention device constituting facilities of the disaster prevention device,

The human race of the global village is prepared for the sadness and suffering from disaster disaster,

A double-structure high-pressure hose 190 having a 500-meter-high upper part of the sea surface with an electromagnetic control device connection structure provided on the connection shaft provided by the manufacture of the electromagnetic control device connection structure of the control system 150, (190) Coupled with a number of coupling knurls (29) The length of the combined pipe is less than 10 km and the pipe level piping line (958) is located at the deck plate side of several floating docks. The crane boom zone (942) provided a 10 km-long jet stream to change the course of the typhoon,

The seesaw crane boom stand 942 of the tower crane, which constitutes a course change of the typhoon on the jet stream,

It is possible to provide a switching to constitute the descending airflow 926 as the ascending airflow 925,

The tube level piping line 958, which is made of a nonferrous metal with a better thermal conduction efficiency than that of the iron, constitutes the reduction of the damage to the land marine hurricane, and the loess mixture constituting the discharge is supplied from the satellites In order to prevent the disaster, it is necessary to prepare the falling material from the upper part of the sea surface to the sea surface,

Preventive conditions consisting of the nuclear power plant 672 constituting the prevention of typhoon and harmful red tide breeding and the inside of the main body 1 of the nuclear reactor waste disposal apparatus main body 1 are referred to as nuclear radiation leakage control double structure block tank dust collector 794 ) Includes a facility of a connection shaft disaster prevention device of a nuclear hydroelectric power plant part (811) configured to operate a nuclear power plant by a facility of a disaster prevention device constituted inside a connection shaft of a reactor facility,

(672) for land and marine nuclear power plants, and disaster prevention equipment consisting of the inside of the main body (1) of nuclear power plant for nuclear waste disposal, and to prevent explosion of reactor facilities while maximizing the production power by operating the nuclear power plants efficiently. The disaster prevention device of the reactor connection shaft,

(1) of the nuclear power plant for the treatment of nuclear waste, and (2) the installation of the disaster prevention system of the nuclear fuel explosion prevention and distribution shaft. Mooring device and diving buoyancy control device of nuclear power plant (672) and distribution facility of nuclear waste treatment and reactor facility of nuclear reactor facility Safety operation FUJITSU nuclear power plant (811) Structure block Tank dust collector (794) It is composed of the connecting shaft of the disaster prevention device that constitutes the inside of the connecting shaft of the reactor facility, and it is composed as a connection structure that can be disassembled and coupled at the marine ship manufacturing factory.

(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with reactor facilities for nuclear waste disposal double structure block tank dust collector constructed in the nuclear hydroelectric power plant part (811) ) And nuclear reactor waste disposal reactor equipment The installation of the disaster prevention apparatus, which is composed of the inside of the connecting shaft of the main body (1)

The lifting type dock nuclear power plant 672 of the marine power plant constituting the facility of the disaster prevention apparatus constituting the inside of the connection shaft of the nuclear hydroelectric power generation facility unit 811 and the inside of the distribution input apparatus main body 1 of the nuclear waste disposal reactor facility Nuclear Waste Dispensing and Discharging Apparatus with a Nuclear Radiation Leakage Control Dual Structural Block Tank Dust Collector (794) Consisting of a Nuclear Fuel Explosion Control Distribution Apparatus A plurality of nuclear reactor facilities are installed on the barge of an anti- , &Lt; / RTI &

The installation position of the distribution input device of the nuclear hydroelectric power plant part (811) located at the upper 40 m of the sea surface excluding the restriction of the weather condition of the earthquake and tsunami constituting the barge of the anti-sinking double structure block tank is excluded Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Reactor Leakage Control Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Leakage Control Dual Structure Block Tank Dust Collector (794) (811) for constructing a reactor to operate a nuclear power plant, the facility including a facility of a distribution and input device connection shaft disaster prevention device of a nuclear hydropower generation facility (811)

(593,594, 595) nuclear power plant (672) of the marine small-sized and large-scale marine nuclear hydroelectric power plant, and the nuclear power plant (672) (593,594,595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting facilities of the disaster prevention device of the facility (811), and a main body 1) Dual-structure block tank for controlling leakage of nuclear radiation leaked from the inside The equipment for installing the coupling shaft dust collector (794) and the nuclear waste treatment double structure block tank bridge (937) ,

(593, 594, 595) nuclear power plant (672) of a marine small-sized and large-scale marine nuclear hydroelectric power plant, and the inside of the main body (1) of a nuclear reactor waste disposal reactor, Of the power of the weak countries consisting of the storks of the great powers and the leaders of the weak countries composed of the leaders of the powerful countries within the connecting axis, Of the nuclear power plant (811) which constitutes the stork which constitutes the facilities of the nuclear power plant (811) which constitutes the stork to be able to imitate the struggle and to imitate the stork 's foot, ) Of the disconnection device,

Leading members of the international community who make up the facility of the disaster prevention device of the connecting axis,

The disaster prevention system is equipped with disaster prevention equipment for tanks, bombers, bombs, bullets, satellites, missiles, nuclear bombs and rocket bombs on land,

It includes equipment of disaster prevention device which overcame the punctured global economic crisis by establishing it as international social codes and norms constituting facilities of disaster prevention device,

The provision of facilities for disaster prevention equipment on the connecting shafts, which are designed to save the world economy by fostering the environmentally friendly pollution-free energy industry,

When the weather conditions of the bad condition constituting the facilities of the disaster prevention apparatus constituting the connection axis of the nuclear hydroelectric power generation facility unit (811) and the sinking accident of the ship in the bombardment state often occur, And a facility of a disaster prevention device of a connecting shaft constituting prevention of sinking accident,

(948) located inside the steel mill building which constitutes all military materials, and the nuclear hydroelectric power plant part (1) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor equipment for the construction machine heavy equipment 811, the facility connection shaft of the disaster prevention device,

(593, 594, 595) of marine nuclear, hydro, and nuclear power plants (592, 595) Mooring devices and diving buoyancy control devices in nuclear power plants (672) (811) of the nuclear power plant (811) before the operation of the nuclear power plant.

As a connection structure capable of disassembling and coupling in a marine vessel manufacturing factory.

Referring to FIG. 210, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor, When the electric heater of the nichrome wire 659 is installed inside the doctor ventilation 585 in front of the fan 195 constituted by the power transmission portion 811d for transmitting the disaster prevention preventive control power including the disaster prevention preventive control power And the cooling air is supplied to the cooling fan 641 in front of or behind the fan 196. The cooling device and the hot air balloon are connected to the engine 226 and the like in the nuclear water power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor, Constitute Lateral diagonal configuration in the form of several blowers 941,

Referring to FIG. 211, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor facility for a marine nuclear power plant, And a power transmission unit 811d for transmitting the disaster prevention preventive control power included in the power supply unit 811d to the first generation, the second generation using the transistor, the third generation using the IC, and the third generation using the LSI or VLSI IC, which is the fourth generation, is now the fourth generation, and the core of the computer that makes up the fifth generation of computers that will be equipped with artificial intelligence to judge and compute calculations and processes is IC, (Rack & Pinion type -NRP, 620), and is installed in the atomic hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus shown in FIG. A lateral strap configuration of the type consisting of several semiconductors, new materials, and rotary cylinders (rack and pinion type -NR P, 620)

Referring to FIG. 212, a nuclear hydroelectric power plant 811 having a double structure block tank dust collector according to the present invention is installed inside a main body 1 of a nuclear reactor waste disposal reactor for treating a nuclear nuclear hydroelectric power plant. The hydraulic excavator 845 includes a hydraulic excavator 845 equipped with a squeegee drill and is configured to be disassembled and disassembled into a hydraulic cylinder 623 and an excavator 845 by a crane 861. [ After disassembling the cylinder 623 and the excavator 845 after the excavation work, it is a construction machine for building a foundation pier of a submarine by using a nut hammer for releasing a bolt nut coupling for pier foundation post work, 591) Side deck construction of construction machine to be mounted on top of deck deck Construction of road,

As shown in FIGS. 210 to 212, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector The heat transfer unit of the nichrome wire 659 is installed inside the doctor ventilation 585 in front of the fan 195 constituted by the power transmission unit 811d for transmitting the disaster prevention preventive control power included in the hot air The heater fan 642 for keeping air is formed,

The cooling device and the hot air balloon are connected to a transformer room 782 and a central control room 781 in the engine 226 of the power generator, , And is composed of several types of blowers 941 constituting the nuclear hydropower generation facility unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus .

As shown in FIGS. 210 to 212, a nuclear water hydroelectric power plant comprising a double structure block tank dust collector according to the present invention comprises a main body (1) of a nuclear power plant for nuclear waste disposal, A computer using a vacuum tube constituted by a power transmission unit 811d for transmitting disaster prevention preventive control power included in the equipment unit 811 is referred to as a first generation, a second generation using a transistor, and a third generation using an IC , LSI, or VLSI is used as the fourth generation. The IC is the heart of the fourth generation, which is the fifth generation of computers that will be equipped with artificial intelligence, And the number of nuclear power plants constituting the interior of the main body 1 of the nuclear reactor waste disposal apparatus provided with the new material and rotary cylinders (rack and pinion type -NRP, 620) The number of semiconductor by having the power generation unit 811, is composed of the new material, the Rotary cylinder (rack-and-pinion type -N R P, 620) form that consists of the device.

210 to 212, the nuclear power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, And a power transmission unit 811d for transmitting disaster prevention prevention and control power to the nuclear power plant as shown in the following figure, a computer using a vacuum tube constituted inside the reactor main body 1 of the nuclear power plant is referred to as a first generation, The second generation, the use of the IC, the third generation, LSI or VLSI is called the fourth generation, now the fourth generation. And the computer that will be equipped with artificial intelligence to judge, calculate and process is called the fifth generation.

The following are the characteristics and limitations of silicon

The reason for using silicon as an IC material is as follows.

First, silicon has a very stable oxide film.

And the surface of the germanium transistor is changed by moisture or the like to change its properties. When silicon is baked at a high temperature, an oxidized film is formed on the surface, and the properties of silicon with high stability and high purity and high insulation remain intact.

Second, silicon is a hole element semiconductor with one element. Unlike compound semiconductors, which are difficult to control due to their small electrical properties due to minute differences in compound composition, silicon is a hole element and therefore easy to control.

Third, it is possible to make large crystals that can be made highly pure and have no defects at all.

Fourth, silicon is easy to find the raw material. Silicon is the next element in the earth after oxygen, and it exists everywhere in soil, stone, glass.

As shown in FIGS. 210 to 212, the performance of the silicon integrated circuit constituting the inside of the distributing and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the dual structure block tank dust collector is evaluated yearly It is getting better at a surprising rate, but there is a limit to the fine processing of silicon.

Especially, the main thing is the speed at which electrons move, which depends on the material. In order to operate faster than a transistor, a new semiconductor is needed to move electrons at high speed.

Third, for new compound semiconductors,

Gallium and arsenic are being studied as representative compound semiconductors for high-speed transistor operation. Using gallium and arsenic can treat heat three to six times faster than silicon. This material has a high speed of electron transfer and various properties that are not found in silicon, but it is not clear yet.

After 10 years of gallium and arsenic, development will reach its limit, what will happen next?

In that era, materials will be made according to purpose, rather than using naturally occurring materials. An example of such a superlattice is superlattice, in which several layers of thin semiconductor material are stacked. These materials can transport electrons several times faster than ever before.

Of course, these materials simply can not be melted and hardened. The development of a technique for depositing semiconductors very slowly in a vacuum, such as space, has allowed us to create superlattices.

Fourth, computers can be manufactured without semiconductors,

210 to 212, the nuclear power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, And a power transmitting portion (811d) for transmitting a disaster prevention preventing and regulating power to the marine nuclear hydroelectric power plant having a double structure block tank dust collector. The IC, the heart of the computer, can be made without a semiconductor. It is possible not only to have silicon but also to have an on / off function when an external signal is input.

For Josephson devices using superconductors,

Josephson devices using niobium, lead, and the like are based on a superconducting phenomenon with a resistance of zero, and can work much faster and with less power than current integrated circuits.

● In molecules and electrontronics,

It is trying to make a computer resembling a human brain by using the fact that the state of a molecule changes or the state of an organism cell changes by slight movement in a molecule.

Fifth, in Optronics and Electronics,

Optoelectronics refers to electronics using devices related to light, specifically optical communications and laser discs.

Current telephone lines use a thin copper wire to transmit signals. In optical communication, a laser beam is passed through an optical fiber made of quartz glass to transmit a signal.

The center of optoelectronics is a light emitting device such as a semiconductor laser or a light emitting diode. However, since silicon can not make light emitting devices, compound semiconductors are used instead of silicon.

The material depends on the color of light emission (wavelength). Gallium arsenide and indium phosphorus are used for infrared rays, gallium aluminum and arsenic are used for red, and gallium phosphorus is used for green for visible areas.

Finally, regarding the development of new materials,

How will new materials be developed in the future? Obviously, the era of simply synthesizing materials is coming to an end. Once upon a time, alchemy was the reason for this, because there was no knowledge of electrons, atoms, etc. about the material.

However, now, knowledge of the molecular structure and properties of the material has increased. From now on we will be able to develop new materials by controlling the fine structure of the material, specifically the structure of the atomic size.

In order to do this, the semiconductor, metal, and organic materials must not be admitted to specific materials, and they must be restructured at the atomic level. A surprising number of new materials will be born again as we experiment with atomic composition methods that will add tens of thousands or even tens of thousands of atoms.

210 to 212, the nuclear power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, In the rotary cylinder (rack and pinion type -NRP, 620) constituted by the power transmitting portion 811d for transmitting the disaster prevention preventing and regulating power of the disaster prevention preventing portion,

It is an excavator used on the land, which is an excavator (845) equipped with a squeegee drill.

The hydraulic cylinder 623 and the excavator 845 are coupled and disassembled by a crane 861.

After disassembling the hydraulic cylinder 623 and the excavator 845 after the excavation work, the construction machine is used to erect a foundation bridge of a submarine by using a nut hammer for releasing a bolt nut coupling for a pillar foundation column work Barge hull (591) This equipment is mounted on deck deck.

As shown in FIGS. 210 to 212, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector The guide vane 142 of the blower used together with the fan 195 is formed inside the marine power plant as follows.

Disruption prevention of a nuclear hydroelectric power plant (811) constituting a distribution dispensing apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector Power for transmitting power And a plurality of blowers 941 mounted on the inside constituted by the transmitting portion 811d.

Disruption prevention of a nuclear hydroelectric power plant (811) constituting a distribution dispensing apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector Power for transmitting power And a power transmission unit 811d configured to include a plurality of blowers 941 mounted on the inside of the transmission unit 811d to transmit power for preventing and controlling disaster prevention. And shows a method of assembling the rotary shaft receiving member 200 in the impeller 143 and the rotary shaft 198 of the body.

As shown in FIGS. 210 to 212, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector As shown in the following figure, which is composed of a power transmitting portion 811d for transmitting a disaster prevention preventive control power to the cooling fan 641. [

As shown in FIGS. 210 to 212, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector And a power transmission unit 811d that transmits a disaster prevention preventive control power to the disaster prevention preventive control unit 811d. (Pressure) switch of the control system.

As shown in FIGS. 210 to 212, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector And a power transmission unit 811d that transmits a disaster prevention preventive control power to the nuclear hydropower generation facility unit 811, As shown in Fig.

Disruption prevention of a nuclear hydroelectric power plant (811) constituting a distribution dispensing apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector Power for transmitting power A vacuum pump (Vac pump) 635 is connected to a condenser lower gauge manifold valve as shown in the following figure composed of a transfer portion 811d to refill the CFC gas.

The figure below shows the external shape of the compact air conditioner (DPK-5KV) and the internal front section.

210 to 212, a power transmission unit 811d for transmitting disaster prevention preventive control power to the nuclear power plant 811 into the main body 1 of the nuclear reactor waste disposal reactor apparatus 1 And FIG. 6 is a front view and a front sectional view showing a medium-sized air conditioner mounted on the inside as shown in the following figure.

 And a power transmission unit 811d for transmitting power for disaster prevention preventive control unit of the nuclear hydroelectric power plant unit 811 constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor apparatus as shown in the following figure A large number of air conditioners are mounted.

210 to 212, power transmission for transmitting disaster prevention preventive control power of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the nuclear waste disposal reactor facility And the rotary shaft receiving member 200 is mounted on the impeller 143 of the body of the blower 941 and the rotary shaft 198 as shown in the following figure.

And a power transmission unit 811d for transmitting disaster prevention preventive control power of the nuclear power hydroelectric power plant unit 811 to the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus. This is a test list according to the fan 641 model.

210 to 212, a power transmission unit (not shown) for transmitting disaster prevention preventive control power to the nuclear power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor main body 1, (Pressure) switch operating mode of the cooling mechanism auto control and manual control type as shown in the above figure.

And a power transmission unit 811d for transmitting disaster prevention preventive control power to the nuclear power plant 811 constituting the inside of the distributing and dispensing apparatus main body 1 of the nuclear waste disposal reactor apparatus. And an auto switch operation method.

As shown in the following figure, which is composed of a power transmitting portion 811d for transmitting power for disaster prevention preventive control portion of the nuclear power generating facility 811 constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor apparatus, And a pump (Vac pump) 635 is connected to the lower condenser manifold valve of the condenser to inject the Freon gas again.

The figure below shows the external shape of the compact air conditioner (DPK-5KV) and the internal front section.

210 to 212, power transmission for transmitting disaster prevention preventive control power of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution input apparatus main body 1 of the nuclear waste disposal reactor facility (848) of the mechanical device as shown in the following figure, which is composed of the motor part (811d).

And a power transmission unit 811d for transmitting the disaster prevention preventive control power of the nuclear power plant 811 constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor apparatus.

As shown in FIGS. 210 to 212, a nuclear hydroelectric power plant part 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector And a power transmitting portion 811d for transmitting power to prevent disaster prevention of the disaster. A plurality of anchors and a mooring device for replacing the anchor bolts 133 are provided at the respective corners of the outside of the hull bottom, A mooring device provided with a car key bed (616) for fixing a car bolt (133) to a seabed, a hydraulic controllable safety control device hatch cover (153) at a predetermined distance from the lower end of the hull bottom, (616) for adjusting the level of the tank frame underfitting mechanism of the tubular structure, and a hull body having a plurality of hull anchoring bowls (638) at a predetermined distance from the upper end of the hull deck (SDU) An excavator 845 of a center position holding tank at the upper end of the plate upper portion, a piping line for a connecting carver for protecting the drilling machine 908 used for crude oil at the upper part of the holding tank and the pipe rack 694, In the case of underwater excavation,

A pipeline constituting the prevention of harmful gas, a plurality of electronically controlled valves of the internal safety control device, a central position holding tank integrally provided with the natural gas and crude oil drilling equipment, and an external wall outside the holding tank, A net 910, and a seed vessel 184 constituting the inside and outside of the tank,

However, officially, according to the international convention, the range from the ground to the upper reaches up to 29 Km is limited to that range. Therefore, as mentioned above, there are a few sea-level north and west sea- The adoption of a method of strengthening the surveillance function to prevent the production of military equipment by installing a sensor sensor for military defense in the floating dock,

In order to make Pyongan Island and Hamkyeongdo nuclear weapons manufacturing facilities helpless,

Therefore, the nuclear missile that constitutes the military sensor sensor is constructed as a defensive missile attached to the net at the upper part of the firing position when the missile is fired. When the missile is fired, the missile is automatically executed,

The defensive missile, which is constructed in order to make the global village of no-

In the area above 29km above the ground, a military defense sensor system consisting of a large number of floating docks and an annex netting disaster prevention device are constructed in the ocean and airspace to provide a permanent peace,

A non - disruptive global village constituting a permanent peace is a safety connection structure constructed inside the main body of a marine nuclear power plant. It is used as a construction machinery device constituting a reactor facility of a nuclear power plant having a dual structural block tank dust collector for nuclear waste disposal,

Nuclear power plants operating as nuclear reactors for preventive measures against human-induced disasters Dual-structure block tanks for controlling nuclear fuel leakage in reactor facilities of alternative nuclear waste disposal systems Nuclear waste disposal reactor for marine nuclear hydroelectric plants with dust collectors And a power transmission unit 811d for transmitting a disaster prevention preventive and regulating power to the nuclear power plant unit 811 constituting the inside of the distribution dispenser main body 1 of the facility.

As shown in FIGS. 210 to 212, a nuclear power plant having a dual structure block tank dust collector for nuclear waste treatment, which is constituted by the power transmission portion 811d, The equipment of the disaster control system for flood control that is adjusted by the construction machine of the hull position movement control of the floating type poison (593, 594, 595) of the small, medium and large sized hydroelectric power plant of the division (811)

Double structure block tank that constitutes facilities of disaster prevention device Dispense input prevention device of Nuclear Waste Treatment Plant of Marine Nuclear Hydroelectric Power Plant with dust collector Disaster Prevention of Nuclear Hydroelectric Power Plant (811) constituted inside main body (1) A fuel supply piping line including a flood control process is connected to a power transmission unit 811d that transmits a regulated power, and a piping line of a liquid is connected to a gas disposal piping line, A lower end portion C of the injection nozzle body constituting a firefighter nozzle 10 that refers to a nozzle composed of a hose of a nozzle and a pipe body and an injection nozzle body (not shown) assembled detachably to an upper end portion C of the injection nozzle body B) was attached to the upper part of the body (B) with a life-saving basket (width × length × height: 2500 mm × 2500 mm × 2000 mm as a net made of wire rope or rope) Inside and the basket (42),

The torch burner 173 facility, which receives the fuel supplied from the gas fuel supply piping line and constitutes an emergency,

A burning gas burner 173 for use as a burner 173 attached to the lower part of the burner 173 (a vinyl tent formed by a duplex structure in the shape of a circle of 10 M × 10 M × 10 M; The unmanned igniter 187 is installed and the outer circumferential surface of the adverbon is wrapped with the wire rope 19 or the rope 131 like a net and bound to the lower portion of the adobe with the rope 131, The unmanned camera 184 is mounted,

A radiosonde (134), which is a weather observing instrument for observing diurnal conditions farther away from a higher position constituting the mount of the unmanned camera (184), is mounted, and a mouth multi-stage pump control system A multi-stage multi-stage pump 8 comprising the equipment of the fire extinguishing system 150, a disaster prevention piping line 89, a disaster prevention water channel 17, a double tube structure collecting tank 34, )Wow,

An electronic control device includes a plurality of valves and an air compressor (80), a generator (124), an engine (144), and a cylinder (138) configured in a doctor ventilation for interrupting the flow of the internal flow of the communication equipment constituting the microcomputer system. A fire hydrant 179 and a fire extinguisher 185 and a tube 188 and a head tank 189 and a high pressure hose 190 are connected to a tachograph winch 137 and a fuel connection structure The entire area where the igniter, flue gas, and pyrolysis gas (163) and the flames, flames, and pylons are generated is referred to as a fire sensor pump body, and the main body of the dispensing apparatus And a power transmission unit 811d for transmitting a disaster prevention preventive adjustment power to the nuclear hydroelectric power plant unit 811 constituting the inside of the nuclear power plant.

As shown in FIGS. 210 to 212, the small-sized and medium-sized nuclear power plant 811 connected to the interior of the main body 1 of the nuclear reactor waste disposal reactor constituting the flue- In the disaster control system of the flood control system which is adjusted by the construction machine of the hull position movement control of the floating type poison (593, 594, 595) of a large marine nuclear hydroelectric power plant,

The fire-fighting sensor pump that constitutes the flood control process is composed of KSD 3507, a plastic coating on the rolled steel for general piping, and a connecting coupling to the nozzle body, which is made of aluminum alloy for KSD 2331 die-casting and heat-resistant plastic Flow tube or KSD 3699 hot rolled stainless steel coil. The temperature sensor is replaced by a bimetallic or bulldon tube type to a paraffin sensor type, while a diesel engine and a solenoid The size of the tubing nozzle that simultaneously supplies liquid and gas to the solenoid valve and other standardized general purpose hose pipes according to their sizes in the double tube structure type,

At the same time, the tube nozzle 1 type,

It is manufactured in order of standard size of 200m, 180m, 150m, 130m, 100m, 80m and 50m,

In the tube nozzle 2 form,

(150 x 130) mm, (130 x 100) mm, (100 x 80) mm, (80 x 50) mm, (50 x 25) mm It consists of 14 types of standard, tube nozzle connected to the hose part, and tube nozzle of many straight line crevice holes, and it is a workhorse working place of building or single house and road protection area of the road protection area without distinction of neighboring living area. It is evolved from fire and forest fires of the combustible materials or large fires in the neighborhood area, and it is evident that the fire of the forest, (811), which is composed of the inside of the main body (1) of the dispensing apparatus of the nuclear reactor for nuclear waste disposal while extinguishing many disaster disasters while being remedied as the fire fighting disaster prevention product by the advertisement balloon and the airship, To deliver The flood control process which consists of a transmission part (811d) is preferably adapted.

As shown in FIGS. 210 to 212, a small, medium and large sized marine nuclear hydroelectric power plant of a nuclear hydroelectric power plant 811 connected to the interior of the main body 1 of the nuclear reactor waste disposal reactor main body 1, (593, 594, 595) of the ship's hull are controlled by a construction machine,

The fire-fighting nozzle (10) used as a plurality of pipe nozzles inside the marine power plant constituting the flushing control process of the disaster prevention device is provided with a thickness of 3 mm,

The piping body, which constitutes the flood control process of the disaster prevention device,

In the case of one type, when installed vertically above the height of the main body,

The nozzle joint portions are classified into seven stages, and the names of the fire-fighting nozzles of the fire-fighting nozzle of the above-mentioned one type are "Title 100" 10a, "Title 90" 10b and "Title 75" 10c and "Title 65" 10d A plurality of fire fighting disaster prevention pipes (hereinafter referred to as " fire fighting fire disposal pipes ") 20 having firefighting nozzles 10 formed by dividing them into "name 50" 10e, "name 40" 10f and " And attached to the piping line (diameter: φ350 mm, vinyl coated flow tube 60) with the elbow and tee elbow 44 and the firefighter nozzle 10 attached to the line 168, 50 x 40 "(10 l) and" 40 x 25 "(nominal) are assigned to" 90 x 10 "and" Nominality 90 x 75 " When a firefighter nozzle is formed at a higher position in the same manner as in the above-described one embodiment,

The fire-fighting nozzle constituting the flushing control process of the fire-

2, a plurality of eight-valley gap 15 machining holes 20 are formed in the normal position of the injection nozzle with the redizers 35 having the above-described dimensions, and the gap of the eight-node nozzle is formed by the flange 28 joint portion 7 ,

For safety, two shafts (23) and bolts (24) are provided at two tee elbow (44) flange machining holes (20) which are connected to a disaster prevention pipe connected to a joint portion at the lower end of the flange The rope 131 is pulled up to the upper end of the body of the nozzle 10 from the opposite sides of the binding position of the shackle 23 to form a rope so that the rope 131 is not temporarily released by the nut 25, The worker does not go up to the height of the telephone main body while dismantling the rope 137 bound to the main body while terminating the fixing and the rope 137 is disassembled and the safety work is finished while the tongue winch 137 is provided at the same time, 22 is provided with an injection nozzle 10,

In the equipment constituting the fire-fighting nozzle 10,

A firefighting nozzle 10 facility having a length of 1 km, 2 km and 3 km, in which a plurality of 15-m fire hose pipe nozzles 10 are connected,

Fire-fighting nozzles (10) are provided as disaster-controllable fire-fighting apparatuses,

(1) of the nuclear power plant (811) connected to the main body (1) of the nuclear reactor waste disposal unit constituting the firefighting nozzle (10) It is preferable that the flood control processes of the poisons 593, 594, and 595 are configured.

As shown in FIGS. 210 to 212, a high-pressure piston type disaster prevention pump 8 for providing disaster prevention water (7) to an upper end upper end constituting a mooring fire fighting nozzle nozzle (10) The disaster prevention water 7 is divided into several disaster prevention nozzles 10 provided between the nozzles 10 and the fire hose connection part and several fixed disaster prevention nozzles 10 connected to the water supply pipeline The disaster prevention water is discharged, and a weather line observing equipment ad 77, which is provided at a normal upright position by a connection line wire rope 19 for providing the hose and nozzle support, a shackle 23 and a disaster prevention nozzle connection flange 28, Radiosondes (134) The bottom of the lower part of the basket (42) to which the pyllet to board the embankment is connected to the lower end Connection line for protection of disaster prevention nozzle Wire rope (19) and hose of air transportation means lighter than air Firefighter 10 configure the equipment and provided to the distribution chute of a flood control equipment with a set of individual and,

(1) of a nuclear reactor for nuclear waste disposal to constitute a flushing control facility, and (2) a flotation vessel of a small, medium and large sized nuclear hydroelectric power plant of the nuclear hydroelectric power plant (811) ) Is preferably constituted.

As shown in Figs. 210 to 212, in the facilities of the balloon 77 and the airship 78 constituting the flood control process,

The facility hose 109 and the high-pressure hose 190 constituting the advertisement balloon 77 and the airship 78 are equipped with a fire protection function such as forest fires and large-sized fires as well as forest protection, typhoons, Compressed air generated by the air compressor is used for disaster prevention. The air supply is provided while separating cold air and hot air, which are always compressed and mixed,

It is equipped with the wire rope and the frame which constitute the adventure balloon (77) and the airship (78) as an alternative method, and the disaster prevention material is controlled by the equipment inside the body of the pump extinguisher having the double structure according to the weather condition, The combined use of the fire fighting equipment system and the active and passive fire-fighting equipment as the dispensing devices that are connected to each other, while the mixer part at the back of the disaster prevention pump is equipped with the carbon dioxide gas tank 171 The carbon dioxide constituting the carbon dioxide gas is a powder and compressed liquid gas having a gas container 171 for storing the halon gas 175 while ensuring the function of initial evolution at a rate 15 times faster than that of the fire water, Pressure piping line 89 at the rear end of the high-pressure inlet-type multi-stage pump, In the port injection system,

This is the same as the injection method of injection into the blood vessels in the human body, and the disruption prevention prevention power of the nuclear hydroelectric power plant (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus. It is preferable that the flood control step is constituted by the transfer unit 811d.

210 to 212, around the suction pipe 143 around the impeller 143 inside the protective cover of the mouth-shaped multi-stage disaster prevention pump 8 configured for the flood control process, suction in the left and right sides The head tank 189 is connected to the suction pipe and the discharge piping 3 and 4 through the suction pipe and the discharge piping 3 and 4. The head tank 189 has a high pressure of the fire water, 16 Compressed with pressures to withstand the bar to provide storage,

When a constant pressure is reached, a large-sized piping (14) and piping connection elbow and tee elbow (44) provided at the front of the head tank and at the rear of the pump discharge port, A power transmission unit for transmitting the disaster prevention preventive adjustment power of the nuclear hydropower generation facility unit (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus, (811d).

As shown in Figures 210 to 212, following the water supply pipe 14 constituting the flood control process, the injection nozzle joint portion, which is connected to the disaster prevention pipe 14 for disaster prevention,

(10a), "Nominal 90" (10b) "for each of the seven types of the standard specifications of the standard specification formed by the piping body whose specifications are adjusted by the piping body which is made by the piping connection part (35) (10e), "nominal 40" (10f) and "nominal 25" (10g) are mounted on the injection nozzle body The spray nozzles are connected to a pipe line of a predetermined length and connected to the piping 14 of the injection nozzle body by one set in the middle, and connected to the rear of the bottom surface of the machine room floor, The flange 28 is separately manufactured for each designation and is connected to the piping connection reed 35 after the piping 14 of the disaster prevention nozzle body and then to the piping connection reed 35 ) In this case,

In the disaster prevention piping system constituting disaster prevention,

Connection and disconnection of the disaster prevention piping system is carried out in the reverse order and connected to the flange connection processing hole 20 in the circumference of the disaster prevention nozzle flange 28 by the bolts 24 and nuts 25 for connecting the injection nozzle and the washers 26 And a nozzle gap (15) is provided at the intermediate portion nozzle between the flange (28) and the flange (28)

In the disaster prevention piping system constituting disaster prevention,

The nozzle body (B)

And a power transmission unit 811d which is constructed of two types of connection structures and transmits the disaster prevention preventive adjustment power of the nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor apparatus It is preferable that a flood control process is configured.

210 to 212, a small-sized and medium-sized nuclear power plant 811 connected to the interior of the nuclear reactor main body 1 of a nuclear power plant having a double structure block tank dust collector for nuclear waste treatment, In the installation of disaster prevention equipment for flood control that is adjusted by the construction machine of the hull position movement control of the floating type poison (593, 594, 595) of the large ocean nuclear hydroelectric power plant,

(1) of a nuclear power plant having a dual structure block tank dust collector for nuclear waste disposal constituting the facilities of the above-mentioned disaster prevention apparatus, the disaster prevention preventive control section of the nuclear power generation facility section (811) (958), a weapon of peaceful preservation that is more powerful than nuclear bombs that have been designed to prevent war, (958) for the peaceful preservation of nuclear power generation equipment and nuclear waste disposal equipment in Northeast Asia, and the establishment of a peace message Photoshop (958) for peace preservation in Northeast Asia,

(811) connected to the interior of the reactor main body (1) of a nuclear power plant having a dual structural block tank dust collector for nuclear waste processing constituting the facilities of the abovementioned disaster prevention apparatus, the small, medium and large sized marine nuclear power (593, 594, 595) of the hydroelectric power plant is equipped with the equipment of disaster prevention system which is adjusted by the construction machine of the position control of the hull position movement,

On the other hand, around the launch pad of the satellite and the space rocket which constitute in the nuclear power plant equipment, the 1 m thick natural loess and the disaster prevention construction machine are installed on the deck deck floor of the floating type poison,

In the vicinity of the launching platform constructed in the nuclear power plant facilities, a 100-meter-diameter circular ocher block fire prevention wall is installed at a height of 3 meters and a height of 15 meters,

When satellite launchers and space rockets are fired at the launch pad and space rocket launchers at the top of the deck deck, when a huge amount of fuel is burned to obtain propulsion, high temperatures are generated, resulting in firing of satellites and space rockets 100 m diameter circular ocher block The fire prevention wall provides high heat and high pressure fire heat shielding and at the same time,

The crane boom is a crane boom that can be moved in the deep sea area or in the area of 10 meters in depth, and the movement of the hull is dependent on the length of the crane. Hydraulic cylinders are used to provide operation, to prepare the tail pipe at two locations in front of the hull,

The hull is retreated and both the front and back sides of the ship are prepared at the same time as a ship shelter,

Nuclear power plant facilities, equipped with anchor and anchor chains, are designed to allow for the delivery of seedlings from the ocean floor,

It is desperately needed to construct the inside of the main body of the dispensing apparatus of the reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant equipped with the dual structural block tank dust collector equipped with the equipment provided for the safe hull moving performance.

In a preferred pure hydraulic control exercise,

The examples were conducted five times.

[Embodiment 1] In basic training

First,

First, the process of forming the pressure can be explained using the hydraulic hand pump.

Second, the pressure relief valve pressure setting method can be performed.

Third, it is possible to check the cracking pressure of the hydraulic pressure relief valve.

The following exercises follow

First, in the hydraulic hand pump practice

First, the parts necessary for the training are selected and fixed on the fixed plate.

Second, piped parts are arranged like a circuit diagram.

을 닫힘 상태로 전환한다.Third, the shut-off valve of Figure 6-1

To a closed state.

에 기름을 1.5ℓ 정도 채운 후 유압 셋을 오 프(Off) 시킨다.Fourth, the power of the hydraulic set is turned on,

Fill the oil to 1.5 liters and turn off the hydraulic set.

와

를 완전 개방 상태로 전환 후 핸 드 펌프를 일정하게 회전시키면서 압력 게이지 p 0의 상태를 관찰한다.Fifth shut-off valve

Wow

After the pump is turned to the fully opened state, observe the state of the pressure gauge p 0 while rotating the hand pump constantly.

를 서서히 닫힘 상태로 전환하면서 핸 드 펌프를 회전시킬 때 압력 게이지 p 0의 상태를 관찰한다.Sixth shut-off valve

Observe the state of the pressure gauge p 0 when turning the hand pump while slowly switching to the closed position.

를 어느 정도 닫힘 상태로 유지하고

는 완전 개방 상태로 전환 후 핸 드 펌프를 회전시킬 때 펌프 흡입 측의 변화를 관찰한다.Seventh shut-off valve

To a certain degree in a closed state

Observes the change in the suction side of the pump when the hand pump is rotated after switching to the fully opened state.

Discuss the results of the fifth, sixth and seventh sessions after arranging the eighth exercise device.

The following is a hydraulic pressure relief valve exercise.

First, select the parts needed for the exercise in Figure 6-2 and place it on the fixed plate and fix it.

The following parts are piped as shown in the circuit diagram.

를 열림 상태로 전환한다.The shut-off valve

To the open state.

의 조정나사를 반 시계 방향으로 완전히 돌린다.Fourth, the pressure relief valve

Turn the adjusting screw of the screw fully counterclockwise.

Fifth, the power of the hydraulic set is turned on (O n).

Sixth, the pressure of a pressure gauge p 1 until 50 kg _f / cm ² and turn the adjusting screw of the pressure reels re-program the valve in a clockwise direction.

를 닫힘 상태로 전환한다.Next, turn off the power of the hydraulic set, and then shut off valve

To the closed state.

를 서서히 개방시키면서 압력 릴 리 프 밸브가 열려 액 주 관

로 기름이 떨어질 때의 압력을 압력 게이지 p 1로 확인한다.Next, after the power of the hydraulic set is turned on, the shut-

The pressure relief valve is opened and the liquid pipe

Check the pressure when the oil is dropped by the pressure gauge p 1.

The working pressure of the eighth pressure relief valve is discussed in the ninth.

The final pressure gauge p 1 at 40 kg _f / cm ² 30 kg _f / cm ² after re joseonghan a pressure relief valve so that the repeating (7), (8), (9) a process for each case to create a Table 6-1.

Discuss the final result.

The following flow-pressure characteristics of the hydraulic pump are shown below

First, select the parts necessary for the exercise in Figure 6-3 and place it on the fixing plate and fix it.

Second, piped parts are arranged like a circuit diagram.

를 열림 상태로 전환한다.Third, the shut-off valve

To the open state.

를 시계방향으로 조정하여 완전 폐쇄 상태로 전환한다.Fourth, the flow control valve

To the fully closed state.

Fifth, the power of the hydraulic set is turned on (O n).

을 시계방향을 돌려 p 1 게이지의 압력을 50kg_f/cm² 되도록 조정한다.Sixth, the hydraulic relief valve

Turn clockwise to adjust the pressure of p 1 gauge to 50 kg _f / cm ² .

를 반 시계 방향으로 돌려 p 1 게이지의 압력을 10kg_f/cm²이 되도록 조정한다.Seventh, the flow control valve

Turn counterclockwise to adjust the pressure of p 1 gauge to 10 kg _f / cm ² .

의 셧-오 프 밸브를 폐쇄 상태로 전환한다.Eighth, the power of the hydraulic set is turned off and the flow meter

The shut-off valve of the shut-off valve is closed.

Ninth, the power of the hydraulic set is turned on (O n).

에 1.5ℓ의 기름이 채워질 때까지의 시간을 측정하여 표 6-2에 기록한다.In the tenth, using a stopwatch,

Is measured in 1.5 liters of oil and recorded in Table 6-2.

To eleventh, When the pressure of the pressure gauge _{p1 20, 30, 40kg f /} cm 2 il repeats the processes of (8), (9), respectively.

For the twelfth, discuss the results.

The fluid flow practice below is shown in the circuit diagram below.

In Step 1, select the parts necessary for the exercise in Figure 6-4 and place it on the fixing plate and fix it.

In the second step, piped parts are arranged like the circuit diagram.

를 열림 상태로 전환한다.In the third step, the shut-off valve

To the open state.

In the fourth step, the hydraulic pressure set is turned on (O n).

을 조정하여 p 1 게이지의 압력을 40 kg f/㎠ 되도록 셋 팅 한다.In the fifth step, the hydraulic relief valve

To set the pressure of p 1 gauge to be 40 kg f / cm 2.

In step 6, power off the hydraulic set.

는 오리 피 스 투명블록 P포트와 A포트에 유압 배관을 한다.Step 7 is a step-

To the orifice clear block P port and A port.

In step 8, the hydraulic pressure set is turned on (O n).

In step 9, the pressure before and after the orifice clear block is measured with p 1 and p 2 gauge, and the flow state of the fluid is observed.

를 오리 피 스 투명블록 P-B, 슬로 틀 투명블록의 P-A, P-T에 각각 유압배관을 한 후 8단계, 9단계 과정을 반복하여 표 6-3에 기록한다.Step 10 is a step-

To the orifice transparent block PB and to the sloped transparent block PA and PT, respectively. Repeat steps 8 and 9 to record in Table 6-3.

Step 11 discusses the results.

[Embodiment 2] In the control of the hydraulic single cylinder,

For the next exercise goal

Step 1 can understand the structure of a single cylinder and explain its function.

In the second step, the functional relationship between the velocity and the force of the piston can be understood and calculated to calculate the value.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that the invention is not limited to the specific embodiments thereof except as defined in the appended claims.

""

""

"자 형태의 지 그),(23)샤 클,(24)볼트,(25)너트,(26)와 샤,(27)외부블록탱크 외부 위치로 결합 분리 해지용 힌지,(27a)힌 지 용 ㄱ 형의 러 그 핀 연결축,(27b)힌 지 용 장축의 연결축,(28)플랜지 또는 선체의 벨 러 스 터 바라 싱 탱크 흡입구 이물질 접근 차단용 플랜지마개철망,(29)카플 링,(30)카플 링 암 나사 산 몸체,(31)카플 링 수 나사 산 몸체,(32)가스 켓 트 또는 고무패킹,(33)노즐호스 장비 거치대,(34)집수정 탱크 또는 안전탱크,(35)레 듀 사,(36)고성능 수중펌프,(37)펌프 수차,(38)토 출 분사 수,(39)물막 또는 커 텐 물 막,(40)소방정,(41)감지노끈,(42)바스켓,(43)이중비닐텐트 또는 봉지,(44)엘 보 또는 티 이 엘 보,(45)소방용 펌프,
(46)동력 전원 공급장치 전원,(47)인버터,(48)인버터 브 이오,(49)억 세 스 포인터,(50)인터넷 망,(51)입 형 다단펌프 또는 관제 서버,(52)모니터,(53)펌프 제어 보드 또는 타 구어 윈치 콘 트 롤 박스,(54)근거리 무선통신안테나,(55)근거리 무선통신장치의 무선통신제어모듈,(56)디스플레이,(57)전자제어장치 에이 디 이씨,(58)스위치 입력회로,(59)전자제어장치 엠 씨 유,(60)전자제어장치 디 이에 이씨,(61)과전류차단기 브레이크,(62)전원부,(63)디스플레이 화면,(64)아날로그입력,(65)디지털입력,(66)각 펌프의 온 오 프 제어를 위한 스위치 메인스위치 버 턴,(67)보조스위치 버 턴,(68)컴퓨터 전산망 입력,(69)현재 압력 값 압력설정수치의 설정압력 값 인식명판,(70)메모리, (71)동력전선,(73)방재물질 혼합기 믹서,(74)이중 관 구조 블록배관라인,(74a)내부블록배관,(74b)외부블록배관,(75)헝겊 꺼즈,(76)솔레노이드밸브(77)애드벌룬,(78)비행선,(79)가스통,(80)공기압축기,(81)모바일서비스,(82)휴대용단말기,(83)저압차단밸브,(84)비상밸브,(85)감압밸브,(86)제1압력체크센서,(87)제2압력체크센서,(88)전자제어유닛,(89)양수 관,(89a)수직 하향 관,(89b)수직 상향 관,(90)볼 밸브핸들,(91)드 렌 처 헤드,(92)밸브내부디스크,(93)비상 싸 이 렌,(94)최초발화원인물질 스파크 또는 낙뢰,(95)전신주,(96)변압기,(97)레 듀 사 붓 싱 소켓,(99)점멸 경고등,(100)파라핀노즐마개 또는 양초,(101)압력계,(102)감지센서바이메탈,(102a)열전대의구성방식,(102b)열 전류 발생,(102c)열기전력 발생,(102d)측정점,(102e)기준점,
(103)감지센서 열전 대온도계 스위치,(103a)열 전대 온도계의 구성방식,(103b)측 온 한계,(103c)온도 1,(103d)전류계 온도의 눈금,(103e)금속A,(103f)금속B,(103g)전위차가 발생,(103h)열 전대와 보상도선,(103i)측 온 접점,(103j)열 전쌍,(103k)보상접점,(103l)보상도선,(103m)기준접점,(103n)열전대의종류,(103o)보호관이 없음,(103p)보호관,(103q)고온물체,(103r)보호관이 있음,(103s)시 스 형,(103t)측 온 단자,(103u)측 온 접점,(103v)스 텐 금속 시 스,(103w)보호관 부착 백금 측 온 저항체,(103x)마 이 카,(103y)백금선,(103z)자기,
(104) 레벨 또는 압력스위치,(105)방 유량 체크용 유량계,(106)동력모터제어모듈,(107)밸브스위치작동용 추 또는 크레인 붐 대 레벨 유지 웨 이 트 용 추,(108)과대 압력 방지스위치 또는 스위치박스,(109)공기호스,(110)공기호스 연결장치의 닛 플,(111)스프링 쿨 러 헤드,(112)반사 관,(113)가용금속용 퓨즈,(114)정지밸브 또는 수도밸브,(115)지하매설관,(116)주 탑 또는 철탑 또는 블록철탑,(117)부자,(118)부자회로개폐기,(119)벨,
(120)경보밸브,(121)시험밸브,(122)고압수도펌프,(123)레버 블 럭,(124)소화기(소화기a, 소화기b, 소화기c, 소화기D, 소화기e, 소화기f) (125) 체인,
(126)실린더,(126a)추 부하 식 축 압 기,(126b)스프링 부하 식 축 압 기,(126c)브 리 더 형,축 압 기,(126d)유압,(126e)유압 장치로,(126f)압력오일,(126g)고무봉지(브 리 더),(126h)유실,(126i)포 밋 밸브,(126j)드 레인 플러그,(126k)단 동 실린더,(126l)복 동 실린더,
(127)피스톤 또는 피스톤펌프,
(128)소화기 고정용 핀,(129)빗장 장 금 장치,(130)인명구조 용 튜브,(131)로프,(132)컨테이너,(133)앙 카 볼트,(134) 라디오존데,(135)구동바퀴 로라 용,도 루레,(136)레 귤 레 이 트,(137)동체에 감긴 밧줄이나 쇠사슬로 수문개폐 조절장치용 타 구어 윈치,(138)시린 더,(139)철 개 망태,(140)터빈펌프,(141)케 싱,(142)베인 펌프 또는 가이드 베인,(143)임 펠 러,(144)다 이어 후 렘 펌프,(145)고압저장탱크,(146)프로펠러펌프 또는 프로펠러,(147)다단식나사 공기 압축기 그리고 나사펌프,(148)플 런 저 펌프,(148b)사 축 식 플 런 저 펌프,(148c)레 이 디 얼 플 런 저 펌프,(149)철재 빔,(150)방재펌프 제어시스템 또는 관제시스템,(151)오일 냉각기,(152)맨홀 덥게,(153)해치 카 버,(154)방화문,(155)글 랜드 패킹,(156)매 커 니 컬 시일 또는 각개의 시일,(157)제트펌프,(158)황토,(159)방화사,(160)옥내소화전상자,(161)자동소화전,(162)호스,걸이,(163)질식 가스,(164)불연성 가스의 이산화탄소, (165)보강 철판,(166)성냥불(a) 또는 발화물체(화재유형별의 A급, B급과 C급으로 분류함),(167)나사 탭, (168)송수구 또는 소방방재 배관 라인,(169)방수 구,(170)내부냉각기,(171)배기가스,(172)인명구조겸용 침대노즐,(173)가스 렌 지 또는 버너,(174)탄산가스,(175)하론 가스,(176)핼 륨 가스,(177)발화물질 파라핀테이프,(178)비 발화물질 철사,(179)소화전(단구형a,쌍 구 형b),(180)비닐포대,(181)방재공기배관라인,(182)후미냉각기,(183)리밋스위치 또는 리 미트 스위치,(184)무인카메라,(185)끝이 뾰족한 틈새 결합공구 지 그대 쇄기,(186)스프링,(187)무인점화기 스파크라이터,(188)구명정,(189)압력탱크용 헤드 탱크,(190)플 렉 시 블 고압호스 또는 유압호스,(191)도입 관 또는 수압관,
(192)동력모터 전동기 몸체,(193)후드,(194)스냅 링,(195)팬,(196)몸체프레임,(197)몸체 전방 보강 철판,(198)회전축,(199)회전자조립,(200)전방 회전 축 받 이,(201)고정자조립,(202)모터 보호용 주물프레임,(203)단자박스,(204)인양볼트,
(205)단자박스 카 버,(206)후방 회전 축 받 이,(207)후방 보강 철판,(208)공극,(209)팬 카 버 또는 보호 카 버,(210)회전자 철심,(211)고정자 철심,(212)고정자 권선,
(213) 활성 막 식 가스 홀드 업 장치,
(214) 필터,
(215) 배기 탑,
(216)방사능 저장탱크,
(217)여과기,
(218)방사능 측정기,
(219)모니터 링 포스트,
(220) 드럼통,
(221) 등변 산 형 강,
(222) 우라늄 광산,
(223) 옐 로 케 인 크,
(224)핵폐기물[＜＜＜,＞＞＞],(224a)고체 핵폐기물,(224b)액체 핵폐기물,(224c)기체 핵폐기물,
(225)철근 콘크리트 매트,
(226)엔진발전기, (277)터빈 회전 축 받 이,
(228)재처리공장,
(229)전환공장,
(230)농축공장,
(231)전환·가공공장,
(232)탐조등,
(233)제련공장,
(234)에어 드라이어,(235)불씨,(236)불꽃,(237)불기둥,
(238)원자력수력발전소의 핵 폐기물처리의 이중 관 구조 블록배관라인 조절 축,
(239)재순환펌프,
(240)압력 제어 풀,
(241)급수펌프,
(242)순환수펌프 또는 1차 주 냉각계통 순환펌프,
(243)냉각재 펌프 또는 2차 주 냉각계통 순환펌프,
(248)크랭크,(249)링크대,(250)푸 레,(251)감속기, (252)브 이 밸 트,(253)플 런 저,(254)고정핀,(255)타임 머,(256)케이블 카 아,(257)공기밸브,(258)안전밸브,(259)자동밸브,(260)드 레인 밸브,(261)밸 트 카 버,(262)흡입필터,(263)압축기 본체,(264)펌프 수차,(265)메인밸브,(266)산림,(267)터빈 또는 회전날개,(268)플라이 휠,(269)흡입구,(270)토출구,(271)공 운전 방지장치,(272)펌프전원,(273)제어 전원,(274)비상운전회로,(275)직류파워공급회로,(276)마이크로 콘 트 롤 유니 트,(277)디 아이피 스위치설정회로,(278)디스플레이회로,(279)M/C 구동신호 접점출력회로,(280)모터 과부하 신호입력회로,(281)인버터 운전 데이트 입출력회로,(282)압력감지회로,(283)외부상태 입력회로,(284)토 출 압력 트랜스 미 터어,(285) 흡입/토 출 스위치,(286)베 드 프레임,
(287)냉각수 또는 냉각수 입구,(288)유 분리탱크,(289)흡입밸브,(290)기어드라이븐,(291)건조기,(292)이중 관 구조 물 저장탱크,
(293)수문,(293a)데 인 터 게이트,(293b)롤링 게이트,(293c)설계수위,(293d)수면,(293e)앵커부문 고정부,(293f)고정부,(294)수로 또는 회전수로,(295)수조 탱크,(296)게이트 밸브,(297)리 턴 밸브,(298)부시 또는 트로틀 부시,(299)드 렌 처 헤드(a,b,c,d)의 종류,(300)진동경보장치,(301)드 레인,(302)역 정지 밸브,(303)고압 볼 탱크,(304)양수펌프,(305)유량제어용 버터플라이밸브,(306)중탄산소다,(307)재유입구,(308)센 튜 리 퓨 우 걸 펌프,(309) 오수펌프,(310)스파이 럴 케 싱,(311)블류우트 펌프,(312)후드 밸브,(313)양수 구,(314)펌프 본체,(315)플 로 트,(316)볼 밀어넣기 기기,(317)플 랙 스 블 카프 링,(318)플 로 트 스위치,(319)뒷날개,(320)퍼올림 밸브,(321)빨아올림 밸브,(322)분출 수면 계,(323)실제 양정,(324)분출 양정,(325)제트펌프,(326)기어펌프,(327)윙 펌프,(330)분리 실,(331)마그넷 스위치,(332)핵폐기물건물,(333)빌딩 또는 대형건물,(334) 밸런스,(335) 언밸런스,(336)옥내 소화용 펌프,(337)로터리펌프,(338)로터리 회전자,(339)프라이 밍,(340)자 흡 식 펌프,(341)축 류 펌프,(342)혼 류 펌프,(343)점성펌프,
(344)원자력수력발전소의 이중구조 블록탱크 제조설치 공정의 연결축,
(344a) 가(A B )변의 블록탱크, (344b) 나(B C) 변의 블록탱크, (344c) 다(A C)변의 블록탱크, (344d) 라(A R) 변의 블록탱크, (344e) 마(A Q) 변의 블록탱크, (344f) 바(A P) 변의 블록 탱크, (344g)사(A O) 변의 블록탱크, (344h) 자(A M) 변의 블록탱크, (344i) 아(A N) 변의 블록탱크, (344j)갑(A B C), 삼각형 블록탱크, (344k) 을(A B "C),삼각형 블록탱크, (344l) 병(A R S),삼각형 블록탱크, (344m) 무(A Q T),삼각형 블록탱크, (344n) 갑 자(A O B),삼각형 블록탱크, (344o) 을 축(A N W),삼각형 블록탱크, (344p) 병인(A M X),삼각형 블록탱크, (344q)차(D E)변의 블록탱크,(344r)카(B D)변의 블록탱크,(344s)타(C E)변의 블록탱크,
(345)글 랜드,(346)주 액 랜턴 링 부착패킹,(347)랜턴패킹,(348)2중 글 랜드 형 패킹,(349)드 로 틀 부시 부착패킹,(350)냉각수출구,(351)봉 수,(352)냉각수입구 또는 냉각수배관라인,(353) 슬리 이브 내면 냉각병용 워 터 재킷부착패킹,(354)슬리이브의 내부 냉각 실,(355)보조 글 랜드,(356)누설액의 냉각 실,
(357)원자력수력발전소의 이중구조 블록탱크 제조설치 공정의 분배 축,(358)글 랜드 패킹 여덟 가닥 짜기,(359)봉지 짜기,(360)격 자 짜기,(361)플 래 싱 구멍,(362)O링,(363)스 톱 더,(364)중동 링,(365)밀봉 단면,(366)시 이 트 링,(367) 피동링,(368)퀀 칭,(369)쿠 울 링,(370)되 돌림 관,(371)핸들(Handle),(372)격벽, (373)축방향의 드 러 스 트 하중,(374)임 펠 러 전면에 작용하는 압력,(375)임 펠 러 뒷면에 작용하는 압력,(376)밸런스 호울,
(377)흡입압력,(378)배면 압력,(378)밸런스구멍,(380)전면 웨 어 링,(381) 토출압력,(382)배면 베어링 링,(384)뒷날개,(385)뒷날개 설치로 인한 압력분포와 임펠러,(386)다단펌프의 임 펠 러 배치,(387)수주분리,(388)수주결합,(389)수격작용,(390)축 봉 부,(391)냉각방식의 매 커 니 컬 시일,(392)스 트레이너,(393)수격펌프,(394)옥상 소방 운전실 또는 크레인운전실,(395)높고 낮은 산,(396)폴 저엔 코 드(Pulse Encoder),(397) 스 피 드 콤 멘 드(Speed Command),(398)모터 스 피 드 또는 변속기,(399)디스크 브레이크(DISC Brakes),(400)방파제 겸용 방제탱크,(401) 안전로프그물망, (402)공기 압축 실(Air Chamber) 또는 가스실,
(403)슬 루 우 브 밸브,(404)밸브몸통,(405)밸브 덥 개,(406)슬 루 우 스 밸브,(407)패킹 누르게,(408)패킹 누르게 너트,(409)밸브,(410)핸들,(411)핸들 너트,(412)패킹,(413)웨 지 게이트 밸브,(414)단체밸브,(415)플 렉 시 블 밸브,(416)패럴렐 슬라이드밸브, (417)더블 디스크 게이트 밸브,(418)스 톱 밸브,(419)플랜지형 글로 우 브 밸브,(420)플랜지형 앵글밸브,(421)몸통,(422)본 네트 덥 개,(423)디스크,(424)덥 개 붙임 밸브 시트,(425)밸브대,(426)밸브 누르개,(427)핸들,(428)덥개 끼움 링,(429)패킹 누르개 링,(430)패킹 누르개,(431)나사 끼움 형,(432)덥 개 볼트,(433)패킹 누르개 볼트,(434)핀,(435)덥 개 볼트용 너트,(436)패킹 누르개 보울트용너트,(437)핸들 너트,(438)멈춤 나사,(439)와셔,(440)패킹,
(441)가스 킷,(442)밸브 누르게,(442a)평면 누르게,(442b)원뿔 누르게,(442c)구면누르게,(442d))스 터 트 누르게,
(443)콕 1형 (444)콕 2형,(445) 청동나사 넣기 메인 콕,(446)주철 플랜지형 글랜드 형,(447)청동 나사 넣기 글 랜드 콕,(448)삼 방 콕,(449)사방 콕,(450)핸들 콕,
(451)첵 밸브,(452)스윙 형 첵 밸브,(453)리프트형 첵 밸브,(454)첵 밸브몸통,(455)덥게,(456)디스크,(457)디스크 핀,(458)플러그,(459)조정밸브,(460)감압밸브,(461)파이로 트 작동 자력 식 감압밸브,(462)2차 측 감지구멍,(463)다 이어 프 램,(464)파이로 트 밸브,(465)배기연돌,(466)메인밸브,(467)메인밸브스프링,(468)조정스프링,(469)오 토압력조절밸브,(470)나사형 오 토 압력조절밸브(a),(471)플랜지형 압력조절밸브(b)
(472)안전밸브,(473)스프링식 안전밸브,(474)리리 이 프 식 안전밸브,(475) 증기용 포 프 스프링식 안전밸브,(476)포 프 식 안전밸브,(477)온도조절밸브,(478) 오토 급수기,(479)오 토 급수기(a),(480)오 토 수준 조정기,(481)공기빼기밸브,(482)오 토 열 동 형 증기용 공기 배기밸브,(483)바 켓 트 온수형 오 토 공기 배기밸브,(484) 냉매배관용 밸브,(485)냉매 스 톱 밸브,(486)팩 드 밸브,(487)팩 레 스 밸브,(488)팩 레 스 밸브,(489)팽창밸브,(490)다 이어 후 렘 형 팽창밸브,(491)벨로 우 스 형 팽창밸브,(492)부자 밸브,(493)냉매용 압력조정밸브,(494)전자밸브,(495)오 토 급수밸브,(496)일반형 수전용 수도꼭지,(497)지수 선,(498)분수 전,(499)볼 탭,
(500)해양원자력수력발전소의 선체안전 보존용 피뢰침,
(501)나사 이음 형 Y형 스 트레이너 외형도(a) 단면도(b),(502)U형 스 트레이너,(503)V형 스 트레이너,(504)관 고정금속,(505)터 언 버클 부 지지밴드,(506)지지밴드,(507)롤러 부 지지밴드,(508)수직 관 매몰용 밴드,(509)철재 안경밴드,(510)바닥밴드,(511)트랩,
(512)일반형 수전용 수도꼭지,(512a)동체가 긴 횡(橫) 수전,(512b)포 마 쓰 식 동체가 긴 횡(橫) 수전,(512c)동체가 긴 만능 수전, (512d)동체가 짧은 횡(橫) 수전,(512e)포 마 쓰 식 동체가 짧은 횡(橫) 수전,(512f)종 수전,(512g)만능 식 종 수전,(512h)카프 링 횡 수전,(512i)산 수전,(512j)위생 수전,(512k)탕 수 혼용 전,
(513)위생 플래시 밸브,(514)병렬 형 목욕 수전,(514a)횡 자재 수전,(514b)횡 자재 수전,(514c)종 자재 수전,(514d)포 마 쓰 식 횡 자재 수전,(514e)의과 용 수전,(514f)횡 화학 수전(단구),(514g)횡 화학 수전(양구),(514h)종 화학 수전(단구),(514i)목이 긴 종 화학 수전,(514j)종 화학 수전(양구),
(515)건축 설비용 수전의 후래 시 밸브(푸 시 버 턴 식),(515a)건축 설비용 수전의 후래 시 밸브(A형),(515b)건축 설비용 수전의 후래 시 밸브(소변기 용),
(516)소변기 세정 수전,(517)믹 싱 밸브(3구;매물용),(517a)믹 싱 밸브(노출형),(518)핸 드 샤워,(519)사와 헤드,(520)핸 드 샤워,(521)샤워 셋 트,
(522)앵글형 열 동 식 트랩,(523)스트레이트 열 동 식 트랩,(524)버 키 트 트랩,(525)상향식 버 키 트 트랩,(526)하향식 버 키 트 트랩,(527)플 로 우 트 트랩,(528)임 펄스 증기트랩,(529)수도꼭지몸통,(530)패킹 상자,(531)패킹 누르게,(532)꼭지대,(533)핸들,(534)디스크,(535)디스크패킹,(536)내수패킹,(537)내 노화 성 패킹,(538)테 프론 막,
(539)열팽창이 큰 금속,(540)열팽창이 작은 금속,(541)타임 머 또는 레벨스위치,(542)하 이 레벨 알람,(543)베 이 컴 페 일 루 어 알람,(544)스 멀 릴레이 알람,(545) 알람 리 셋 트 버 턴,(546)로 워 레벨스위치,(547)플 랩(flap;밸브의 혀),(548)사운 드 캡,(549)첵 노즐,(550)루 버 카 버,(551)플 로 이 트,인 셔 어 트 스위치,(552)지시눈금스케일,(553)오버 플 로 워 콘 넥 션,(554)벤 트 파이프 콘 넥 션,(555)플랜지 콘 넥 션,(556)이중비닐 개방형 침 바늘,(557)솔레노이드밸브 몸체,(558)카 버,(559)스 폴,(560)스 플 패킹,(561)파이로 트,(562)코일,(563)콘 넥 터,(564)메니 폴 드(L;P T Y 8"대유량형),(565)매니 폴 드(S;M 5 소유량 형),(566)나사볼트,(567)공기호스 결속 구 유니온 카플 링,(568)유니온 몸체결속 카플 링,(569)2위치 싱글,(570)2위치 더블,(571)L L; 중앙 수직형,(572)L; 수직형,(573)수평형; M,(574)F;피 팅 포함,(575)도시기호 싱글,(576)더블,(577)에이 취,(578)아이,(579)제이,(580)마이크로 스위치,(581) 직접 배관형,(582)베이스 배관형,(583)파 이어 댐 퍼,(584)댐 퍼 스핀들,(585)닥터 벤 츄 레이션,(585a)닥터 벤 츄 레이션 흡입구,(585b)닥터 벤 츄 레이션 배출구,(586)몽골 피에의 열기구,(587)블 량 샤 르 의 열기구,(588)켈 리의 열기구,(589)증기비행선,
(590) 교각겸용 이중구조 지주 블록탱크,
(591) 지주탱크 상단의 바지선 선체,
(592) 지주탱크 하단의 바지선 선체,
(593) 소형의 해양원자력수력발전소의 부양 식 독,
(594) 중형의 해양원자력수력발전소의 부양 식 독,
(595) 대형의 해양원자력수력발전소의 부양 식 독,
(596) 이중구조 내부블록탱크,
(597) 고장력 스 테인 레 스 강의 철판,
(598) 이중구조블록탱크,
(599) 이중구조 외부블록탱크,(600) 블록탱크용 제 1보조 형 강,(601) 블록탱크용 제 2보조 철판 ,(602)제 1보조 형 강과 제 2 보조철판의 모서리부위 용접 결함을 해소하기 위해 절단된 부위 스냅 홀,(603)블록탱크 선체 분해결합 휴대용 러그 연결축 볼트,(603a)볼트의 나사 산,(604)블록탱크 선체 분해결합 휴대용 러 그 연결축 분해결합 너트,(603b)너트의 나사 산,
(605)블록탱크 선체 분해결합용 제 2 보조 철판 수직격벽,(606)블록탱크 선체 분해결합 휴대용 러 그 핀 연결축,(607)블록탱크 선체 분해결합 휴대용 러그,(608)블록탱크 선체 분해결합 휴대용 러 그 핀,(609)블록탱크용 선체 분해결합용 제 2 보조철판 수평격벽,(610)블록탱크 선체 교통장치용 격벽맨홀,
(611)인공위성,(611a)통신위성,(611b)기상위성,(611c)측지 위성,
(612)우주로켓,(612a)이크 로켓,(612b)이온 로켓,(612c)플라스마 로켓,(612d)광자 로켓,(612e)원자력로켓,
(613)블록탱크 블록단위 선체 분해결합용 러 그 힌 지 소켓,(614)블록탱크 블록단위 선체 분해결합용 대형플랜지,(615)대형플랜지 접속연결구 접합부위 가공 홀 또는 러 그 가공 홀 작 키 베 드 가공 홀,(616)계류장치 부양 식 독 바지선 선체 균형 조절장치용 작 키 베 드,(616a)블록탱크 블록단위 선체 분해결합 위치이동 조절장치용 러 그 장 공 홀,(617)블록탱크 선체 분해결합 이중 관 구조 탱크교각 건설용 부 교 식 새들 형틀,(618)블록탱크 선체 교통장치용 가이드레일, (619) 헬리콥터 정류장,(619)블록탱크 블록단위 선체 분해결합조절장치용 유압회전실린더기계 또는 블록단위 선체의 드릴 선반 로터리 실린더기계의 랙＆ 피 니언형(N R P) 실린더기계,
(620)유압회전실린더(로터리 실린더[랙＆피니 언 형-N R P]),
(621)블록탱크 블록단위 선체 분해결합조절장치용 밴드 지 그대,
(622)블록탱크 블록단위 선체 부침조절장치용 벨 러 스 터 버터플라이밸브,
(623)블록탱크 블록단위 선체 분해결합조절장치용 유압실린더 유압 작 키,
(624)블록탱크 선체 교통조절장치용 유압 실린더,도 어 또는 블록탱크 블록단위 선체 분해결합조절장치용 유압실린더기계.(625)마개 철판,
(626)화력발전소,
(627) 엔진제어시스템용 엔진제어모듈,(628)부 이 깃대 고무풍선,(629)밧줄용 로프,(630) 로프 매듭갈고리,(631)비상계단,(632)승강기용 앨 리 베 이 트,(633)컨베이어,(634)침몰선박 인양 선의 침몰방지 체류 선,(635)진공펌프,(636)예인선,(637)반 잠수작업선,(638)볼라 드,(639)앙 카,(640)앙 카 용 체인,(641)송풍기 또는 쿨 링 팬,(642)공기 보온용의 히터 팬,(643)인공위성발사대,(644)계류탑,(645)전기자석 마그넷,(646)우주로켓발사대,(647)헬리콥터,(648)체인 블 럭, (649)황토 세 멘 트 혼합장비 믹서기계,(650)애 자,(651)크레인 붐 대,(652)크레인 붐 걸 고리,
(653)우라늄 239,(653a)우라늄 238,
(654)물,(654a)경수,(654b)중수 또는 가압중수,
(655)항상 같은 방향으로만 흐르는 전류인 직류,(656) 시소가 오르내릴 때마다 흐름의 방향이 바뀌는 전류인 교류,
(657) 중간 열교환기 또는 1차 주 냉각계통 중간 열교환기,(657a)2차 냉각 계통출구,(657b)저온 헤드,(657c)2차 냉각재입구,(657d)지지판,(657e)중앙배관,(657f)외 측 환상 부,(657g)압력용기,(657h)단열재,(657i)고온 헤드,(657j)혼합기,(657k)1차 계통 가스 입구,(657l)1차 계통 가스출구,(657m)단 관,(657n)내 압 관,(657o)단열층,(657p)고온가스통로,(657q)라이나,(657r)2 중관,(657s)내압 관,(657t)저온가스통로,(657u)내관,(657v)고온가스통로,(657w)라이나,(657x)단열층,
(658)열교환기,
(659)전류가 잘 흐르지 않는 니크롬선,(660)전구 몸체,(661)베이스,
(662)넵투늄,
(663)필라멘트,(664)유리,(665)형광 방전관,(666)점등 관,(667)방전,(668)탄소막대,(669)양극(플러스;(+)로 표시함),(670) 음극(마이너스; (-)로 표시함),
(671) 연료집합체,
(672) 원자력발전소,
(672a) 어도 터널,
(673)시 이소 중심축 프레임,
(674)양성자,
(675)중성자,
(676)감속재 또는 감속재 용기,
(677)추 코트 반도,
(678)하천,(678a)총 낙차,(678b)방수로,(678c)유입 식 발전소의 개념도,(678d)저수지식 발전소의 개념도,(678e)조정지식 발전소의 개념도,(678f)조력발전의 개념도,(678g)취수구,(678h)상부조정지,(678i)하부조정지,(678j)가역 식 펌프 수차,(678k)발전력,(678l)양수전력,(678m)양수,(678n)발전,(678o)조력조정지,(678p)한강수계에서의 각 발전소 위치구성도,(678q)화천 수력발전소,(678r)소양강 수력발전소,(678s)충주 수력발전소,(678t)춘천 수력발전소,(678u)의 암 수력발전소,
(678v)청평 수력발전소,(678w)팔당 수력발전소,(678x)소양강,(678y)남한강,(678z)괴산 수력발전소,
(679)제방,(679a)토질 차수 벽,(679b)상류 측 록 필,(679c)필터,(679d)본체 록필,(679e)부 벽 댐,(679f)표면 차수 판,(679g)부 벽,(679h)이용 수심,(679i)중공 부,(679j)주변전실,(679k)표층콘크리트,(679l)물의 위치 에너지,(679m)물의 운동에너지,(679n)기계에너지,(679o)전기에너지,(679p)이론수력,(679q)수차출력,(679r)발전기출력,(679s)수력발전의 개요도,(679t)댐 식 발전소의 개념도,(679u)스크린,(679v)취수탑,(679w)볼 탭 밸브,(679x)입구밸브,(679y)주요기기,(679z)주요변압기,
(680)댐,(680a)저수지 또는 조정지,(680b)취수댐,(680c)양수 댐,(680d)양수식,(680e)양수발전,(680f)댐 수로 식,(680g)댐 식,(680h)수로 식,(680i)압력수조,(680j)조 압 수조,(680k)침 사지,(680l)무 압 수조,(680m)상 수조,(680n)취수설비,(680o)도수설비,(680p)발전설비(양수),(680q)방수설비,(680r)고수위,(680s)저수위,(680t)암벽,(680u)상류면 보호층,(680v)배수 층,(680w)토질재료,(680x)기초암반,(680y)흙 댐, (680z)암석 댐,
(681)연료피복재,(682) 피복 관 또는 지 르 칼 르 이 관,
(683)핵연료 펠릿,
(684) 전압, (685) 전력, (686)전원의 출구, (687)전원의 입구,
(688)원자로건물 또는 격 납 건물 또는 콘크리트 방호벽, (688A)원자로건물,(688B)터빈건물,(688C)제어건물,(688D)보조건물,(688E)디젤발전기건물,(688F)핵연료건물,(688G)폐기물건물,
(689)연료 봉,(689a)연료 다발 조절,(689b)상단 노즐,(689c)연료 막대 조절,(689d)연료 막대,(689e)스프링 클립 조립,(689f)하단노즐,(689g)연료 봉 후단 캡,(689h)플 루 늄,(689i)홀드다운 스프링,(689j)우라늄 다 이 옥 시드 연료 펠 렛,(689k)가스 캡,(689l)지 르 칼로 이 크라 우 딩,
(690)초고압 변전소,(691)1차 변전소,(692)송전소 내부 중심에 7가닥의 강철선,(693)54가닥의 알루미늄선,(694) 연료호스,(695)송전선,(696)해양터널 횡단철도 변전소,(697)중간 변전소,(698)대단위 공장,(699)중 단위 공장,(700)2차 변전소, (701)소단위 공장,(702)가정(태양열 주택이 포함됨),(703)스 탭 발판 걸 고리,(704) 전선 균형용 케 인 크 의 초고압 전선 균형 애 자,
(705)핵폐기물처리 관 제조공정 분배 축,(706)소구경 전기저항 용접 관,(707)원재료,(708)언 코일 링,(709)레벨 링,(710)사이드 트리 밍,(711)절단과 대강 연결,(712)성형,(713)용접과 내외면 비 드 제거,(714)초음파와 와류 탐상시험,(715)용접부열처리,(716)공 냉,(717)수 냉,(718)진원성형,(719)절단,(720)평 평도 시험,(721)구조 관,(722)교정,(723)중간적재,(724)유도가열로,(725)에 스 알엠(S R M),(726)열간 절단,(727)면 취,(728)수압시험,(729)초음파와 와류탐상시험,(730)무게와 길이측정기,(731)육안 및 치수검사,(732)나사,(733)도 유,(734)일반 배관용,(735)아연도금,(736)아연도 강관,(737)보일러 튜브,(738)냉각 대,
(739)중 구경 케 이지 성형 전기저항 용접 관,(740)코일 마게 철판 원재료,(741)사이드 트라 밍,(742)케 이지 성형,(743)송유관,(744)초음파 탐상시험,(745)진원성형,(746)송유관(석유산업용 강관),(747) 대구경 강관,(748)엣 지 밀 링 기계,(749)3롤 밴 딩 기계,(750)포스트 밴 딩 기계,
(751)가 용접,(752)내면용접,(753)백가 후 징,(754)외면용접,(755)관 단 싸 이 징,(756)관 단,면 취,(757)X-선시험,(758)냉 간 익 스 팬 딩,(759)마 킹.포장.출하,(760)스파이랄 용접강관,(761)언 코일 링,(762)구조 관과 강관말뚝,(763)비 도복 배관용,(764) 외면 브라스트 크리 닝,(765)내면 브라스트 크리 닝,(766)내면도장,(767)1차 도장, (768)도장과 도복,(769)도복 장 강관,(770)초음파와 X-선검사,
(771)해양터널장치용 내부 전동차,
(772)원자력발전기 또는 터빈발전기,
(773)원자력발전기용 회전하지 않는 전기자코일,
(774)원자력발전기용 회전하는 회전자전자석코일,
(775)송전선,(776)송전철탑,(777)개폐시설,(778)보일러 또는 주전자,
(779) 증기파이프,(780) 증기 또는 강력한 기체의 고온고압 증기 출입구,
(781)생산전력 중앙제어실 ,
(782)송전측정실 트랜스 포 머 룸, (783) 보일러 작동 노심,
(784) 원자, (785) 전자,
(786) 증기건조기,
(787) 자석,
(789) 탈 기기,
(790) 수증기를 냉각시켜 물이 되게 하는 장치의 쿨 링 기기인 복수기,(790a)복수기 리리 이 프 식 안전밸브,(790b)복수기 안전밸브,(790c)복수기 몸체,
(791) 노심 또는 핵 연료 실,(791a)노심 지지 방 벽,(791b)핵분열,
(792) 드럼,
(793) 재 열기,
(794) 이중구조 블록탱크 집진기 또는 화력발전소의 집진기,
(795) 중유탱크, (796) 중유,
(797) 유조선 또는 화물선,
(798) 제어봉,(798b)제어봉 구동축,(798c)제어봉 압 지 강판,(798d)제어봉 심출 봉 강,(798e)제어봉 안내관,(798f)제어봉 구동축,(798g)제어봉 인장용 봉 강,
(799) 방사성 폐기물,
(800) 플루오르화 우라늄,
(801) 플루토늄,
(802) 비등 수형 원자로설비,
(803)가압 수형 원자로설비,
(804)기체 냉각 로 원자로설비,
(805)다목적 고온가스로 원자로설비,
(805a)1차 냉각계통이 수납된 페 블-베 드 형 고온가스로의 내부구조,
(805b)열 차폐 체,(805c)관통 구 마개,(805d)보조 순환장치,(805e)제어봉 저장 통,(805f)홀드다운 플레이트,(805g)제어봉 구동장치,
(805h)보조 순환장치,(805i)보조 열교환기,(805j)노심 지지 구조물,(805k)프 리 스 트 레 스 트 콘크리트 원자로용기,(805l)P C R V 안전밸브,(805m)연료 투입구,(805n)He 순환장치,(805o)P C R V 지지 구조물,
(805p)페 블-베 드 형H T R-모듈 원자로의 단면구조,(805q)구형연료배출관,(805r)붕소 구 정지 계,(805s)반사체영역제어봉,(805t)구형 연료 투입 관,(805u)급수관,(805v)주 증기관,(805w)가스순환기,(805x)고온가스배관,(805y)표면냉각기,(805z)단열재,
(806)신형 전환로 원자로설비,
(807)증기 탑,
(808)격 납 용기,
(809)정화장치,
(810)증기발생기,(810a)터빈발전기로 가는 스팀출구,(810b)급수노즐,(810c)2차 냉각수,(810d)진동 억제 봉,(810e)세관지지강관,(810f)세관덮개,(810g)세관 다발, (810h)세관강판,(810i)분리강판,(810j)1차 측 출구,(810k)1차 측 입구,(810l)열 교환세관,(810m)냉각수 유로,(810n)증기발생기 세관,(810o)증기발생기 내부동체,
(811)원자력수력발전설비 부,
(811a)원자력발전 핵폐기물 처리부,(811b)전력 생산 제조 부,(811c)건설기계의 교통운송 부,(811d)동력을 전달하는 동력전달 부,(811e)원전가동 설비안전 통제 관리생산 전장 부,(811f)전자제어조절장치 건설기계조절 부,(811g)나사조절 부,(811h)재해차단예방조절 부,(811i)산불 자연재해 사전방지조절부,(811j)황사 자연재해 사전방지조절 부,(811k)폭설 자연재해 사전 방지조절부,(811l)폭서 자연재해 사전 방지조절 부,(811m)태풍 자연재해 사전 방지조절 부,(811n)홍수 자연재해 사전 방지조절 부,(811o)가뭄 자연재해 사전 방지조절 부,(811p)산사태 자연재해 사전 방지조절 부,(811q)어도 터널 어패류 산란 조절 부,(811r)어도 터널 내부 어패류이동조절의 어패류 이동조절 부,(811s)어도 터널 어패류 산란조절 부에 연결한 댐 수문 통제 조절 부,(811t)지하수와 해양 심층수 용량 공급 조절을 구성하는 지하수와 해양 심층수 용량 공급조절 부,(811u)공유지 및 공유수면 매립처리조절 부,(811v)각개의 필지를 형성하고 구분화된 지번으로 우편번호를 확정 후 우편 업무 수행을 마련한 우편 업무운송조절 부,(811y)영토분쟁해소조절 부,(811z)우주발전 및 핵 방사능 오염방지의 인공위성조절 부,(811aa)전자센서밸브 나사조절 부,
(812) 농축우라늄 또는 우라늄 235,
(813)원자로압력용기,
(813a)압력 용기 덥 개,(813b)압력용기 상단 덮개 하부,(813c)압력용기 원통 덥 개,(813d)압력용기 원통 덥 개 상단,(813e)압력용기 원통 덥 개 상단부,(813f)입구노즐,(813h)디 플 렉 토 철판,(813i)공기 쳄 버실,(813j)버 플 철판,(813k)물,(813l)스 프 레이션 풀,(813m)밴 트 파이프,(813n)연료조립,(813p)압력용기 원통 덥 개 상단,하단조립부,(813q)드라이 벽,(813s)압력용기 원통 덥 개 하단조립부,(813t)압력용기 원통 덥 개 상단조립부,(813v)연료봉 철판,(813w)출구노즐,(813y)노심 지지조립,(813z)제어봉 안내관 조립 대,
(814) 가압기,(814a)스프레이노즐,(814b)가압보호용기,(814c)가압조절밸브,
(814d)스팀경계,(814e)가압용기 몸체,(814f)냉각수입구,(814g)가열기히터,
(815) 원자핵,(815a)핵 자, (815b)핵 력,
(816) 냉각재 또는 1차 계 나트륨 또는 2차 계 나트륨,(816a)냉각재입구 노즐, (816b)냉각재출구 노즐,
(817) 소음기,
(818) 기수분리기,
(819)유압탱크,(819a)열판,(819b)유면계(오일 포트 장),(819c)드 레 인(배 유 구),(819d)탱크 밑판,(819e)격판(버 플 플레이어),(819f)석 션 스 트레이너,(819g)위판 패킹(내 유 고무),(819h)흡입구 패킹,(819i)흡입구 뚜껑,(819j)탱크위판,(819k)에어 블 리 저 겸 주유구(콤비네이션 에어 블 리 저),(819l)탱크각판,(819m)청소 창 패킹(내 유 고무),(820)유압모터,(821)유압펌프,(822)로드 앤드 피스톤 시일,(823)피스톤 시일,(824)부 프 시일,(825)웨 어 링,(826)스 라 이 드 링,(827)디 유 부시,(828)오 링,(829)로드 시일,(830)백업 시일,(831)로드 시일 ＆ 백업시일,(832)다스 트 시일,(833)핀 다스 트 시일,(834)다스 트 위 프 시일,(835)부프링,(836)피스톤 링,(837)다스 트 링,
(838)고속증식로 원자로설비,
(839)등 변산 형 강 또는 부 등 변 산 형 강,(840)기상관측장비 레 이다,(841)원유(기름),(842)해저광물뜰채바스켓,(843)심해저탐색 수중조명,(844)버킷 또는 빠 레 트,(845)스 큐 르 드릴의 심해저 굴착장비용 굴착기,(846)앙 카 대체용 쇄기 크랭크,(847)착암기 또는 네트,(848)엑 츄 레 이 트,(849)해저광물 뜰채용 공기주머니,(850)턴 박 클,(851)교각용 레벨기초 밑 받침대,(852)고정용 쇄기 받침목,
(853)아 아크 용접기 또는 아르곤용접기,(853a)용접 연결선인 케이블,(853b)용접 각 장,(853d)홀더,(853e)용접봉,(853f)피복 제,(853g)모 재,(853h)용접금속, (853i)심선,(853j)가스실 드,(853k)아 아크,(853l)용융 지,(853m)피복아 아크 용접방식도,(853n)직류 아 아크 용접기,(853o)세 렌 정류 식 직류 아 아크 용접기,(853p)교류 아 아크 용접기,(853q)가동 철심형 교류 아 아크 용접기 방식도,(853r)가동 선 륜 형 용접기 방식도,(853s)조정핸들,(853t)가 포화 리 액 터 형 교류 아 아크 용접기,(853u)불활성 가스 텅 그 스 텐 아 아크 티 그 용접 방식도,(853v)알 미 늄(Aluminum) 제소형 모터 뽀 우드(Runabout)의 밑바닥을 (T IG) 용접 방식도,(853w)알 미 늄 합금 제 탱크의 MIG용접 방식도,(853x)슬래 그,
(854)파이프 랙,
(855)불도저,(855a)크 롤러형,도 저,(855b)휠 형,도 저,(855c)스트레이트,도 저,(855d)딜 터,도 저,(855e)앵글,도 저,(855f)힌 지,도 저,(855g)트리 도 저,(855h)레 이 크 도 저,(855i)하 이 드 릭 리 퍼,
(855j)도 저의 동력전달장치,
(855k)캠 기타 장치용 흡입펌프,(855l)기관,(855m)냉각계통,(855n)최종기어장치,(855o)기동 륜의 스프로킷, (855p)유동 륜의 아이 들러,(855q)조항클러치,
(856)굴 삭 기,(856a)백호,(856b)파워 셔 블,(856c)드래그 라인,(856d)어 스 드릴,(856e)크 램 셸,(856f)스키 머,(856g)리 퍼와 루터,
(857)로 더,
(858)지게차,
(859)스 크 레 이 퍼,(859a)견인 식 스 크 레 이 퍼,(859b)동력 식 스 크 레 이 퍼,(859c)에어 프 런,(859d)이 젝 트,(859e)볼,(859f)커 팅 테지,
(860)덤프트럭,(860a)트레일러,
(861)크레인 또는 기중기,(861a)기중기 구조의 각부명칭,(861b)익 스 턴 트 케이블,(861c)하중 계,(861d)브 리 들,(861e)붐 벡 스 들,(861f)메 이 로프,(861g)붐호이스트로프,(861h)상부프레임,(861i)하부프레임,(861j)호 이 스 트 로프,(861k)전방드럼,(861l)중간드럼,(861m)후방드럼,(861n)균형추,(861o)케이블 크레인,
(861p)기중기의 6개 전부장치,
(861q)갈 쿠 리 (Hook)장치,(861r)조개(Clamshell)장치,(861s)삽(Shovel)장치,(861t)긁어 파기(Drag line)장치,(861u)도량파기(Trench hoe)장치,(861v)기둥 박기(Pile driver) 장치
(862)모터 그 레이더,(862a)머플러,(862b)기관 플라이 휠,(862c)냉각팬,(862d)전후 전달 러 치,(862e)트랜스 러 치,(862f)고정기어식 변속기,(862g)주차브레이크,(862h)차등기어,(862i)트랜스 퍼 카 아 중성기어감속기,(862j)디스크 브레이크,
(862k)그 레이더의 외부구조,
(863)롤러,(863a)진동 롤러,(863b)소일 콤 팩 터,(864)노상 안전기,
(865)콘크리트 배 칭 플랜트,(865a)콘크리트 호 퍼,(865b)운반장치 차 징 차트,(865c)조정판,(865d)물 멧 처,(865e)대칭 호 퍼,(865f)스케일 프레임,(865g)저장 빈,(865h)종합벨트 컨베이어,(865i)턴 헤드,(865j)버킷 엘 리베이트,(865k)운반 시멘트 차드,(865l)조정판,(865m)기록장치,(865n)원형믹서,(865o)시멘트 사일로,(865p)스 쿠 르 컨베이어,
(866)콘크리트 피니 셔,(866a)스 쿠 르 스프레이,(866b)제1 스 크 리드,(866c)진동기,(866d)피니 싱 스 크 리드,(866e)가이드 롤러,(866f)가이드레일,(866g)마무리면,
(867)콘크리트 스 프 레 더,(868)콘크리트믹서트럭,(869)콘크리트펌프,(870)아스팔트 믹 싱 플랜트,(871)아스팔트 피니 셔,
(872)아스팔트살포기,(872a)동력 피동펌프,(872b)밸브제어,(872c)분무 바,(872d)버니,(872e)버림 관,(873)골재 살포기,
(874)쇄석기,(874a)자 이레 토리 크러 셔,(874b)새시프레임,(874c)피 더 호 퍼,(874d)진동 그리스 리 피터,(874e)파쇄 헤드 부의 1차 조 크러 셔, (874f)파쇄 실 후미의 2차 조 크러 셔, (874g)진동스크린,(874h)드럼엘리베이터,
(875)공기압축기,
(876)천공기,
(877)항 타와 항 발기,
(878)사리 채취기,
(879)준설선,
(879a)펌프준설선,(879b)버킷준설선,(879c)스 팟 드 시어,(879d)운전실 또는 조정실,(879e)레 드 시어,(879f)스 팟 드,(879g)블 러 스 트 탱크,(879h)블 러 스 트펌프,(879i)레 드,(879j)기관실,(879k)디 퍼 준설선,(879l)그래 브 준설선,(879m)버킷구동장치,(879n)후부 스 팟 드,(879o)스 팟 드 윈치,(879p)버킷,(879q)좌우의전부스 팟 드,(879r)디 퍼,(879s)윈치,(879t)닻줄창고,(879u)벨트 컨베이어,(879v)그래 브,
(880)별도의 지정 건설기계,(881),(882)파일드라이버,(882a)붐, (883) 디젤파일 해머, (884)증기 해머, (885)유압크레인,(885a)피스톤 모터,
(886)타워크레인,
(886a)가 이 데릭 구조의 각부명칭,
(886b)가 이 데릭,(886c)주 측,(886d)붐,(886e)붐 호일,(886f)턴 버클,(886g)공망,(886h)3각 데릭,(886i)주 측,(886j)붐,(886k)붐 호일,(886l)레 크,
(887)드 레 그 크레인,
(887a)드 레 그 크레인의 구조,
(887b)호 이 스 트 케이블,(887c)덤 프 케이블,(887d)버킷,(887e)하부 붐,(887f)레 터 렉 트 케이블,(887g)케이블 롤러,(887h)붐 케이블,(887i)케이블 롤러,(887j)붐 호 이 스 트 케이블,(887k)케이블드럼,(887l)케이블드럼,(887m)평행 추,
(888)클 램 셀 부착물을 가진 크레인,(888a)홀딩 라인,(888b)개폐라인, (888c)클램 셀 버킷,(888d)상부프레임,(888e)하부프레임,(888f)랙 라인,(888g)로프가이드,(888h)붐 탠 던 트,(888i)브 리 들,(888j)붐 호 이 스 트 로프,(888k)전방 드럼,(888l)후방드럼,(888m)평행 추,
(889)머 캐 덤 롤러,(890)탠덤 롤러,(891)탬 핑 롤러,(892)타이어 롤러,(893)트랙터,(894)트레일러,(895)램,(896)리드,(897)냉각수 냉 크,(898)파일,(899)헬밋,(900) 연료펌프,(901)캠,(902)연료탱크,(903)기동장치,(904)붐 전 핀,(905)캐 드 워 크,(906) 어댑터,
(907)어군탐지기 소나,
(908) 원유시추용 드릴 링 머 신의 로터리 테이블선반기계,
(909)망간 단 괴,
(910)뜰채그물,(911)흡입채집기계,(912)해저광물채취로봇,
(913) 잠망경,(914)고무풍선,(915)와이어로프 체인,
(916)이중구조 배관라인 자동 공 압 식 밸브운송장치,
(917)코 아 드릴,
(918)비이오 피 이 스키 드,(919)고무타이어,(920)버너 붐,
(921)유해적조 미생물,(922)무공해의 천연가스,
(923)공기노즐,
(924)광물채집 뚜 레 박,(925)상승기류,(926)하강기류,(927)황사먼지 또는 비누거품용 황토혼합물,
(928)이중구조블록탱크 관 교각,
(929)핵폐기물처리 이중구조블록탱크 관 교량,
(930)화학물질,(931)시멘트,(932)어족자원 확보용 그물,
(933)방재 선 또는 방제 선,(934)원유시추선,(935)시 이소 핸들용 지렛대,
(936)시추공,
(937)이중구조블록탱크 관 교량,
(938)전극 판 아노 드,(939)냉각공기방울,(940)비트,
(941)핵폐기물처리 이중구조블록탱크 해양터널 교통장치,
(942)타워크레인 시 이소 크레인 붐 대.
(943)해양 시 이소 수력발전소,
(943a)수력발전 장치용 펌프 수차,(943b)대형수력발전 장치용 펠 톤 수차,(943c)대형수력발전 장치용 프란시스 수차,
(944)대형수력발전기 시 이소 수력발전설비,(944a)수력발전장치용 회전속도 검출기,(944b)교류발전기의 전동기 계 자 코일에 전류를 공급하는 직류발전기용 여자기,(944c)고리 관 깃을 밀어 넣는 기기,(944d)상부 회전 축 받 이,(944e)회전 축 받이를 밀어넣는 기기,(944f)고정자 코일,(944g)고정자 프레임,(944h)중심부 고정자,(944i)저속냉각기,(944j)제동장치 링,(944k)제동장치 또는 잭,(944l)저속 회전축 받 이,(944m)엔진발전기,(944n)터빈 회전 축 받 이,(944o),(944p)회전 축 받 이,(944q)날개바퀴,
(945)지중선로 방재노즐 또는 공유매립지,
(946)해저선로배선 또는 공유수면매립지,
(947)부침조절장치용 콘 테 이 너 내부용의 공기투입용 고무 튜브,
(948)용광로,(948a)용광로의 노 재 벽돌,
(949)선체의 잠수 위치조절 이동장치와 잠수 부력 조절용의 납덩이 추,
(950)온도 자동감지센서용 열전 대 온도계 스위치,
(951)유해적조 흡입 집진기용의 뜰채 바스켓 또는 빠 레 토,
(952)물의 위치에너지조절장치용 무동력펌프의 수격펌프,
(953)군사장비 잠수함,
(954)레이저 컴퓨터 절단기,
(955)핵 폭탄보다 더 강한 무기의 평화 보존형 이미지 포 토 샵,
(956)수해조절장치,
(957)해양 풍력발전소,(957a)풍력발전기용 풍차,
(958)기상예보관측 레이더,
(959)삿대 대체 사용 품 돛,
(960)인공위성 일기 예보 정보 수집기계,
(961)액체연료로켓,(961a)연소실,(961b)노즐,(961c)프로 펠 렌트 분사,(961d)컨트롤 밸브,(961e)연료펌프,(961f)연료탱크,(961g)산화제 펌프,(961h)산화제 탱크,(961i)터빈을 가동시키기 위한 가스발생장치,
(962)고체연료로켓,(962a)프로 펠 렌트,(962b)점화기,(962c)연소실,(962d)단열재,(962e)노즐,
(963)평화주권선,(964)석유,(965)다이아몬드,(966)철,(967)주석,(968)석탄,(969)농기구,
(970)일체의 건설기계,(971)군수물자,(972)국경지역,(974)함선,(975)잠수함,
(976)전투기,(977)함정,(978)핵 항공모함,(979)유류송유관,
(980)가스배관,(981)금과 은,(982)핵연료,(984)유리,(985)마노,(986)호박, (987)진주,(988)위령탑,(989)국제연합국가,(990)국제연합기구,(991)원폭,(992)수소폭탄,(993)침몰선박,(994)스위치 작동용 추와 감지센서용의 무게감량용 납덩이 추에 잠수원 잠수 부력 조절용의 납덩이 추,(995)잠수정,(996)침몰선박,(997)토석채집 장의 토석매립 체,(998)연안선수역,(999)공유지 및 공유수면 매립처리 조절장치,
(1000)한반도 중심지 또는 기준점,(1001)원형 3000 칸 형태로 형성한 공유지 및 공유수면매립설계장치,(1002)군사분계선,(1003)휴전선,(1004)휴전 원,
(1005)증기발생기의 증발기 구조,
(1006)증기 출구 관,(1007)증기 출구 실 동체 외관,(1008)습도계 관,(1009)증기 출구 관,(1010)액면 계관,(1011)나트륨 냉각 계 입구 관,(1012)상부 평판,(1013)연결 봉,(1014)냉각수 누설 검출 관,(1015)2차 아르곤가스관,(1016)스커트,(1017)나선형 열교환 세관,(1018)나트륨 냉각재 출구 관,(1019)반구 형 하부동체,(1020)익 수 관,(1021)덥 개,(1022)동체 외관,(1023)나트륨 통로,(1024)나트륨-물 반응 생성물 방출 관,(1025)내관,(1026)모니터 링 입구 관,(1027)급수 입구 관 판,(1028)급수 입구 관,(1028a)급수 입구 실 외관,
(1029)핵기지,(1030)해체시설,(1031)피트의 잠정저장,(1032)M O X가공,(1033)MOX연소로,(1034)폐기물의 혼합 유리 고화 체,(1035)고준위폐기물,(1036)최종처분장,(1037)장기저장,(1038)깊은 지하동굴,(1039)플루토늄처분을 선택할 수 있는 경로,(1040)핵무기해체에서 플루토늄처분과정,
(1041)국경선,(1042)남방한계선,(1043)북방한계선,(1044)베타 적 경제수역, (1045)한중 잠정조치 수역,(1046)중국이 주장하는 직선기선,(1047)한국이 주장하는 E E Z,(1048)일본이 주장하는E E Z ,(1049)반경 1200 k m,(1050)직 경 2400 k m,(1051)한일 중간 수역,(1052)미래의 지구촌 공유지 및 공유수면매립설계,
(1053)한반도 중심지의 1°에서부터 360°의 360 칸으로 세분하여 각개의 필지,(1054)잠수정,(1055)어패류산란장,(1056)엔 엘 엘(N N L),
(1057)연안선 수역 갯 뻘 지역의 조간대,(1058)월 창(MOON),
(1059)핵분열,(1060)초전도발전기,(1061)초전도발전선,(1062)초전도체,(1063)전자기력,(1064)자기력,(1065)자기부상 고속도로,(1066)자기부상 열차,(1067)반도체,(1068)신소재,
(1069)원자로 노 재 벽돌,(1070)이산화 우라늄,(1071)연구로,(1072)동력 로,(1073)원자로증기 취 출 계통,(1074)드 레인 펌프,(1075)가열장치,(1077)핵연료공업주기,(1078)인명구조용 복원력을 구비한 선박,(1079)전자기 추진 선의 방식도, (1080)신소재의 팽 창 압 파쇄 제,(1081)고 흡수성 수지,(1082)아이 씨 이(I.C)회로,반도체와,신소재와,로 타리 실린더(랙＆ 피니 언 형 -N R P, 620)
(1083)반경 1200 km,(1083a)남북도로연결 북한착공식 건설현장,(1083b)남북도로연결 남한착공식 건설현장,(1084)지뢰 탐지기,(1085)지뢰 제거기,(1086)지뢰,(1086a)대전차지뢰,(1086b)M 14 대인지뢰,(1086c)M 16 A1대인지뢰,(1086d)수 총류탄 및 포탄,(1086e)소구경탄,(1086f)철도관련 부수기재,(1086g)M 15 대전차,(1086h)M 16 대인(도약 식),(1086i)폭풍지뢰(발목 지뢰),(1086j)M 19 대전차,(1087)동물 이동통로,(1088)지뢰제거 폭(58m),(1089)지뢰제거 제1공병여단,(1090)용지보상 서울지방국토관리청,(1091)포장도로 서울지방국토관리청,(1092)육군건설단,(1093)리 노,(1094)마인 브레이크,(1095)불(화력),(1101)거센 풍랑 파 도,(1102)티베트 고 원,(1103)몽 고 사막,(1104)만주벌판,(1105)텐 진 산맥, (1106)제트기관의 구조,(1106a)공기 흡입구,(1106b)연료 공급 구,(1106c)관, (1106d)압축기,(1106e)연소실,(1106f)터빈,(1106g)노즐,
(1107)제트기관이 나르는 작동방식,(1108)비행기,(1109)왕복운동 기관의 구조,(1110)비행기 점검모습,(1111)바이킹 1호 탐사기,(1112)지구,(1113)화성, (1114)우뭇가사리,(1115)화성 착륙선,(1116)태양,(1117),(1118),(1119),
도크 선체갑판 데 크 상단부(S D U),도크 선체갑판 데 크 중심부(S D M),도크 선체갑판 데 크 하단부(S D L),기계실 바닥표면 상단부(M F G U),기계실바닥표면(M F G), 기계실 바닥표면 하단부(M F G L),지표면 상단부(G L U),지표면(G L L),지표면 하단부(G L D), 적도전선(E L), 북극(N P), 남극(S P),
경도(longitude;ld로 칭함),위도(latitude; l t로 약칭),
분사노즐 상단부(A), 분사노즐 몸체(B), 분사노즐 하단부(C),
도로지표면 상단부(G L U), 도로지표면(G L L), 도로지표면 하단부(G L D),
펌프 몸체(PB), 펌프 몸체 수직 라인(P P V L), 펌프 몸체 수평 중심 라인(P B C L)
밸브 몸체 중심선(V B C L or P B C L),방화수수면 하단(W L D),방화수수면(WLL), 분출 수면(W L U), 해수면 상단부(S L U),해수면(S L L),해수면 하단부(S L D),
기계실 외부(Out of Mer chi ne r y Room;O M R)기계실(Merchinery Room ; M R)
기계실 내부(In of Mer chi ne r y Room ; I M R)(1) Dispensing device of reactor facility for nuclear waste disposal of marine nuclear hydroelectric power plant with double structure block tank dust collector.
(2) a control box of a mouth type multistage pump control panel, (3) a suction merging pipe, (4) a joining pipe, (5) a pump isolation valve, (6) a pump backflow prevention check valve, (9) double structure nozzle hose and double structure fire hose, (10) double structure firefighting nozzle,
(10a) Nominal name "50", (10f) Nominal "40", (10c) Nominal name " (10k) " 65x50 &quot;, (10l), " 100x90 " 50 x 40 "(10 m)," 40 x 25 "
(11) Fire nozzle frame, (12) Sensing sensor, (13) Cogs, (14) Piping or nozzle piping, (15) Clearance, (16) Tilt angle, (16a) Blade propelling angle, (19) wire rope, (20) machining hole, (21) shaker lug or portable lug, (17) disaster prevention waterway,
(22) You or the various forms of jigs ("

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(23) Shackle, (24) Bolt, (25) Nut, (26) and Shash (27) (28) Flange or barrel of the hull Barking tank Inlet inlet Flange stopper for blocking access to foreign objects Wire mesh, (29) Coupling ring, (32) Gasket or rubber packing, (33) Nozzle hose equipment holder, (34) Correction tank or safety tank, (35) Coupling ring screw, (42) high performance submersible pumps, (37) pump aberrations, (38) discharge jet, (39) water film or curtain water film, (40) fire flame, (41) Basket, (43) double vinyl tent or bag, (44) elbow or tee elbow, (45) fire pump,
(46) Power supply power supply, (47) Inverter, (48) Inverter, (49) Expansion pointer, (50) Internet network, (51) (55) a wireless communication control module of a short range wireless communication device, (56) a display, (57) an electronic control device, (58) Switch input circuit, (59) Electronic control unit, (60) Electronic control unit DiSEIC, (61) Overcurrent breaker brake, (62) Power supply, (63) Display screen, (64) Analog input, (65) Digital input, (66) Switch main switch button for each pump on-off control, (67) Auxiliary switch button, (68) Computer network input, (69) (70) memory, (71) power line, (73) disaster mixer mixer, (74) double tube block piping line, (74a) inner block piping, (74b) outer block piping , (80) air compressor, (81) mobile service, (82) portable terminal, (83) low-pressure shut-off valve, (76) solenoid valve, (84) Emergency valve, (85) Pressure reducing valve, (86) First pressure check sensor, (87) Second pressure check sensor, (88) Electronic control unit, (89) , (89b) Vertical Upper Tube, (90) Ball Valve Handle, (91) Drencher Head, (92) Valve Inner Disc, (93) Emergency Siren, (94) 95) Telephone pole, (96) Transformer, (97) Reducer brushing socket, (99) Flashing warning light, (100) (102b) a thermal current generation, (102c) a thermoelectric power generation, (102d) a measurement point, (102e) a reference point,
(103a) a thermocouple thermometer switch, (103a) thermocouple thermometer configuration, (103b) side on limit, (103c) temperature 1, (103d) scale of the ammeter temperature, (103m) potential difference occurs, (103h) thermocouple and compensation wire, (103i) side on contact, (103j) thermocouple, (103k) compensation contact, (103l) (103n) Type of thermocouple, (103o) No protection tube, (103p) Protection tube, (103q) High temperature object, (103r) (103v) Stainless metal sheath, (103w) Platinum side on resistance with protective pipe, (103x) Mica, (103y) Platinum wire, (103z)
(104) Level or pressure switch, (105) Flow meter for flow rate check, (106) Power motor control module, (107) Prevention switch or switch box, (109) air hose, (110) air hose connection nipple, (111) sprinkler head, (112) reflector, (113) Or a water supply valve, (115) an underground pipe, (116) a main tower or a pylon or a block pylon, (117) a rich, (118) a rich circuit breaker,
(120) Alarm valve, (121) Test valve, (122) High pressure water pump, (123) Lever block, (124) Fire extinguisher (fire extinguisher a, fire extinguisher b, fire extinguisher c, fire extinguisher D, fire extinguisher e, fire extinguisher f) 125) chain,
(126a), a weighted accumulator (126b), a spring loaded accumulator (126c), a breather type accumulator, an accumulator (126d), and a hydraulic device (126e) 126f pressure oil, 126g rubber bag, 126h fluid chamber, 126i port valve, 126j drain plug, 126k single cylinder, 126l double acting cylinder,
(127) Piston or piston pump,
(128) fire extinguisher fixing pins, (129) bolt fasteners, (130) lifesaving tubes, (131) ropes, (132) containers, (133) Anchor bolts, (134) (137) Tugwing winch for control of water gate opening and closing with a rope or a chain wound on the fuselage, (138) cylinder, (139) (142) Vane pump or guide vane, (143) Impeller, (144) Daisy pump, (145) High pressure storage tank, (146) Propeller pump or propeller , (147) multi-stage screw air compressor and screw pump, (148) plunger pump, (148b) four axis plunger pump, (148c) radial plane pump, (149) 150) Disaster control pump control system or control system, (151) Oil cooler, (152) Manhole cover, (153) Hatch cover, (154) Fire door, (155) Gland packing, (156) (157) jet pump, (158) loess, (159) fire engine, (160) indoor fire hydrant (161) Automatic fire hydrant, (162) Hose, hanger, (163) Smoke gas, (164) Carbon dioxide of incombustible gas, (165) Reinforced steel plate, (166) Match fire (a) (167) screw tabs, (168) water inlet or fire fighting piping lines, (169) watertight holes, (170) internal coolers, (171) exhaust gas, (172) (173) gas burner or burner, (174) carbon dioxide gas, (175) halon gas, (176) helium gas, (177) pyrotechnic paraffin tape, (178) non-ignitable wire, 179) Fire hydrant (single spherical a, double spherical b), 180 plastic bag, (181) disaster air piping line, (182) rear cooler, (183) limit switch or limit switch, (184) (188) spark lighter, (188) lifeboat, (189) head tank for pressure tanks, (190) flexible high pressure hose or Hydraulic hoses, (191) inlet or hydraulic pipes,
(193) a snap ring, (195) a fan, (196) a body frame, (197) a body front reinforcing steel plate, (198) a rotating shaft, (199) (201) a stator assembly, (202) a casting frame for motor protection, (203) a terminal box, (204) a lifting bolt,
(205) terminal box cover, (206) rear rotating shaft holder, (207) rear reinforcing iron plate, (208) air gap, (209) fan cover or protective cover, (210) rotor iron core, Stator core, (212) stator winding,
(213) an activated film gas hold-up device,
(214) filter,
(215) an exhaust tower,
(216) a radioactive storage tank,
(217) a filter,
(218) a radioactivity meter,
(219) Monitoring posts,
(220) drums,
(221) isosceles-type steel,
(222) uranium mines,
(223) Yelocene,
(224) nuclear waste, (224a) solid nuclear waste, (224b) liquid nuclear waste, (224c) gas nuclear waste,
(225) Reinforced concrete mats,
(226) an engine generator, (277) a turbine spindle receiver,
(228) reprocessing plant,
(229) Conversion plant,
(230) Concentration plant,
(231) Conversion · Processing plant,
(232) Searchlight,
(233) Refineries,
(234) the air dryer, (235) the embers, (236) the flames, (237) the pillar,
(238) Double pipe structure of nuclear waste disposal of nuclear hydroelectric plant Block Piping line Control shaft,
(239) Recirculation pumps,
(240) Pressure Control Pool,
(241) feed pump,
(242) a circulating water pump or a primary main cooling system circulation pump,
(243) coolant pump or secondary main cooling system circulation pump,
(248) crank, (249) linkage, (250), (251) speed reducer, (252) bucket, (253) 256) cable car, (257) air valve, (258) safety valve, (259) automatic valve, (260) drain valve, (261) (264) pump aberration, (265) main valve, (266) forest, (267) turbine or rotating blade, (268) flywheel, (269) suction port, (270) (272) Pump power supply, (273) Control power supply, (274) Emergency operation circuit, (275) DC power supply circuit, (276) Micro control unit, (277) (281) M / C drive signal contact output circuit (280) Motor overload signal input circuit (281) Inverter operation data input / output circuit (282) Pressure sensing circuit (283) External state input circuit Outlet pressure transmitter, (285) suction / discharge switch, (286) bed frame,
(287) a cooling water or cooling water inlet, (288) an oil separation tank, (289) an intake valve, (290) a gear drive, (291) a dryer, (292)
(293) Drain gate, (293b) Rolling gate, (293c) Design water level, (293d) Water surface, (293e) Anchor section fixing section, (293f) Fixing section, (294) (A), (b), (c), and (d) of the water tank, (295) the tank tank, (296) the gate valve, (297) the return valve, (298) the bush or throttle bush, 300 is a vibration alarm device 301 is a drain, 302 is a shut-off valve, 303 is a high-pressure ball tank, 304 is a pumping pump, 305 is a butterfly valve for controlling flow, 306 is sodium bicarbonate, (318) a hood valve, (313) a pumping port, (314) a pumping pump, (308) a Centrifugal Pump, (309) (316) a ball pushing device, (317) a flexible carriage, (318) a float switch, (319) a rear wing, (320) a scoop valve, (321) (332) jet pump, (326) gear pump, (327) wing pump, (330) separation chamber, (331) jet pump, ) Magnet Switch, (332) Nuclear Waste Gun Water, (333) building or large building, (334) balance, (335) unbalance, (336) indoor fire pump, (337) rotary pump, (338) rotary rotator, (339) priming, Suction pump, (341) axial flow pump, (342) mixed flow pump, (343) viscous pump,
(344) Double structure block of nuclear hydroelectric power plant.
344b and 344c and 342b and 344c and 342b and 344c and 342c and 342c and 342c and 342c and 342c and 342c respectively correspond to the block tank 344b and the BC tank 344b, (344f) block tanks of side (A), (344h) and (AM) sides, (344i) block tanks of (A) (ABC), triangular block tanks, (344l) bottles (ARS), triangular block tanks, (344m) AQT, triangular block tanks, (A), a triangular block tank 344o as an axis ANW, a triangular block tank 344p asymmetry triangle block tank 344q a DE tank side block tank 344r (BD) side, (344s) a block tank on the side of the other (CE) side,
(345) gland, (346) main liquid lanthanum ring packing, (347) lantern packing, (348) double gland packing, (349) droplet bush attaching packing, (350) (352) Water jacket attachment packing (352) Cooling water inlet or cooling water piping line (353) Sleeve inner cooling jacket water jacket packing (354) Inner cooling chamber of sleeve, (355) A cooling chamber,
(357) Distribution block of double structure block tank manufacturing process of nuclear hydroelectric power plant, (358) Gland packing, Eight strand weaving, (359) Sealing bag, (360) Grid weaving, (361) 362 O ring, 363 Stop, 364 Middle ring, 365 Sealing cross section, 366 Seat ring, 367 Passive ring, 368 Quenching, 369 Coupling (371) a handle, (371) a handle, (372) a bulkhead, (373) an axial load in the axial direction, (374) a pressure acting on the impeller front, (376) the pressure acting on the back,
(382) rear bearing, (384) rear wing, (385) rear wing installation (377) suction pressure, (378) back pressure, (378) balance hole, (386) Impeller arrangement of multi-stage pump, (387) Order separation, (388) Order coupling, (389) Water hammer action, (390) Axle rod, (391) (392), (393) Water hammer, (394) Rooftop fire fighting cab or crane cab, (395) High and low mountains, (396) Pulse Encoder, (397) Spike (398), (399) DISC Brakes, (400) Tank for Combined Breakwater, (401) Safety Rope Net, (402) Air Compressor (Air Chamber) or gas chamber,
(403) valve, (404) valve body, (405) valve housing, (406) sluice valve, (407) packing press, (408) packing press nut, (409) valve, 414) a handle, 411 a handle nut, 412 packing, 413 a wedge gate valve, 414 a single valve, 415 a flexible valve, 416 a parallel slide valve, 417 a double disk (418) a stop valve, (419) a flange type globe valve, (420) a flange type angle valve, (421) a body, (422) a main body, (423) (425) valve seat, (426) valve handle, (427) handle, (428) covering ring, (429) packing press ring, (430) packing press, (431) 432) Dowel Bolts, (433) Packing Presser Bolts, (434) Pins, (435) Nuts for Bushing Bolts, (436) Nuts for Packing Pillow Bolts, (437) Handle Nuts, (438) ) Washers, (440) packing,
(441) a gasket, (442) a valve press, (442a) a plane press, (442b) a conical press, (442c) a spherical press, (442d)
(443) Cock 1 type (444) Cock 2 type, (445) Bronze threading main cock, (446) Cast iron flange type gland type, (447) Bronze threading gland cock, (448) 449) round cock, (450) handle cock,
(451) check valve body, (455) hotplate, (456) disk, (457) disk pin, (458) plug, (451) check valve, (452) swing type check valve, (469) Pilot valve, (461) Secondary side sensing hole, (463) Diaphragm, (464) Pilot valve, 465) Exhaust flue, (466) Main valve, (467) Main valve spring, (468) Adjusting spring, (469) Otto pressure regulating valve, (470) Screw type pressure regulating valve (a) Flanged pressure regulating valve (b)
(472) Safety valve, (473) Spring type safety valve, (474) Relief type safety valve, (475) Steam type poof spring type safety valve, (476) Valve, (478) auto water dispenser, (479) auto dispenser (a), (480) auto level regulator, (481) air vent valve, (482) (484) Refrigerant Stop Valve, (485) Refrigerant Stop Valve, (486) Packed Valve, (487) Packed Valve, (488) Packed Valve, (491) expansion valve, 491 diaphragm expansion valve, (491) bellows type expansion valve, (492) rich valve, (493) pressure regulating valve for refrigerant, (494) solenoid valve, (495) (496) water faucet, (497) exponent line, (498) before fraction, (499) ball tap,
(500) Lightning rod for hull safety preservation of marine nuclear power plant,
(501) V-shaped strainer (503) V-type strainer (504) Tube fixing metal (505) Tongue buckle part A support band 506 a support band 507 a roller support band 508 a vertical tube casting band 509 a steel spectacle band 510 a bottom band 511 a trap,
(512b) Fomatsu long fuselage faults, (512c) Long fuselage faucets, (512d) Fuselage with long fuselage, (512e), short (512e) Fomatsu fuselage with short transverse (橫) faults, (512f) type faucets, (512g) all purpose faucets, (512h) , (512j) sanitary faucet, (512k) bath water mixture before,
(513) Sanitary flash valve, (514) Parallel type bath faucet, (514a) Transverse material faucet, (514b) Transverse material faucet, (514c) (514f) Chemical tank faucet (514f) Chemical tank faucet (514g) Chemical tank faucet (514g) Chemical tank faucet (514i) Chemical tank faucet (514i) Chemical tank faucet Yanggu),
(515) Flood valve for building equipment (Fushivert), (515a) Flood valve for building equipment (type A), (515b) Flood valve for building equipment (for urinal) ,
(517) mixer valve (for 3 houses), (517a) mixing valve (exposed type), (518) hand shower, (519) head and head, (520) hand shower Shower, (521) shower set,
(522) angled thermal trap, (523) straight thermal trap, (524) bucket trap, (525) bottom bucket trap, (526) top down bucket trap, (527) (528) Impulse steam trap, (529) Faucet body, (530) Packing box, (531) Packing press, (532) Stem, (533) Handle, (534) Disc, (535) , (536) a domestic packing, (537) an aging packing, (538) a Teflon membrane,
(539) a metal with a large thermal expansion; (540) a metal with a low thermal expansion; (541) a time or level switch; (542) a low level alarm; (543) (545) alarm level switch, (546) low level switch, (547) flap, (548) sound cap, (549) check nozzle, (550) (551) float, inductance switch, (552) indicating graduation scale, (553) overflow connection, (554) vent pipe connection, (555) (556) a double vinyl open needle; (557) a solenoid valve body; (558) a cover; (559) a spool; (560) a spar packing; (561) a pilot; (563) connector, (564) manifold (L; PTY 8 "large flow type), (565) manifold (S, M 5 ownership type), (566) screw bolt, (567) (568) 2 position single, (570) 2 position double, (571) LL; central vertical type, (572) L; vertical type, (573) ) Horizontal type; M, (574) F; (581) Direct piping type, (582) Base piping type, (578) Double, (577) Double, (578) Child, (579) (585) Doctor Ventilation, (585) Doctor Ventilation, (585) Doctor Ventilation, (586) Thermal Balloon in Mongolia, ( 587) Blair Shah's Hot Air Balloon, (588) Kelly's Hot Air Balloon, (589) Steam Airship,
(590) Dual structure holding block tanks,
(591) Barge hull at the top of holding tank,
(592) Barge hull at bottom of holding tank,
(593) Subsidies of small-scale marine nuclear power plants,
(594) Supporting dock of medium sized marine nuclear hydroelectric power plant,
(595) the support of large-scale marine nuclear hydroelectric power plants,
(596) Double structure inner block tank,
(597) High tensile steels Steel plate,
(598) Double structure block tank,
(599) Double structure external block tank, (600) First auxiliary steel for block tanks, (601) Second secondary steel plate for block tanks, (602) Corner weld defects of first secondary steel and second secondary steel plate (603) Block tank Hull disassembly Portable lug connecting shaft bolt, (603a) Bolt screw thread, (604) Block tank Hull disassembly coupling Portable lug connection Disassembly coupling nut, (603b) ) Screw thread of nut,
(605) Block tank Secondary steel plate for disassembly connection Second vertical steel plate Vertical bulkhead, (606) Block tank Hull disassembly Portable lug pin Connecting shaft, (607) Block tank Hull disassembly portable lug, (608) (609) Secondary steel plate horizontal bulkheads for disassembly of hulls for block tanks, (610) Block tanks, bulkhead manholes for hull transit systems,
(611) satellite, (611a) communication satellite, (611b) weather satellite, (611c)
(612) rocket, (612a) rocket, (612b) ion rocket, (612c) plasma rocket, (612d) photon rocket, (612e) nuclear rocket,
(613) Block tank Unit Block Hull Disassembly Lug Hinge Socket, (614) Block Tank Block Unit Hull Large Flange for Disassembly, (615) Large Flange Connection Connection Shoring Hole or Rug Processing Hole (616) Mooring device Floating dock barge (616a) Tank block unit for hull balancing device Block unit Tank block Units for disassembling and disassembling the lugonging hole, (617) Block tank hull (618) Block Tank Guide rail for hull transport equipment, (619) Helicopter station, (619) Block tank unit Hydraulic rotary cylinder machine for hull breaker coupling control unit Or block unit hull drill lathe rotary cylinder machine rack & pinion type (NRP) cylinder machine,
(620) Hydraulic rotating cylinder (rotary cylinder [rack & pinion type -NRP]),
(621) Blocks Tank blocks Units for dismantling and dismounting of bands Fixtures,
(622) Block -house Tanks Block-unit, hydraulic, for shipbuilding equipment Butterfly valve,
(623) Blocks tanks Blocks unit Hydraulic cylinders for dismantling and dismounting of units Hydraulic keys,
(624) Block-hatches Hydraulic cylinders, hatches, locks for tachographs Tank blocks Hydraulic cylinders for crane units (625)
(626) Thermal Power Plant,
(627) engine control module for engine control system, (628) flagpole rubber balloon, (629) rope for rope, (630) rope knot, (631) emergency stairs, (632) , (633) Conveyor, (634) Sink prevention line, (635) Vacuum pump, (636) Tugboat, (637) Semi diving operation line, (638) Bollard, (639) Anchor 640) Anchor chains, (641) Blowers or cooling fans, (642) Heater fans for keeping air, (643) Launchers, (644) Mooring towers, (645) Electro Magnets, (646) Space rocket launchers , (647) helicopters, (648) chainblocks, (649) ocher cement mixing equipment mixer machines, (650) aerator, (651) crane boom stands, (652)
(653) uranium 239, (653a) uranium 238,
(654) water, (654a) hard water, (654b) heavy water or pressurized heavy water,
(655) a direct current that always flows only in the same direction, (656) an alternating current that is a current that changes the direction of flow each time the seesaw changes,
(657) intermediate heat exchanger or primary primary cooling system intermediate heat exchanger, (657a) secondary cooling system outlet, (657b) low temperature head, (657c) secondary cooling inlet, (657d) support plate, (657e) (657g) outer vessel, (657g) pressure vessel, (657h) thermal insulation, (657i) hothead, (657j) mixer, (657k) primary system gas inlet, (657l) primary system gas outlet, (657), (657), (657), (657), (657), (657) and (657v) hot gas cylinder, (657w) liner, (657x) insulating layer,
(658) heat exchanger,
(659) a nichrome wire which does not flow well, (660) a bulb body, (661) a base,
(662) neptunium,
(663) filament, (664) glass, (665) fluorescent discharge tube, (666) lighting tube, (667) discharge, (668) carbon rod, (669) ) Negative (indicated by minus (-)),
(671) a fuel assembly,
(672) Nuclear power plant,
(672a)
(673) The iso center axis frame,
(674) a proton,
(675) Neutron,
(676) Moderator or moderator containers,
(677) Chuukot Peninsula,
(678a), (678a), (678b), (678c), (678c), (678d), (678e), (678e) and (678f) concept of tidal power generation, respectively. (678h), 678h, 678i, 678i, 678i, 678k, 678k, 678l, 678m, 678n, (678p) Hwacheon Hydroelectric Power Plant, (678r) Soyanggang Hydroelectric Power Plant, (678s) Chungju Hydroelectric Power Plant, (678t) Chuncheon Hydroelectric Power Plant, (678p) power plant,
(678v) Cheongpyeong Hydroelectric Power Plant, (678w) Paldang Hydroelectric Power Plant, (678x) Soyanggang River, (678y) Namhan River, (678z)
(679a) a bottom wall, (679a) a bottom wall, (679b) an upstream side lock fill, (679c) a filter, (679d) (679h) water depth, (679i) hollow space, (679j) surrounding whole room, (679k) surface layer concrete, (679l) water potential energy, (679m) water kinetic energy, (679n) mechanical energy, (679p) Hydraulic power, (679q) aberration output, (679r) Generator output, (679s) Hydroelectric power generation scheme, (679t) Concept of dam power plant, (679u) screen, (679v) Ball tap valve, (679x) inlet valve, (679y) main equipment, (679z) main transformer,
(680) Dam, (680a) Reservoir or adjustment site, (680b) Intake dam, (680c) Pumping dam, (680d) Pumping system, (680e) Pumped storage power generation, (680f) Dam channel system, (680g) Dam system, (680i) pressure water tank, (680j) pressure water tank, (680k) needle, (680l) pressure water tank, (680m) water tank, (680n) water intake system, (680q) waterproofing facility, (680r) high water level, (680s) low water level, (680t) rock wall, (680u) upstream surface protection layer, (680v) drainage layer, (680w) ) Foundation rock, (680y) earth dam, (680z) rock dam,
(681) fuel cladding material, (682) sheathed or chiseled pipe,
(683) Nuclear fuel pellets,
(684) voltage, (685) power, (686) power outlet, (687) power source inlet,
(688) Reactor building or compartment building or concrete barrier, (688A) Reactor building, (688B) Turbine building, (688C) Control building, (688D) Auxiliary building, (688E) Diesel generator building, (688F) (688G) Waste building,
(689) fuel rod control, (689b) upper nozzle, (689c) fuel rod adjustment, (689d) fuel rod, (689e) spring clip assembly, (689f) lower nozzle, (689g) fuel rod (689i) hold down spring, (689j) uranium dioxide fuel pellet, (689k) gas cap, (689l) zircaloy crowding,
(692), (691) primary substations, (692) seven strands of steel wire in the center of the transmission line, (693) 54 strands of aluminum wire, (694) fuel hoses, (695) (697) middle substation, (698) large plant, (699) middle plant, (700) secondary substation, (701) small plant, (702) home (including solar house), (703 ) (704) High-voltage wire balancer for cable balance cable,
(705) nuclear waste treatment line manufacturing process distribution axis, (706) small diameter electric resistance welded pipe, (707) raw material, (708) uncoiling, (709) level ring, (710) side trimming, (711) (713) Welding and internal and external bead removal (714) Ultrasonic and vortex test, (715) Welding heat treatment, (716) Air cooling, (717) Water cooling, (718) (722) calibration, (723) intermediate loading, (724) induction heating furnace, (725) SRM, (720) flattening test, (726) Hot cutting, (727) Face picking, (728) Hydraulic test, (729) Ultrasonic and vortex test, (730) Weight and length measuring instrument, (731) Visual and dimensional inspection, (732) Screw 733) Metals, 734 for general plumbing, (735) galvanized, (736) galvanized steel pipes, (737) boiler tubes, (738)
(744), (744), (744) Ultrasonic Flaw Test, (745) Side Tramming, (742) Cage Molding, (743) (746) Oil Pipes, (747) Large Diameter Steel Pipes, (748) Edge Milling Machines, (749) 3 Roll Bending Machines, (750) Post Bending Machines,
(751) welding, (752) inner surface welding, (753) backing fusing, (754) outer surface welding, (755) tube welding, (756) , (758) cold laminar padding, (759) marking, packing, shipment, (760) spiral welded steel pipe, (761) uncoiling, (762) structural pipe and steel pipe pile, (763) (764) Outside Brast Cleaning, (765) Inner Blast Cleaning, (766) Inner Painting, (767) First Painting, (768) Painting and Clothes, (769) ) Ultrasound and X-ray inspection,
(771) Internal transportations for marine tunnels,
(772) Nuclear or turbine generators,
(773) Non-rotating armature for atomic power generators Coils,
(774) Rotors for nuclear power generators Electromagnets Coils,
(775) Transmission line, (776) Transmission tower, (777) Opening and closing facility, (778) Boiler or kettle,
(779) steam pipe, (780) steam or strong gas high temperature high pressure steam outlet,
(781) Production power Central control room,
(782) transmission measuring room transformer room, (783) boiler operating core,
(784) atom, (785) electron,
(786) Steam dryer,
(787) Magnets,
(789) Deaerator,
(790a), a condenser relief valve (790b), a condenser safety valve (790c), a condenser body,
(791) core or nuclear fuel chamber, (791a) core support walls, (791b) fission,
(792) Drums,
(793) Reheating,
(794) Dual structure block Dust collector of tank or thermal power plant,
(795) heavy oil tank, (796) heavy oil,
(797) Oil tankers or cargo ships,
(798b) control rod drive shaft, (798c) control rod clamping plate, (798d) control rod rod, (798e) control rod guide pipe, (798f) control rod drive shaft, (798g)
(799) Radioactive waste,
(800) uranium fluoride,
(801) Plutonium,
(802) Boiling water reactor installations,
(803) Pressurized water reactor installation,
(804) Gas cooling furnace nuclear plant,
(805) Multi-purpose high temperature gas reactor installation,
(805a) The internal structure of the hot-walled pipe-type high-temperature gas furnace in which the primary cooling system is housed,
805b heat shield 805c through hole stopper 805d auxiliary circulation device 805e control rod storage 805f hold down plate 805g control rod drive device 805b heat shield 805c through-
(805h) auxiliary circulator, (805i) auxiliary heat exchanger, (805j) core support structure, (805k) prestressed concrete reactor vessel, (805l) PCRV safety valve, (805m) fuel inlet, (805n) ) He circulation, (805o) PCRV support structure,
(805p) Spherical fuel outlet pipe (805r) Boron stopper, (805s) Reflector zone control rod, (805t) Spherical fuel inlet pipe, (805p) Pebble-bed HT R- (805v) main steam pipe, (805w) gas circulator, (805x) hot gas piping, (805y) surface cooler, (805z)
(806) New conversion reactor facilities,
(807) Steam towers,
(808) lead container,
(809) purifier,
(810a) steam generator, (810a) steam outlet to the turbine generator, (810b) water nozzle, (810c) secondary cooling water, (810d) vibration suppression rods, (810e) tubing supported steel pipes, (810f) (810), (810), (810), (810), (810), (810) Generator tubing, (810o) steam generator internal fuselage,
(811) Nuclear Hydroelectric Power Plant Division,
(811a) Nuclear power plant nuclear waste disposal unit (811b) Power production unit (811c) Traffic transportation unit of construction machine (811d) Power transmission unit for transmitting power (811e) (811f) Electronic control control equipment Construction control unit (811g) Screw control unit (811h) Disaster prevention control unit (811i) Wildfire natural disaster prevention control unit (811j) (811k) Prevention of Natural Disaster Prevention, (811l) Prevention of Prevention of Natural Disasters, (811m) Prevention of Prevention of Natural Disaster Prevention of Typhoon (811n) Prevention of Prevention of Flood Natural Disasters, (811o) Drought Nature (811p) Prevention of landslide natural disaster prevention control (811q) Tunnel fishery scattering control unit (811r) Control of fishery move control unit (811s) (811t) Groundwater and deep sea water supply (811u), and (811v) the postal code of the postal code after establishing the parcels in each of the separated parcels, and then postal mail (811y) Territorial Dispute Settlement Control Department (811z) Space Development (811aa) an electronic sensor valve screw control unit,
(812) enriched uranium or uranium 235,
(813) Reactor pressure vessel,
(813a) pressure vessel vessel, (813b) pressure vessel top vessel bottom, (813c) pressure vessel cylindrical vessel, (813d) pressure vessel cylindrical vessel upper, (813e) pressure vessel cylindrical vessel upper part, Nozzle, 813h, dipole iron plate, 813i, air chamber, 813j, 813k, water, 813l splash pool, 813m vant pipe, (813p) Pressure vessel Cylindrical damp top and bottom assembly, (813q) Dry wall, (813s) Pressure vessel Cylindrical dock bottom assembly, (813t) Pressure vessel Cylindrical dock top assembly, (813v) , (813w) outlet nozzle, (813y) core support assembly, (813z) control rod guide tube assembly stand,
(814) pressurizer, (814a) spray nozzle, (814b) pressure protection container, (814c) pressure regulating valve,
(814d) steam boundary, (814e) pressure vessel body, (814f) cooling water inlet, (814g) heater heater,
(815) nucleus, (815a) nucleus, (815b) nuclear power,
(816) a coolant or primary sodium or secondary sodium, (816a) a coolant inlet nozzle, (816b) a coolant outlet nozzle,
(817) Silencers,
(818) Separator,
(819) a hydraulic tank, (819a) a hot plate, (819b) an oil level meter (oil port field), (819c) drain, (819d) tank bottom plate, (819e) diaphragm (819g) Suction Sealer (819g) Gland Packing (Rubber Inner Rubber), (819h) Inlet Packing, (819i) Inlet Lid, (819j) Tank Top Plate, (819k) (820) hydraulic motor, (821) hydraulic pump, (822) rod-and-piston seal, (823) piston seal, (824) (825) a ring seal, (826) a slide ring, (827) a di-bush, (828) an O ring, (829) a load seal, (830) a backup seal, (833) piston ring, (837) piston ring, (837) piston ring, (837) piston ring,
(838) Fast breeder reactor facilities,
(839), (840) meteorological observatories, (841) crude oil, (842) submarine mineral deposit baskets, (843) underwater exploration underwater lights, (844) ) Buckets or pavers, (845) excavators for deep drilling rigs of squirrel drills, (846) wrench crank for anchorage, (847) jackhammer or net, (848) (850) turnpike, (851) level bases for bridge piers, (852) fixed wreck stands,
(853) Arc welding machine or argon welding machine, (853a) Welding cable, (853b) Welding sheet, (853d) Holder, (853e) Welding rod, (853f) Coating agent, (853g) (853i) core wire, (853j) gas chamber, (853k) arc, (853l) melting ground, (853m) covered arc welding method drawing, (853n) direct current arc welder, (853o) (853p), 853q, 853q, 853r, 853r, 853r, 853r, 853r, 853r, 853r, 853s, 853s, 853s, 853s, Actor type AC arc welder, (853u) Inert gas tungsten arc welding method, (853v) Aluminum welded (T IG) to the bottom of small motor runabout (Runabout) (853w) MIG welding method of aluminum alloy tank, (853x) slag,
(854) Pipe Racks,
(855) Bulldozer, (855a) Crawler type, DOGER, (855b) Wheel type, DOGER, (855C) Straight, DOGER, (855D) DELETER, DOGER, (855e) Angle, DOGER, 855f) Hinge, DOGER, (855g) TRIDOZER, (855H) RICH DOGER, (855i) HARD RICHER,
The power transmission device 855j,
(855k) Engine (855l) Engine, (855m) Cooling system, (855n) Final gear, (855o) Sprocket of driven wheel, (855p) Idler of fluid wheel, (855q) Provision of clutch ,
(856) excavator, (856a) backhoe, (856b) power shovel, (856c) drag line, (856d) Luther,
(857)
(858) Fork lift trucks,
(859), (859), (859), (859), (859), (859), (859) and (859) the power train, (859f) Cutting tape,
(860) dump trucks, (860a) trailers,
(861) Crane or crane, (861a) Name of each part of crane structure, (861b) Extent cable, (861c) Loadmeter, (861d) Bridle, (861e) Boomboxes, (861f) This rope, 861g, boom hoist rope, 861h upper frame, 861i lower frame, 861j hoist rope, 861k front drum, 861l middle drum, 861m rear drum, 861n) balance weight, (861o) cable cranes,
(861p) All six of the crane device,
(861q) a hook device, (861r) a clamshell device, (861s) a shovel device, (861t) a drag line device, (861u) a trench hoe device , (861v) Pile driver device
(862a) muffler, (862b) engine flywheel, (862c) cooling fan, (862d) forward and rearward transmission ridges, 862e translators, (862f) fixed gear type transmissions, ) Parking brake, (862h) differential gear, (862i) Transpercar neutral gear reducer, (862j) Disc brake,
(862k) The external structure of the radar,
(863) rollers, (863a) vibrating rollers, (863b) soil compactors, (864)
(865) Concrete Batching Plant, (865a) Concrete Hopper, (865b) Conveying Equipment Charging Chart, (865c) Adjusting Plate, (865d) Water Meter, (865e) Symmetric Hopper, (865f) 865g) storage bin, (865h) composite belt conveyor, (865i) turn head, (865j) bucket el rebate, (865k) conveying cement chad, (865l) regulating plate, (865m) recorder, (865n) circular mixer 865o) cement silo, (865p) squeegee conveyor,
(866) a concrete finisher, (866a) a squeegee spray, (866b) a first screed, (866c) a vibrator, (866d) a finishing screed, (866e) a guide roller, (866 g) Finished cotton,
(867) Concrete Spreader, (868) Concrete Mixer Truck, (869) Concrete Pump, (870) Asphalt Mixing Plant, (871) Asphalt Finisher,
(872) Asphalt Sparger, (872a) Power Driven Pump, (872b) Valve Control, (872c) Spray Bar, (872d) Bunny, (872e) Discard Pipe, (873) Aggregate Duster,
(874) a crusher, (874a) a Ziegler crusher, (874b) a chassis frame, (874c) a feeder hopper, (874d) a vibration grease repitter, (874e) ) Second crusher at the rear of the crushing chamber, (874g) Vibration screen, (874h) Drum elevator,
(875) air compressor,
(876) perforator,
(877) Hantawa Anti-erection,
(878) sowing machines,
(879) dredgers,
(879a) Pump dredger, (879b) Bucket dredge, (879c) Spades, (879d) Cab or control room, (879e) Red Sea, (879f) Spart, (879g) Blast tank, (879h) Blast pump, (879i) Red, (879j) Engine room, (879k) Dipper dredger, (879l) Grab dredger, (879m) Bucket drive, (879n) Foosepad 879o) Spat winch, (879p) bucket, (879q) left and right all spades, (879r) dipper, (879s) winch, (879t) anchor warehouse, (879u) belt conveyor, (879v) ,
(881), (882) boom, (883) diesel pile hammer, (884) steam hammer, (885) hydraulic crane, (885a) piston motor,
(886) Tower cranes,
(886a) designates the name of each part of the derrick structure,
886b is the main side of the derrick 886c, 886d is the boom 886e is the boom foil 886f is the turnbuckle 886g is the net, 886h is the triangle, 886i is the main side, 886j ) Boom, (886k) boom foil, (886l) lek,
(887) Draeg crane,
(887a) The structure of the drag crane,
(887b) hoist cable, 887c dump cable, 887d bucket, 887e bottom boom, 887f retract cable, 887g cable roller, 887h boom cable, 887i ) Cable rollers, (887j) boom hoist cables, (887k) cable drums, (887l) cable drums, (887m) parallel weights,
(888a) Clamp cell attachment, 888a Holding line 888b Closing line 888c Clamshell bucket 888d Upper frame 888e Lower frame 888f Rack line 888g ) Rope guide, 888h boom tent, 888i bridle, 888j boom hoist rope, 888k front drum, 888l rear drum, 888m parallel weight,
(899) Tandem Roller (890) Tandem Roller (891) Tamping Roller, (892) Tire Roller, (893) Tractor, (894) Trailer, (895) Ram, (896) (908) fuel pump, (901) cam, (902) fuel tank, (903) starter, (904) boom front pin, (905) (906) adapter,
(907) Fish Finder Sonar,
(908) Crude oil drilling machine rotary table lathe machine,
(909) manganese monolith,
(910) Nets, (911) Suction collecting machines, (912) Undersea mining robots,
(913) periscope, (914) rubber balloon, (915) wire rope chain,
(916) Double structure piping line Automatic pneumatic valve transport device,
(917) Coarrill,
(918) biopies skids, (919) rubber tires, (920) burner booms,
(921) harmful tidal microorganisms, (922) pollution-free natural gas,
(923) an air nozzle,
(924) Mineral picking troughs, (925) Upwind, (926) Downwind, (927) Dust for yellow dust or soap bubbles,
(928) Double structure block tank pipe Pier,
(929) Nuclear waste treatment dual structure block tank pipe bridge,
(930) chemicals, (931) cement, (932) fishing nets,
(933) Emergency or control line, (934) Crude oil drilling rig, (935) Iso handle levers,
(936) Borehole,
(937) Double structure block Tank tube bridge,
(938) electrode plate anode, (939) cooling air bubble, (940) bit,
(941) Nuclear waste treatment Double structure block tank Marine tunnel transport equipment,
(942) Tower crane at Isai Crane Boom Vs.
(943) Isai Hydro Power Plant,
(943a) Pump aberrations for hydroelectric power plants, (943b) Pelton aberrations for large hydroelectric power plants, (943c) Francis turbines for large hydroelectric power plants,
(944) Large-scale hydroelectric generator Shiiso hydroelectric power plant (944a) Rotational speed detector for hydroelectric power plant (944b) Exciter for dc generators supplying current to the motor coil of an alternator (944c) 944d is a device for pushing the rotary shaft receiver 944e is a device for pushing the rotary shaft receiver 944f a stator coil 944g a stator frame 944h a center stator 944i a low speed cooler 944j) Braking device ring, (944k) Braking device or jack, (944l) Low speed rotating shaft receiver, (944m) Engine generator, (944n) Turbine rotary shaft receiver, (944o), (944p) Rotary shaft receiver 944q) wing wheels,
(945) Underground disaster prevention nozzles or shared landfills,
(946) Subsea line wiring or shared reclamation land,
(947) Container for inflation control device Rubber tube for air supply for internal use,
(948) furnace, (948a) furnace brick,
(949) Ship's diving position control device and diving buoyancy control weight,
(950) thermocouple thermometer switch for temperature auto sensing sensor,
(951) Hatching basket or Pareto for hazardous redeye suction dust collector,
(952) Locomotives, non-power, for water,
(953) Military equipment Submarine,
(954) Laser cutting machine,
(955) Peacekeeping image of a weapon stronger than a nuclear bomb,
(956) flood control equipment,
(957) Offshore Wind Power Plant, (957a) Wind Turbine Windmill,
(958) Weather forecasting Radar,
(959) Catamaran alternative use Sail,
(960) Satellite weather forecast information collection machine,
(961), (961a), (961a), (961b), (961c) propellant injection, (961d) control valve, (961e) fuel pump, (961f) fuel tank, 961h) oxidizer tank, (961i) a gas generator for operating the turbine,
(962) solid fuel rocket, (962a) propellant, (962b) igniter, (962c) combustion chamber, (962d)
(963) Peace Sovereign, (964) Petroleum, (965) Diamond, (966) Iron, (967) Tin, (968) Coal, (969) Farm Equipment,
(970) all construction machines, (971) military materials, (972) border areas, (974) ships, (975) submarines,
(976) Fighter aircraft, (977) Trap, (978) Nuclear aircraft carrier, (979) Oil pipeline,
(988), (988) Nuclear Fuel, (982) Nuclear Fuel, (984) Glass, (985) Agate, (986) Amber, (987) Pearl, (988) (990) United Nations Organization, (991) Atomic Bomb, (992) Hydrogen Bomb, (993) Sinking Ship, (994) , (995) submersible, (996) sinking vessel, (997) landfill, (998) coastal station, (999)
(1002) Military Demarcation Line, (1003) Demilitarized Zone, (1004) Counterattack, and (1004) Common Ground and Landfill Design System,
(1005) the evaporator structure of the steam generator,
(1006) a steam outlet pipe, (1007) a steam outlet body fuselage appearance, (1008) a hygrometer pipe, (1009) a steam outlet pipe, (1010) a liquid level pipe, (1011) a sodium cooling water inlet pipe, (1013) a connecting rod, (1014) a cooling water leakage detection pipe, (1015) a second argon gas pipe, (1016) a skirt, (1017) a spiral heat exchange tubule, (1018) a sodium coolant outlet pipe, (1023), (1023) sodium channel, (1024) sodium-water reaction product discharge pipe, (1025) inner pipe, (1026) 1027) Water supply inlet pipe plate, (1028) Water supply inlet pipe, (1028a) Water supply inlet chamber appearance,
(1032) MOX processing, (1033) MOX combustion furnace, (1034) mixed glass solidification of waste, (1035) high-level waste, 1036) a final repository, (1037) long-term storage, (1038) deep underground cave, (1039) a path to choose plutonium disposal, (1040) disposal of plutonium in nuclear dismantling,
(1041) Borderline, (1042) Southern margin, (1043) Northern margin, (1044) Beta economic zone, (1045) Provisional action area in Korea, (1046) China's straight line, (1047) EEZ, (1048) Japan's claimed EEZ, (1049) a radius of 1200 km, (1050) about 2400 km, (1051) the middle of Korea and Japan, (1052)
(1053), a 360-degree 360-degree subdivision of the center of the Korean peninsula, and various parcels, (1054) submersible, (1055) seafood and shellfish, (1056) NNL,
(1057) Tidal flats in coastal waters, (1058) Moonwalls (MOON),
(1067) a magnetic levitation highway, (1066) a magnetic levitation train, (1067) a superconducting generator, (1061) a superconducting power generation line, (1062) a superconductor, (1063) an electromagnetic force, Semiconductors, (1068) new materials,
(1079) reactor, (1073) reactor steam extraction system, (1074) drain pump, (1075) heating device, (1077) reactor furnace, (1078) Plans for electromagnetic propulsion lines, (1080) Expansion crushers for new materials, (1081) Superabsorbent resins, (1082) IC) circuits, semiconductors, new materials, and rotary cylinders (rack and pinion type -NRP, 620)
(1083) Mine landing ceremony, (1083a) North Korean landing ceremony construction site, (1083b) North and South Korea landing ceremony Construction site, (1084) Landmine detector, (1085) Landmine remover, (1086) Landmine, (1086a) Mines, (1086b) M 14 mines, (1086c) M 16 A1 anti-personnel mines, (1086d) water guns and shells, (1086e) 1086h) M 16 adults (jump mode), (1086i) storm landmines (ankle land mines), (1086j) M 19 antitank, (1087) animal transport passage, (1088) mine clearance width (58m) 1 Engineer Brigade, (1090) Paper Compensation Seoul Regional Bureau of Land Management, (1091) Pavement Road Seoul Regional Bureau of Land Management, (1092) Army Construction Team, (1093) Reno, (1094) Main Break, (1095) (1101), (1102) Tibetan highlands, (1103) Mongo desert, (1104) Manchurian plains, (1105) Tenjin mountains, (1106) Jet engine structure, (1106a) A fuel supply port 1106c, a pipe 1106d, a compressor 1106e, a combustion chamber 1106f, a turbine 1106g,
(1107), (1108) plane, (1109) structure of reciprocating engine, (1110) plane inspection, (1111) Viking 1 probe, (1112) Earth, (1113) Mars, (1115), (1115), (1115), (1115)
(SDU), dock hull deck deck center (SDM), dock deck deck bottom (SDL), machine room floor top surface (MFGU), machine room floor surface (MFG) MFGL, GLU, GLL, GLD, EL, Arctic NP, Antarctic SP,
Longitude (ld), latitude (lt)
The injection nozzle upper end A, the injection nozzle body B, the injection nozzle lower end portion C,
The road surface top surface GLU, the road surface GLL, the road surface GLD,
Pump body (PB), pump body vertical line (PPVL), pump body horizontal center line (PBCL)
(SLL), SLL (SLL), SLD (SLB), and SLB (SLD), respectively, of the valve body center line (VBCL or PBCL), fire retardant water surface (WLD), fire water surface (WLL)
Out of Merchant Room (OMR) Merchinery Room (MR)
In the Merchant Room (IMR)

Claims (12)

CLAIMS 1. A distribution dispensing apparatus for a nuclear waste disposal facility for a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,
A double structure block tank 598 or a nuclear waste treatment dual structure block tank precipitator 794 in the form of a cylinder located in the ocean for providing global land and connection axes; the double structure block tank 598 and the nuclear waste treatment dual structure block tank 598; An inner block tank 596 connected to the dust collector 794 and an outer block tank 599 double structure block tank reactor nuclear reactor connection structure; a small, medium and large sized (593,594,595) of the Nuclear Hydroelectric Power Plant, and a nuclear reactor (672) and a double structure block tank dust collector are equipped with a plurality of nuclear reactor facilities constituting the inserting into the construction machine, and the nuclear waste treatment facility and the marine nuclear power plant A double-structure block tank dust collector equipped with anti-sinking and anti-nuclear fuel control devices to prevent nuclear fuel explosion. Including the separation of the distribution axis and the control axis of the connection shaft, the nuclear waste treatment dual structure block tank bridge located in the ocean with land and connection axes, the distribution shaft of the marine tunnel, and the natural disaster prevention of the marine (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants, which are equipped with disaster control equipment and construction machinery for disaster control facilities. Several concrete dams (680), hydrants (293) and waterways (294) located in the lower valley below the mountain are formed by mountain ridges and are connected to the downstream of the river. (672a) for overcoming natural disasters and nuclear reactors before and after the renovation of reactor facilities. It is equipped with power generators, thermal power generators and hydropower generators, and it is equipped with nuclear reactor equipment distributing and input devices that are put into production and production of alternate power generation for nuclear power plants. A plurality of nuclear reactor facilities of a nuclear power plant having a dual structure block tank dust collector for nuclear waste treatment nuclear power generation constituted inside the distribution dispensing apparatus main body 1;
In the facility for storing the nuclear waste of the dual structure block tank dust collector constituted inside the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,
(596) capable of disassembling and disassembling the reactor plant, and an outer block tank (599) having a double structure connection structure. The dispenser is equipped with a laser cutter and a distributor of welding processes. A double structure block tank dust collector (794)
A double structure block tank 594 is provided at the lower end portion of the connection structure of the double structure block tank 598 in which the inner block tank 596 connected to the double structure block tank collector 794 of nuclear power generation and the outer block tank 599 are assembled, By storing the nuclear waste on one side having the dust collector 794, it is possible to prevent disasters caused by the leakage of the fuel radiation performance combined with the plurality of reactor facility connection shafts,
The nuclear waste discharged from the operation of a plurality of nuclear reactor facilities is stored in the empty space of the double structure block tank dust collector 794 connected to the nuclear waste disposal apparatuses and stored in one side of the dual structure block tank dust collector 794,
An inner block tank 596 connected to a nuclear waste disposal double structure block tank dust collector 794 provided with nuclear waste disposal control objects constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor facility, (599), which is a connection structure of a double structure block tank, a nuclear waste is stored at one side of the lower part of the vacant space to prevent a nuclear waste disaster caused by leakage of nuclear fuel radiation capability,
A dual structural block tank reactor installed in the main body (1) of the reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the dual structure block tank dust collector; a plurality of nuclear reactor facilities of a nuclear power plant storing nuclear waste of the dust collector; In addition,
The nuclear waste is stored in one place at a lower portion between a plurality of inner block tanks 596 and a plurality of outer block tanks 599 at a time before and after a large explosion accident which constitutes a plurality of reactor facilities, An inner block tank 596 having a number of reinforcing concrete mats 225 of thickness m and a plurality of double structure block tank dust collectors 794 fixed and secured with steel beams 149 to enter the GLD reactor facility, The nuclear waste disposal unit is located inside the third wall of the nuclear reactor in which the nuclear fuel is injected, and is equipped with a brush for remote control of the UAV and a dispensing apparatus for controlling the nuclear fuel explosion,
(811) comprising a main body (1) of a reactor installation for nuclear waste treatment of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector, a nuclear waste disposal pipe manufacturing process distributing shaft And a marine tunnel transmission device 941, which is a connection structure of a plurality of nuclear reactor facilities of a nuclear power plant having a dual structural block tank dust collector 794 for nuclear waste treatment of the nuclear power plant 705, To accomplish the task,
In a plurality of nuclear reactor equipments constituting a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector,
A plurality of reactor installations inserted into the double structure block tank dust collector 794,
A first wall pellet 681 of a secure nuclear fuel,
A cover tube 682 for protecting the second wall fuel rod 689,
A third wall reactor pressure vessel 813,
A fourth wall container 808,
A double structure block tank dust collector 794 configured by replacing the reactor building 688 portion of the reactor facilities of the reactor building 688 composed of the fifth wall reinforcing concrete mat with the protective walls provided in five layers, A nuclear waste disposal dispensing device,
A nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant provided with the nuclear fuel explosion control distribution dispenser and equipped with the double structure block tank dust collector A double structure block tank dust collector 794 is provided as a connection structure for repairing the inside and outside of the marine tunnel communication equipment 941 combined with the dual structure block tank dust collector 794 of the nuclear waste disposal pipe manufacturing process distribution shaft 705, The nuclear waste treatment plant includes a plurality of reactor facilities in the manufacturing process so as to perform the operations constituting the nuclear power plant operation,
The facility of the nuclear power plant having the double structure block tank dust collector 794 constituting the operation of the nuclear power plant in the distribution input device of the reactor facility for nuclear waste disposal of the marine nuclear hydroelectric power plant having the double structure block tank dust collector,
The double structure barge hull (591) at the bottom of the holding tank of the control shaft prevents leakage of nuclear fuel to the inside of the hull deck center (SDM)
A plurality of nuclear reactor facilities for nuclear waste disposal of nuclear power plants are provided on both sides of a bow and aft end of a central portion of a plurality of inner block tanks 596 provided with a dual structure block tank dust collector 794, A guide rail 618 located on the upper part SDU of the double structure barge hull 591 at the upper end of the holding tank is installed on the left and right sides of the deck deck and crane 861 of 5000 ton capacity is installed A position is provided on the deck plate guide rail 618,
Transporting the reactor installation to the inside where the crane (861) is located at the top of the deck deck guide rail (618)
And a nuclear waste disposal and dispensing apparatus having a double structure block tank dust collector 794 constructed by replacing five layers of protective walls inside the barge hull,
The nuclear fuel explosion-control distribution dispenser is provided with the crane 861 and the construction machine crane 861 is installed inside and outside of the marine tunnel traffic device 941 connected to the dual structure block tank dust collector 794, And includes a plurality of nuclear reactor facilities of the dual structure block tank dust collector 794 for manufacturing a nuclear waste treatment pipe,
A plurality of reactor facilities of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 constituting a nuclear power plant operation in a distribution input device of a reactor facility for nuclear waste treatment of a marine nuclear hydroelectric power plant having the dual structure block tank dust collector ,
A double hull and a three-hull installation of a double-structure large-sized sliding hatch cover 153 is provided at a place where the crane 861 for providing the renovation of the plurality of nuclear reactor facilities passes, A nuclear waste disposal pipe manufacturing process including a nuclear waste disposal apparatus main body 1 of a nuclear waste disposal reactor facility having a construction transportation transport section for adjusting the position of the control shaft, Comprises a dual structure block tank scrubber (794) of a distribution shaft (705) connected to perform nuclear waste disposal with a plurality of nuclear reactor facilities to constitute nuclear reactor operations,
A plurality of nuclear reactor installations of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 constituting a nuclear reactor operation in a distribution input device of nuclear reactor waste nuclear reactor facility having a double structure block tank dust collector, ,
Nuclear waste disposal facility before and after operation of reactor facility safety Nuclear waste disposal system (1) Exhaust gas outlet and inlet, same as the dust collector of the exhaust gas facility, And a double structure block pipe line (74) located inside a double structure block tank dust collector (794) for shielding nuclear waste and nuclear radiation pollutants stored in a nuclear reactor facility composed of a nuclear reactor To provide a nuclear waste location pathway,
Nuclear radioactive contaminants, constituting the nuclear waste location channel,
Multiple temperature pressure sensors Sensors of temperature and pressure sensors of safety valves 700 to 800 degrees Celsius of the inside of a nuclear reactor when the nuclear reactor is in operation. When the high and high pressure pressures reach dangerous state, To constitute a boiling water reactor nuclear power plant operation among a plurality of nuclear reactor facilities having a dual structure block tank precipitator 794 connected to provide an alarm message transmission to a computer,
And a dual structure block tank dust collector (794) constituting a nuclear plant operation of a plurality of nuclear reactor facilities in a distribution input device of a nuclear reactor waste disposal facility for a marine nuclear hydroelectric power plant having the dual structure block tank dust collector In a plurality of reactor installations,
A plurality of the temperature-pressure-sensing sensors constituting the nuclear reactor operation of the plurality of nuclear reactors and the pressure block internal piping line (74a) of each of the small-sized pressure vessels opened by the safety valves are passed through the explosive nuclear waste, Pressure sensor sensor safety valve 472 connected to the inner block tank at the lower end of the pressure vessel 813,
As the outer block piping line 74b constituting the nuclear plant operation of the nuclear reactor facility,
A thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 101 and a temperature sensing sensor bimetal 102 and a flow rate check sensor 103 connected to the fuel explosion- And the safety valves 472 of the pipeline line automatic pneumatic valve conveying device 916 are provided at the upper end of the reactor building 688 to provide a constant 45 degree A boiler water reactor unit among a plurality of reactor facilities having a double-structure block tank dust collector 794 connected by a laser beam cutter, a construction machine and a drilling machine through a plurality of through holes located at an inclination angle, To perform the constituent operations,
Of the plurality of nuclear reactor facilities constituting the nuclear power plant operation,
A plurality of through holes are formed in a block pipe line 74 having a double pipe structure and a plurality of safety valves 472 are connected to the block piping line 74 and the bolts 24 and the gaskets 32 And a flange connecting connection is provided,
On the outer wall surface of the reactor building 688 constituting the nuclear power plant operation,
A nuclear waste disposal dispensing device coupled to the outer block tank 599 for nuclear waste disposal and storage in a radiation type connection structure in a double structure block tank 598 having a size twice as large as that of the nuclear reactor building 688 ,
A dual structure block tank 803 constituting a distribution injector of the nuclear fuel explosion control unit is provided with a reactor facility connected to the dust collector 794 to control the inside of the inner core 681 of the reactor facility and the outside of the core 681 to prevent explosion of nuclear fuel immediately before the explosion of the reactor. (811) constituting the inside of the main body (1) of the dispensing apparatus main body of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant equipped with the double structure block tank dust collector To constitute a boiling water reactor plant nuclear operation among a plurality of nuclear reactor installations connected to the dual structure block tank cleaner 794 of the pipe manufacturing process distribution shaft 705,
Among boiler water reactor installations among a plurality of reactor installations constituting a distribution input device of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the dual structure block tank dust collector,
The connection structure is formed by the steam generator 810 and the steam dryer 786 installed outside the pressure vessel 813 of the dual structure block tank dust collector 794,
In the boiling water reactor equipment constituted by the storage container 808 constituting the fourth wall of the nuclear reactor and the double structure block tank precipitator 794 contained in the fifth wall,
A plurality of inner block tanks 596 and a plurality of outer block tanks 599 are connected to each other to provide a mixing equipment mixer machine 649 and a circulating water pump 242 of a distribution injector for control of nuclear fuel explosion, Cooling water 287, which is a control object of the fuel explosion preventive control, which is inputted to the same pressure vessel 813 as the furnace just before, and yellow loess mixtures which generate soap bubbles in the form of toothpaste are supplied into the reactor installation at once,
As the distribution input device mixer machine 649,
Loess mixtures which generate soap bubbles in toothpaste form,
A plurality of fire-fighting nozzle nozzles 10 for cleaning the inside of the nuclear reactor facility after the occurrence of the earthquake, and the inside of the pressure vessel 813 and the inside of the vessel 808 Fuel explosion control device,
It is possible to perform the cleaning process inside the nuclear reactor facility without the input of the UAV, to provide the distribution input device of the nuclear fuel explosion control and the control items of the fuel explosion prevention control, A reactor structure equipped with a double structure block tank dust collector constituted in land and ocean nuclear hydroelectric power plants,
A nuclear waste treatment plant consisting of a nuclear hydropower plant (811) composed of a main body (1) of a distribution reactor of a nuclear waste disposal reactor of a marine nuclear hydroelectric power plant having a dual structural block tank dust collector, (794) Nuclear waste disposal pipe manufacturing process Including the internal structure of the marine tunnel communication device connected to the double structure block tank dust collector (795) and the double structure block tank dust collector (794) The boiling water reactor facility includes a nuclear hydroelectric power plant unit 811 to perform the operation constituting the nuclear power plant operation,
And a dual structure block tank dust collector (794) constituting a nuclear plant operation of a plurality of nuclear reactor facilities in a distribution input device of a nuclear reactor waste disposal facility for a marine nuclear hydroelectric power plant having the dual structure block tank dust collector Among boiler water reactor installations among a plurality of reactor facilities,
The nuclear water waste tank 295, which is located at the upper end of the double structure block tank precipitator 794, is sequentially mixed with the cooling water 287 stored in the water tank 295, The mixture 927 is supplied to the inside of the third wall reactor pressure vessel 813 located below the water tank and the safety valve 472 formed with the plurality of temperature pressure sensors immediately before the explosion in the fourth wall vessel 808, The burrs 153 are opened,
Constituting the loess mixture 927 generating toothpaste-form soap mixed with the cooling water 287 stored in the inner block pipe 74a of each of the block piping lines 74 at the upper end of the pressure vessel 813, The opening and closing of the safety valve for coupling the nuclear waste disposal control article into the third wall reactor pressure vessel 813 and the fourth wall partition vessel 808 at the same time with the circulation water pump 242 is provided ,
The nuclear waste treatment boiling water reactor equipment constituting the transfer of the cooling water 287 and the loess mixture 927 to the inside of the pressure vessel 813 and the fourth protection wall storage vessel 808 by the water supply pump 241,
The mixture of loess mixtures mixed with the cooling water is mixed with nuclear waste treatment control cooling water inside the core 681 inside the reactor and outside the core 681. The loess mixture 927, which generates soap bubbles in the form of toothpaste, The feed pump 241 constitutes a transfer inside the pressure vessel 813 and the fourth protective walled vessel 808 inside the pressure vessel 813,
The mixture of the loess mixtures 927 is injected all at once into the boiling water nuclear reactor facility. After the earthquake stops, immediately after the earthquake stops, a plurality of reactor internals are cleaned by the circulating water pump 242,
A dual structure block tank dust collector 794 configured to maximize safety operation of the nuclear reactor facility to prevent explosion of the boiling water reactor,
When the nuclear waste disposal apparatus is provided with the fuel injecting apparatuses for controlling the fuel explosion control and the yellow mortar mixture 927 is filled inside the core 681 inside the reactor and outside the core 681, nuclear fuel collision of the nuclear fuel chamber is controlled, Immediately,
Nuclear power plant consisting of nuclear and nuclear offshore nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant with double structure block tank collector A block tank dust collector is provided to prevent the explosion of the reactor,
A nuclear waste disposal pipe manufacturing process consisting of a nuclear power generation facility unit 811 constituting the inside of a distribution dispensing apparatus main body 1 of a nuclear waste disposal reactor installation, and a double structure block tank dust collector 794 of a dispensing shaft 705 (794) Nuclear Reactor (Nuclear Reactor) Nuclear Reactor (Nuclear Reactor) Nuclear Reactor (Nuclear Reactor) Nuclear Reactor (Nuclear Reactor) Lt; / RTI &gt;
Double structure block of the nuclear reactor waste disposal reactor installation block Double structure block of the fifth wall from the reactor facility constituting the operation of the reactor of the reactor plant of the nuclear power plant equipped with the tank dust collector Tank reactor outer wall circumference Among the plurality of nuclear reactor facilities constituting the inside of a nuclear hydroelectric power plant including a plurality of double structure block tank precipitators 794 for storing radiation nuclear waste 224 connecting surfaces one by one,
Nuclear Power Plants of Boiling Water Reactor Facility Nuclear Power Plants of Combined Connected Structure The nuclear power generation facility of the nuclear power plant before and after operation of the nuclear power plant generates nuclear fission in a plurality of nuclear reactors, A steam turbine 267 for rotating the steam turbine 267 to produce power,
A rotary shaft for a nuclear power generator installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the atomic power generator 772 for converting the power generated from the steam turbine 267; An electromagnet coil 774,
A nonrotating armature coil 773 for a nuclear power generator installed on the circumference of a rotating rotor electromagnet coil 774 for the nuclear power generator and a rotor 773 integrally formed with the nuclear power generator 772 and the rotary shaft 198 to the steam turbine 267, And a frame 775 for fixing the nuclear waste to the nuclear power plant 811. The nuclear power plant 811 comprises a reactor facility of a nuclear hydroelectric power plant of land and ocean and a nuclear power plant The nuclear waste disposal pipe manufacturing process distribution shaft 705 composed of the nuclear hydroelectric power generation facility unit 811 and the marine tunnel communication equipment connected to the dual structure block tank dust collector 794, Structure block tank dust collector (794) Including the boiler water reactor facility among the plurality of nuclear reactor facilities connected to the nuclear waste treatment plant manufacturing process,
Large-scale hydropower generators (944), which are constructed inside a marine nuclear hydroelectric plant,
The distribution and input device of the hydroelectric power plant 943, which is provided as a connection structure of the large hydroelectric power plant 944 of the marine hydro-power plant 943 constituting the marine hydroelectric power plant,
(593,594,595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting the distribution apparatus of the hydroelectric power plant 943, and a marine nuclear power plant A power generating and producing unit 811b of a nuclear hydroelectric power generating unit 811 constituting a distribution dispensing apparatus main body 1 of a nuclear reactor waste disposal apparatus for a hydroelectric power plant includes a plurality of generators for power generation, (811b) Distribution facility of the marine, small and medium sized and large sized marine nuclear hydroelectric power station (593,594,595) The marine Siiso hydroelectric power station And a large hydroelectric power plant (944) connection structure of the power plant (943) to constitute a nuclear hydroelectric operation for a plurality of power generation apparatuses,
In preparation for the remodeling of nuclear power plant facilities of the above distribution and dispensing apparatus, a large hydroelectric power plant of Ishizu Hydroelectric Power Plant (943), which is a substitute for power generation and power generation, is installed in the barge line. The distributing and charging apparatus,
A head tank 189 for a pressure tank located at an upper end of the barge line connected to the large hydroelectric power plant 944 of the offshore iso hydroelectric power plant 943 constituting the distribution input device of the hydroelectric power plant 944, An inlet pipe 191 having a pressure tube shape of a reed 35 is provided at the inlet of the inlet pipe 191 in front of the head tank 189 to provide a connection structure with the head tank 189,
A plurality of inlet pipes 191 are connected to the upper end of the offshore iso hydroelectric power plant 943 constituting the hydroelectric operation of the nuclear power plant and the discharge port on the rear of the head tank 189, Hydraulic power generation iso hydroelectric power plant 944 The pump aberration 943a of the turbine 267 and the Pelton aberration 943b are connected to the lower part of the body by a suction port 269 in front of the Francis turbine 943c and a discharge port 270 ) Including the hydroelectric power distribution and input device in the ocean constituting the hydroelectric power generation production performance with the connection structure,
(191) having the shape of a hydraulic pipe reeder (35) for providing the flow velocity of the water with kinetic energy of the water having the flow velocity of the water current constituting the hydraulic operation of the nuclear power plant to provide mechanical energy conversion, A large hydroelectric generator 944 having a seesaw crane boom frame 942 of a tower crane that performs a vertical rotation operation with a large hydroelectric generator seesaw facility 944 having a seesaw center shaft frame 673 to provide a large- (593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant equipped with distribution equipments and reactor for nuclear waste disposal of marine nuclear hydroelectric power plant with dual structural block tank dust collector And a large hydropower distribution dispenser for constituting a further hydraulic hydroelectric operation inside the main body (1) of the distribution dispensing apparatus of the facility,
In the large hydrostatic generator desiccation facility 944, which further constitutes the nuclear hydroelectric operation of the reactor facility,
A hydrodynamic power generator rotational speed detector 944a for providing a position at the top of the center of the rotational shaft 944q constituting the large hydrostatic generator desiccator 944 and the bottom of the hydrodynamic power generator rotational speed detector 944a A dcrc ring 944c for pushing the ring-shaped flange 944c, an upper rotary shaft receiver 944d and a rotary shaft receiver 944b for supplying a current to the electric motor coil of the alternator, The stator frame 944g and the center stator 944h and the rotary shaft receiver 944i and the braking device ring 944j of the low speed cooler and the jack 944k of the braking device 944e, And a large hydrostatic generator isotope facility 944 in which the low speed rotary shaft receivers 944l are positioned at the upper end of the center of the rotary shaft 944q to have a connection structure with the rotary shaft 944q, The rotating shaft receiver 944n, the casing 944o, Id bay includes a hydro assembly composed of phosphorus and impellers (944q),
(35), which forms the kinetic energy of water with mechanical energy by providing the flow velocity of the current to the inside of the hydroelectric power room constituting the hydroelectric operation of the nuclear power plant, In the large-scale hydroelectric power generation facility 944 constituting the plant,
The central shaft frame 673 constituting the large hydrostatic generator desiccation facility 944 is provided with a multi-stage entrainment type manometric turn and is provided with a large hydrostatic generator desiccation facility 944, A crane boom is installed at the crane boom zone (942) to generate electrical energy to provide a power generating unit connection structure for the marine small, medium and large marine nuclear hydroelectric power plants. Dock (593,594,595) Includes a large hydropower distributor and dispenser that constitutes the operation of a nuclear power plant inside a nuclear hydroelectric plant,
(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the large-scale hydropower generators (944), and a distribution input device A double structure block tank dust collector included in the power generation and production section 811b of the nuclear hydroelectric power plant section 811 constituting the inside of the main body 1 is provided with a plurality of generators for nuclear waste treatment and power generation of nuclear reactor facilities, (811b) of a nuclear hydroelectric power plant (811) constituting a nuclear power plant of a nuclear reactor, and a power transmission unit (811d) composed of transformers for transmitting power,
A plurality of nuclear reactors of a nuclear power plant having a double structure block tank dust collector 794 constituting a nuclear power plant operation of a plurality of nuclear reactor facilities of a nuclear power plant having a double structure block tank dust collector of a distribution input device of the nuclear waste treatment facility, Among the facilities, nuclear power hydroelectric power plants composed of boiling water reactor facilities,
A cooling water inlet 352 of a cooling water piping line constituting a connection structure with the condenser 790 is provided below the body of the steam turbine 267 of the nuclear hydroelectric power generation facility unit 811,
In front of the condenser 790 constituting the nuclear power plant 811,
And a circulation water pump 242 connected to the piping line 169 for connection to the cooling water inlet 352 of the cooling water piping line through the water passage constituting the front of the condenser 790, A nuclear waste disposal pipe manufacturing process consisting of a nuclear hydropower generation facility unit 811 constituting a distribution dispensing apparatus main body 1 of a nuclear waste disposal reactor apparatus and a double structure block tank collector 794 of a distribution shaft shaft 705 (794) Nuclear waste treatment plant manufacturing process with connection structure for internal and external repair of marine tunnel traffic equipment (794) Nuclear waste treatment plant manufacturing process Including the boiler water reactor facility among the plurality of reactor facilities to constitute operation ,
The apparatus for dispensing a reactor facility for nuclear waste treatment comprises a double structure block tank dust collector 794 constituting a nuclear reactor operation of a plurality of reactor facilities, In nuclear power plants,
A water supply pump 241 is provided at the tail of the condenser 790 and outside the reactor facility,
The nuclear power plant includes a purifier 809 outside the reactor in front of the feed pump 241, and a plurality of coolant pumps 243 are provided in the reactor internal piping line in front of the purifier 809 Inside the pressure vessel 813 of the nuclear reactor facility constituted outside the nuclear reactor pressure vessel 813 containing the fuel-enriched uranium 812 fuel,
In the case where the safety device control rod 798 is installed and shaking occurs,
The control rod 798 is inserted into the pressure vessel 813 at a time so that the operation of the nuclear power plant of the nuclear reactor can be stopped at an emergency and the nuclear power plant of the nuclear power plant of the land and the ocean and the nuclear power plant of the nuclear power plant, The nuclear waste water treatment pipe manufacturing process of the nuclear hydroelectric generating unit 811 constituting the inside of the water tank 1 and the double structure block tank collector 794 of the distribution shaft 705, (794) Nuclear waste treatment plant manufacturing process Including the construction of a boiling water reactor plant nuclear power plant among a plurality of nuclear reactor facilities,
The operation of the nuclear reactors constituting the nuclear reactor main body 1 of the nuclear waste disposal reactor installation is carried out by a boiling water reactor of a plurality of reactor facilities of the nuclear power plant having the dual structure block tank precipitator 794, In the nuclear power plant of the facility,
The first wall pellet 683 of the nuclear reactor reactor installation constituting the boiling water reactor installation and the covering pipes 682 protecting the second wall flaring rods 689 are covered with a covering The safety valves 472 in which the plurality of temperature pressure sensors are formed are opened in the third wall reactor pressure vessel 813 and the fourth wall vessel 808 caused by the collision of the pipe 682 and immediately before the fuel explosion, The loess mixture 927 which generates toothpaste form soap mixed with the cooling water 287 stored inside the nuclear waste treatment tank 295 located at the upper end of the container upper end double structure block tank dust collector 794 A safety valve 472 and a hatch cover 472 in which a plurality of temperature pressure sensors are formed in the third wall reactor pressure vessel 813 located below the water tank tank 295 and immediately before the explosion in the fourth wall vessel 808, 153 are opened and the upper end of the pressure vessel 813 The loess mixture 927 generating toothpaste-like soap bubbles mixed with the cooling water 287 stored in the inner block piping 74a of the block piping line 74 of each small- The cooling water 287 and the loess mixture 927, which are the nuclear fuel explosion-proof control products, are supplied to the boiling water reactor equipment in the reactor pressure vessel 813 and the fourth wall vessel 808,
In the inner block piping 74a of each block piping line 74 constituting the boiling water reactor installation,
The detoxified nuclear waste 224 constituting the inner block piping 74a passes through and the outer block piping 74b is connected to the cooling water 287 which is the fuel explosion prevention control product stored in the inner block tank 596 Of the loess mixture 927 generating the soap bubbles is provided with the feed pump 241 to transfer the fuel explosion prevention control article into the pressure vessel 813 and into the fourth protective walled vessel 808,
At the internal lower end of the double structure block tank 598, which constitutes storage of the nuclear waste 224,
The nuclear waste 224 constituting the individual structure block 598 is moved and stored and the temperature pressure sensing sensor safety valve 472 connected to the inner block tank 596 of the pressure vessel 813 is opened, The nuclear waste disposal facility consists of a nuclear power plant (811) consisting of the reactor facility of the nuclear power plant of land and ocean and the nuclear power plant (1) A dual structural block tank collector (794) in the manufacturing process and distribution shaft (705), a connection structure in the interior and exterior of the marine tunnel traffic device for repairing the nuclear waste, and a double structure block tank dust collector (794) comprises a plurality of nuclear reactor installations connected to the nuclear waste treatment line manufacturing process to perform the operations constituting boiling water nuclear reactor operation,
The operation of the nuclear reactors of the plurality of reactor facilities constituting the distribution apparatus of the nuclear waste disposal reactor is divided into a nuclear power plant constituting a boiling water reactor facility among the plurality of reactor facilities of the nuclear power plant having the dual structure block tank collector 794, In power generation facilities,
The outer block piping 74b of the block piping line 74 constituted by the boiling water reactor equipment in the nuclear power generation facility is provided with the cooling water storage tank 295 disposed inside the nuclear waste treatment tank tank 295 located at the upper end of the inner block tank 596, And a yellow soil mixture 927 for generating soap bubbles in a toothpaste form mixed with the first reservoir container 287 and the second reservoir container 808 by the operation of the feed pump 857 and,
Fuel mixture deterioration control products prepared by converting energy of water into energy of kinetic energy of the loess mixture 927 which generates soap bubbles in the form of toothpaste mixed with cooling water constituted by a nuclear hydroelectric power plant is divided into an inner block tank 596 and an outer block tank (599) When the inside of the nuclear reactor facility is filled with the yellow soil mixture (927) generating the soap bubbles mixed with the cooling water (287) stored in the individual sites, the nuclear fuel explosion inside the nuclear reactor facility is terminated, The operation of the nuclear power plant consists of a nuclear waste disposal facility consisting of a reactor facility for nuclear hydroelectric power plants of land and sea and a nuclear hydroelectric power plant (811) inside the main body (1) A connection structure for the interior and exterior of the marine tunnel traffic device connected to the double structure block tank dust collector 794 of the manufacturing process distribution shaft 705, It comprises achieve the performance that make up the dual-structure block precipitator tank 794 nuclear waste pipe manufacturing process a plurality of nuclear reactor plants in a boiling water reactor nuclear power plant of the movable,
Among the plurality of nuclear reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation of the plurality of nuclear reactor facilities constituting the distribution input apparatus of the nuclear waste processing nuclear reactor facility,
The boiling water reactor facility of the nuclear power plant constituting the nuclear waste treatment,
(811) consisting of reactor facilities of nuclear power plants of land and ocean and nuclear power plants (1) of nuclear power plant for nuclear waste disposal facilities equipped with alternate input devices of reactor buildings, nuclear waste A double structure block tank (794) connected to a double structure block tank dust collector (794) of a process pipe manufacturing process distribution shaft (705) Of the plurality of reactor installations of the boiler water reactor,
Among the plurality of nuclear reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 included in the plurality of nuclear reactor facilities constituting the operation of the nuclear power plant in the distribution input apparatus of the nuclear waste treatment facility,
A boiling water reactor system comprising a reactor facility for a nuclear power plant constituting a boiling water reactor plant and a cutting or submarine mineral collection robot for remote control in disassembling the reactor facility is provided and the nuclear fuel in the reactor vessel pressure vessel (813) When the explosion is stopped, the plurality of temperature-sensing-sensor safety valves 472 provide full closing,
When the nuclear power plant constituting the entire safety valve 472 of the reactor facility is operated, normally,
A boiling water reactor installation of a nuclear power plant provided with a barge 591 of the ocean among a plurality of reactor facilities constituting the entirety of the thermal pressure sensing sensor safety valves 472 is provided, The installation of the anti-sinking type barge that constitutes the nuclear reactor facility is also provided,
Prevention of sinking of the ocean Nuclear waste consisting of nuclear power plants of nuclear and marine nuclear power plants constituting barges and nuclear power plants of nuclear power plants (1) A double structure block tank (794) connected to a double structure block tank dust collector (794) of a process pipe manufacturing process distribution shaft (705) Of the plurality of reactor installations of the boiler water reactor,
Among the plurality of reactor facilities constituting the nuclear power plant having the double structure block tank dust collector 794 of the plurality of reactor facilities constituting the operation of the nuclear power plant in the distribution input apparatus of the nuclear waste processing nuclear reactor facility,
The boiling water reactor equipment that constitutes a nuclear power plant,
A nuclear waste disposal control article may be provided with a nuclear waste disposal control article and a loess mixture that generates soap bubbles in a toothpaste form mixed with cooling water constituted inside the core 681 inside the reactor and outside the core 681 The water feed pump 241 is provided to transfer the nuclear waste treatment and control article into the pressure vessel 813 and into the fourth protective walled container 808 so as to be disposed inside the reactor core 681 and outside the reactor core 681 The control of nuclear fuel combustion in the nuclear fuel chamber is controlled by the nuclear waste disposal control equipment, and the nuclear power plant is equipped with disaster prevention devices for controlling the leakage of the nuclear fuel radiation capability coupled with the boiling water reactor connection axes among the plurality of nuclear reactor facilities. (1) of a nuclear reactor plant for the treatment of waste, the control shaft being connected to boiler water reactor plant connection shafts during operation of the nuclear power plant Constitute the disposal of nuclear waste at the upkeep poison (593,594,595) of small, medium and large marine nuclear hydroelectric power plants;
(593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants constituting the nuclear waste disposal, nuclear waste processing dual structure block tank dust collector (794) constructed in marine nuclear hydroelectric power plant, Block tank pipe bridge Marine tunnel transport device (941) Dual structure block of nuclear waste treatment providing a nuclear waste disposal dual structure block tank scrubber (794) with a control shaft coupled by connecting shafts Tubes of nuclear power plants with tank dust collectors A plurality of nuclear reactors constituting a nuclear waste treatment dual structure block tank precipitator 794 having an adjustment shaft coupled with bridge shaft marine tunnel traffic apparatuses 941 connecting shafts to constitute a combination of boiling water reactor facilities during the nuclear operation;
A plurality of nuclear reactor facilities of a nuclear power plant having a double structure block tank dust collector 794 constituting a nuclear reactor operation inside the main body 1 of the nuclear reactor waste disposal reactor apparatus,
A double structure block tank dust collector provided with connection structure construction machine crane 861 that can be disassembled and coupled in a marine vessel manufacturing plant constituting a plurality of reactor facilities to provide production control of the dual structure block tank dust collector 794 A nuclear power plant 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant;
A double structure block tank (not shown) constituting a nuclear power plant in the main body 1 of the nuclear power plant for nuclear waste disposal of a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting the nuclear hydroelectric power plant 811, In a plurality of nuclear reactor facilities constituting a nuclear power plant having a dust collector 794,
The boiler water reactor unit 802, the pressurized water reactor unit 803, the gas cooling furnace reactor unit 804, the multipurpose hot gas reactor unit 805 and the new conversion furnace reactor unit 806 constituting the reactor facility The nuclear power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor main body 1 is provided with a plurality of nuclear reactor facilities for providing connection shafts of the fast breeder reactor facility 838, A nuclear waste nuclear waste disposal unit 811a included in the nuclear power plant;
A plurality of nuclear reactors of a nuclear power plant having a double structure block tank dust collector 794 constituting a nuclear power plant in the main body 1 of the nuclear reactor waste disposal reactor constituting the nuclear waste nuclear waste treatment section 811a, In the facility,
Nuclear power plants operating nuclear power plants safely and consistently in nuclear power plants Nuclear power plant explosion-proof nuclear reactor facilities Before and after the nuclear power plant replacement Alternative power generation Power generation We have wind power generators, thermal power generators and hydro generators A power generation and production unit 811b of a nuclear hydropower generation facility unit 811 constituting the inside of a distribution and dispensing apparatus main body 1 of a nuclear waste treatment facility including nuclear power generation alternative generation power;
And the inside of the main body 1 of the nuclear reactor disposal reactor for nuclear waste treatment of a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting the power production and production unit 811b of the nuclear hydroelectric power plant unit 811 A plurality of internal block tanks 596 connected to a plurality of reactor facilities and construction transportation vehicles of the construction machine and a double structure block tank reactor 596 composed of both the center portion and the aft portion of the outer block tank 599 794 are opened to provide a position shift control to a carrier equipped with a crane boom rest 651, a crane boom rest hook 652 and a conveyor 633 of the position movement control device construction machine crane 861,
A plurality of reactor facilities constituting the electric power production and production unit 811b are inserted into the transportation vehicles of the construction machine constituting the insertion into the distribution apparatus of the reactor facility for nuclear waste disposal of the nuclear hydroelectric power plant having the dual structure block tank dust collector In addition,
The dual structure block tank (598) dust collector arrangements that make up the reactor facility,
(2) A double structure block tank that provides transport to and from a marine installed connection structure capable of disassembly and coupling in the production of industrial docking dock areas. (1) Inside of the dispensing apparatus main body (1) of a reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having a dust collector A traffic transportation unit 811c of the construction machine connected to the power generation and production unit 811b included in the nuclear hydroelectric power plant 811 constituting the nuclear power plant;
In the transportation transportation unit 811c of the construction machine constituting the nuclear hydroelectric power plant 811,
(1) of nuclear power plant nuclear waste water treatment plant equipped with dual structure block tank dust collector, and (2) nuclear waste disposal system consisting of nuclear waste disposal system An adjusting shaft provided on the shaft;
The control shaft, which is constituted by the distribution input device of the reactor facility for nuclear waste treatment,
Disclosed is a disassembly / disassembly method in a strut block tank (590) of a nuclear hydropower generation facility unit (811) constituting a main body (1) of a nuclear reactor waste disposal reactor apparatus as a main body of a dispensing apparatus main body of an individual nuclear waste disposal reactor facility The decomposition coupling of the nuclear waste treatment dual structure block tank bridge pier 928 of the double structure block tank 598 and the connection shaft of the double structure block tank pipe bridge marine tunnel traffic apparatus 941 is connected to the power transmission unit 811d (1) of the nuclear reactor waste disposal apparatus main body (1), and the storage tanks of the nuclear waste disposal shield apparatus A distribution shaft for distributing nuclear waste to constitute discharge;
The distribution shaft, which distributes the nuclear waste and constitutes discharge,
And a nuclear waste disposal shielding apparatus. The nuclear power plant unit 811 of the nuclear waste disposal reactor main body 1 of the nuclear waste disposal reactor apparatus 1, A power transmission unit 811d provided with transformers for distributing nuclear waste to constitute discharge;
In the power transmission unit 811d equipment for distributing the nuclear waste to constitute discharge,
Power transmission unit (811d) Equivalent to the dust collector of the exhaust gas facility which is installed inside the main body (1) of the dispensing apparatus main body of the reactor facility for nuclear waste treatment before and after the operation of the nuclear reactor safety facility constituting the facility A nuclear power plant safety control and management production electric field section 811e constituting a nuclear power hydroelectric power plant 811 constituted by the inside of a main body 1 of a nuclear reactor waste disposal reactor provided with a gas outlet and an inlet;
In the nuclear power plant safety control management production electric field section 811e equipment constituting the nuclear hydroelectric power plant section 811,
(688A), a turbine building (688B), a control building (688C), an auxiliary building (688D), and a diesel generator building (688E) constituting a nuclear power plant internal distribution dispensing apparatus main body (688Z) consisting of a nuclear fuel building (688F) and a waste building (688G) connection structure. Prevention of nuclear explosion before and after the operation of the nuclear power plant Nuclear waste treatment Double structural block tank When the nuclear power plant is operating in the nuclear power plant, the electronic control regulating device construction machine control unit 811f is provided with the crane boom support 651 and the conveyor 633 of the position movement control device construction machine crane 861, ) Of the reactor main body (1) of the reactor facility for nuclear waste treatment, provided with electronically controlled regulating devices, each of which is provided with carriers Electronic regulating control construction machine hydraulic St. nuclear power plant unit 811 to control unit (811f) and;
In the electronic control apparatus construction machine control unit 811f equipment constituting the nuclear hydroelectric power plant unit 811,
(1) of the nuclear waste disposal reactor for nuclear waste disposal facility, and a control shaft for controlling the nuclear waste capacity by means of the storage tanks of the nuclear waste disposal shielding apparatus, (1) of the distribution dispensing apparatus main body (1) of the facility is provided with a safeguarding apparatus for the safe and continuous nuclear waste disposal and a nuclear fuel disposal prevention apparatus In the barge hull 591 at the upper end of the dual structure holding tank, the barge hull 592 at the lower end of the double structure holding tank is connected to the power production equipment constituting the reactor production and power generating unit 811b of the nuclear power plant, A plurality of nuclear reactor equipments of the power plant, and an electronic control unit constituting the nuclear hydroelectric power plant unit 811, A portion 811g;
In the screw control unit 811g that constitutes the nuclear power plant 811,
Disassembly of the block tank position shifting device from the holding tank 590 Coupling of the lug pin 606 and the lug 607 to the lug connection shaft coupling bolt 603 and the lug connection shaft 606, A nuclear waste disposal unit (not shown) included in the nuclear hydropower generation facility unit 811 provided in the main body 1 of the nuclear reactor waste disposal facility, 811a to the electronic sensor valve thread adjusting portion 811aa;
In the disaster prevention prevention control unit 811h provided in the nuclear hydroelectric power plant 811,
(1) of the nuclear waste disposal reactor for nuclear waste disposal facility, and a control shaft for controlling the nuclear waste capacity by means of the storage tanks of the nuclear waste disposal shielding apparatus, In the barge hull (591) at the top of the double structure holding tank where the nuclear hydroelectric power plant (811) composed of the inside of the distribution dispensing apparatus main body (1) of the facility provided safe and continuous explosion prevention of the nuclear fuel fission, (811d) that constitutes the discharge, and the barge hull (592) at the lower end of the double structure holding tank has a plurality of nuclear reactor facilities of the nuclear waste-treated nuclear hydroelectric power plant A disaster prevention prevention regulating unit 811h constituting a connection with the electronic control regulating unit constituting the nuclear hydroelectric power generating unit 811;
In other facilities constituting the connection with the disaster prevention prevention regulating unit 811h constituting the nuclear hydropower generation facility unit 811,
The fire fighting natural disaster prevention control unit 811i, the yellow dust natural disaster prevention control unit 811j, the heavy snow natural disaster prevention control unit 811k, Disaster prevention control section 8111, a typhoon natural disaster prevention control section 811m, a flood natural disaster prevention control section 811n, a drought natural disaster prevention control section 811o, a landslide natural disaster dictionary A control unit 811p for controlling the fish and shellfish scattering control unit 811p, a control unit 811q for controlling the fish and shellfish moving control unit 811r, 811s), groundwater and deep ocean water capacity supply control unit 811t, groundwater and deep sea water capacity control unit 811t, groundwater and groundwater depth control unit 811u, After confirming the postal code to postal service Postal services Transport established a line control unit (811v), and the territory dispute resolution adjusting unit (811y), and space development A satellite control unit 811z for preventing radioactive contamination of the nuclear radiation, and an electronic sensor valve screw control unit 811aa for a distribution input device and a marine tunnel transportation device 941 ) And a disaster-controlled disaster prevention system for preventing natural disasters in the ocean, and a construction machine in which the positional movement control is provided by the carriers, is included in the main body (1) of the nuclear reactor waste disposal unit;
The double structure block tank dust collector 794 constituting the nuclear power generation nuclear waste processing unit 811a to the electronic sensor valve thread adjusting unit 811aa of the nuclear power hydroelectric power plant unit 811 is inserted In many reactor installations,
A reactor apparatus is installed on both sides of the fore and aft ends of a central portion of a plurality of inner block tanks 596 of the double structure block tank reactor accumulator 794 to a crane boom stand 651 of a position movement control apparatus construction machine crane 861, The position shift control is provided to the carrier having the ring 652 and the conveyor 633 operation,
(811) of the distribution dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a dual structure block tank dust collector, Performing a nuclear power plant operation comprising a nuclear waste disposal apparatus in a structural block tank collector (794);
The execution of the nuclear power plant operation constituted by the nuclear waste disposal apparatus,
A double structure block for the operation of the nuclear power plant constituting the main body (1) of the dispensing apparatus main body constituting the nuclear waste disposal reactor constituting the operation of the nuclear power plant. A plurality of nuclear reactor facilities to be injected into the dust collector are provided,
It is equipped with the distributing and input device of the reactor facility for the nuclear waste disposal that constitutes a plurality of nuclear reactor facilities,
The nuclear waste disposal tank 295 located at the upper part of the double structure block tank precipitator 794 is sequentially arranged without being mixed with the plurality of reactor facilities of the nuclear hydroelectric power plant constituting the reactor facility and,
Of the plurality of nuclear reactor facilities of the nuclear waste treatment constituting the transfer to the inside of the pressure vessel 813 and the inside of the fourth protective walled container 808 with the feed pump 241 constituting the transfer of the loess mixture, In the facility,
A mixture of loess mixtures mixed with cooling water constituting a boiling water reactor facility is mixed with cooling water which is a control waste of nuclear waste treatment inside the core (681) inside the reactor and outside the core (681) 927 and nuclear waste disposal apparatuses so that the safety valve 472 and the hatch cover 153 are opened to fill the inside of the reactor core 681 and the reactor core 681 outside the reactor core 681, As the nuclear fuel collision of the yarn is controlled, the reactor explosion prevention of the boiling water reactor equipment is immediately established,
(593,594,595) of a small, medium and large sized marine nuclear power plant constructed inside the main body (1) of the distribution reactor of the nuclear reactor for nuclear waste disposal and the prevention of sinking of the marine nuclear power plant,
Nuclear waste disposal dual structural block tank pipe bridge for prevention of nuclear fuel explosion marine tunnel traffic device (941)
This system constitutes the connection axis between the disaster control disaster prevention device and the construction machine of the flood control facility equipped with the electronic control adjustment device for preventing the natural disaster of the ocean,
Nuclear Power Plant Alternative Electric Power Generation and Power Generator;
       (941), a disaster control device (941), and a disaster control disaster prevention device and a carrier for the prevention of natural disaster of the ocean And a construction machine for controlling the movement of the nuclear waste hydrocarbons. The apparatus for dispensing nuclear waste water for nuclear waste treatment of marine nuclear hydroelectric power plants having dual structure block tank dust collectors. The method according to claim 1,
The distribution shaft 705, which constitutes the nuclear waste treatment pipe manufacturing process included in the nuclear hydroelectric power plant 811,
(593,594,595) of a small, medium and large sized marine nuclear power plant constituting a nuclear power plant (672), and an individual reactor of a nuclear hydroelectric power plant constituting the inside of a distribution input apparatus main body (1) of a nuclear waste treatment nuclear plant A double structure block tank pipe bridge 928 and a dual structure block tank bridge 937 composed of a nuclear waste disposal double structure block block tank 590 and a nuclear waste disposal double structure block tank 598 (672) which constitutes the disassembly coupling of the double structure block tank dust collector (794) and the dual structure block tank pipe bridge (937) connection shaft controlling the leakage of radioactivity,
The distribution shaft 705 constituting the nuclear waste processing pipe manufacturing process of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste processing reactor facility,
In the reactor installation of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the distribution shaft 705,
Steel plates 597 made of high-strength stainless steels constituted by reactor facilities are provided to assemble the double structure block tank 598,
An inner block tank 596 positioned at the center of the double structure block tank 598 and an outer block tank 599 positioned outside the inner block tank 596 constitute the reactor structure, (794) Dual waste water treatment plant on one side of the facility Double structure block tank pipe bridge (937) Dispensing device A double structure block tank 598 provided with a connecting structure distributing and inputting device for a cutting process and a welding process and having a first auxiliary steel pipe 600 and a second auxiliary steel plate 601 for a block tank to be connected, And a large flange (614) constituting a position as a connecting structure of the connecting shaft to the stern connecting position,
Large flange connection connection of large flange composed of reactor facility Connection hole machining hole (615) Large flange (614) located as a connection structure at the connection part is equipped with a drill lathe and cutter of cutting tool and double structure block tank dust collector (794) (1) of the nuclear waste disposal reactor apparatus, the nuclear waste disposal apparatus manufacturing process of the nuclear power plant (811) constituting the nuclear waste disposal apparatus main body (1) And a dual structure block tank cleaner (794) of a distribution shaft (705) to configure the nuclear plant to operate as a reactor facility for nuclear waste treatment,
In the reactor installation of the nuclear hydroelectric power plant having the double structure block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
(625) of the distribution shaft (705) of the nuclear waste disposal tube manufacturing process consisting of the inside of the distribution dispensing apparatus main body (1) constituting the nuclear reactor waste disposal facility composed of the nuclear reactor facility is equipped with the safe manufacturing process It is equipped with double structure block tank dust collector (794) facilities of distribution shaft (705) of one pipe manufacturing process and is equipped with steel plate (597) material of high strength stainless steel. And a conveyor 633 having a crane crane 861 and a conveyor 633 having a double structure block tank dust collector 794 placed in a conveying process, (A) in which the high-strength stainless steels steel plate 597 is bent at right angles to the forming bending machine, V-shaped bending (b), circular bending (c) Providing a processing section performing the song with, and
The nuclear waste treatment plant for the nuclear waste disposal unit consisting of the reactor facility is constructed in the main body (1) of the nuclear waste treatment plant manufacturing division of the nuclear waste disposal pipe manufacturing process distributing shaft (705) 794) of the nuclear power plant to perform the operation of the nuclear reactor with the reactor facility for the nuclear waste treatment of the reactor facility of the nuclear hydroelectric power plant,
A double structure block tank 598 of a distribution shaft 705 constituting the nuclear reactor facility and a stopper plate 625 of a distribution shaft 705 of a pipe manufacturing process of a reactor plant of a nuclear power plant having a dust collector 794,
It is equipped with a bending type press braking type bending type bending machine, a bending type roller bending type bending type machine and a bending type bending type bending type bending type bending machine which are composed of a nuclear reactor facility and have high tensile strength A banding and bending machine of a steel plate 597 is provided to perform cutting and cutting operations,
The crane crane 861 and the conveyor 633, which are installed in the transporting process constituted by the nuclear reactor facility, are provided with the welding position shift control to the banding joint portion of the high-strength stainless steel plate 597, The welding process is performed at the banding joint portion of the high-strength stainless steel plate 597 with the welding machine, the cutting tool, the drill lathe and the cutter, and the inside of the main body (1) The nuclear reactor of the nuclear power plant of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the nuclear waste processing pipe manufacturing process distributing shaft 705 of the nuclear power hydroelectric generating unit 811 constituting the nuclear power plant, To &lt; RTI ID = 0.0 &gt;
The reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structural block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
The large flange 614 is connected to the large flange 614 located at the aft and stern connection portion of the dual structure block tank 598 of the reactor unit and has a predetermined size of the stopper plate 625 And is provided as a connection structure of the pipe manufacturing process distributing shaft 705 of the manufacturing and processing shelf process,
In the inner block tank 596 composed of a nuclear reactor facility and the outer block tank 599 located outside the inner block tank 596, the dual structure block tank dust collector 794 is installed in the nuclear waste disposal pipe manufacturing facility The inner block tank 596 is provided with a crane crane 861 and a conveyor 633 which are inserted into the outer block tank 599 to prepare a welding process while controlling the movement of the pipe manufacturing facility ,
(1) Nuclear power plant part (811) consisting of nuclear waste treatment plant manufacturing process distribution shaft (1) inside the nuclear plant waste processing facility with double structure cylindrical structure consisting of reactor facilities 705), comprising a dual structure block tank cleaner (794) for the nuclear reactor of the nuclear power plant,
The reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structural block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
A double structure block tank 598 composed of a nuclear reactor facility, a dust collector 794, a plurality of outer block tanks 599 outside the plurality of inner block tanks 596, a first auxiliary type steel 600 for a block tank, The second auxiliary steel plate 600 for the block tank and the second auxiliary steel plate 600 for the block tank are provided with the second auxiliary steel plate 601, the vertical partition wall 605, the horizontal partition wall 609 and the steel beam 149, A nuclear reactor 601, a vertical partition 605, a horizontal partition 609, a steel beam 149, a snap hole 602 and a partition wall manhole 610 are provided with a computer laser cutter,
The nuclear reactor facility is provided with the welding machine of the welding process while the cutting process comprising the reactor facility is performed and the fifth protective walls formed on the outer wall surface of the fourth protective walled container 808 are installed in the distribution input Nuclear waste treatment of a reactor plant of a nuclear power plant having a double structure block tank dust collector 794 of a nuclear waste processing tube manufacturing process distribution shaft 705 of a nuclear power hydroelectric power plant unit 811 constituting the inside of the apparatus main body 1 Of the nuclear power plant,
In the reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear power plant having the double structure block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
The vertical partition wall 605 and the horizontal partition wall 609 provided with the partition wall manhole 610 of the double structure block tank dust collector 794 constituted by a nuclear reactor facility are provided with a traffic device hydraulic cylinder door 624, 631 are provided in the welding processes and are equipped with the marine tunnel traffic devices for distributing the double structure block tank dust collector 794 for preventing the explosion of the nuclear reactor facility and are arranged inside the main body 1 of the nuclear reactor waste disposal unit A nuclear water hydropower generating plant 811, and a double structure block tank precipitator 794 as a connection structure for a nuclear water hydroelectric power plant inside and outside the marine tunnel transportation device in a nuclear waste processing pipe manufacturing process distribution shaft 705. [ The nuclear reactor of the nuclear power plant having the nuclear power plant,
In the reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
Double structure block tank dust collector (794) consisting of nuclear reactor facility. It is equipped with a bending type bending machine, a press braking type bending machine, a bending type roller bending machine, Three bending type roller bending machines are provided to perform the banding and bending process of the high-strength stainless steels steel plate 597, and a stopper plate 625 dust collector 794 ) Facilities,
A double structure block tank 598 having a cylindrical egg-shaped coupling structure made up of a nuclear reactor facility and constituted by a plug-and-loop fitting assembly of a double structure block tank 598, and a plurality of inner block tanks 596 and a plurality of outer block tanks 599) said large flange to a dust collector (794) facility having machines of the welding process at the upper and lower ends of the block tanks, respectively, provide a bolting connection device and a reactor block explosion-proof dual structure block tank dust collector And a nuclear power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus having the marine tunnel traffic apparatuses with the distributed nuclear power plant 794 distributed therein, A nuclear power plant having a double structure block tank dust collector (794) as a connection structure of a nuclear power plant inside and outside the marine tunnel transportation device of the shaft (705) And the operation of the reactor to operate the nuclear reactor with the nuclear waste disposal reactor apparatus as a distribution input device of the self-
In the reactor facility of the distribution shaft of the nuclear waste processing pipe manufacturing process of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
(794) Dual structure block tank (598) of the reactor plant The welding process assembly of the bolting coupling assembly and the stopper plate (625) is provided with a stopper plate (625) of the stopper plate (625) A nuclear power plant unit (1) having a double structure block tank dust collector (794) for preventing explosion of a plurality of nuclear reactor equipments constituting a combined welding process assembly and constituting the inside of the main body (811), and a welding process assembly and bolting coupling assemblies, which are composed of a nuclear waste disposal dispensing apparatus and a nuclear fuel explosion control apparatus,
Nuclear waste treatment plant consisting of nuclear reactor facility The nuclear reactor plant with a double structure block tank dust collector (794) as a connection structure of nuclear power plant inside and outside of the marine tunnel traffic apparatus in the distribution shaft (705) The nuclear waste disposal of nuclear reactors,
In the reactor facility for the nuclear waste treatment of the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
(593,594,595) equipped with small, medium and large sized nuclear and hydroelectric power plants composed of nuclear reactor facilities, and 40m at the top of the sea surface excluding the weather condition of tsunami as a disaster prevention device, And a plurality of nuclear reactors of the nuclear power plant excluded the effect of earthquake and tsunami by means of disaster prevention by adjusting the position of the nuclear power plant by arranging the mooring device and the diving buoyancy adjusting device formed on the barge preventing sinking type It is structured to operate nuclear power plants with explosion prevention,
In the reactor facility for the nuclear waste treatment of the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
In the nuclear hydropower plant 811 comprising the reactor facility,
A double structure block tank dust collector (794) installed to prevent the explosion of a large number of reactor facilities in the nuclear fuel chamber that prevents environmental pollution caused by nuclear waste composed of reactor facilities is installed in a marine nuclear power plant, (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants, which are equipped with the operation of nuclear power plants, to ensure the safety of nuclear power generation facilities. (705) Marine tunnel inside and outside repair system Nuclear power plant connection structure Nuclear waste of nuclear waste treatment system Dispensing device of reactor facility for nuclear waste disposal with nuclear fuel cycle of nuclear fuel industry Which comprises a dual structure block tank cleaner 794 of a distribution shaft 705, (811) of the nuclear power plant of the firing plant to perform nuclear power plant operation,
The nuclear fuel cycle of the nuclear waste fuel industry, which consists of a nuclear waste disposal apparatus of a nuclear power hydroelectric power plant unit 811 of a nuclear power plant having a double structure block tank dust collector 794 of the distribution shaft 705,
(593,594,595) Nuclear power plants (672) of small, medium and large sized nuclear hydroelectric power plants constituting the nuclear fuel cycle of the nuclear fuel industry, and distributions constituting the inside of the distribution input unit main body (1) of nuclear reactor facilities for nuclear waste disposal The spent nuclear fuel 683 of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the nuclear power hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the shaft 705,
The remaining uranium 812, which constitutes the nuclear fuel cycle of the nuclear fuel industry, provides the nuclear fuel 683 processing at the reprocessing plant 228,
In the conversion plant 229 constituting the nuclear fuel cycle of the nuclear fuel industry,
The fuel is supplied to uranium fluoride 812 and the nuclear fuel cycle of the nuclear waste fuel plant of the nuclear waste treatment facility is provided to transfer the nuclear fuel 683 to the concentrator 230,
Providing a conversion at uranium dioxide conversion plant 229, uranium fluoride 812 constituting the nuclear fuel cycle,
And a fuel rod (689) constituting processing in the state of pellets (683) constituting the fuel cycle,
Plutonium 801, processed at the reprocessing plant that makes up the nuclear fuel cycle,
The fuel rods 689 are prepared at the conversion / processing factory 231,
The reprocessing fuel rods 689 constituting the nuclear fuel cycle,
Again, it includes a forklift carrier that constitutes a transfer of nuclear fuel 683 to the nuclear power plant 672,
The nuclear power plant 672 constituting the nuclear fuel cycle, the reprocessing plant 228, the concentration plant 230, the conversion plant 229, the conversion and processing plant 231,
(672), equipped with a nuclear fuel cycle distribution shaft (705) and a nuclear waste (224) disposal input device facility located at the top of the deck plate at the top of the sea, Including the nuclear fuel cycle of the nuclear fuel industry, which consists of internal and external nuclear radiation pollution prevention,
A nuclear power plant of a nuclear power plant having a double structure block tank dust collector 794 of a distribution shaft 705 constituting a distribution dispensing apparatus main body 1 of a nuclear waste treatment facility for treating nuclear waste 224 A nuclear fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the unit 811,
(593,594,595) of small, medium and large sized nuclear hydroelectric power plants constituting the nuclear fuel cycle, and mooring devices and diving buoyancy control devices and nuclear waste disposal devices installed in nuclear power plants (672). The nuclear hydroelectric power plant of the nuclear power plant having the double structure block tank dust collector 794 of the nuclear waste disposal dispenser equipment distribution shaft 705 of the reactor facility at the nuclear hydroelectric power facility 811 before and after the safe operation of the nuclear reactor facility (811) of the nuclear shipbuilding plant of nuclear waste disposal facility, which is composed of disassembly-connectable connection structures at the marine shipbuilding factory of Shipbuilding Corporation (811)
The nuclear fuel cycle of the nuclear waste fuel industry constituting the nuclear waste disposal apparatus of the nuclear power generation facility unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705,
A distribution shaft 705 of a nuclear waste processing pipe manufacturing process composed of a reactor facility of a nuclear power plant of land and sea and a nuclear hydroelectric power plant unit 811 constituting a nuclear reactor waste disposal reactor main body 1 (794) a stage of operation of the nuclear power plant of the nuclear power plant which has prepared the nuclear fuel cycle of the nuclear waste fuel processing equipment of the nuclear waste disposal unit to operate the nuclear power plant of the reactor facility;
Nuclear waste treatment pipe manufacturing process consisting of a nuclear hydropower generation facility part (811) constituting a distribution dispensing device main body (1) of a nuclear waste disposal treatment facility In the case of repairing the inside and outside of the transportation device of the distribution shaft (705) (794) a nuclear waste disposal pipe manufacturing process; (c) a reactor structure having a control rod brush structure;
Nuclear power plant of nuclear power station of land and ocean and nuclear power plant of nuclear power plant of nuclear power plant which is composed of main body (1) of nuclear power plant for distribution of reactor facility for nuclear waste treatment (811) And the nuclear waste disposal marine tunnel communication device 941 connected to the nuclear waste disposal marine tunnel transportation device 941 before the failure of a plurality of nuclear reactor facilities of the nuclear power plant constituting the nuclear power plant to operate the nuclear power plant with the double- A nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, and a nuclear waste disposal truck, A plurality of nuclear reactors installed in a reactor facility of a nuclear power plant equipped with a generator and a hydroelectric generator and having a dual structural block tank dust collector (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal apparatus main body (1) and constituting a nuclear waste disposal pipe manufacturing process 705)
(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the nuclear power plant (672)
Nuclear waste treatment of individual reactor facilities of a nuclear power plant consisting of the main body (1) of the distribution dispensing apparatus of the nuclear waste disposal facility consisting of the dual structure support block tank (590) and the nuclear waste treatment dual structure block tank (598) A dual structure block tank sorter 794 for controlling the leakage of the nuclear radiation performance of the double structure block tank bridge bridge 928 and the double structure block tank bridge 937 and the connection shaft,
Double structure block tank pipe bridge (937) Includes the reactor facility of a nuclear waste disposal nuclear reactor (672) that constitutes the disassembly of the connecting shaft,
In the reactor installation of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituting the nuclear reactor facility,
Steel plates 597 of a high-strength stainless steel constructed in a reactor facility of a nuclear hydroelectric power plant are provided to assemble a double structure block tank 598,
An inner block tank 596 located at the center of the double structure block tank 598 constituting the double structure block tank 598 and outer block tanks 599 located outside the inner block tank 596 (794) Double-structured block tanker (794) which constitutes production by distributing and supplying equipment of connecting structure that performs cutting process and welding process in industrial structure in the form of dual structure. Nuclear waste treatment Double structure block tank pipe A double structure block tank provided with a first auxiliary type steel 600 for a block tank and a second auxiliary steel plate 601 connected to a distribution and input device of a bridge 937 and provided by a connecting and distributing device of a connection structure of a cutting process and a welding process (598) a dust collector (794), and a large flange (614) forming a position as a connection structure of the connection shaft to the stern connection position,
Large flange 614, which is located as a connecting structure at the connection position, is connected to a drill lathe and a cutter of a cutting tool (594) And a dual structural block tank dust collector (794). The nuclear waste water treatment system (1) includes a nuclear power plant Comprises a dual structure block tank dust collector (794) on the distribution shaft (705) of the nuclear waste treatment line manufacturing process of the power generation facility unit (811) to perform the operation of constructing the nuclear power plant with the reactor facility of the nuclear waste treatment,
(625) of the distribution shaft (705) of the nuclear waste processing pipe manufacturing process which is constituted inside the dispensing apparatus main body (1) of the nuclear reactor waste disposal reactor equipment, (597) of the high-strength stainless steels by using the double structure block tank dust collector (794) of the distribution shaft (705), and the process sequence of cutting, cutting and transportation A high strength stainless steel plate 597 having a crane crane 861 and a conveyor 633 in which a double structure block tank dust collector 794 is put in a conveying process and constituting facilities of a nuclear waste processing pipe manufacturing process, (A) and V-type folding machines (a), (b) and (c), respectively. The high-strength stainless steel plate 597 is formed by a forming machine and a roll- b), and a circular waving (c) To provide a dispensing input device body (1) to perform internal machining comprising a track section of the distribution shaft (705) that make up the nuclear waste disposal tube manufacturing process of the nuclear power plant hydraulic unit 811 in the equipment, and
(811) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor constituting the nuclear waste disposal reactor main body (1) constituting the dividing shaft (705) And a dual structure block tank cleaner (794) of a nuclear power plant (704, 705) to constitute a nuclear power plant for nuclear waste disposal.
In the stopper plate 625 of the pipe manufacturing process distribution shaft 705 of the reactor facility of the nuclear hydroelectric power plant having the double structural block tank 598 dust collector 794 constituting the distribution shaft 705,
A bending type press braking type bending machine, a bending type bending type bending machine and a bending type bending type bending machine which are constituted by a reactor facility of a nuclear hydroelectric power plant,
It is equipped with three bending roller bending machines composed of a reactor facility and has a bending and bending machine of high tensile strength steel plate (597) to prepare bending and cutting process ,
The crane crane 861 and the conveyor 633, which are loaded into the conveying process constituted by the reactor facility,
The welding position shift control is provided at the banding joint portion of the high-strength stainless steel plate 597 constituted by the reactor facility,
A welder, a cutting tool, a drill lathe, and a cutter constituting a nuclear reactor facility, and performing a welding process to a banding joint portion of a high-strength stainless steel plate (597) (1) A reactor for nuclear waste disposal of a reactor facility of a nuclear power plant having a double structure block tank dust collector (794) of a distribution shaft (705) of a nuclear waste processing pipe manufacturing process of a nuclear hydroelectric power plant unit (811) And performing an operation to operate the nuclear power plant with the facility,
The reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structural block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
The large flange 614 is connected to the large flange 614 located at the aft and stern connection portion of the dual structure block tank 598 of the reactor unit and has a predetermined size of the stopper plate 625 And is provided as a connection structure of the pipe manufacturing process distributing shaft 705 of the manufacturing and processing shelf process,
In the inner block tank 596 constituted by the nuclear reactor facility and the outer block tank 599 located outside the inner block tank 596, the prefabrication of the nuclear waste disposal pipe manufacturing facility of the double structure block tank collector 794 And,
The internal block tank (596) facility, which consists of a reactor facility,
A crane crane 861 and a conveyor 633 conveying body to be introduced into the outer block tank 599 to prepare a welding process while controlling the positional movement of the pipe manufacturing facility,
(811) consisting of the inside of the main body (1) of the nuclear reactor waste disposal unit equipped with the double structure cylindrical connection structure composed of the reactor facility, the nuclear waste disposal pipe manufacturing process distributing shaft Comprises constructing a reactor plant to operate nuclear reactors in a reactor facility of a nuclear hydroelectric plant having a dual structure block tank cleaner (794) of a nuclear power plant (705)
A double structure block tank dust collector 794 composed of the nuclear reactor facility; a plurality of outer block tanks 599 outside the plurality of inner block tanks 596;
A first auxiliary steel pipe 600 for a block tank and a second auxiliary steel plate 601 for a block tank, a vertical partition wall 605, a horizontal partition wall 609 and a steel beam 149 The first auxiliary steel 600 for the block tank, the second auxiliary steel plate 601 for the block tank, the vertical partition 605, the horizontal partition 609, the steel beam 149, the snap hole 602, (610), a nuclear reactor facility is provided by a computer laser cutter,
The fifth protective walls formed on the outer wall surface of the fourth protective walled container 808 by providing the reactor facility with the welding machine of the welding process while performing the cutting process constituted by the reactor facility,
A double structure block tank dust collector 794 of a nuclear waste disposal pipe manufacturing shaft distributing shaft 705 of a nuclear hydroelectric power generation facility 811 constituting the inside of a distribution dispensing apparatus main body 1 of a nuclear waste disposal reactor installation This includes the construction of nuclear reactors to operate nuclear reactors for the nuclear waste disposal of reactor facilities of nuclear hydroelectric plants,
The reactor facility of the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structural block tank 598 dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
A vertical partition wall 605 provided with a partition wall manhole 610 of a double structure block tank dust collector 794 constituted by a nuclear reactor facility and a horizontal partition wall 609 are provided with a traffic device hydraulic cylinder door 624, 631,
Welding process, and a double structure block tank dust collector 794 for preventing explosion of the nuclear reactor facility is installed in the marine tunnel transportation apparatus provided with the distribution input, A double structure block tank dust collector 794 is provided as a connection structure of a nuclear water hydraulic power plant inside and outside the marine tunnel transportation device in a nuclear waste treatment pipe manufacturing process distribution shaft 705 composed of a hydroelectric power generation facility unit 811 This includes the construction of nuclear reactors to operate nuclear reactors for nuclear waste disposal of reactor facilities of a nuclear power plant,
In the reactor facility constituting the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the distribution shaft 705 constituted by the nuclear reactor facility,
Double Structure Block Tank Dust Collector (794) A bending type bending machine, a press braking type bending machine, a bending type roller bending machine, and three bending Type roller bending machine to perform the banding and bending process of the high-strength stainless steel plate 597,
The closure iron plate (625) dust collector (794)
A double structure block tank 598 having a cylindrical egg-shaped coupling structure constituting a dust collector 794 and constituted by a cap-tight coupling assembly of a dual structure block tank 598, a plurality of inner block tanks 596, External block tanks (599) Each of the block tanks has a dust collector (794) facility which constitutes machines of the welding process at the upper and lower ends, the large flange being provided with a bolting connection device,
(794) is installed in the marine tunnel transportation apparatuses provided with the distribution input to prevent the nuclear explosion prevention of the egg type coupling structure composed of the nuclear reactor facility, and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment And a double structure block tank dust collector 794 as a connection structure for a nuclear power plant inside and outside the marine tunnel transportation device of the nuclear waste processing pipe manufacturing process distribution shaft 705 composed of the nuclear hydroelectric power plant part 811, And performing the operation of the nuclear reactor with the reactor facility of the nuclear waste disposal of the reactor facility of the nuclear power plant having the nuclear power plant,
In the reactor facility constituting the nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant having the double structure block tank dust collector 794 of the distribution shaft 705,
A double structure block tank (594) constituting a nuclear reactor plant, a dual structure block tank dust collector (794), a welding process assembly of the bolting coupling assembly and the stopper plate (625) The nuclear hydroelectric power plant unit 811 includes a double structure block tank dust collector 794 of an explosion-proof type of a plurality of nuclear reactor facilities constituting the nuclear waste disposal unit main body 1, A nuclear waste disposal dispensing apparatus comprising a welding process assembly and bolting coupling assemblies,
The apparatus is provided with distribution dispensing apparatuses of a nuclear fuel explosion control apparatus constituting a nuclear waste disposal dispensing apparatus,
Nuclear waste of a reactor facility of a nuclear power plant equipped with a double structure block tank dust collector (794) as a connection structure of a nuclear power plant inside and outside of a marine tunnel traffic apparatus constituting a nuclear waste disposal pipe manufacturing process distribution shaft (705) And performing the operation of the nuclear reactor with the reactor facility of the treatment,
The reactor facility for nuclear waste disposal in the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 includes a small (593,594,595) of medium and large sized marine nuclear hydroelectric power plants, and the location of the nuclear hydroelectric power plant (811) is arranged at the top of the sea level of 40m excluding the weather condition of earthquake and tsunami by disaster prevention device It is equipped with mooring device and submersible buoyancy control device installed in barge preventing sink type to control the position of nuclear hydroelectric power plant so as to operate nuclear power plant to prevent explosion of nuclear power plant with many nuclear power plants excluding the effect of earthquake and tsunami. And,
In the reactor facility for nuclear waste disposal in the nuclear hydroelectric power plant 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705,
In the nuclear hydropower generation facility unit 811 constituting the reactor facility for nuclear waste treatment,
(794) installed in marine nuclear power plants to ensure safe and continuous operation of nuclear reactors by installing a dual structure block tank dust collector (794) installed to prevent explosion of a large number of nuclear reactor facilities in the nuclear fuel chamber constituting the prevention of environmental pollution caused by nuclear waste (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants to ensure the safety of nuclear hydroelectric power plants and to guarantee the renovation of nuclear reactor facilities through continuous operation. ) Nuclear waste in the nuclear waste treatment system, which is a connection structure of nuclear hydroelectric power plants, in and out of the marine tunnel transportation device inside and outside of the system Dispensing device of the reactor facility for nuclear waste disposal with the fuel cycle of the nuclear fuel industry Having a dual structure block tank cleaner 794 of a distribution shaft 705, Nuclear reactor plant with a bovine hydraulic nuclear waste in power plants unit 811 processing includes performing a configuration achieve a nuclear power plant operation,
The nuclear fuel cycle of the nuclear waste fuel industry of the nuclear waste processing apparatus constituting the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705,
(593,594,595) Nuclear power plants (672) of small, medium and large sized nuclear hydroelectric power plants constituting nuclear fuel cycle of nuclear waste fuel industry and distribution facility of nuclear reactor waste treatment facility (1) The spent fuel fuel 683 of the nuclear waste fuel industry of the nuclear waste disposal apparatus constituting the nuclear hydroelectric power plant unit 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution shaft 705 which distributes the spent nuclear fuel, Wow,
The remaining uranium 812 constituting the nuclear fuel cycle provides for the processing of fuel 683 at the reprocessing plant 228,
At the conversion plant 229, processing is provided with uranium fluoride 812,
The nuclear waste fuel processing equipment of the nuclear waste disposal facility is provided with the fuel cycle of the nuclear waste fuel industry, and the enrichment plant 230 is provided with the transfer of the nuclear fuel 683 to the carrier,
The conversion of uranium fluoride 812 to uranium dioxide conversion plant 229 is provided,
And a fuel rod (689) constituting processing in the state of pellets (683) constituting the fuel cycle,
Plutonium 801, processed at the reprocessing plant that makes up the nuclear fuel cycle,
The fuel rods 689 are prepared at the conversion / processing factory 231,
The reprocessing fuel rods 689 constituting the nuclear fuel cycle,
And a forklift carrier constituting transfer of the nuclear fuel 683 to the nuclear power plant 672,
The nuclear power plant 672 constituting the nuclear fuel cycle, the reprocessing plant 228, the concentration plant 230, the conversion plant 229, the conversion and processing plant 231,
(705) of the nuclear fuel industry located at the top of deck-top deck, and a nuclear waste (224) disposal input and output facility equipped with a nuclear power plant (672 Including the nuclear fuel cycle of the nuclear fuel industry to prevent nuclear radiation contamination,
A nuclear power plant having a dual structure block tank dust collector 794 of a distribution shaft 705 constituting a distribution input apparatus main body 1 of a nuclear waste treatment facility for treatment of nuclear waste 224 constituting a nuclear fuel cycle, The nuclear fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the nuclear hydroelectric power plant 811 of the nuclear power plant,
(593,594,595) of small, medium and large sized nuclear hydroelectric power plants constituting the nuclear fuel cycle, and mooring devices and diving buoyancy control devices and nuclear waste disposal devices installed in nuclear power plants (672). The nuclear hydroelectric power plant of the nuclear power plant having the double structure block tank dust collector 794 of the nuclear waste disposal dispenser equipment distribution shaft 705 of the reactor facility at the nuclear hydroelectric power facility 811 before and after the safe operation of the nuclear reactor facility (811) of the nuclear shipbuilding plant of nuclear waste disposal facility, which is composed of disassembly-connectable connection structures at the marine shipbuilding factory of Shipbuilding Corporation (811)
The nuclear fuel cycle of the nuclear waste fuel industry constituting the nuclear waste disposal apparatus of the nuclear power hydroelectric power plant unit 811 of the nuclear power plant having the double structural block tank dust collector 794 of the distribution shaft 705 constituting the nuclear reactor facility ,
Nuclear waste treatment plant manufacturing process consisting of reactor facilities of nuclear power plant of land and ocean constituting nuclear fuel cycle and nuclear power plant (811) constituting inside of main body (1) of distribution dispensing apparatus of nuclear waste treatment facility A dual structure block tank (794) of the distribution shaft (705) of the nuclear waste disposal facility (794), constituting a nuclear fuel plant of the nuclear waste disposal apparatus, constituting the nuclear fuel cycle of the nuclear power plant before and after the nuclear power plant operation;
Nuclear waste treatment pipe manufacturing process consisting of a nuclear hydropower generation facility part (811) constituting a distribution dispensing device main body (1) of a nuclear waste disposal treatment facility In the case of repairing the inside and outside of the transportation device of the distribution shaft (705) (794) a nuclear waste disposal pipe manufacturing process; (c) a reactor structure having a control rod brush structure;
Nuclear power plant facilities (811) of the reactor facilities of nuclear reactors constituting nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant facilities (1) A plurality of nuclear reactors of the nuclear power plant configured to operate the nuclear power plant with a double structure block tank dust collector 794 of the process tube manufacturing distribution shaft 705 and a nuclear waste disposal marine tunnel transportation device 941 ), A construction machine equipped with a nuclear waste disposal truck and a position control system, a wind power generator, a thermal power generator,
And a plurality of nuclear reactors installed in the reactor facility of the nuclear hydroelectric power plant having the dual structure block tank dust collector. The nuclear waste of the marine nuclear hydroelectric power plant having the double structure block tank dust collector Dispensing device for processing reactor installations. The method according to claim 1,
(1) of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector, and the storage tanks of the nuclear waste disposal shielding device of the nuclear reactor, The connection shaft of the adjustment shaft, which is connected to the distribution shaft constituting the adjustment,
A plurality of nuclear reactor installations of a nuclear hydroelectric power plant having a double structure block tank dust collector 794 constituting a nuclear power plant of the connection shaft,
A boiler water reactor unit 802, a pressurized water reactor unit 803, a gas cooling furnace reactor unit 804, a multipurpose hot gas reactor unit 805 and a new conversion furnace reactor unit 806 constituting a plurality of reactor facilities. And a high-speed proliferation furnace reactor (838), which is provided with a plurality of reactor facilities for providing connection shafts of control shafts connected to each other. The nuclear waste disposal unit 811a of the nuclear hydroelectric power plant 811 constituting the inside of the apparatus main body 1 is provided with storage tanks for the nuclear nuclear waste disposal shielding apparatus,
At the connection axis of the regulating shaft constituting the nuclear waste disposal capacity regulation,
The main body 1 of the nuclear reactor waste disposal reactor constituting the connecting shaft of the control shaft is connected to the holding block tank (not shown) of the nuclear hydropower generation facility 811 constituting the inside of the distributing and inputting apparatus main body of the individual nuclear waste disposal reactor apparatus 590 are connected to a power transmission unit 811d that provides decomposition coupling to the nuclear waste treatment dual structural block tank bridge pier 928 and dual structure block tank bridge bridge marine tunnel traffic equipment 941 ) Having a connection structure capable of disassembling and coupling coupling shafts and having a plurality of reactor equipment manufacturing apparatuses constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus and storage tanks of the nuclear waste disposal shield apparatus Nuclear power plants and nuclear reactors of nuclear power plants, which are equipped with connection shafts of regulating shafts which are provided with discharged nuclear waste, As anti-explosion equipment (803), and
A double structure block tank dust collector 794 for controlling the nuclear radiation leakage constituting the pressurized water type reactor reactor facility 803 is provided with reactor facilities to prevent leakage of nuclear radiation,
(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plant of land and ocean and nuclear power hydroelectric power plant The double-structure block tank reactor of the nuclear power plant of the nuclear power plant of the connection shaft of the nuclear power plant nuclear waste processing unit 811a of the reactor facility constituting the dual structure block tank dust collector installation of the unit 811,
(593,594,595) Nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants constituting the pressurized water reactor facility (803) and the inside of the distribution input unit main body (1) of nuclear reactor waste treatment facility (683) Explosion Control Distribution Dispensing Apparatus with Dual Structure Block Tank Dust Collector (794) Controlling Nuclear Radiation Leakage to Control the Nuclear Radiation Leakage of Nuclear Fuel The method of claim 1,
(811) located at the top of the sea level (40 m above sea level) excluding the weather condition of the earthquake and tsunami constituting the pressurized water reactor installation (803) by the disaster prevention device, Barge line Reactor facility Safety operation Reactor facility to establish safe reactor facility safety facility Safety device Double structure block to control nuclear radiation leak that prevents explosion of nuclear power plant nuclear power plant Nuclear power plant Double structure block tank Dust collector (794) Reactor facility And the operation of the nuclear power plant is performed by providing a pressurized water type reactor installation 803,
In the pressurized water type nuclear reactor facility 803 of the connection shaft of the nuclear power generation nuclear waste processing unit 811a constituting the pressurized water type nuclear reactor facility 803,
The steam generator 810 exchanges the water and the steam 780 without generating water vapor by applying pressure constituting the pressurized water reactor assembly 803 so as to make the steam turbine rotate while exchanging the water and the steam 780 in the steam generator 810, A control rod 798 is provided inside the reactor pressure vessel 813 and a coolant pump 243 is provided below the steam generator 810 and the steam generator 813 on the side of the pressure vessel 813, Provide turbine rotation,
A turbine 267 and a generator 772 are formed at an intermediate portion between the pressure vessel 813 constituting the pressurized water reactor assembly 803 and the steam generator 810 and the cooling water 287 is injected into the condenser 790 Provide cooling water discharge with waterproofing,
The water supply performance is provided to the steam generator 810 through the water supply pump 241 connected to the condenser 790 constituting the pressurized water type reactor installation 803 and the water supply performance of the small, (593,594,595) Nuclear power plant (672) and double tube structure block piping line located inside the dispensing device main body (1) of nuclear reactor waste treatment facility (74) Nuclear waste location movement path And a nuclear waste disposal unit 811a to provide a nuclear waste disposal unit 811a, and a nuclear waste disposal location control unit and a nuclear waste disposal site including a double piping line 74 are provided ,
To constitute the pressurized water type nuclear reactor facility 803 and to operate the nuclear reactor of the connection shaft constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the pressurized water reactor facility 803,
The nuclear radioactive contaminants constituting the inside of the nuclear power generation nuclear waste processing unit 811a of the nuclear power generating facility unit 811 constituting the pressurized water type nuclear reactor facility 803 are connected to a plurality of temperature pressure detecting sensor safety pressure sensor In addition,
When the nuclear power plant constituting the pressurized water type nuclear reactor facility 803 is in operation,
When the temperature reaches 700-800 degree high temperature and high pressure inside the nuclear reactor facility, the temperature and pressure sensors provide alarm messages to the computers in the safety control room, The inner block piping line 74a of the small pressure vessel 813 is connected to the inner block tank of the pressure vessel 813 while the explosive nuclear waste passes through and the nuclear waste is stored at the lower end of the double structure block tank. (472) is opened,
As the outer block piping line 74b constituting the pressurized water reactor assembly 803, the fuel explosion prevention control article stored in the inner block tank is connected to the flickering warning lamp 99 of the temperature pressure sensor, the pressure gauge 101, A thermostat thermometer sensor switch 103 having a connection structure with the bimetal 102 and a level pressure switch 104 for flow rate check operation and a flow meter 105 for flow rate check and a pipeline line automatic pneumatic valve transport device 916 are provided with connection structures to connect a plurality of through holes of the double pipe structure block piping line 74 at a predetermined angle of 45 degrees to the upper end of the reactor building 688 by a cutter and a construction machine drill machine Through hole processing is provided,
A double pipe structure block piping line (74) is formed in a plurality of through holes of a double structure block tank reactor reactor facility constituting the pressurized water reactor installation (803)
A plurality of safety valves 472 constituting the pressurized water reactor assembly 803 are provided on the block piping line 74 with bolts 24 and nuts 25 with flanges connected to gaskets 32,
The outer block tank 599 for storing the nuclear waste is disposed at one location of the double structure block tank 598 having a size twice the diameter of the reactor provided on the outer wall surface of the reactor building 688 constituting the pressurized water reactor installation 803. [ And dual structure block tank dust collector reactor facilities, and combined with a radiation type connection structure to provide nuclear waste disposal dispensing apparatus and nuclear fuel (683) explosion control dispensing apparatus,
To constitute the pressurized water type nuclear reactor facility 803 and to operate the nuclear reactor of the connection shaft constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the pressurized water reactor facility 803,
Explosion prevention of the nuclear fuel 683 of the pressurized water reactor reactor facility 803 constituting the pressurized water reactor installation 803 can be prevented,
The nuclear reactor 681 of the pressurized water reactor installation 803 and the nuclear fuel 683 immediately before the reactor explosion outside the reactor core 681 are provided with explosion- A double structure block tank reactor in the main body 1; a nuclear waste disposal unit 811a having a nuclear reactor facility; a temperature sensor for detecting the temperature and pressure of the pressurized water reactor reactor 803, Provide explosion-proof control supplies,
(593,594,595) of marine nuclear power hydroelectric power plants of small size, medium and large scale, which constitute a pressurized water reactor installation (803). Distribution of mooring devices and diving buoyancy control devices and nuclear waste disposal in nuclear power plants (672) Device and pressurized water reactor (803) before and after operation of the reactor facility Dual structure block in the nuclear power plant (811) at the nuclear power plant nuclear waste treatment section (811a) of the reactor facility (794) And the pressurized water reactor reactor facility 803 among a plurality of nuclear reactor facilities therein,
A decompression and connection structure constituting the pressurized water reactor assembly 803, which comprises a connection shaft constituting the inside of the main body 1 of the reactor installation for nuclear waste disposal, in order to perform nuclear power operations;
The nuclear waste reactor treatment facility 804 constituting the gas cooling furnace reactor facility 804 comprises the storage tanks of the nuclear reactor waste disposal shielding apparatus constructed inside the main body 1 of the dispensing apparatus main body 1, The connection shaft of the adjustment shaft connected to the distribution shaft,
In the gas cooling furnace reactor facility 804 among the plurality of reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the operation of the connection shaft constituting the gas cooling furnace reactor facility 804,
(593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the gas cooling furnace reactor facility (804) The nuclear reactor facility 811 of the nuclear power plant 811 inside the reactor core 1 is provided with a gas cooling furnace reactor 804 constituting a double structure block tank collector 794 for nuclear waste treatment of the connection shaft,
A nuclear radiation leakage control dual structure block tank dust collector (not shown) comprising a floating nuclear fuel plant 672 of a marine power plant constituting a nuclear reactor furnace facility 804 and a distribution input apparatus main body 1 of a reactor facility for nuclear waste treatment, (794), and a nuclear fuel explosion control distribution dispensing apparatus. A plurality of nuclear reactor facilities are installed on a barge of an anti-sunken double structure block tank of the ocean.
Earthquake, and tsunami disaster prevention devices, the installation of the nuclear power plant (811) located at the top of the sea level at sea level (811) Safety building and safe operation device Double structure block tank dust collector equipped with nuclear radiation leak control to prevent nuclear explosion of nuclear power generation of nuclear power plant of nuclear power plant (794) Nuclear power generation facility (811 (804) of the nuclear cooling waste furnace reactor (811a) of the nuclear power generation nuclear power plant (801) to be installed in the reactor main body (1) of the nuclear waste disposal reactor,
A nuclear cooling power reactor unit 811 constituting the gas cooling furnace reactor facility 804 and a nuclear reactor waste reactor 811a constituting the gas cooling furnace nuclear reactor facility 804, (804)
A nuclear egg of a nuclear power plant is injected into the inside of the connection shaft constituted by the floating type nuclear power plant 672 of the marine power plant constituting the gas cooling furnace reactor facility 804 and the inside of the distribution injecting apparatus main body 1 of the nuclear waste treatment nuclear plant, A nuclear reactor furnace facility 804 among a plurality of nuclear reactor facilities for nuclear explosion-proof nuclear waste treatment in the form of a nuclear reactor, and graphite is provided with a moderator 676,
The coolant 816 includes a gas-cooled furnace reactor 804 equipped with carbon dioxide 164,
When the natural uranium 812 and the enriched uranium 235 812 are provided for the gas cooling furnace reactor 804 constituting the gas cooling furnace reactor facility 804 and the carbon dioxide is provided as the coolant 816 ,
The gas cooling furnace 804 is provided with high-pressure, high-pressure steam of a strong gas as a vapor condition, and a nuclear power plant having the same thermal efficiency as that of the thermal power generation in the dual structure block tank dust collector 794. Includes a reactor installation 804,
On the circumferential surface of the nuclear reactor furnace facility 804 constituting the reactor facility of the nuclear power plant,
Nuclear explosion-proof dual structure block tanks in the form of a cylindrical egg making up a nuclear reactor furnace facility (804) Radioactive nuclear waste treatment reactor equipment and nuclear fuel (683) Distribution of reactor facilities for nuclear waste disposal with explosion control equipment And a gas cooling furnace reactor facility (804) constituted by charging a nuclear waste disposal unit (811a) having a double structure block tank dust collector reactor unit constituted inside the apparatus main body (1)
(593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant of the ocean which constitutes a gas cooling furnace reactor facility (804), a mooring device and a diving buoyancy control device and a nuclear waste treatment (811a) Nuclear power plant nuclear waste treatment section (811a) Double structure block tank dust collector (794) Before and after safety operation of nuclear power plant in distribution facility and reactor facility Nuclear power plant facilities (811a) (804) of the gas cooling furnace (804) to provide the connection shaft to constitute the operation of the nuclear power plant and to be disassembled and coupled, and is constituted inside the main body (1) of the nuclear reactor waste disposal unit Incorporating the operation of the nuclear reactor of the connection axis;
As the multi-purpose high temperature gas inside the dispensing and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility, there are provided storage tanks for the nuclear nuclear waste disposal shielding apparatus constituting the nuclear reactor facility 805, The connection shaft of the adjustment shaft connected to the distribution shaft,
The multipurpose hot gas furnace reactor 805 among the plurality of reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the reactor operation of the connection shaft constituting the reactor facility 805 with the multi- ,
(593, 594, 595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting reactor facilities (805) with multipurpose hot gas, and a distribution dispensing apparatus main body A multi-purpose high-temperature gas furnace reactor (804) constructed in a double structure block tank dust collector (794) for nuclear waste treatment on a connection shaft of a nuclear power nuclear waste treatment section (811a) included in a nuclear hydroelectric power generation facility section (811) 805)
A nuclear waste disposal control unit comprising a nuclear radiation leakage control dual structure block tank dust collector 794 constituting a nuclear waste disposal reactor facility constituting a reactor facility 805 with a multipurpose hot gas, Apparatus and Nuclear Fuel (683) Explosion Control Dispensing Apparatus A method of disposing a plurality of reactor installations on a barge of an anti-sunken dual structure block tank of the ocean,
The nuclear power generation nuclear waste treatment section 811a of the nuclear reactor facility in the nuclear hydroelectric power generation facility section 811 located at the upper 40 m of the sea level excluding the weather condition constraints of the earthquake and tsunami constituting the nuclear reactor facility 805 by the multipurpose hot gas, ) Barge line reactor facility with anti-sink type barge with installation location of distribution shaft of connecting shaft Includes reactor facility which constitutes safety of reactor facility before and after safe operation,
(805) with multi-purpose high-temperature gas. A double structure block tank dust collector (794) equipped with a nuclear radiation leak control for preventing explosion of a plurality of nuclear reactor facilities of a nuclear power plant of a nuclear power plant, The nuclear reactor nuclear waste treatment unit 811a of the nuclear power generation facility 811 constituting the inside of the main body 1 of the distribution reactor of the nuclear reactor installation of the present invention, And,
The multi-purpose high-temperature gas furnace reactor 805 constituting the inside of the connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power plant unit 811 constituting the nuclear reactor facility 805 with the multipurpose hot gas,
Graphite is provided as the moderator 819 constituting the reactor facility 805 with the multi-purpose high-temperature gas, helium gas 176 is provided as the coolant 816,
The fuel constituting the reactor facility 805 with the multipurpose hot gas is supplied with enriched uranium 812 and thorium and the heat of the helium gas 176 is transferred to the water to generate the steam 780 from the steam drum 792 Water and steam (780) separate and provide for transferring the steam (780) to the turbine (267)
(593,594,595) nuclei of small, medium and large sized marine nuclear hydroelectric power plants in the ocean while generating power within the generator (772) by rotation of the turbine (267) constituting the reactor facility (805) And a double structure block tank dust collector 794 of a connecting shaft constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear reactor facility for waste treatment,
A nuclear waste locating passage is provided by a double tube structure block piping line 74 constituting a nuclear reactor facility 805 by a multipurpose hot gas,
A multi-purpose high-temperature gas is used to constitute a nuclear reactor (805). A plurality of nuclear radiation pollutants are detected by a temperature sensor. A temperature sensor of a safety valve detects the temperature of the reactor. The temperature inside the reactor is 700 to 800 degrees. The temperature and pressure sensor includes an alarm message for preparing a transmission to the safety control room computer,
The explosion nuclear waste is passed through the internal block piping line 74a of the pressure vessel 813 of each of the individual units while providing a plurality of openings for each of the plurality of temperature pressure sensor safety valves constituting the reactor facility 805 by multi- And a safety valve 472 for storing the nuclear waste at the bottom of the structural block tank precipitator 794 and providing an opening to the temperature pressure sensing sensor connected to the inner double structure block tank at the lower end of the pressure vessel 813,
As the outer block piping line 74b constituting the reactor facility 805 with the multi-purpose high-temperature gas, an explosion-proof control material fuel explosion-preventing control article stored in the inner block tank 683 is connected to the automatic injector flashing warning lamp 99 A thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 101 and a temperature sensing sensor bimetal 102, a level pressure switch 104 for flow rate check operation, a flow rate meter 105 for flow rate check, And a connection structure provided with safety valves 472 of the automatic pneumatic valve transport device 916,
A plurality of through holes are formed at an angle of 45 degrees at an upper end of the reactor building 688 constituting the nuclear reactor facility 805 by the multi-purpose high-temperature gas, the through holes are machined by a cutting machine and a construction machine drilling machine,
The block piping line 74 and the plurality of safety valve 472 facilities are provided in the plurality of through holes constituting the reactor facility 805 with the multipurpose hot gas to form the double pipe structure block piping line 74, And a flange forming a connection connection with the nut (25) and the gasket (32)
On the outer wall surface of the reactor building 688 constituted by the inside of the double structure block tank dust collector 794 constituting the reactor facility 805 with the multipurpose hot gas,
The double structure block tank dust collector 794, which is twice as large as the reactor building 688 constituting the reactor facility 805 with the multi-purpose high temperature gas, is equipped with an outer block tank 599 for storing nuclear waste treatment, (683) explosion control dispensing device combined with a nuclear waste disposal dispenser combined with a form connection structure and the reactor facility is installed inside the reactor core (681) and outside the reactor core (681). The nuclear fuel (683) And a plurality of nuclear reactors connecting structures constituting the interior of the main body 1 of the nuclear reactor waste disposal facility for land and marine nuclear waste,
A multi-purpose high-temperature gas reactor (805) comprising nuclear fuel explosion-proof control articles to control the nuclear waste disposal reactor main body (1) Nuclear Radiation Leakage Control of Waste Shielding Equipment and Nuclear Reactor Facilities Dual Structure Block Tank Dust Collector (794) Dispensing input and distribution system of nuclear reactor waste disposal unit for marine nuclear power plant (794) A multi-purpose high-temperature gas reactor (805) structure that constitutes the operation of a nuclear reactor by including it in a nuclear reactor facility.
Mooring devices and diving buoyancy control devices and distribution and input devices for nuclear waste disposal and nuclear reactor facilities installed in a marine power station floating nuclear power plant (672) constituting a reactor facility (805) with multi-purpose hot gas. A double structure block tank dust collector 794 equipped with a nuclear radiation leakage control of the nuclear reactor facility in the hydroelectric power generation facility 811, a nuclear waste nuclear power plant 811a of the nuclear hydroelectric power plant 811 constituting the inside of the nuclear reactor facility, (805) from the multi-purpose high-temperature gas among the nuclear reactor facilities, and can be disassembled and coupled at a marine vessel manufacturing plant, the main body 1 of the reactor apparatus for nuclear waste treatment, And to make the operation of the nuclear reactor of the connecting shaft constituting the inside;
The nuclear waste disposal system of the nuclear waste disposal facility may be provided with storage tanks for the nuclear waste disposal system of nuclear reactors 806 constituting the new conversion furnace facility 806, The connection shaft of the adjustment shaft, which is connected to the distribution shaft,
In the new conversion furnace facility 806 among the plurality of reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the operation of the nuclear power plant connected to the connection shaft constituting the new type conversion furnace 806,
(593, 594, 595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting reactor facilities (806) The new conversion furnace facility 806 constituting the double structure block tank dust collector 794 for treating nuclear waste as a connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power generation facility unit 811 constituted inside ,
A nucleus having a double structure block tank dust collector 794 in the form of a nuclear radiation leak control cylindrical egg constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the nuclear reactor waste facility 806 constituting the new type conversion (683) Explosion-Controlled Dispensing Apparatus A number of reactor installations are included in the barge of an anti-sinking dual structure block tank of the ocean,
(811) located at the top of the sea surface (40 m above sea level), which excludes the weather condition of the earthquake and tsunami constituting the reactor facility (806) with the disaster prevention device, Nuclear Reactor Installed on the Barge of the Nuclear Power Plant Reactor Facility Safety Operation Unit,
(593,594,595) Nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting reactor facilities (806) The nuclear radiation leak control dual structural block tank dust collector 794 provided at the connection axis of the nuclear power nuclear waste treatment section 811a of the nuclear hydroelectric power generation facility section 811 preventing the nuclear explosion of a plurality of nuclear power generating nuclear power plants, And includes a new conversion furnace reactor arrangement (806)
The structure of the new conversion furnace facility 806 constituting the connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power plant unit 811 constituting the nuclear power plant 806 of the new conversion type,
The coolant 816 is provided with the hard water 654a whose degree of utilization of the nuclear fuel 683 constituting the nuclear reactor facility 806 is increased by the new conversion,
The water cooler 816 constituting the reactor facility 806 is selected as the new type of conversion and the hard water 654a is selected as the coolant for the reactor equipment 806 and the water 654 and the steam 780 are separated and the steam 780 is transferred to the turbine 267 through the steam pipe 779 and the turbine 267 rotates to provide power generation inside the generator 772, ) Equipment,
The heavy water 654b has a smaller absorption of the neutrons 675 than the light water 654a and the use efficiency of the uranium 812 is lower than that of the heavy water 654a, As the rising fuel, plutonium (801) and natural uranium (812) are mixed with a mixer mixer machine (649)
The operation of the nuclear reactor (806), which is a new type of conversion, includes rotating operation of the turbine (267) by using the nuclear fuel (683) (794) Nuclear power plant part (811) consisting of nuclear reactor internal parts Nuclear waste treatment part (811a) New type conversion reactor part (806) A dual structure block tank scrubber 794,
(794) Double pipe structure piping line (74) to establish the position inside the nuclear reactor facility (74) Nuclear waste location movement control device is provided to control the location of nuclear waste movement and,
A new type of reactor converts the nuclear radiation pollutants constituting the nuclear reactor facility (806) to a plurality of temperature pressure sensors. The temperature sensor of the safety valve detects the temperature of the reactor inside the nuclear reactor at a temperature of 700 to 800 degrees Celsius In case of reaching, the temperature and pressure sensor sets up the alarm message transmission to the computer of the safety control room,
As a result of the new conversion, explosive nuclear waste passes through the inner block piping line 74a of the pressure vessel 813 of each of the individual bins while providing a plurality of openings for each of the plurality of temperature-sensing sensor safety valves constituting the reactor facility 806, A safety valve 472 constituting an opening is provided for the temperature pressure sensor connected to the inner double structure block tank at the lower end of the pressure vessel 813 while the nuclear waste is stored in the lower portion of the block tank precipitator 794,
The outer block piping line 74b constituting the reactor unit 806 with the new type of conversion is provided with the mixture of the heavy water 654b and the yellow water mixture 656 stored in the inner block tank and the nuclear fuel 683, The explosion prevention control device is connected to the thermostat thermometer sensor switch 103 having a connection structure with the flashing warning lamp 99 of the input device temperature sensor, the pressure gauge 101 and the bimetal sensor 102, And a safety valve 472 having a connection structure to a pressure switch 104, a flow meter 105 for flow rate check, and pipeline automatic pneumatic valve conveying devices 916,
A plurality of through holes are formed at an angle of 45 degrees at an upper end portion of the reactor building 688 constituting the reactor facility 806 by the new conversion, and a through hole processing is provided by a laser cutting machine and a construction machine drilling machine, Block piping line 74 while forming structural block piping line 74 A plurality of safety valve 472 arrangements are provided with flange connection connections with bolts 24 and nuts 25 and gasket 32, The double structure block tank dust collector 794, which is twice the diameter of the nuclear reactor building 688 formed on the outer wall surface of the reactor building 688, is provided with an outer block tank 599 for storing nuclear waste, (683) explosion-control distribution dispensing devices coupled to a nuclear reactor waste disposal unit (806) coupled to the nuclear waste disposal unit (806)
A new type of reactor is used to construct nuclear reactor (681) inside the nuclear reactor facility (806), and to prevent nuclear explosion immediately before the nuclear reactor explosion outside the reactor core (681) (1) of the reactor installation for nuclear waste disposal of a marine nuclear hydroelectric power plant having a block tank dust collector, and a nuclear reactor waste containment control device (1) Nuclear reactor nuclear fuel explosion prevention reactor consisting of internal nuclear reactor facility (1) Nuclear reactor leakage and nuclear reactor waste disposal system and nuclear reactor waste disposal control system (794) Provide a distribution input,
(683) Dual structural block with explosion-proof tank dust collector (794) Nuclear reactor nuclear fuel (683) that constitutes inside the main body (1) of the nuclear reactor waste disposal facility constituting the reactor facility (806) And includes a new conversion furnace reactor facility 806 for constructing a nuclear reactor to operate the nuclear reactor,
(593, 594, 595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the reactor facility (806) with the new conversion type, and the mooring device, diving buoyancy control device and nuclear waste treatment (794) Nuclear Hydroelectric Power Plant (Nuclear Power Plant) Consisting of Nuclear Hydroelectric Power Plant (Nuclear Power Plant) in Nuclear Power Plant (811) Before and After Safety Operation of Nuclear Power Plant Of the plurality of reactor facilities of the nuclear power plant having the nuclear reactor nuclear waste treatment unit 811a and the dual structure block tank collector 794 of the facility unit 811, And includes a disassemblyable connection structure at a marine vessel manufacturing plant;
(838) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the dual structural block tank dust collector is stored in the nuclear waste disposal shield device The connection shaft of the regulating shaft, which is connected to the distribution shaft, which is provided with tanks and which regulates the nuclear waste disposal capacity,
In the fast breeder reactor facility 838 among the plurality of nuclear reactor facilities of the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear reactor operation of the connection shaft constituting the fast breeder reactor facility 838,
(593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting a fast breeder reactor facility (838) The high speed propagating furnace reactor 838 constituting the double structure block tank precipitator 794 in the form of a cylindrical egg for nuclear waste treatment is connected to the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power plant 811, ),
A nuclear waste disposal dispensing apparatus and nuclear fuel (683) explosion control dispensing apparatus having a dual structure block tank dust collector (794) in the form of a nuclear radiation leak control cylindrical egg constituting a fast breeder reactor facility (838) The installation includes the step of providing the installation to the marine anti-sinking double structure block tank float type double barge,
The installation position of the distribution power input unit of the nuclear hydroelectric power plant unit 811 positioned at the upper 40 m of the sea level excluding the weather condition constraints of the earthquake and tsunami constituting the reactor plant 838 of the fast breeder reactor, (672) of the reactor facility safety operating device and the marine power plant that form the safety of the nuclear reactor facility safety operation of the barge line of the nuclear power plant of the nuclear power plant and the nuclear power plant (1) The nuclear radiation leakage control unit provided in the nuclear power generation nuclear waste processing unit 811a of the nuclear hydroelectric power generation facility 811 for preventing the explosion of the nuclear power generation of the nuclear power plant, (FBR, 838) reactor,
(593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting a fast breeder reactor facility (838) The concentrated uranium 235 (812) is concentrated in the central portion of the fuel rod 689 to about 20% in the high-speed propagating furnace reactor 838 constituting the double structure block tank precipitator 794 of the nuclear hydroelectric power plant 811, A mixture of enriched uranium (812), natural uranium (812) and plutonium (812)
The fuel rod 689 constituting the reactor plant 838 is surrounded by natural uranium 812,
In the fuel rod 689 constituting the fast breeder reactor facility 838, the uranium 238 (653a) is converted into the plutonium 801,
The entry and exit of the plutonium 801 constituting the high-speed propagation furnace reactor facility 838 is provided,
Use is provided as the next fuel constituting the fast breeder reactor facility 838,
Liquid sodium metal is provided in the coolant 816 constituting the reactor plant 838 for fast breeder reactor,
In the fast breeder reactor facility 838 constituting the coolant 816,
It is not necessary to decelerate the neutrons 675 constituting the reactor plant 838 and the heat generated in the reactor installation in the intermediate heat exchanger 657 is transferred from the intermediate heat exchanger 657 &Lt; / RTI &gt; other liquid metal sodium constituting the &lt; RTI ID =
The heat exchanger 658 constituting the fast breeder reactor facility 838 transforms the water 654 into steam 780 by the heat of the liquid sodium to form the nuclear power while the steam turbine 267 provides rotation, Nuclear power generation facilities (811) of the nuclear power plant (811) consisting of the main body (1) of the distributing and inputting device of the nuclear waste treatment facility of the floating type poison (593,594,595) of the marine nuclear hydroelectric power plant of small, (811a) a double structure block consisting of a cylinder egg for nuclear waste treatment as a connection axis, and a high-speed multiplication reactor unit (838) constituting a double tank block dust collector (794) And a nuclear waste locating passage constituting a nuclear waste locating motion regulating device (74), which is located at a nuclear reactor facility (838)
The temperature of the safety valve of the safety valve is detected by the sensor. The temperature of the inside of the reactor facility is 700 to 800 degrees. The dangerous state of the high temperature and high pressure state , The temperature and pressure sensor sets up an alarm message transmission to the computer of the safety control room,
The explosion nuclear waste is passed through the internal block piping line 74a of the pressure vessel 813 of each pit while providing a plurality of openings to each of the plurality of the temperature and pressure sensing sensor safety valves constituting the fast breeder reactor facility 838, And a safety valve 472 for storing the nuclear waste at the bottom of the block tank precipitator 794 and providing an opening for the temperature pressure sensing sensor constituting the connection with the inner double structure block tank at the lower end of the pressure vessel 813,
As the outer block piping line 74b constituting the high-speed breeder reactor facility 838, the fuel explosion-proof control fuel element explosion prevention control article stored in the inner block tank is connected to the flashing warning lamp 99 of the input unit temperature sensor, A thermostat thermometer sensor switch 103 having a connection structure with a bimetal sensor 101 and a temperature sensing sensor 102, a level pressure switch 104 for flow rate check operation, a flow meter 105 for flow rate check, And a safety valve 472 of the pneumatic valve conveying device 916. A plurality of through holes are formed at the upper end of the reactor building 688 at a predetermined angle of 45 degrees to cut the cutter and the construction machine drill machine And a plurality of through holes are formed in a double pipe structure block piping line (74);
The block piping line 74 constituting the fast breeder reactor facility 838 includes a plurality of safety valves 472,
A bolt 24, a nut 25 and a gasket 32 constituting a reactor plant 838 for a fast breeder reactor are provided to connect flanges to each other,
In a single installation of a double structure block tank dust collector 794 having a size twice as large as the diameter of the reactor building 688 constituting the outer wall surface of the reactor building 688 constituting the fast breeder reactor facility 838,
The nuclear waste disposal dispenser and the nuclear fuel (683) combined with the outer block tank (599) for the nuclear waste disposal and the radiation type connection structure constituting the fast breeder reactor facility (838) Inside the core (681) inside the facility and outside the core (681), it is equipped with control items to prevent the explosion of the nuclear fuel just before the explosion of the nuclear reactor, and distributes the nuclear reactor facilities for land and ocean nuclear waste. (838) connection shaft comprising a reactor
A plurality of reactor facility connection structures are provided on the connection shaft of the nuclear power generation nuclear waste processing unit 811a of the nuclear hydropower generation facility unit 811 constituting the fast breeder reactor facility 838,
(683) constituting the nuclear fuel reactor (838) constituting the fast breeder reactor constitutes an explosion-proof control apparatus, and constitutes the operation of the nuclear fuel explosion prevention nuclear reactor constituting the inside of the main body (1) of the nuclear reactor waste disposal apparatus. (794) distribution of nuclear reactor effluent control nuclear reactor waste disposal system and nuclear reactor waste disposal system,
A double structure block tank dust collector installed in the main body (1) of the distribution input device of the nuclear waste disposal reactor for supporting the floating nuclear fuel of the marine nuclear hydroelectric power plant constituting the fast breeder reactor facility (838) (794) to construct a nuclear reactor plant with a high-speed multiproduct reactor facility (838);
Mooring devices and diving buoyancy control devices for nuclear power plant floating nuclear power plant (672) constituting the fast breeder nuclear reactor facility (838), nuclear power plants before and after safe operation of distribution facility and reactor installation for nuclear waste disposal A double structure block tank dust collector 794 equipped with a nuclear radiation leakage control of the nuclear reactor facility in the power generation facility 811, a nuclear waste nuclear power plant 811a of the nuclear power hydroelectric power plant 811 constituting the inside of the nuclear reactor facility, A connection axis for establishing a fast breeder reactor installation (838) among reactor installations;
And the nuclear plant is installed at a marine shipbuilding factory so that it can be decomposed and connected to the nuclear power plant so as to operate the nuclear power plant. The nuclear power plant having a double structure block tank dust collector, Device. The method according to claim 1,
The dual structure block tank dust collector (1) of the nuclear hydropower generation facility (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor facility for marine nuclear hydroelectric power plants having the double structure block tank dust collector The nuclear waste treatment line manufacturing process distributing shaft 705,
(593, 594, 595) nuclear power plant (672) of a marine small-sized and medium-sized and large-scale marine nuclear hydroelectric power plant constituting the distribution shaft (705) Inside the nuclear waste treatment pipe manufacturing process (705), the marine shipbuilding factory on the connecting axis is capable of disassembling and coupling the production structure,
The small-diameter electric resistance welded pipe 706, which is manufactured in the nuclear hydroelectric power plant part 811 constituting the distribution shaft 705,
Includes the rough connection 711 which constitutes the cutting and forming 712 process of the raw material 707 uncoil 708 constituting the distribution shaft 705 to the ring level ring 709 and side trimming 710 and,
The facility of the nuclear power plant 672 constituting the nuclear waste disposal pipe manufacturing process distribution shaft 705,
The welding and internal / external surface bead removal 713 constituting the facility of the nuclear power plant 672 is completed with the welding heat treatment 715 of the nuclear power plant 672 while completing the ultrasonic wave and the eddy current test 714, ) And a water cooling (717) device,
The cut 719, which constitutes the facility of the nuclear power plant 672,
(720) of the nuclear power plant (672), and the process of the facility is installed in the intermediate load (723) and the induction heating furnace (724) (SRM, 725), which is composed of hot cutting (726), chamfering (727), hydraulic test (728), ultrasonic wave and eddy current test (729), and weight and length measuring device (731)
A screw 732 constituting a facility of the nuclear power plant 672 and a galvanized steel pipe 735 and a galvanized steel pipe 736 and a boiler tube 737 of the oil pan 733 and the general pipe 734, (731), the nuclear water hydropower plant (811) comprising the main body (1) of the nuclear waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector A double structure block tank (794) and a double structure block tank bridge (937) constituting a small diameter electrical resistance welding pipe (706) (593,594, 595) of a nuclear power plant of medium size and large size, and nuclear power plant (672) of nuclear power plant of nuclear power plant of medium size and large size. 811) Block precipitator tank configured to achieve a nuclear waste disposal pipe manufacturing process to distribution shaft provided with 705 marine nuclear hydroelectric power station with a double tank structure block precipitator nuclear reactor facilities, and waste disposal,
The large-sized and medium-sized and large-sized marine nuclear hydroelectric power plant of the ocean constituting the above-mentioned distribution shaft 705 has a large-sized square-shaped electric resistance welded pipe 739 of a floating nuclear power plant (672) ,
Completion of the pipeline ultrasonic wave 743 and the test test 744 is completed by the casing forming device 742 connected to the side trimming 741 with the coil mugging iron plate raw material 740 constituting the electric resistance welding pipe 739 (672) nuclear power plants,
(745) constituting the electrical resistance welded pipe (739), and a caliper-shaped electrical resistance welded pipe (739) which is provided with the production distribution input devices to control the distribution input device main body 1) internal structure of the nuclear hydroelectric power plant 811, a dual structure block tank dust collector nuclear waste processing pipe manufacturing process distribution shaft 705,
The large diameter steel pipe 747 of the oil pipeline for the oil pipeline oil industry constituting the equipment for the floating nuclear power plant (593,594,595) nuclear power plant (672) of the marine small, medium and large sized marine nuclear hydroelectric power plants constituting the distribution shaft 705, silver,
An edge milling machine 748 constituting a large-diameter steel pipe 747 of a steel pipe 746 for a pipeline for oil industry and a three-roll banding machine 749 and a post-banding machine 750 are provided. The manufacturing of the large-diameter steel pipe 747 is configured in the nuclear hydropower generation facility 811 constituted inside the main body 1 of the nuclear reactor waste disposal reactor apparatus to be controlled,
The outer weld 754 constituting the nuclear power plant 672 facility for performing the welding cut 751 constituting the large diameter steel pipe 747, the inner surface weld 752 and the backgrinding 753,
(755), tube section (756), X-ray test (757), cold section spreading (758), marking and packing shipments (759) constituting the nuclear power plant (672) (672) of a nuclear power plant (672) facility that comprises a nuclear power plant (672) facility operation with process steps as distribution input devices,
The uncoiling pipe 763 of the steel pipe pile 762 is provided with the structure pipe of the uncoiling 761 constituting the spiral welded steel pipe 760 of the nuclear power plant 672,
An outer surface blast cleaning 764 constituting the non-coated pipe 763 of the steel pipe pile 762, a primary paint 767 of the inner surface brush cleaning 765 and the inner surface paint 766, (760) of the nuclear power plant (672), and the ultrasonic waves and the X-ray inspection (770) are passed through the process to prepare the large-diameter steel pipe (746) of the oil- (747) as distribution and dispensing devices to constitute a nuclear reactor (672) reactor facility;
The reactor facility of a nuclear power plant, which is constituted by the large-diameter steel pipe 747 distribution dispensing apparatus,
The leakage control device of the nuclear radiation capability that does not cause the explosion of the reactor inside and outside of the nuclear fuel chamber constituting the nuclear reactor facility. It is equipped with the distributing and inputting devices of the double structure block tank dust collector (794) (593,594,595) of marine nuclear power hydroelectric power plants of small size, medium size and large scale in the main body (1), a mooring device, a diving buoyancy control device and a distribution input device of nuclear waste treatment device And nuclear reactor waste water treatment plant manufacturing process at the reactor facility nuclear waste water treatment facility (811) before the safe operation of the nuclear reactor facility of the nuclear reactor facility. Including nuclear power plants and reactor facilities,
The double structure of the nuclear power plant (811) consisting of the nuclear power plant and the inside of the main body (1) of the nuclear power plant for treating nuclear waste of land and ocean constituting the nuclear power plant, The process dispense axis 705,
(593, 594, 595) nuclear power plant (672) of a maritime small, medium and large sized marine nuclear hydroelectric power plant constituting the pipe manufacturing process distribution shaft (705), and a distribution input device main body A double structure block tank dust collector of a nuclear hydroelectric power plant unit 811 and a nuclear power plant 672 of a nuclear waste disposal treatment apparatus, And a distribution dispensing apparatus constituting the dispensing apparatus,
(593, 594, 595) nuclear power plant (672) dispensing device of a marine small, medium and large sized marine nuclear hydroelectric plant constituting the nuclear power plant (672) of the distribution shaft (705)
Nuclear power plant (672) Nuclear waste disposal unit that constitutes distribution dispenser Dispensing unit of nuclear waste disposal unit Nuclear waste disposal pipe manufacturing process (1) Inside process (705) Disassembly connection connection An inner block tank 596 for providing a position to the center of the double structure block tank 598 of the distribution and dispensing apparatus double structure block tank 598 constituting the nuclear hydroelectric power plant 811 for controlling the production by the structure, And a double structure block tank 598 that constitutes a double pipe structure coupling to an outer block tank 599 located outside the inner block tank 596,
The high-strength steel plate 597 constituting the dual structure block tank 598 is provided as a distributing and inputting device of a cutting process and a welding process connection structure at an industrial site and is provided with a dual structure block tank 598, Tank tube bridge The marine tunnel traffic device (941)
The first auxiliary steel pipe 600 for the block tank and the second auxiliary steel plate 601 for the block tank are connected to the nuclear waste disposal and dispensing apparatus of the nuclear power plant 672 constituting the double structure block tank pipe bridge marine tunnel traffic apparatus 941, The parts are produced by the distributing and inputting device of the connection structure between the cutting process and the welding process,
And a large flange (614) that constitutes the coupling to the fore and aft connecting position of the double structure block tank (598) constituting the marine tunnel traffic device (941)
A large flange 614 located at a nuclear reactor connection part of a nuclear power plant constituting the large flange 614 is provided with a stopper plate 625 of a certain size as a nuclear power plant distribution input apparatus of a nuclear power plant facility process,
A distributing / dispensing apparatus for a double structure block tank 598 constituting a distributing and dispensing apparatus of the nuclear power plant is provided, and a distributing and dispensing apparatus for a nuclear power plant is provided with a steel plate 597 of high strength stainless steel,
The dual structure block tank 598 distributing and charging apparatus constituting the nuclear power plant,
The nuclear power plant 672 having a crane crane 861 and a conveyor 633 which are installed in the process sequence of cutting and conveying and constituting the nuclear power plant facility and the double structure block tank 598 is inserted into the conveying process, ) Nuclear waste disposal and dispensing equipment,
In the double structure block tank (598) equipment constituting the nuclear reactor facility,
A forming block and a roll forming bending machine are provided with steel plates 597 of high strength stainless steels constituting the double structure block tank 598,
(597) of the high-strength stainless steels constituting the double structure block tank (598) is prepared as a connection structure capable of disassembling and coupling at the marine vessel manufacturing factory,
In the forming bending machine constituting the double structure block tank (598) facility,
(B), (c), and (c), respectively. In this study,
A double bending block tank (598) which constitutes the bending process, a bending type press braking type bending type bending type bending type roller bending type machine, and three The bending roller is provided with a bending machine to constitute the bending process of the iron plate,
The welded joint portion is provided with a position control of the banding welded joint portion of the high-strength steel plate 597 of the high-tension steels steel by the crane crane 861 and the conveyor 633, which constitute the bending process of the steel plate,
A double structure block tank (598) equipment constituting the welding process to the banding weld joint region of the steel plate with the welding machine, the cutting tool, the drill lathe and the cutter constituting the cutting process of the steel plate,
A large flange 614 provided with a connecting portion of a large flange 614 located at a stern connection portion and a bow constituting the double structure block tank 598 is connected to a connecting structure of a manufacturing process lathe process (593,594,595) Nuclear Power Plant (672) facilities of nuclear, hydro, and nuclear hydroelectric power plants of small size, medium and large scale in the ocean;
The inner block tank 596 constituting the double structure block tank 598 and the outer block tank 599 which provides the position outside the inner block tank 596,
The inner block tank 596 constituting the double structure block tank 598 is adjusted to the inner position of the outer block tank 599 to be moved to the crane crane 861 and the conveyor 633 to complete the welding process,
The nuclear hydroelectric power plant equipment comprising the dual structure block tank 598,
A double structure block tank (5988) constituting a nuclear hydroelectric plant is provided as a distribution input nuclear waste treatment device of a dual structural block tank dust collector (794) for controlling nuclear radiation leakage, (593,594,595) of marine nuclear, hydro, and nuclear power plants of small size, medium and large scale, which are composed of the inside of the main body (1), the mooring device, diving buoyancy control device and nuclear waste disposal and dispensing device formed in the nuclear power plant (672) Nuclear Waste Treatment Plant (Nuclear Power Plant) (811) before nuclear reactor safety facility operation of nuclear reactor facility Nuclear waste treatment facility (705) And a nuclear power plant (672) including the interior of the main body (1) of the distribution reactor of the processing nuclear reactor.
The double structure block tank dust collector of the nuclear hydroelectric power plant part (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal facility for land and ocean nuclear waste constituting the nuclear power plant (672) The manufacturing process dispense shaft 705,
(593,594,595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting a distribution shaft (705) of the nuclear waste processing pipe manufacturing process, and a distribution input device The double structure block tank dust collector of the nuclear power generation facility unit 811 constituting the inside of the main body 1 is connected to the nuclear waste treatment pipe manufacturing process 705 of the reactor facility by the diving preparation preparation operation control adjustment dispensing apparatus screw control unit 811g)
The diving progression ready dispensing device screw adjusting portion 811g, which constitutes the pipe manufacturing process dispensing shaft 705,
A double structure block tank hull disassembling and engaging portable lug 607 provided in a horizontal and vertical type coupling structure at respective portions of the strut tank upper barge hull 591 and the strut tank lower barge hull 592 constituting the screw adjusting portion 811g, A double structure block tank having a plurality of rugged holes 615 and a double structure block tank 602 constituting the block unit and having an elongated hole 616 for hull disassembly and movement regulating device constituting the block unit hull disassembly portable rug pin connection Shaft 606 Double structural block tank vertical to the machining hole 615 Hull disassembly coupling Portable rudder pin connection shaft 606 Machining hole 615 and block unit Double structure block tank Hull disassembly joint Holes 616 are provided for connecting the piercing hull 591 at the upper portion of the paired double-structure block tank holding tanks 590 to the paired double structure block tank holding tanks 591 and the barge hull at the lower portion of the dual structure block tank holding tanks 592 are coupled to a plurality of processing holes 615 of a plurality of connection shafts 606 bound to a plurality of processing holes 615 provided at respective portions in a vertical form of the double- The pin connecting shaft 606 is removed,
And a holding tank (590) constituted by a connecting shaft (606) double structure block tank (598) provided with a single row connecting shaft (606) binding constituting the removal of the pin pin connecting shaft (606)
The diving progress-ready movable-control-dispensing device screw adjusting portion 811g, which constitutes the holding tank 590,
(593,594,595) nuclear power plants (615, 595) of marine small, medium and large marine nuclear hydroelectric power plants by providing the distribution input devices of the anti-sinking resident line (634) ) Is provided with a screw adjusting portion 811g which constitutes assembly on the sea surface,
(593,594,595) Nuclear power plant (615) Facility Nuclear waste treatment pipe manufacturing process (705) Preparation of diving progress making up the connection axis Operation control Arrangement dispensing device Screw adjuster 811g) Double structure block tank 598 Connection part at the lower end of the holding tank 590 Connected to each part of the barge hull Block unit of diving control device Block unit Double structure Block tank (598) The intake port 585a of the doctor butterfly valve 622 and the high pressure multistage multi-stage emission pump 8 and the doctor ventilation 585 of the diving control device and the exhaust port 585b of the doctor ventilation 585 Double structure block tank Hydraulic cylinder for the traffic control system (624), stopper plate (625) and dual structure piping line Automatic pneumatic valve transport device (916) and engine control power motor control module (106) Including barge hulls consisting of And,
(593,594,595) of a small, medium and large marine nuclear hydroelectric power plant with an offshore, submergible control system for the nuclear power plant (615). The horizontal dual structure block tank holding tank 590 is provided for switching to the vertical holding block tank 590,
(593,594,595) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constructed to prepare for the submergence proceeding to the lower part of the sea level (SLD). Distribution distribution of the sinking resident line (634) constituting the nuclear power plant (672) The apparatus comprises a device butterfly valve 622, a high pressure multistage multi-stage disaster prevention pump 8, and a blower 641 of the doctor ventilation 585, (593,594,595) nuclear power plants (672) installations of nuclear hydroelectric power plants,
(593,594,595) nuclear power plants (672) facilities of the marine small, medium and large sized marine nuclear hydroelectric power plants are equipped with the distributing and inputting devices of the sink prevention rescue lines (634) to protect the nuclear power plants (672) Respectively,
Nuclear Reactor Nuclear Reactor (Nuclear Reactor) Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Reactor Nuclear Reactor Reactor Nuclear Reactor Reactor The dual structure block tank dust collector of the nuclear hydroelectric power plant unit 811 constituting the nuclear power plant is constructed to be ready for diving including the connecting shaft of the nuclear waste processing pipe manufacturing process 705 of the reactor facility. And a screw adjusting portion 811g,
The dive progression ready controllable dispensing input device constituting the connecting shaft of the screw adjusting part 811g comprises:
Double structure block tank tank 590 constituting the operation regulating dispensing device for diving progression Double structure block tank formed at each of the upper and lower barge lines of the holding tank 590 The connection shaft 606 constituted by the hull disassembly portable rug 607 )and,
Preparation of Diving Progression The screw thread 603a of the lug connection shaft coupling bolt and the screw thread 603b of the lug connection shaft coupling and disassembling nut 604 and the pin connection shaft 606) The ergonomic pins 608 are connected to a hydraulic rotary cylinder machine (619) for position control of a traffic control equipment distribution input and a hydraulic cylinder machine (624) To be decomposed and bonded,
A plurality of lug processing holes 615 provided in the double structure block tank hull disassembly and engaging portable lug 607 constituting disassembly and coupling with the hydraulic cylinder machine 624, The horizontal double structure block tank 598, which constitutes the device hole 616,
Dual structure block tank 598 Double-structure tank tank with a towing and transport of a tugboat 636 provided on a semi-submerged operation line 637 constituting the disassembly tank. And a band guide 621 for a block unit double structure block tank hull breaking-disengagement / coupling device constituting the inside of the dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment in the same form as the formwork 617,
The hull diving position adjustment moving device of the sinking ship holding line 634 constituting the band guide 621 and the hull weight 107 for controlling the diving buoyancy are connected to the double structure block tank holding tank lower barge hull 592, (634), which are capable of performing a diving coupling operation, to assemble the sea surface of a nuclear hydroelectric power plant,
(688) constituting a distribution dispensing apparatus main body (1) of a nuclear waste disposal reactor constituting a nuclear hydroelectric power plant, and a double structure block (811) of a nuclear hydroelectric power plant section The tank dust collector includes a submerging-ready-operation-control-distribution-dispensing-apparatus screw control unit 811g constituting a connection axis of the nuclear waste processing pipe manufacturing process 705 of the nuclear reactor facility,
And the power provided by the transforming devices for transmitting the power of the nuclear hydraulic power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor apparatus constituting the connecting shaft, In the transfer unit 811d,
A double structure block tank holding tank lower barge hull 592 constituting a connecting shaft of the power transmitting portion 811d is provided to provide a diving progress preparation protection to a lower sea level SLD position,
(689) into the nuclear reactor building (688) constituting the inside of the distribution dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal constituting the diving progress preparation protection,
An output power source 686 and an input power source 687 of the voltage 684 and the power 685 constituting the diving process readiness protection and the production power is provided as the position movement control devices for providing the production power supply,
The transformer for controlling the movement of the production power supply constituting the diving preparation preparation protection,
A 7-strand steel wire 692 and a transmission wire diameter 695 are arranged in the primary substation 691 from the ultra-high voltage substation 690 constituting the transformer control unit, and the 54-strand aluminum wire 693 And a connecting shaft of the power transmitting portion 811d,
The double structure block tank holding tank lower barge hull 592 constituting the connecting shaft of the power transmitting portion 811d has a submarine line wiring connection structure and is connected to a marine tunnel crossing railway substation 696 and a middle substation 697 A large plant 698 having a production power supply shift regulator transformer 96 of a voltage 684 and a power 685 of high voltage substation 690 to provide a production power supply from the high voltage substation 690 at the primary substation 691, (699 units) to provide production power supply to a location equipped with submarine cable connection structure,
In the secondary substation 700 that receives the production power from the primary substation 691 constituting the connecting shaft of the power transmitting section 811d,
A substructure line 701 constituting a connection axis of the power transmission section 811d and a submarine line wiring connection structure constituting a production power supply distribution discharge to a household 702 included in a solar house,
A submarine line wiring line which is located in the submarine line wiring connection structure constituting the connecting shaft of the power transmitting portion 811d and a submarine line wiring line composed of the electric pole 95 and the transformer 96,
And a connection structure for providing a production power supply distribution discharge by having a sprung stepped hook bracket 703 constituting a connection shaft of the power transmission unit 811d and a cable high voltage wire balance arm 704 for a wire balance In order to prepare the location of production power supply control device,
In the land constituting the connecting shaft of the power transmitting portion 811d, there is provided a connecting structure for providing a production power supply distribution discharge, which is provided as wirings in the underground GLD ground line of the road surface, (1) of the nuclear reactor waste disposal reactor facility, and a distributing and inputting apparatus for distributing and supplying the production electric power supply that constitutes the inside of the main body (1) of the nuclear waste disposal reactor apparatus. The power transmission unit 811d, which is provided as transformers for transmitting the power of the nuclear hydroelectric power plant 811 and constitutes a connection shaft of the dual structure block tank dust collector to the nuclear waste processing pipe manufacturing process 705 of the reactor plant, Constituting a production power supply to an assumption 702 comprising;
The power transmission unit 811d is provided with power transmission units that transmit the power of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the nuclear reactor processing facility for nuclear waste disposal, (811d) as a connection structure of a transformer having a submarine line wiring connection structure to provide a position in a nuclear hydroelectric power plant facility,
The nuclear hydraulic power plant equipment constituting the power transmission portion 811d
And a sinking prevention stay line (634) for lifting up a sinking ship constituting a nuclear hydroelectric power plant facility, and a connection structure constituting the inside of the distribution dispenser main body (1) of the nuclear waste disposal reactor facility is provided,
And a nuclear reactor radiation leakage control dual structural block tank dust collector 794 constituted by a dual structure block tank 598 and is installed inside the main body 1 of the nuclear reactor waste disposal reactor installation, Respectively,
(593, 594, 595) of marine nuclear, hydro, and nuclear power plants (592, 595) Mooring devices and diving buoyancy control devices in nuclear power plants (672) Before and after the operation, the nuclear hydroelectric power plant (811) is connected to the nuclear waste disposal pipe manufacturing process (705) of the reactor facility, and the marine vessel manufacturing factory is connected to the pipe manufacturing process (705) And a screw regulating portion 811g constituted by the diving preparation preparation movable regulating distribution dispensing devices,
The double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituted by the inside of the main body 1 of the nuclear reactor waste disposal facility for land and ocean nuclear waste constituting the screw control part 811g, The manufacturing process dispense shaft 705,
(593, 594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the screw control section (811g) and a distribution input apparatus main body ) Duplication of double structural block tank dust collector of nuclear hydroelectric power plant part (811) inside of nuclear reactor waste treatment plant (705) of nuclear reactor plant Preparation of diving buoyancy construction constituting position of connection axis Distribution of nuclear power plant equipment for operation control control Comprising a dosing device,
The distribution input device of the nuclear power plant equipment constituting the nuclear power plant equipment comprises:
(593,594, 595) nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants constituting the distribution input device of the nuclear power plant facilities of the ocean screw control section (811g) A nuclear waste disposal double structure block tank marine tunnel transportation device 941 for establishing a connection between the land and the book constructed inside the distribution dispensing apparatus main body 1 is provided,
Double structural block block tank structure constituting distributing device of nuclear power plant facility Double structure block tank bridge located at the upper part of pipe bridge pier (928) Nuclear waste treatment of nuclear power plant by connection with pipe bridge (937) Double structural block tank Marine tunnel access The apparatus (941) includes a nuclear waste treatment dual structure block tank bridge (929) that the plant comprises in the ocean for buoyant buoyancy advance preparation,
(SLL) of the sea surface (SLD) of the sea structure (SLL) constituting the double structure block tank bridge bridge (929) Nuclear waste treatment to the position of 40M Double structural block tank pipe bridge (929) and,
(929) Nuclear waste processing dual structure block tank pipe bridge (929) connecting shaft, which is composed of two structural block tank, marine tunnel transportation equipment (941)
The pipe bridge 929 constituting the diverting buoyancy advance preparation operation control with the capacity dispersion control constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant constituting the dual structure block tank pipe bridge 929, Comprising a connection axis,
The double structure block tank bridge pipe bridge 929 is connected to the upper portion of the pipe bridge 937 and the both sides are allocated to the upper portion of the pipe bridge bridge pipe bridge bridge 928 to insert the connection shaft of the nuclear waste disposal double structure block tank bridge bridge 929, (593,594,595) of a small, medium and large marine nuclear hydroelectric power plant in the ocean to the upper internal position of the bridge bridge (937) of the holding tank pipe pier (928). An inner block tank 596 located at the center of the double structure block tank 598 of the double structure block tank 598 and a position outside the inner block tank 596,
Double structure block tank Structure of double structure block tank 598 constituting bridge bridge 929 and outer block tank 599 Double structure block tank having connection structure inside the body 599 Marine tunnel The traffic device 941 includes a double structure strut block tank pipe bridge 928 which is connected to the nuclear waste treatment double structure block tank pipe bridge 929 and constitutes a position,
(593,594, 595) nuclear power plants (672) installations of marine small, medium and large sized marine nuclear hydroelectric plants that make up the dual structure block tank bridge bridge (929)
The construction equipment located inside the distribution input device hull of the sink prevention resisting line 634 constituting the double structure block tank bridge bridge 929 is provided and the floor base 851 for the mooring device bridge pier is provided on the seabed And then,
(593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the main body (1) of the nuclear reactor waste disposal unit constituting the dual structure block tank bridge bridge (929) A power plant (672) is equipped with a distribution input unit with equipment and connection structure. It has a submergence residence line (634) with submarine line injection nozzle and submarine line connection structure of submarine line injection nozzle connection and nuclear power plant (672) is provided inside the main body (1) of the nuclear waste disposal apparatus main body (1), and the screw control section of the nuclear water hydropower generation facility section (811) (811g), and a double structure block tank dust collector is installed in the nuclear waste treatment pipe manufacturing process (705) of the nuclear reactor facility. Be equipped with the dispensing chute in the plant and marine configuration to achieve a nuclear reactor facilities and hydroelectric power station which consists of internal distribution input apparatus main body (1) of a reactor plant for processing nuclear waste,
A screw control section 811g of the nuclear hydroelectric power plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor constituting the nuclear nuclear hydroelectric power plant and the reactor facility, The nuclear waste disposal pipe manufacturing process 705 is provided with the dispensing apparatus of the block tank-engaging portable lug 607 constituting the connecting shaft,
The nuclear hydroelectric power plant is connected to the nuclear water hydropower plant 811 constituting the inside of the main body 1 of the nuclear reactor waste disposal reactor, (593,594,595) nuclear plant installations of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants that are not formed on the upper part of the dual structure block tank pipe bridge (937)
A strut tank upper barge hull 591 and a strut tank lower barge hull 592 constituting a nuclear reactor hydroelectric power plant and a nuclear reactor facility,
A holding tank upper barge hull 591 constituting a marine nuclear hydroelectric power plant and a nuclear reactor apparatus reactor facility, and a holding tank lower barge hull 592 constituting a reactor facility,
A marine block tank 590 constituting a marine nuclear hydroelectric power plant and a nuclear reactor facility, a separately constructed double structure block tank combined portable lug 607 and a plurality of double structure block tank hull disassembly portable lugs 607 A plurality of hull disassembling and connecting portable lug pin connecting shafts 606 engaged with the block tank hull disassembly portable luggable connecting lug connecting shaft bolt 603 and lug connecting shaft bolts 603a and lug pins 608) combined structure,
(593, 594, 595) of small, medium and large sized marine nuclear hydroelectric power plants in the floating offshore, consisting of the interior of the distribution input device body (1) of the reactor plant for nuclear waste disposal constituting the marine nuclear hydroelectric plant and the reactor plant,
A nuclear power plant facility is provided in which the landing block tank 590 constituted by the sea depth is constituted by the water depth unit of the sea surface SLL,
The volume of the double structure block tanks that make up the marine nuclear hydroelectric power plant and the reactor facility,
(0.5 ㎞ x 0.5 ㎞ x 0.5 ㎞) ㎥ of nuclear power plants,
The small floating lifting tanks (593), which make up the marine nuclear hydroelectric power plants and the reactor facilities, are equipped with medium and large lifting tanks (594,595)
A plurality of block tanks provided at respective portions of a double structure block tank combined portable lug (607) constituting a nuclear power hydroelectric power plant and a nuclear reactor facility are connected to a joint portion processing hole (615) of a hull disassembly / (603) and block tank hull disassembly Portable lug connection shaft (606) Disassembly and disassembly Portable lug pin Connection hose (606) Block tank Hull disassembly Portable lug connection Screw thread (603) A nuclear waste treatment dual structure block tank marine tunnel transport apparatus (941) facility of a nuclear power plant constituting a connection structure to a screw thread (603b) of the decomposition coupling nut (604)
The double structure strut block tank pipe bridge 928, which constitutes the nuclear nuclear hydroelectric power plant and the nuclear reactor facility,
The construction equipment located at the hull deck deck, which is the distribution input device sink prevention dwelling line 634 constituting the double structure strut block tank pipe bridge pier 928, is provided with a mooring crank 846, Preventing stay line 634 constituted by a connection structure which provides a fixing to the hydraulic cylinder machine 624 and the key bed 616,
(593,594,595) of a maritime small, medium and large scale offshore nuclear hydroelectric power station consisting of the anti-sinking rescue vessels (634), and the nuclear facilities for nuclear waste disposal Of submarine line injection nozzle connecting submerged injector main body (1) Supporting submarine line injection nozzle and submarine line wiring position connection structure to support sinking prevention of marine small, medium and large sized marine nuclear hydroelectric power plants (593,594,595) We have established facilities for nuclear power plants,
(1) a nuclear reactor plant, (2) a nuclear reactor plant, (3) a nuclear reactor plant, (4) a nuclear reactor plant, and (4) Includes a reactor installation of a nuclear power plant configured to fix a sinking prevention stay line (634) to a hydraulic cylinder machine (624) and a key bed (616) as a connecting structure (846)
(593, 594, 595) nuclear power plants of the small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants, which constitute the nuclear power plant facilities,
The dual structure block tank bridge bridge (937), which constitutes a marine nuclear hydroelectric power plant,
(937), consisting of a double structure block tank bridge (937) consisting of a 40 meter upper end of the sea level (SLL), and a bridge for safe collision prevention and safety (1) of the nuclear reactor main body (1) of the reactor facility for nuclear waste disposal,
(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constructed in the main body (1) of the distribution input apparatus main body of nuclear reactor waste disposal nuclear reactor plant composed of nuclear power plant connection structure, (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants, and distributing the nuclear power plants for disposal of individual nuclear waste. (593,594,595) nuclear hydroelectric plants of medium and large sized marine nuclear hydroelectric power plants,
(598) of the double structure block tank (598) constituting the nuclear hydroelectric power plant facility, and is provided as a distribution input connection structure of the nuclear hydroelectric power plant facility,
Distribution control equipment constituting nuclear hydroelectric power plant facilities With fixed-type barges and fixed-type barges with empty spaces, it is possible to install nuclear hydroelectric power plant facilities in a large number of floating marine small-, medium- and large-scale offshore nuclear hydroelectric power plants (593,594,595) (598) double structure block tank pipe pier (928) facility which constitutes the support of the nuclear hydroelectric plant facility with the empty space in the connecting distribution control shaft connection structure,
(928) Depth of depth of sea surface (SLL) of the facility and double structure block tank (0.5 km × 0.5 km × 0.5 ㎞) ㎥ Pipe bridge (928) And fixed at the seabed at intervals of 500M,
In the nuclear power plant equipment constituting the distribution input connection structure of the nuclear hydroelectric power plant facility,
A nuclear power station facility is provided as a fixed installation connection structure by a crane 846 for replacing a mooring car anchor, which is located at the lower base (851) for a pier level base foundation,
(1) The connection structure of the distributing shaft which provides the sinking vessel lifting which is built in the main body (1) of the reactor facility for nuclear waste processing constituting the nuclear hydroelectric power plant. (1) inside the distribution dispensing apparatus main body (1)
(1) The connection structure of the facility to be installed inside the main body (1) of the reactor equipment for nuclear waste disposal to constitute the nuclear hydroelectric power plant facility. The floating structure of the small-, medium- and large-scale marine nuclear power hydro- 593, 594, 595) The distribution dispensing apparatus constituting the dispensing axis,
(593,594,595) of a small-sized and large-scale marine nuclear hydroelectric power plant of the offshore nuclear hydroelectric plant of the above-mentioned nuclear power plant, the upper block barge of the distribution block unit (590) constituting the distribution axis, And the shelter located at the top of the deck deck at the top of the sea level.
At the top of the barge deck deck at the sea level top part (SLU)
(1) of the nuclear power plant including the main body (1) of the nuclear waste disposal reactor facility while providing a shelter for protecting the sailing vessel from natural disasters,
Friendly nuclear power plant, which constitutes a reactor plant of a nuclear power plant,
A number of nuclear hydroelectric and wind power plants, which make up reactor facilities,
It is composed of individual power generation units and has a seabed mineral resource collecting place. It is composed of a seabed mineral resource collection site located inside the floating deck deck bottom (SDL), a small-sized, medium-sized and large-scale marine nuclear hydroelectric Each power plant of the marine nuclear hydroelectric power plant is provided at the upper deck of the deck top consisting of the lifting dock (593,594,595) of the power plant,
At the normal position of the block tower (116) constituting the marine nuclear hydroelectric power plant,
Block tower (116) Floating dock at the top of the meteorological observatories at the top of the deck top of the barge at the normal position. ) Submarine line injection nozzle connecting submarine line injection nozzle and bottom line submarine line connecting distributing shaft constituted inside,
In the meteorological observatory on the deck top of the flood-type reservoir (593, 594, 595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant with a distributed shaft structure,
(1) of nuclear power plant for the treatment of nuclear waste in distribution shaft provided with protective equipment for each generation of aircraft emergency landing sites constituting the weather observation station, And an electronic control regulating device construction machine control section (811f)
The operation of the carrier for the distribution shaft construction machine constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal constituting the electronic control regulating apparatus construction machine control section 811f, A distributing and inputting device for a reactor installation of a nuclear hydroelectric power plant constituted by a connection structure of an electronic control regulating device construction machine control section 811f of a nuclear hydropower generation facility section 811 constituting a reactor facility main body of a power plant,
The electronic control regulating device construction machine control unit 811f, which is constituted by the distributing and charging device of the nuclear reactor facility,
Nuclear waste treatment double structure block tank which provides position by connection structure with submarine line connection structure to submarine line injection nozzle injection nozzle of submarine line injection nozzle inside of main body (1) of distributing injecting device for nuclear waste treatment facility Nuclear waste treatment dual structural block tank pipe bridge (929) comprising marine tunnel traffic device (941)
Double Structure Block Tank Tube Bridge (929) Double Structure Block Tank Constructing the Connecting Shaft (937) In the double structure block tank 598 having the connection shaft of the double structure block tank bridge 937 as the connecting structure of the body,
Nuclear waste treatment Double structural block tank Marine tunnel transport device (941) Internal block tank (596) Built-in block tank (596) Built-in guide rail (618) And an internal block tank 596 that constitutes the operation to the internal train 771 for the marine tunnel apparatus of 100 KM to 200 KM per hour,
Nuclear waste treatment Dual structure Block tank Marine trench transport device (941) Inner block consisting of tank (596) Inner and outer block tank (599) Inner empty space Individual position The inner block tank The outer block tank 599 located at the outer connection structure of the inner block tank 596 and the guide rail supporter 852 located at the lower end portion connection structure of the guide rail 618 located at the lower end of the inner block tank 596 And a position of a vacant space located at an inner lower end,
Natural gas and crude oil transportation equipment, which make up natural gas and crude oil transportation,
A tug line 636 constituting the interior of the main body 1 of the reactor installation for nuclear waste treatment, which is a connection structure provided with a pipeline automatic pneumatic valve conveying device 916 composed of natural gas and crude oil conveying facility, (637) and anti-sinking rescue lines (634) of sinking ships, and nuclear reactor hydropower plant nuclear reactor hydropower plant.
Nuclear power plant's connection structure to constitute the distribution and input device of nuclear power plant Nuclear waste treatment Double structure block tank by providing construction machinery equipment Marine tunnel transportation device (941) Distribution of nuclear waste treatment plant connecting both sides of the book (1) Filling up small, medium and large sized maritime nuclear hydroelectric power plants of stationary marine with distribution axis exposed on the top surface of sea surface on board composed inside An electronic control regulating device construction machine regulator 811f of the nuclear hydropower generation facility 811 constituting the inside of the distributing and inputting apparatus main body 1 of the reactor facility for nuclear waste disposal with construction equipments 593, 594, (593,594,595) nuclear power plants (672) of marine small, medium and large marine nuclear hydroelectric power plants, (810) before and after the operation of the nuclear reactor waste disposal facility and the nuclear reactor waste disposal facility (705);
Wherein the nuclear waste water treatment plant comprises a double structure block tank dust collector as a connection structure capable of being disassembled and coupled at a marine vessel manufacturing plant. The method according to claim 1,
The nuclear hydroelectric power plant unit 811 constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor of the marine nuclear hydroelectric power plant having the double structure block tank dust collector of the offshore and offshore marine vessels, ) Dual structure block tank-collector nuclear waste treatment pipe manufacturing process distribution shaft 705,
(593,594,595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant of the land and the sea, and a nuclear power plant (811) Nuclear waste treatment pipe manufacturing process of reactor facility (705) Connecting shaft Nuclear hydroelectric plant preparation for diving Provision of the operation control control distribution input device and nuclear hydroelectric plant holding tank top And a nuclear plant nuclear waste disposal unit 811a of a nuclear hydroelectric plant consisting of the connecting structure for connecting each of the barge hull 591 and the barge hull 592 at the lower end of the holding tank,
The distribution dispensing apparatus constituting the nuclear waste nuclear waste processing unit 811a includes:
(593,594,595) Nuclear power plant (672) of marine nuclear hydroelectric power plant constituting distribution input device and submarine line injection of submarine line injection nozzle connection port constituting inside of main body (1) of nuclear reactor waste disposal facility With the nozzle and subsea line wiring connection structure, it is possible to establish a position as a nuclear power connection structure,
(593,594,595) of a small, medium and large sized marine nuclear hydroelectric power station in the submerged marine that makes up the distribution input unit. The upper tank barge hull (591), which is provided as a connection structure of the nuclear hydroelectric power plant, A strut block tank 590 positioned at the center upper end connection structure of the strut block tank 590 and the strut tank bottom barge hull 592, a barge hull 591 at the upper end of the strut tank upper end of the nuclear hydroelectric plant, The upper portion of the strut tank upper barge hull 591 constituting a plurality of strut block tanks 590 having the connecting structure for connecting the barge hull 592 and providing the connection structure around the center of the barge hull 592 Axis,
(591) The upper part of the support block tank (590) and the lower part of the tank barge hull (591) are connected to the distributing shaft. The barge hull (591, 592)
Tank top tank barge (591) Double structure block tank making up connecting shaft In the portable lug (607) body,
A plurality of processing holes 615 constituting the body of the portable lug 607 and a lug hole 616a for the block unit double structure block tank hull breaker position shifting regulator are disposed in the connection structure of the disassembly coupling The screw thread 603a of the connecting shaft 606 for the tank assembly and the bolt 603 for the lug connecting shaft and the nut thread thread 603b of the lug connecting shaft engaging and disassembling nut 603 and the block tank hull disassembling portable portable (593,594, 595) nuclear hydroelectric power plant of a submerged marine power plant equipped with a lug (607) and a block tank combined portable lug pin (608) can be disassembled and controlled by a portable lug In addition,
A hydraulic cylinder machine (619) constituting the disassembly coupling control of the nuclear hydroelectric power plant, and a connecting structure (616) comprising a mooring device and a floating boat to constitute the barge ship hull balance control,
(596, 595, 595) of marine small, medium and large sized marine nuclear hydroelectric power plants that make up the connecting structure of nuclear power plant nuclear reactors, A construction machine machine constituting a connection shaft and a distribution shaft of a double structure block tank bridge 937 for providing a submarine line injection nozzle and a submarine line wiring connection structure of a submarine line injection nozzle connection port constituting the inside of the distribution dispenser main body 1 ,
(593,594,595) Nuclear power plant (672) of small, medium and large sized marine nuclear hydroelectric power plant with sinking prevention construction consisting of construction machine equipments, and the inside of distribution dispensing apparatus main body (1) of nuclear reactor waste treatment facility Nuclear power plant nuclear waste disposal screening system to prevent the nuclear radiation leakage of the nuclear reactor facility to prevent leakage of nuclear radiation Nuclear power plant facilities (811) of the nuclear hydroelectric power plant with the distribution injector of the dust collector, And a nuclear waste disposal unit (811a)
(593, 594, 595) nuclear power plants (672) and nuclear reactor hydroelectric power plants (811) of nuclear power plants of marine nuclear power plants, which constitute the nuclear waste disposal unit (811a) In the distribution input device of the double structure block tank coupling lug 607 constituting the connection structure to the nuclear power generation nuclear waste treatment section 811a of the nuclear power generation nuclear waste treatment section 811a,
(593, 594, 595) nuclear power plant (672) equipment constituting the nuclear power generation nuclear waste treatment section (811a)
(592,594,595) Nuclear power plant (672) Holding tanks (590) constituting the equipment Upper barge hull (591) and holding tank Lower barge hull (592) A plurality of processing holes 615 and an elongated hole 616a are formed in the structural block tank-attached portable lug 607 body to form a horizontal pin connection shaft processing hole 615 and a vertical pin connection shaft processing hole 615, And the upper portion of the strut tank 590 connected to the strut tanks 590 are connected to the strut block tank 590 constituting the nuclear power plant 672 and the upper barge hull 591 And a plurality of processing holes 615 provided at the respective portions in the vertical form of the holding tank 590 and the lower barge hull 592 are connected to several processing holes 615 of the plurality of connecting shafts 606, The connection shaft 606 is removed to form a single connection shaft 606 as a connection structure. Includes facilities for nuclear power plants (672)
In the double structure holding block tank 590 of the connecting shaft 606 constituting the nuclear power plant 672,
(634) that provides for the recovery of sinking vessels constituting the double structure holding block tank (590), and it is equipped with the connection structure distributing and inputting devices capable of disassembling and coupling of the nuclear power plant (672) Assembled at sea level (672) installations of nuclear power plants,
The vertical lower block tank 590 composed of the nuclear power plant (672) facilities has a connection structure with excavation equipment and mooring devices at the lower part of the center, and a horizontal support Anti-sink retention lines 634 that constitute a position-regulated switchover of the block tank 590 to the vertical block block tank 590,
In the throttle control device of the nuclear power plant 672 constituting the sinking prevention stay line 634,
(634) prepared for the submergence proceeding to the lower sea level (SLD) constituting the submergence control device of the nuclear power plant (672)
(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the prevention of sinking, and nuclear waste constituting the distribution input apparatus main body (1) It is equipped with a double structure block tank leak collector for nuclear radiation leakage control of nuclear reactor facility of treatment shielding system and equipped with excavation equipments and mooring devices provided on the anti-sinking rescue line (634) (593,594,595) Nuclear Power Plant (672) of Nuclear Hydroelectric Power Plant and Nuclear Waste Treatment Unit of Nuclear Power Generation Unit (811) of Nuclear Hydroelectric Power Plant Division (811) 811a. The nuclear waste disposal unit 811a is provided with the excavation equipment and the mooring devices. Including,
(593,594,595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant of the nuclear waste disposal unit (811a) constituting the nuclear hydroelectric power plant unit (811) Reactor Equipment Consisting of Dispensing Apparatus Main Unit (1) Dispensing Apparatus of Nuclear Power Plant Operation In a rotary table lathe machine (908) of a drilling machine,
A crane of a crane crane 651 located at the upper end of the drilling machine room is provided with a crude drill rod connected to a plurality of pipe racks 854 constituting a rotary table lathe machine 908 of a drilling machine, A crude drill rod connection joined to the boom boom, the boom girder loop 652 and the wire rope 19 connection structure is provided,
The pipe rack 854 in the excavation preparation stand-by state constituting the crude oil drill rod connection,
A plurality of pipe racks 854 provided as connection structures of the sea level lower end SLD of the sea level SLL constituting the pipe rack 854,
The coil drill 917 constituting the pipe rack 854,
The crusher crank 846 at the position of the excavation hole 936 provided as a connection structure with the excavator 917 and the excavator 917 while being provided with the excavator hole 936, ) Which is provided in the connection structure between the hydraulic cylinder machine (624) and the key bed (616), and which is installed in the construction machine operation connection structure mounted on the upper barge hull at the top of each tie block tank. Residence line 634,
(593,594,595) of marine nuclear, hydro, and nuclear power plants of small size, medium size and large scale, which make up the sinking prevention ship (634). Crude oil and natural gas discharged from the crude oil borehole (936) (593,594,595) of marine small and medium sized and large sized marine nuclear hydroelectric power plants. Connected structure with subsea line wiring, upper part of sea level (SLU) lifting type poison hull deck deck. And,
And a ceiling crane (651) facility constituting a position as a connection structure at the upper end of the lower part inside the block steel tower (116) of the nuclear hydroelectric plant facility,
The rotary table lathe machine 908 of the drilling machine for crude oil, which is located at the connection structure inside the drilling machine machine room constituting the lower part of the ceiling crane (651)
The rotary table lathe 908 is provided with hydraulic cylinder keys 623 for drilling located at the center of a circular table lathe which constitutes the rotating body of the body,
A hydraulic cylinder cylinder key 623 for drilling, and a plurality of operation keys 623 as a connection structure of the center of the lathe,
A rotary table lathe machine 908 of a drilling machine for drilling oil for crude oil constituting the center of a lathe to adjust the position of the connection structure that is spread from the center of the rack to the outside of the center of the rack, And a rotary table lathe machine (908) for connecting the rotary table lathe,
A plurality of pipe racks 854 arranged in a center position with the rotating body connecting structure constituting the rotary table lathe machine 908 continue to be bound to the bottom of the oil borehole 936, (936) for drilling a drilling hole of a crude oil borehole (936) with a connecting structure located as a connection structure of a crude drill rod A nuclear waste disposal unit (811a) composed of a main body (1) of a distribution and dispensing apparatus for a nuclear waste disposal reactor facility,
In the crude drill rod connection that constitutes the distribution input device of the nuclear operation,
The connecting pipe rack 854 constituting the crude drill rod bound to the wire rope 65 of the ceiling crane 651 is connected to the wire rope 65
(908) Body of Rotary Drill Block Unit Block Tank Hinges Hydraulic Rotary Cylinder Machine for Dismounting Coupling Regulator (619) Drilling Machine for Pipe Rack (854) And a plurality of hydraulic cylinder operating keys 623 for drilling, which are located in the connection structure of the central portion of the circular table lathe,
A rotary table lathe machine 908 of a crude oil drilling machine constituting a crude oil borehole 936 with a transfer arrangement to the top of a rotary table lathe machine 908 of a crude oil drilling machine,
The rotary table lathe machine 908 operation of the drilling machine constituting the crude oil casting is performed so that the crude oil and natural gas discharged from the position of the crude oil borehole 936 are supplied to the tower crane 886 while finishing the oil borehole 936 excavation, A tower crane 886 having a connecting structure located on both sides of the boom of the crane boom band of the tower crane 886 and a vertical rotation operation of the boom and boom hook rings 652 of the tower crane 886, And the deep sea energy resources are provided to the top of deck deck,
Nuclear Reactor Facilities Includes a tower crane (886) dispensing device that constitutes nuclear waste disposal in nuclear operation,
Tower cranes (886) Subsidiary vessels of small, medium and large sized marine nuclear hydroelectric power plants making up the distribution input unit (593,594,595) Distribution equipment of nuclear power plants and reactor facilities for nuclear waste treatment (1) (936) Location of crude oil and natural gas discharged from the location of the crude oil borehole (936) that constitutes the inside of the nuclear power plant. (936) of the crude oil borehole (936) inside the nuclear reactor plant with the submarine line wiring, including all the energy resources constituting the deepwater basin with the connection structure of crude oil and natural gas crude oil borehole distribution and input device and,
A cooling system is connected to the location of the crude oil borehole (936) with the lifting of all the energy resources composing the deep sea bottom to the top of the deck plate and the deep sea oil borehole (936) constituting the excavation. and,
(593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants that make up the nuclear power plant facilities. Nuclear power plant facilities are equipped with mooring devices and diving buoyancy control devices so as to secure the safe mooring of the nuclear power plant facilities. In addition,
Nuclear Waste Treatment Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor (593, 594, 595) nuclear power plant facilities of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the operation of the nuclear waste treatment section (811a) constituting the inside of the distribution dispensing apparatus main body and,
(593, 594, 595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the above-mentioned nuclear power plant facilities, the nuclear waste disposal section (811a) constituting nuclear power plant facilities, (593, 594, 595) of the nuclear hydroelectric power plant In the distribution input unit constituting the sinking restraining line (634) as the connection structure of the nuclear power plant facilities,
(917) to the excavation hole (936), and a hydraulic cylinder machine (39) operation as a structure to connect the crane crank (846) to the crane crank 846 are pushed into the excavation hole 936 and the wrench crank 846 provides compressive expansion inside the excavation hole 936 so that the several interlocking tool tip grinders 185 are embedded in the ground (185) for fixing the connection structure,
The barges with barge line drift prevention by fixing the lower part of each holding tanks constituting the nuclear power plant facilities are equipped with a floating tank (593,594,595) of small, medium and large sized marine nuclear hydroelectric power station, Barge line with a mooring device of nuclear power plant equipment barge at the top barge line construction machine installed on the hull barge line to position as a connection structure hull anti-drift prevention wrench crank (846) equipped with mooring devices to treat nuclear waste (1) of the dispensing apparatus main body (1) of the nuclear reactor installation,
(593,594,595) of a small, medium and large sized marine nuclear power plant constituting the nuclear power plant facilities, a mooring device, a diving buoyancy control device, a distribution input device and a nuclear reactor facility for treatment of nuclear waste, (811) of the nuclear power plant of the nuclear waste disposal unit (811a) at the marine vessel manufacturing plant, which are equipped with connection axes of the nuclear waste processing pipe manufacturing process (705) of the reactor facility at the Hwaseong Nuclear Hydroelectric Power Plant As a connection structure capable of decomposing and bonding,
The double structure block tank dust collector nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydroelectric power plant 811 constituting the reactor facility main body 1 of the nuclear power plant of the land and sea constituting the nuclear power plant facility ,
(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants of land and sea constituting the nuclear power plant facilities and the inside of the main body (1) of the nuclear power plant A double structure block tank dust collector of a nuclear hydroelectric power plant (811) constituting a nuclear reactor waste water treatment plant manufacturing process (705) of a nuclear reactor plant is connected to a docking station which constitutes a nuclear power plant facility. And a nuclear waste treatment unit 811a for a nuclear power plant equipment nuclear reactor, which comprises connecting structures for connecting the upper and lower barge hulls 591 and 592 of the holding tank,
In the nuclear waste disposal and dispensing apparatus of the nuclear waste disposal unit 811a constituting the nuclear power plant facility,
(593,594, 595) nuclear power plant (672) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant of the ocean, and the inside of the distribution apparatus main body (1) of the reactor facility for nuclear waste treatment. And a large flange (614) positioned as a nuclear waste disposal dispenser having a submarine line injection nozzle and submarine line wiring connection structure of a submarine line injection nozzle connecting port, and connected to a connection distribution input device connection structure Including the connection structures constructed by
The double structure block tank (598) equipment,
Double structural block tanks 598 in units of 500 meters are provided in the form of a double structure block tank barge,
(634) which constitutes the nuclear power plant facility is provided with a pre-distribution input,
(593,594,595) Nuclear power plants of marine small, medium and large sized marine nuclear hydroelectric power plants constituting the nuclear power plant facilities, and the distribution input apparatus constituting the whole connection of the nuclear power plant facilities are connected at intervals of 500m (929) connecting the double structure block tank bridge pipe (937) with the structure of the double structure block tank pipe bridge (928) in order to construct the double structure block tank pipe bridge In addition,
A double structural block (995) is installed at the deep sea bed with a distribution input device of a nuclear power plant facility, and a double structure block which precisely measures the marine water depth of the double structure block tank pipe pier (928) Includes installation of tank pipe bridge 928,
At the installation position of the double structure block tank pipe bridge 928 constituting the nuclear power plant facility,
Includes the installation of a diaphragm rubber balloon (628)
A distributing and inputting apparatus constituting a nuclear power plant facility,
A wire rope 915 is attached to the lower end of the diaphragm rubber balloon 628, a diving position adjusting mobile unit of the hull and a diaphragm weight 949 of the diving buoyancy adjusting unit are provided, The double structure block tank bridge pier 928 is provided at a mounting position,
(593, 594, 595) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of the ocean, while towing each double structure block tank bridge pier (928) constituting the nuclear power plant facility to a tugboat (636) The transfer is provided to the same immersion prevention stay lines 634,
(946) connection structure to the injection nozzle of the injection nozzle connection port, which is provided with the connection structure constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus equipped with the nuclear power plant facility (614) Distributed input device Connection structures and lifting tanks of small, medium and large sized marine nuclear hydroelectric power plants in the ocean (593,594,595) Mooring devices of nuclear power plants Connection of marine structures (593,594,595) Nuclear power plant (672) of nuclear power plant of small size, medium size and large scale and nuclear power plant of nuclear power plant (811) consisting of inside of main body (1) And a nuclear waste disposal and dispensing apparatus of the waste disposal unit 811a,
A transportation unit 811c of a construction machine for establishing a connection with a nuclear waste treatment unit 811a constituting a nuclear hydropower generation facility unit 811 constituting the inside of a distribution and dispensing apparatus main body 1 of the nuclear waste treatment facility, The distribution input device of the construction machine constituted by the processing reactor facility,
Sink retention lines 634 constituting a nuclear power plant facility,
After the sink prevention rescue line 634 constituting the nuclear power plant facility is transferred, if the water depth of the installation point is 300 meters,
Positioning of the file column by 50 meters more than the water depth Positioning the crane boom stand (942) of the tower crane for the moving device and setting up the pile (898) vertically, the excavator for the deep drilling rig of the construction drill (634) equipment which comprises a distributing and inputting apparatus of a construction machine of a nuclear power plant equipments including a rock drilling machine 845, a rock drilling machine 847, a drilling machine 876 and an anti- ,
The plurality of construction machines 880 constituting the sink prevention rescue line 634 facility,
A diesel hammer 883, a steam hammer 884, a hydraulic crane 885, a tower crane 886, a crawler crane 887, a truck crane 888 and a squirrel crawler 889 A tandem roller 890, a tamping roller 891, a tire roller 892, a tractor 893 and a trailer 894 to constitute a nuclear power plant facility,
The distribution input device of the construction machine constituting each of the nuclear power plant facilities includes:
The fuel cell system includes the ram 895 and the lead 896, the cooling water cooler 897, the helmet 899, the fuel pump 900, the cam 901 and the fuel tank 902, The boom front pin 904 and the cage work 905 of the starter 903 provided as a connection structure on the seabed at the base of a plurality of double structure block tank pipe bridge 928 are provided as a distributing / Adapter 906 to provide a level balance check of the nuclear waste treatment dual structure block tank bridge 929,
A double structure consisting of a double structure block tank bridge pier (928) at each section constituting the check of the level balance of pipe bridge (929) Comprising a block tank,
At the sea surface top exposed site dual structure block tank pipe bridge 928,
The rope is connected to the double structure block tanks to provide mooring. At the same time, the actuator of the actuator (848) is operated in the construction machine cab, and the connection structure of the construction machine distribution and input device and the small, medium and large scale marine nuclear hydroelectric (593, 594, 595) of the power plant. Protecting nuclear plant facilities with mooring equipment,
A nuclear waste disposal unit 811a constituting the nuclear waste disposal reactor apparatus main body 1 and a transportation transportation unit 811c of the construction machine providing the connection with the nuclear waste disposal unit 811a, (593,594,595) Nuclear power plant facilities of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants in the offshore,
A transportation unit 811c of a construction machine for establishing a connection with a nuclear waste treatment unit 811a constituting a nuclear hydropower generation facility unit 811 constituting the inside of a distribution and dispensing apparatus main body 1 of the nuclear waste treatment facility, And a distribution dispensing apparatus of a nuclear reactor construction machine constituted by a processing distribution dispensing apparatus,
In the distribution input device of the construction machine constituting the nuclear power plant facility and the nuclear reactor facility,
A double structure block tank tank pipe bridge 929 connected to the double block tank tank bridge pipe 929 at a distance of 500m within the nuclear power plant facility is connected to the sea water tank SLL), double structure block tank 500㎥ unit volume connection structure,
The double structure block tank bridge 929 constituting the nuclear waste disposal is connected to the crane boom stand 942 of the tower crane substituting for crates, and the connecting structures anchor 639 and the anchor chain 640 are mounted on the seabed ,
A distributing and inputting device for a nuclear reactor construction machine that winds up wind turbine winch 958 constituting nuclear waste treatment and releases anchor 639 and wire rope chain 915 with a tuna winch 958 and,
Nuclear Reactor Facilities Distribution Equipment of Nuclear Reactor for Disposal of Nuclear Reactor with Dispenser and Equipment for Construction Equipment Connected Structure of Nuclear Reactor Equipment for Construction Equipment (1) Dispensing Equipment of Construction Equipment Dual Structure Block Tank Pipe Pier (928) A structural block tank pipe bridge 929,
A connection structure having a submarine line wiring connection structure to the injection nozzle of the injection nozzle connection port and a transportation connection structure for providing a transportation position, and a small, medium and large sized A nuclear waste disposal unit 811a of the nuclear power plant unit 811 constituting the inside of the main body 1 of the nuclear waste disposal reactor facility with the lifting tanks 593, 594, 595 of the offshore nuclear hydroelectric power plant as mooring devices, And a transportation transport unit (811c) of a construction machine for establishing a connection with the nuclear waste disposal and dispensing apparatus. The nuclear waste disposal apparatus includes a nuclear plant facility as a connection structure for protecting the distribution input apparatus of a nuclear reactor construction machine,
A transportation unit 811c of a construction machine for establishing a connection with a nuclear waste treatment unit 811a constituting a nuclear hydropower generation facility unit 811 constituting the inside of a distribution and dispensing apparatus main body 1 of the nuclear waste treatment facility, The distribution dispensing apparatus of the reactor facility construction machine constituted by the treatment dispensing dispensing apparatus,
(1) of the reactor installation for nuclear waste disposal with the distribution dispenser of the nuclear reactor construction machine, and the nuclear waste disposal facility A double structure block is a connection structure which is provided with a distributor for connection of a tank pipe bridge (929), which is wound around a rotating shaft pinch winch (958) and loosens anchor chain (640) by a pinch winch (958) (959), which is connected to the catcher winch (958) constituting it repeatedly,
The saddle replacement use sail 959, which constitutes the dispensing apparatus of the nuclear reactor installation,
A double structure block tank bridge (929) for treating nuclear waste is installed in the tugboat (636) of the nuclear power plant equipment constituting the sail substitute sail (959) while the double structure block tank (598) (929) connecting the nuclear waste treatment dual structure block tank bridge (929), providing a temporary passage to the sailing vessel as a connecting structure with a joint work process at sea level,
Nuclear waste disposal at a single 500m site during the construction of the temporary passage of the sailing vessel Double structure block tank bridge (929) A temporary passage of the sailing vessel was established by holding the combined operation of the nuclear power plant facilities, (929) Double structure block tank (598) as coupling connection structure Position of the connecting block The outer block tank 599 has the even number of connecting parts and the odd number of connecting parts 5, (2) Nuclear waste treatment double structural block tank bridge (929) consisting of the inside of the main body (1) of the reactor installation for nuclear waste disposal with the connecting structure of the double structure block tank as a connection structure. Lt; / RTI &gt;
(1) of the reactor installation for nuclear waste treatment, while providing the distribution and input devices of the nuclear reactor construction machine constituting the temporary passage of the sailing vessel, and connecting the submarine line wiring to the injection nozzle of the injection nozzle connection port (593,594,595) of small-sized, medium-sized and large-sized marine nuclear hydroelectric power plants with anti-sinking marine structures (593,594,595) as mooring devices, A nuclear waste disposal unit 811a of the nuclear hydropower generation facility unit 811 constituting the inside of the distribution apparatus main body 1 of the nuclear waste disposal apparatus main body 1, Nuclear Reactor Equipment It is the connection structure of the equipment that constitutes the protection of the distribution equipment of the construction machine,
A transportation transportation section of a construction machine for establishing a connection with a nuclear waste disposal section 811a constituting the inside of the distribution dispensing apparatus main body 1 of the nuclear waste disposal reactor apparatus constituting the nuclear power plant facility, (811c) of the nuclear waste disposal and dispensing apparatus,
The Nuclear Power Plant Facility and the Nuclear Reactor Construction Equipment are equipped with a distribution input device for connection of a nuclear waste treatment dual structure block tank bridge (929) that constitutes a nuclear power plant facility. The small, medium and large sized marine nuclear hydroelectric power plants (593,594, 595) Connected structure of nuclear power plant facilities Tubular bridge Disassembly and disassembly External block consisting of disassembling and dispensing device Tank (599) Coupled to external position Hook provided with detachable hinge (27) And a connecting shaft 27b of a hinge type of the hinge 27 and a connecting shaft 27b of a long shaft for a hinge are provided on the hinge 27 of the pawl rug 21 A double structure block tank constituting a binding for the hinge,
And a structure for connecting the connection portion of the double structure block tank to a predetermined distance between the injection nozzle and the submarine line is provided as a connection structure constituting the interior of the main body 1 of the nuclear reactor waste disposal reactor installation, (593,594,595) of small, medium and large sized marine nuclear hydroelectric power stations (593,594,595) for the prevention of sinking, and nuclear facilities A connection is established with the nuclear waste generator 811a of the nuclear power generation facility 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the processing reactor installation,
(811c) of the construction machinery, including a nuclear waste disposal dispenser and a nuclear waste disposal unit,
The ratchet lock releasing device of a mooring device located on a horizontal outer wall constituting a distribution input device of a nuclear reactor construction equipment of the nuclear power plant,
(935), which constitutes the locking device of the mooring device lock release device, is provided by welding while the attachment is provided, and the double structure block tank connection position is provided by the rotation of the upper and lower rotations. ) And a jig base (22) are provided with a double structure block tank disassembly coupling structure, and a block unit double structure block tank hull disassembly and coupling lug hinge socket (613) (593,594,595) of the marine small, medium and large marine nuclear hydroelectric power plants with the combined structure,
Nuclear Power Plant Reactor Facility Dual Structure Block to Provide the Connection Structure of the Injection Nozzle and Submarine Line Wiring (946) at the Injection Nozzle Connection Portion of the Dispensing and Discharging Device of the Construction Machinery Bridge Tank Bridge (937) (593,594,595) of a marine nuclear hydroelectric power plant of medium and large size (593,594,595) Mooring device of a nuclear power plant facility The fixed-ocean offshore power plant, ) Including facilities for nuclear power plants,
Double structural block tank structure of Nuclear Hydroelectric Power Plant facility The location of the connection part of the joint structure of the hydroelectric power plant is divided into two parts: (593,594,595) of a large-sized and large-scale marine nuclear hydroelectric power plant, and the installation of nuclear power plant,
(593,594,595) of small, medium and large sized hydro-nuclear hydroelectric power plants constituting nuclear hydroelectric power plant facilities, and a mooring device, diving buoyancy control device and nuclear waste disposal dispenser and reactor installation of nuclear power plant (672) Dispensing of nuclear waste treatment facilities before and after safe operation of nuclear reactor facility Discharging of nuclear waste treatment facility The nuclear waste water treatment plant manufacturing process (705) of the nuclear reactor facility in the nuclear hydroelectric power plant (811) And a connection structure capable of being disassembled and coupled at a marine ship manufacturing factory is constructed so as to form a connection shaft of the nuclear waste disposal pipe manufacturing process (705)
The double structure block tank dust collector nuclear waste processing pipe manufacturing process distribution shaft 705 of the nuclear hydropower generation facility unit 811 constituted by the inside of the main body 1 of the distribution apparatus 200 for nuclear waste processing for land and ocean,
(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of the land and sea constituting the distribution shaft (705) of the nuclear waste treatment pipe manufacturing process, and the distribution The dual structure block tank dust collector of the nuclear power hydroelectric power generation facility 811 constituting the inside of the charging device main body 1 is provided with a plurality of generators for nuclear waste disposal and power generation of the nuclear reactor facility, And a distribution input device of the electric power production and manufacture section 811b constituting the operation of the nuclear power plant of the facility,
The distribution input device of the power generation and production section 811b, which constitutes the nuclear power plant operation,
The connection structure constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste processing constituting the distribution input apparatus of the power production and manufacture section (811b) is a connection structure of small, medium and large scale marine nuclear hydroelectric power plants (593,594,595) for nuclear power plants (593,594,595) for nuclear power plants (593,594,595) for distribution of nuclear power plants (672) and nuclear waste disposal facilities Nuclear waste treatment double structured block tank pipe bridge (929) provided with connection structure constituting inside of the apparatus main body (1), injection nozzle connecting port submarine line wiring (946) (593,594,595) nuclear power plants (672) of marine small, medium and large sized marine nuclear hydroelectric power plants, ,
(593,594,595) Nuclear Power Plants (672) installations of marine small and medium and large marine nuclear hydroelectric power plants that make up mooring controls,
A floating structure of a buoyant deck deck at an offshore plant in a marine power plant constructed as a connection structure of a distribution dispensing apparatus, a double structure block tank, a double structure block tank of a nuclear detonation type inside a deck deck (794) The building,
Nuclear power plants (672), offshore wind power plants (957) and marine nuclear power plants (957) constituting nuclear power plants (592,594,595) and nuclear power plants (692) of marine small, medium and large scale offshore nuclear hydroelectric power plants, A dual structure block tank dust collector 794 for controlling leakage of the nuclear radiation power for the interior of the deck plate and the wind turbine 957a for the environment friendly wind power generator into the inside of the Siiso hydroelectric power plant 943,
A nuclear power generator 772 constructed outside the double structure block tank dust collector 794 and a connection structure provided with a fixed connection structure by a large hydroelectric generator and providing connection to the respective line distribution shafts, And a power transmission portion 811d provided as transformers for transmitting the power of the nuclear power generating unit 811 to the distribution shaft constituting the inside of the apparatus main body 1, (929) for providing a connection structure of a submarine line injection nozzle and a submarine line wiring (946) constituting the inside of the nuclear waste treatment dual tank tank bridge (929)
The power supply control unit constituting the distribution input unit of the transformer 96 of the large-capacity substation is provided with a power transmission tower 776 as a connection structure of the power transmission line 775,
(593,594,595) of marine nuclear, hydro, and nuclear power plants equipped with generators in each connection structure constituting power generation supply. Nuclear waste treatment dual structure The supply of a certain amount of generated power to the connecting process of the large flange 614 of the block tank pipe bridge 929 is provided as a connection and disconnection structure of the input and output device, Including plant facilities,
The power generation power of the nuclear power plant equipment is controlled by the line distribution power supply, and the levers block 123, the chain block 648 and the turn blocks 850 are connected to each other by a double structure block tank. (593,594,595) Nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant, and a distribution structure of nuclear power plant for nuclear waste disposal. And a connection structure of the submarine line wiring 946 is provided,
Submarine line wiring (946) Dual structural block tank bridge bridge (929) that constitutes the connecting structure The combined distribution input unit is equipped with multistage inlet type manometric turn to operate the vertical hydrostatic generator (944) In addition,
A crane boom section 942 of a tower crane constituting a large hydroelectric generator canister facility 944 to provide an electric energy generating device for generating power, (593,594, 595) of a large-scale and large-scale marine nuclear hydroelectric power plant, and a large-scale hydro-generator distribution and input device that constitutes the operation of the nuclear plant of the nuclear reactor plant,
(593,594,595) nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the large hydropower distributing and dispensing apparatus, and the main body of the dispensing apparatus The double structure block tank dust collector of the power transmission unit 811d including the power generation and production unit 811b of the nuclear hydropower generation facility unit 811 and the power transforming devices that transmit the power to the nuclear waste And a connection shaft composed of a plurality of generators for processing and power generation,
The distribution input device of the power generation and production section 811b, which constitutes the nuclear power plant operation of the reactor facility,
(593, 594, 595) of a marine small, medium and large sized marine nuclear hydroelectric power plant making up the distribution input device, and a connecting structure constituting the distribution input device main body (1) of the nuclear plant and nuclear reactor waste disposal unit And a line distribution input device for power supply for the power generation device,
The dual structure block tank constituting the line distribution input device reactor of the power supply is connected to the vertical partition wall 605, the horizontal partition wall 609, the diaphragm manhole 610, the manhole cover 152 and the hatch cover 153 As a result,
In the hatch cover 153 constituting the nuclear reactor facility,
The hydraulic cylinder door 624 is provided as a connection structure,
In the double structure block tank (598) equipment constituting the nuclear reactor facility,
A lever block 123, a chain block 648, and turn bolts 850, which are a connecting and disposing device connecting structure, are provided to provide horizontal connection,
Considering the side loads of floating marine nuclear power hydroelectric power plants (593,594,595) of small, medium and large sized marine nuclear reactors, the height of the nuclear waste treatment double structure block tank bridge bridge (929) Nuclear power plant (593,594,595) Nuclear power plant (593,594,595) consisting of the inside of the main body (1) of the nuclear reactor waste disposal reactor facility that provides the double structure block tanks to each other by 1.5 times the width of the pipe bridge (929) 672), a nuclear waste treatment pipe manufacturing process (705) of a reactor facility at a nuclear power plant (811) before the safe operation of a nuclear reactor waste disposal apparatus and a nuclear waste disposal apparatus, Connection axis;
As a connection structure capable of being disassembled and coupled in a marine vessel manufacturing factory of a power transmission unit 811d constituted of power generation and production unit 811b of nuclear power generation facility unit 811 and power transformers for transmitting power Wherein the system comprises a dual structure block tank dust collector. The apparatus for dispensing nuclear waste water for nuclear waste treatment of a marine nuclear hydroelectric power plant having a double structure block tank dust collector. The method according to claim 1,
The dual structure block tank dust collector (1) of the nuclear hydropower generation facility (811) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor facility for marine nuclear hydroelectric power plants having the double structure block tank dust collector The nuclear waste treatment line manufacturing process distributing shaft 705,
(593, 594, 595) nuclear power plants (672) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the pipe manufacturing process distribution shaft (705), and a distribution dispensing apparatus main body (1) Nuclear power generation equipment part (811) Internal control part Construction machine control part (811f) Disassembly device and lifting device Dispensing device for production equipment device Connecting shaft Dispersing control device Comprising:
(593,594,595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the disaster prevention device of the electronic control regulating device construction machine control section (811f). In a dispensing device for a device and a production facility device,
(593,594, 595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the distribution input device for the lifting device and the production facility device. (SDU) at the upper end of the deck top of the holding tank upper barge hull (591) at the upper end of the sea water surface upper end portion (SDU) with a connection structure with the seabed line injection pipe connecting submarine line wire (946) A machining hole 615 for providing connection with isoformed steel 839 is provided,
The bolts 24, the nuts 25 and the washers 26, which constitute the deck plate of the hull 591,
Shaped springs 838 to provide the connection of the isosformed steel 839,
The connection axis, which constitutes the nuclear power plant facility,
And a temporal crane boom girder (942) of a towage crane replacement tower for mobile devices constituting a position adjustment input of a connecting shaft,
The block unit block pylon 116, which is a connection structure of the iso crane boom band 942,
Is mounted in a shovel (23) of a position adjusting and moving device in a rug machining hole (20) constituting the block unit block pylon (116) and is connected to a seesaw crane boom frame (942) of a tower crane, (116) is provided for assembled transportation,
In the block unit block tower 116 constituting the inside of the block tower 112,
The emergency stairs 631 constituting the block unit block steel tower 116 are provided and the traffic apparatus constituting the emergency stairs 631 is provided with the emergency stairs 631 provided on the block pylon tower 116 to form the mooring tower 644 (589) to the bollards (638) of the mooring platform and to the center of the bottom of the lower portion of the steam jet ship (589) to the ceiling crane (651) and the elevator alley (632) (631), which is a connection structure of a traffic system,
At the position of the deck plate 4 at the upper portion of the strut tank upper barge hull 591 constituting the emergency step 631,
The barge hull (591) has a connection structure of 500m units formed at four positions of the deck deck to fix the block unit boom to the sea floor,
And a block pylon (116) which comprises a plurality of pylon crane boom stands (942) of a crane provided with a disaster device and a lifting device connection structure,
(593,594,595) of marine nuclear hydroelectric power plants of small size, medium size and large scale, constituting the block steel tower (116), and a submarine consisting of the inside of the distribution input apparatus main body (1) of the nuclear reactor plant for nuclear waste disposal Line wiring (946) connection structure to provide the location of nuclear power plant facilities,
Nuclear waste treatment of nuclear power plant facilities Double structure block tank bridge (929) Combined distribution input unit The block unit block of the equipments provided with connecting structure to protect floating operation is a steel tower (116) ,
(593,594,595) for the marine small, medium and large sized marine nuclear hydroelectric power plants, equipped with the emergency stairway (631) traffic device constructed on the block pylon (116) Nuclear waste treatment double structure block tank pipe bridge (929) consisting of inside of main body (1) of nuclear reactor facility Nuclear hydroelectric power plant (929) connected to connection shaft connection structure to provide lifting operation (811) electronic control unit construction machine control unit (811f), and it is equipped with dis- charge input devices for the disaster prevention control device which constitutes the dis- tiller input device for the disaster prevention device, the lifting device and the production facility device in the block steel tower It is composed of facilities of nuclear power plant,
(593, 594, 595) of the marine small-sized and large-scale marine nuclear hydroelectric power plants constituting the facility of the nuclear power plant, the nuclear power plant of the nuclear power plant (811 ) Electronic control regulating device Construction machine regulating device (811f) The distribution input device for the disaster control device,
The nuclear power plant 811 constituting the connecting shaft connection structure of the nuclear power plant equipment provided with the disaster prevention water delivery located at the top of the top block top steel tower 116 of the upper end upper part of the mooring tower 644 constituting the distribution dispensing apparatus for the disaster control device, (591) on the upper part of the holding tank, and a disconnection control device for the disaster control device including the electronic control unit construction machine control unit (811f). (8) To the inside of the machine room, press the main switch button (66) on the main switch of the main switch button (66) of the starter switch button of the starter switch (8) Provided that pump operation is performed on a full-
The operation of the pump is stopped by manually depressing the off-time main switch button 66 of the main switch button 66 constituting the pump operation execution, and the high pressure multi-stage multi- (2) of the nuclear power plant (1) constituting the discharge structure of the disaster prevention water (7) by the fire prevention disaster double structure pipe nozzle (10) Comprising a connection axis,
In the distribution control apparatus for the disaster control apparatus of the electronic control regulating apparatus construction machine control section 811f constituting the connection axis of the nuclear power plant facility,
(10) and fire-fighting double-walled pipe nozzle (10) installed in the middle of connection between the fire hose (9) and the water pipe connecting the water pipe. Fixed-type fire-fighting double structure pipe The connection structure of the wire rope 19 of the nozzle 10 and the connection device shack 23 and the connection flange of the disaster prevention nozzle are provided and the weather observation equipment adobe 77, the airship 78 and the radio sonde 134, (42) The lower part of the lower basket is connected to the lower part of the disaster prevention double pipe nozzle (10). The protection wire is composed of a wire rope (19) and a double structure of gas transportation which is lighter than air. Disaster prevention apparatuses are provided with connection structures of connection shafts,
The production facility apparatuses of the dispensing apparatus for the disaster control apparatus, including the dispensing apparatus for the disaster control apparatus of the electronic control apparatus construction machine control unit 811f constituting the connection axis of the nuclear power plant facility,
A high performance submersible pump 36 and an air compressor 80 constituting a production facility apparatus of the dispensing and inputting apparatus,
The distributing and inputting apparatus production facility apparatus for the disaster control apparatus of the electronic control regulating apparatus construction machine control section 811f constituting the connection axis of the nuclear power plant facility,
(946) Nuclear waste treatment with double structure block tank bridge pipe (929) Combined distribution input (1) Inside the main body (1) The emergency stairs 631 are provided in the block unit block pylon 116 provided in the connecting shaft connection structure for protecting the floatation type disaster prevention device constituting the disaster control device, As a connection structure,
(593,594,595) of a small-sized and large-scale marine nuclear hydroelectric power plant constituting the disaster control system (1) a nuclear waste disposal system consisting of a main body (1) for distributing nuclear power plants and reactor facilities for nuclear waste disposal; Structural block Tank pipe bridge (929) Nuclear hydroelectric power plant (811) Electronic control equipment Construction machinery control unit (811f) Disaster prevention equipment and lifting equipment And distributing and inputting equipment for production equipment equipments as distributing and inputting devices for connecting shaft disaster prevention control devices constituting block steel towers, and as a connection structure which can be disassembled and combined in marine ship manufacturing factory,
(593,594,595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting a distributing and inputting device for nuclear waste treatment nuclear plant, and a nuclear power plant for nuclear waste disposal, (811) Electronically Controlled Equipment Construction Machinery Control Unit (811f) Disaster Control Equipment, Lifting Equipment, and Production Equipment Dispatching control unit of the connecting shaft that constitutes the dispensing and dispensing unit of the equipment in the block steel tower. ,
The control system and the control system (150), which consist of the connection structure of the nuclear power plant, are equipped with the electronic control distribution and input device of the fire fighting and disaster prevention machine room and are equipped with the floating support system of small size, medium and large scale marine nuclear hydroelectric power plants 593, 594, 595) Distribution equipment of nuclear reactor waste disposal facility Main body (1) Submarine line injection nozzle connecting port Submarine line wiring (946) Floating pump located on the deck A multi-stage multi-stage emergency protection pump (8) constituting a position as an internal connection structure, and a fire prevention emergency electronic control device of a multi-stage pump control box (2) having a connection structure,
Electronic control facility of nuclear power plant equipment constituting fire fighting disaster electronic control equipment Electronic control facility of operation control system 150 Control box for operation (2) Suction join pipe (3 ), The exhaust pipe 4, the pump inner isolation valve high pressure shutoff valve 5, the pump backflow prevention check valve 6, the air hose connection nipple 110, the inlet multi-stage disaster prevention pump 8, A nuclear power plant constituting the fire fighting hose 9, the fire fighting pipe nozzle 10, the fixed frame 11 for fixing the positional multi-stage fire fighting pump 8 and the detection sensor 12 for an electronic control device for detecting fire, And a fire-fighting electronic control unit of the facility,
The electronic control unit connection structure of the nuclear power plant equipment constituting the detection sensor (12)
An overcurrent breaker brake 61, a power supply unit 62, an inverter 47 for an electronic control unit, and an inverter 47 for establishing an internal connection structure of the control box 2 of the power source power source 46 constituting the electronic control unit. Wireless communication antenna 54 is connected to the inside of the monitor 52 and the control board 53 of the control server 51 inside the internet 50 and the wireless router 48 and the security point pointer 49, A connection structure for constituting a rechargeable battery 37 having a connection structure with the wireless communication control module 55 of the apparatus includes an electronic control device connection structure for transmission and reception composed of a mobile 81 and a portable terminal 82 ,
The fire-fighting emergency electronic control devices constituting the electronic control device are,
A display 56 constituting a firefighting and disaster control electronic control device and an electronic control device AIDS 57 and an electronic control device M of the switch input circuit 58, A main switch button 66 and an auxiliary switch button 67 for the start switch button for establishing a position in the electronic circuit connection structure between the analog input 64 and the digital input 65 of the play screen 63, The computer network input 68 for the display input and the identification plate 69 of the pressure setting value which is the set pressure value of the current pressure value and the connection structure between the memory 70 and the power supply power supply line 71, An emergency electronic control device, comprising:
The power source power source 46 constituted by the fire-fighting and disaster control electronic control device,
(46) to the electronic control devices of the fire-fighting operation machinery room constituting the power supply energy source (46), and the lifting dock (593,594,595) of the small, medium and large scale offshore nuclear hydroelectric power plants (946) Nuclear waste treatment double structure block tank pipe bridge (929) to form a joint structure. (929) Combination of nuclear waste treatment facility and nuclear reactor waste treatment facility Discharging input devices Equipment for lifting and dismounting equipment and equipment for production equipment Protected equipment and electronic control equipment for fire fighting and disaster prevention machine room of nuclear power plant Electronic control unit consisting of input devices for connecting and disassembling Marine structure (593,594,595) of small-sized and medium-sized and large-scale marine nuclear hydroelectric power plants (593,594,595) Nuclear power plants and distributors of nuclear reactor facilities for nuclear waste disposal The electronic control unit pre-dispensing and inputting devices of the fire fighting and disinfection operation machine room constituted by the inside of the main body 1 and the disaster prevention device of the electronic control regulating device construction machine control unit 811f included in the nuclear hydroelectric power generation facility unit 811 The power supply of the disconnection control device of the disconnection and disconnection control device which constitutes the distributing input device for the lifting device and the production equipment device in the block steel tower is configured so that the nuclear power plant of the nuclear power plant is operated by turning on the power supply,
(593, 594, 595) of a marine nuclear power plant of small size, medium size and large scale constituting the above operation of the nuclear power plant, and a nuclear power plant constituting the nuclear power plant of the marine nuclear power plant, And a fire-fighting and dis- tribution control distribution dispensing apparatus constituted by a connection-shaft connection structure of a power generation facility unit (811) and an electronic control-regulating apparatus construction machine control unit (811f)
The fire fighting and disinfecting control distribution dispensing apparatus constituting the electronic control adjusting apparatus comprises:
(593,594,595) of a small, medium and large scale offshore nuclear hydroelectric power plant constituting the fire fighting disaster control distribution dispenser (593,594,595) Distribution of nuclear power plants and reactor facilities for nuclear waste treatment (1) The safety valve 258 constituting the connection structure of the piping 89 having the electronic control unit of the fire fighting and disinfection operation machine room and the line distributing and charging unit, the low pressure shutoff valve 83 and the emergency valve 84 for the electronic control unit, And the safety valve 258 of the pressure reducing valve 85. The bolts 24 and the nuts 25 and the shoehorn 26 are connected to the gap 15 of the pipe connecting flange 28 of the pipe 89, And a connection structure of a pipe (89) constituting a connection structure of the rubber packing (32) of the gasket for connecting connection by the valve each,
The connection structure of the pipe 89 constituting the connection structure with each of the above-
The first pressure check sensor 86 and the second pressure check sensor 87 constituting the connection structure of the pipe 89 and the bypass piping line 89 for piping connection of the electronic control unit 88 and the collecting tank 34 Of the disaster prevention control article (7) to the inside of the piping (89) by a connecting structure having a connection structure to the reed 35 (35) and the tee elbow (44) of the piping connection elbow In addition,
Electronic control device constituting fire control disaster control device Main switch button for starting switch button of the connecting shaft multi-stage disaster prevention pump (8) of construction machine control part (811f) and disaster prevention pump auxiliary switch (593,594,595) of marine nuclear hydroelectric power plants with small, medium and large sized marine nuclear power plants and nuclear waste disposal facilities equipped with inverters (67) A nuclear waste treatment dual structure block tank bridge (929) joint distribution dispenser which constitutes a facility connection structure of a nuclear power plant having a submarine line wiring (946) as a structure,
The dual structure block tank bridge (929) joint distribution input device constituting the nuclear waste treatment comprises:
Pipe bridge (929) It is equipped with the electronic control device of the fire fighting disaster prevention machine room and the line distribution input device connection structure in the equipment provided as the connection structure that protects the float disaster prevention device and the production facility devices constituting the joint dispensing input device (593,594,595) of the offshore nuclear, hydro, and nuclear power plants in the offshore, small and medium sized and large sized hydroelectric power plants. Distribution of nuclear power plants and nuclear waste disposal facilities. (811) of the nuclear power plant (811), the control unit (811f) of the control unit, and the distribution and input unit for the lifting unit and the production facility unit are put into the block steel tower, And a connection shaft disaster control distribution dispenser for constituting the operation of the nuclear power plant,
(593,594,595) of a small, medium and large sized maritime nuclear hydroelectric power station of the connecting shaft constituting the disruption device of the construction machine control section (811f) and the distribution input device for the lifting apparatus and the production facility apparatus Dispensing and dosing device for operation of atomic power plant that constitutes fire prevention and disaster control device with connection shaft connection structure constituting inside of main body (1) of nuclear reactor waste disposal reactor equipment,
Piping connection consisting of distribution dispenser for operation of nuclear power plant Equipment Connection of elbow with elbow (44) and multistage disaster prevention pump of fire fighting operation machine room (8) The bypass connection line for piping connection of the pipe 34 is provided with a connection structure with the lead 35 and the piping connection elbow of the piping connection elbow 44,
The storage state of the disaster prevention water 7 of the fire fighting and disaster prevention control equipment is provided in the connection structure pipe 89 of the nuclear power plant facility constituting the connection structure with the tee elbow 44 of the piping connection accessory elbow,
The main switch button (66) for the start switch button of the emergency disaster prevention control equipment (7) and the high pressure multi-stage emergency protection pump (8) of the multi-stage disaster prevention pump (8) ) To the on-time main switch button (66) position,
Pressing the switch to the off-time main switch position (66) of the main switch button (66), which constitutes the pump operation performance,
(8) which constitutes the connection structure of the nuclear power plant, before and after firefighting Nozzle hose connection structure The equipment installation stand (33) is equipped with a high-performance submersible pump (36) The connection structure helicopter (647) is provided with a mounting position on the body,
The coupling structure of the nuclear power plant equipment constituting the coupling structure with the claws (13) for the electronic control device,
And a disaster prevention water (7) equipped with a water pressure of the double structure fire hose (9) positioned as a forefront connection structure constituting the fire prevention disaster double structure pipe nozzle (10) When the hand is pushed to the position of the on-time main switch button (66) of the main switch button (66) of the starter switch button of the high pressure multi-stage emergency protection pump (8) Discharge Pump (8) Each suction combined pipe (3) for electronic control, which opens to the connection structure provided on the body, and the internal high pressure shut-off valve (5) Includes a check valve (6) and a solenoid valve (76)
The fire-fighting and disaster control device constituting the solenoid valve (76)
The disaster prevention water 7 having the water pressure inside the piping constituting the firefighting and disaster prevention control device is moved through the piping to move to the position of the fire suppression double structure pipe nozzle 9,
Nuclear power plant and nuclear waste disposal facility for nuclear waste disposal facility (1) The internal connection structure of fire fighting and disaster control equipment with connection shaft connection structure inside the main body (1) Nuclear waste (929) Dispensing injector that constitutes the coupling Floating-type explosion-proof disaster prevention device and production facility Equipment to provide connection structure that protects equipment Fire control disaster prevention machine Electronic control unit of machine room Line dispensing device (593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants with connection structures of water nuclear power plants with connection structures of nuclear power plant facilities. The electronic control unit of the fire fighting and disinfection operation machine room constituted inside the main body (1) is equipped with the line distribution input devices, (811) Electronically Controlled Equipment (811f) Discharging device and lifting device of the control device (811f) and distribution device for the production equipment device are connected to a block tower. The nuclear reactor is constructed to operate the nuclear power plant,
(593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant of the connecting shaft constituting the disruption device of the construction machine control section (811f) constituting the nuclear power plant and the distribution input device for the lifting apparatus and the production facility apparatus, (1) Discharge Discharging Control Device Consisting of Connection Shaft Connection Structure Consisting of Nuclear Power Plant and Nuclear Waste Treatment Reactor (1)
The nuclear reactor operation and distribution apparatus constituting the nuclear power plant facility comprises:
The disaster prevention water (7) equipped with the water pressure constituting the distribution dispenser for operation of the nuclear power plant,
A plurality of positioning gaps 15 and a processing hole 20 for the position-adjusting and moving device located in the body of the fire-fighting disaster prevention double-walled nozzle 10 are provided by moving the pipe to the position of the fire- (38) of the fire fighting and disinfection control article (38) constituting the discharge to the outside of the body of the firefighting and disaster prevention double structure nozzle (10) with the disaster prevention water (7) (7) of the water film (39)
The nuclear reactor power plant distribution dispenser of the nuclear power plant constituting the disaster prevention water 7 of the curtain water film 39,
At the positions of the plurality of processing holes 20 constituting the distribution operation apparatus for nuclear power station operation, at the positions of the straight circular discharge sprays 38 and the plurality of processing holes 20 gaps 15,
(38) In the form of a water film curtain (39), a discharge dropping jet is prepared,
A smoldering action for preventing combustion by interrupting the supply of air by surrounding the combustible with an incombustible gas, and a cooling action for reducing the combustible to the ignition point temperature,
(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants equipped with hydraulically connected structures in connection structures of nuclear power plant facilities Distribution of nuclear power plants and reactor facilities for nuclear waste disposal 1) Electronic control device of fire fighting and disinfection operation machine room built in. Nuclear hydroelectric power plant 811 Electronic control equipment 811f Disaster prevention device, lifting device and production facility of construction machine control part 811f The system includes a disruption control dispensing device of a connection shaft constituting a distribution input device for a device in a block steel tower to operate a reactor plant of a nuclear power plant,
(593,594,595) of the small, medium and large sized marine nuclear hydroelectric power plants of the connecting shaft shaft constituting the disruption device of the construction machine control section (811f) constituting the operation of the nuclear power plant, ) Dispense and Discharge Unit for Nuclear Power Plant and Nuclear Waste Treatment Facility Discharge Discharging Unit for Nuclear Power Plant that constitutes nuclear disaster control equipment with fire prevention and disposal control equipment,
The fire-fighting control (40) of the fire-fighting and disaster control goods which provided initial deployment within one second with the operation distribution dispenser of the nuclear power plant facilities constituting the above-mentioned operation device for dispatching the nuclear power plant set up early evolution immediately before dispatch to the fire scene The number of ejection nozzles 38 of the fire-fighting disaster control article,
Disinfecting water 7 of the curtain water film 39 of the fire-fighting and disinfection control article constituting the ejection jetting number 38,
The number of ejection nozzles (38) constituted by the disaster prevention water (7)
At the positions of the plurality of processing holes 20 constituting the ejection sprayer 38, the number of ejection nozzles 38 constituting a linear circular shape,
At the positions of the gaps 15 of the plurality of processing holes 20 constituting the discharge sprayer 38, the radiation discharge sprays 38 are discharged in the form of a water film curtain 39 In addition,
The fire fighting and disinfection of the nuclear power plant equipment constituting the discharge water spraying number (38)
The fire-fighting system is composed of the flammable gas constituting the fire-fighting disaster and the fire-extinguishing action by enclosing the combustible material to block the supply of air to prevent the combustion and to cool down the combustible to the ignition point. An air hose 109 for storing a flammable gas 164 having a water pressure located in the structure and a fire prevention disaster prevention water source for a nuclear power plant constituting a connection structure to the fire hose body,
Disaster prevention control water cooling water 287 constituting the fire prevention disaster prevention disaster prevention water and powdered loess 158 constituting a tooth form to generate a soap bubble mixed with the disaster prevention water, And a main switch button (66) for controlling the operation of the emergency fire pump and a portable wireless communication terminal (82) of the high pressure multi-stage emergency disaster pump control system (150) in the safety control room. The power supply control box above the emergency protection pump auxiliary switch button (67) of the connection shaft includes a coupling coupling (29) for the piping connection which constitutes a distribution arrangement connection to the safety control room and the disaster pump operating machine room,
(40) and a helicopter (647), which are composed of a coupling body of a coupling body and a connecting body of a coupling male thread body (31) composed of a disaster pump operating machine room and a double structure fire hose, powdered loess (158) The combined disaster prevention water is provided to the upper part of the floating deck deck to provide the connection structure connection with the fire fighting emergency electronic control unit,
(593,594,595) of a small, medium and large sized marine nuclear power plant consisting of a disaster pump operating machinery room (593,594,595) Dispensing injector for nuclear power plant and nuclear waste disposal facility Main unit (1) 945) and a connection structure with a submarine line wiring (946) Nuclear waste treatment double structured block tank pipe bridge (929) Produced by a floating electronic control system of a floating type fire fighting and disinfection unit A facility apparatus,
An emergency staircase 631 of the traffic device of the block unit block steel tower 116 is provided in the equipment for providing the protected connection structure constituted by the disaster prevention pump operating machinery room, (1) of the nuclear power plant and the reactor facility for the nuclear waste disposal facility, and a floating nuclear power plant (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants 672) and the nuclear waste disposal facility of the nuclear waste disposal system and the nuclear reactor waste water treatment pipe manufacturing process (705 ) Connection of the nuclear reactor plant of the nuclear power plant Connection shaft constituting the disaster prevention device, the lifting device and the production equipment distribution device of the control shaft of the axis construction machine control unit (811f) (593,594,595) of a large-scale marine nuclear hydroelectric power plant (593,594,595) Distribution facility of nuclear power plant and reactor facility for nuclear waste treatment (1) A dispensing device;
Wherein the nuclear waste water treatment plant comprises a double structure block tank dust collector as a connection structure capable of being disassembled and coupled at a marine vessel manufacturing plant. The method according to claim 1,
(593,594,595) Nuclear power plant (672) of the small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plant of the land and the sea and the distribution input device main body (1) Nuclear hydroelectric power plant part (811) The nuclear waste disposal and dispensing apparatus for operation of the nuclear hydroelectric plant constituting the connection shaft of the nuclear waste disposal pipe manufacturing process (705) having the double structure block tank dust collector as the nuclear waste disposal unit (811a)
The nuclear waste disposal and dispensing apparatus constituting the nuclear hydroelectric plant includes:
The connection structure of the nuclear power plant constituting the nuclear waste disposal dispensing apparatus is provided with the nuclear waste disposal unit 811a of the distribution and input device of the facility protection facility,
The connection structure submarine line wirings 946 constituting the lifting type docking nuclear power plant 672 of a marine power plant constituting the nuclear waste disposal and dispensing apparatus and the inside of the dispensing input apparatus main body 1 of the nuclear waste disposal reactor facility are located (SLU) of the sea surface (SLL) of a floating-type hydroelectric power plant,
A floating buoy deck that forms the reactor facility of a buoyancy type nuclear power plant, and a deck top deck which is connected to the top of the bucket. The buoy is installed in the main body (1) of the distribution apparatus of the buoyant nuclear power plant A block pylon 116 of unit volume coupling,
And a safety control room constituting a position as a connection structure on the left side of the top center of the deck plate of the floating type hydroelectric power plant constituting the block steel tower (116)
Many nuclear-weapon states that make up a floating nuclear power plant,
Nuclear Weapons Nuclear waste disposal equipment consisting of nuclear waste disposal facility for nuclear waste disposal facility equipped with interconnecting structures for preventing war and terrorism that constitute a majority of countries Nuclear waste disposed at the launch site of satellite launching and space rocket launching A nuclear waste disposal dispensing apparatus constituting a satellite for processing apparatus and a space rocket,
Prevention of flood drought control Preventing the damage of volcanic ash generation before and after explosion and natural haze and volcanic eruptions and volcanic eruptions of natural hurricanes, earthquakes, wildfires and volcanic eruptions constituting disposal unit of nuclear waste disposal Appearance observation And a peripheral equipment of a block pylon (116) of a nuclear waste disposal dispensing apparatus constituting the equipment management room of the weather forecasting station (958) inside the dispensing apparatus main body (1) of the nuclear waste disposal reactor facility,
A helicopter stop 619 positioned as a positional connection structure around the upper end of the deck plate constituting the peripheral equipment of the block steel tower 116 of the nuclear waste disposal and dispensing apparatus is provided,
A satellite 611 and a space launch pad 643 and a space rocket launch pad 646 of a space rocket 612 are provided to establish a position as a safety control room left side connection structure constituting the peripheral equipment of the block pylon 116, 643) and space rocket launch pad 646,
A reactor structure of the nuclear power plant constituting the upper deck plate, which is provided as a satellite launching platform (643) and a space rocket launching platform (646), and is a connection structure constituting the interior of the main body (1) (921) which is provided with a natural loess soil (158) as a connecting structure for controlling the upper part of the floating deck of the floating deck which is provided with a wiring line (946) And a natural loess soil (158) of a loess mixture which generates soap bubbles in the form of toothpaste mixed with cooling water controlled by fire control system consisting of a connecting structure provided at the upper part,
Sooty Foaming Mixture of Natural Loess (158) Floating Soaking Deck at Top of Deck Deck Control Products Control Natural Loess (158) of loess mixture that generates soap bubbles mixed with cooling water and,
The harmful red tide propagation countermeasure at the seabed constituting the harmful tidal microorganism (921) propagation prevention which occurs in the seabed constituting the natural loess (158) of the loess mixture,
(901) comprising a natural loam (158) in the inside of a greenhouse basket (951) of a harmful redeye suction dust collector constituting a harmful red tide propagation preventive measure and includes a greenhouse basket (951) and,
The harmful redeye microorganisms 921 are stored by the harmful redeye suction dust collector constituting the greeneyed basket 951 and the harmful tidal microorganisms 921 are removed by the natural yellow soil 158 inside the greeneyed basket 951,
In the lower position of the deck deck deck body, the natural loess (158)
The harmful tidal microorganism (921) breeding site includes a tuna winch 137,
A crane boom girder 942, a wire rope 19 and a wire rope chain 915 of a tow crane replacement tower crane constituting the tug boat winch 137, (135)
A moving device tackle winch 137 constituting a natural loess (158) input to the seabed constituting binding to the driving wheel roller (135) and performing position adjustment movement, and a seesaw crane boom stand 942)
Shaped air hoses 109 in the air compressor 80 and the air hose 109 constituting the iso-crane boom band 942 to provide oxygen and air into the sea bed,
(593,594, 595) of small, medium and large sized marine nuclear hydroelectric power plants by arranging control facilities for fire control to protect the marine environment. Distribution of nuclear power plants and reactor facilities for nuclear waste treatment (1) Inside (946) as a connection structure for the marine environmental protection equipment, which is connected to the submarine line (946). The marine environment consists of the connecting and disposing device connecting structures that protect marine environment facilities around the floating deck deck (593,594,595) of nuclear power plants of medium and large sized marine nuclear power plants Nuclear power plant nuclear waste of nuclear power plant (811) consisting of nuclear power plant and nuclear power plant and nuclear power plant (1) The dual structure block tank dust collector is connected to the processing unit 811a by the operation of the nuclear power plant equipment constituting the connection axis position of the nuclear waste processing pipe manufacturing process 705 of the reactor facility For nuclear waste disposal, it is equipped with distribution dispensers to constitute nuclear power plant operation,
(593, 594, 595) nuclear power plant of the small-scale, medium-sized and large-scale marine nuclear hydroelectric power plant of the land and the sea, and a nuclear power plant of the nuclear power plant (811 (811a) of the nuclear power plant nuclear waste disposal unit (811a) of the nuclear power plant equipment constituting the connection axis position of the nuclear waste processing pipe manufacturing process (705) of the reactor facility nuclear oil drilling rig of the crude oil borehole facility 934) nuclear waste disposal dispenser,
(593,594, 595) of a small, medium and large sized maritime nuclear hydroelectric power plant of the ocean. The distribution structure of nuclear power plant and nuclear waste disposal reactor installation (1) The crude oil drilling rig 934, which is located at the top of the upper end of the lifting deck upper deck (SDU)
The drilling machine located at the lower end of the ceiling crane (651), which is located at the upper end of the lower end of the block steel tower (116) constituting the nuclear hydroelectric plant,
(908) Several hydraulic cylinders (623) for drilling that make up the position of the center of the round table lathe with a rotating body of the body Including,
A plurality of compact keys 623 are provided so that a plurality of compact keys 623 are driven to a position of a center of a lathe by adjusting the position of each of the compact keys 623, And a rotary table lathe machine 908 constituting a position shift control device,
The rotary table lathe machine 908 constituting the nuclear waste disposal and dispensing apparatus comprises a connecting structure provided as a linking structure of the center of the lathe and connected to the connection structure position shifter for opening a plurality of work keys 623 A plurality of pipe racks 854 are continuously connected to the central position to form a plurality of pipe drums 854 constituting a crude drill rod provided at the location of the crude oil borehole 936 located at the seabed as a connection structure ),
A crude oil drill rod 936 provided with a crude oil drilling hole 936 for drilling a raw oil bore hole 936 and a nuclear drill rod 936 provided as a connection structure for a crude drill rod fork connection structure provided as a connection structure constituting the pipe rack 854, A crane crane 651 for providing a crude drill rod connection for constituting a nuclear waste disposal and dispensing apparatus of a power plant, and a pipe rack 854 for connecting drill rods for crude oil bound to a wire rope 19, And a hydraulic rotary cylinder (619) for rotary drilling, which is constituted inside the rotary table lathe machine (908) of the drilling machine for crude oil in the machine room,
And a plurality of hydraulic cylinder keys 623 for drilling to position the circular table lathe to the center portion connecting structure constituting the hydraulic rotary cylinder 619 for rotating drills for rotary drilling, 908) to the upper end,
The crude oil borehole 936, which is a crude oil borehole distribution dispenser, is fed into the rotary table lathe machine 908. The crude oil borehole 936, (942) as a connection structure located on both sides of the nuclear waste disposal facility of the nuclear power plant facility,
The sea ice crane boom band (942) constituting the tower crane replacing the above-mentioned crane includes all of the deep-sea energy resources composing the lift to the top of the deck deck by the vertical rotation operation,
(593,594,595) of small, medium and large sized nuclear hydroelectric power plants that make up the whole of the deep-sea energy resources. Distribution facilities of nuclear power plants and nuclear reactor waste treatment facility main body (1) (964), which is provided with a crude oil and natural gas crude oil borehole distributing and inputting apparatus connection structure, and is installed in the main body (1) of the feed-in apparatus of the floating type nuclear hydroelectric power plant and nuclear reactor waste disposal nuclear reactor facility The nuclear plant waste disposal unit 811a of the nuclear hydroelectric power plant 811 having the double structure block tank dust collector is connected to the nuclear waste disposal pipe manufacturing process 705 of the reactor facility by the nuclear power plant A nuclear waste disposal dispenser for operation of a hydroelectric plant,
(593, 594, 595) nuclear power plants (672) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the nuclear waste disposal and dispensing apparatus, and a nuclear power plant (672) The nuclear waste disposal unit 811a of the nuclear hydropower generation facility 811 of the nuclear power plant unit 811a constitutes the nuclear waste processing tower manufacturing process 705 of the reactor facility, Crude oil drilling rigs of crude oil and natural gas oil borehole facilities (934) and nuclear waste disposal input devices for deep sea energy resources and mineral exploitation,
The nuclear waste disposal and dispensing apparatus composed of the nuclear hydroelectric plant facility comprises:
A connection structure composed of a lifting type docking nuclear power plant 672 of a marine power plant constituting a nuclear waste disposal dispensing apparatus and the inside of a dispensing apparatus main body 1 of a nuclear waste disposal nuclear reactor facility is provided with a submarine line wiring 946 In the deep seabed mineral resource collection site that provides the location, there are a garden basket 842 for collecting manganese block 909,
(909) Piping line for moving devices that make gathering Automatic pneumatic conveying device (916) As a connection structure, it is equipped with a suction collecting machine (911) and a mining robot for ash extraction machine for submarine mineral resource collection (912), and a mineral collecting tank (924) to provide a connecting structure located on both sides of the sea crane boom stand (942) of the tower crane for replacing the sea level lower end (SLD)
(942), which constitutes a tower crane for replacement of the above-mentioned crane. (942) Vertical rotation of the deep-sea energy source connected to the deck deck top of the deck deck top, Lt; / RTI &gt;
The nuclear waste disposal and dispensing apparatus, which constitutes the nuclear power plant facility,
(593,594,595) Nuclear power plants (672) of small and medium and large sized marine nuclear hydropower plants (672) and the inside of distribution dispensing apparatus main body (1) of nuclear reactor waste treatment facility Transport equipment supplying materials to the industrial site on land Construction of 500m block unit with dual structure block tank facility Nuclear waste treatment consisting of connecting structure Double structure block tank Marine tunnel transport device (941) Internal connection structure (254), and the electric motor
(593,594,595) nuclear power plant (672) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the electric motor vehicle (254) and a connection structure constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment (946), the equipment of the marine power plant is connected to the floating deck deck at the top of each deck of floating deck deck and the deck deck of deck at the bottom of the deck deck. And a connection structure for providing a location on the side of the river, and arranging the collection of crude oil and natural gas as the connection structure of the deep sea mineral energy collecting and inputting device,
(672) and the inside of the main body (1) of the distribution apparatus of the nuclear waste treatment facility, which are provided with the crude oil borehole distribution and connection device connection structures constituting the crude oil and natural gas collection, The nuclear waste disposal processing unit 811a of the facility unit 811 transfers the double structure block tank dust collector to the nuclear waste disposal dispensing apparatuses of the nuclear power plant equipment constituting the connection shaft of the nuclear waste disposal pipe manufacturing process 705 of the reactor facility And the distribution of the marine power generation facilities having the connection axis positions constituting the inside of the distribution input apparatus main body 1 of the nuclear waste disposal nuclear reactor facility 672 and the floating nuclear power plant 672 of the marine power generation plant, And to include nuclear power plants as nuclear power plants,
(593,594, 595) nuclear power plant (672) of the small and medium-sized and large-scale marine nuclear hydroelectric power plant and the nuclear power plant (672) consisting of the nuclear power plant 811) is constructed as a nuclear waste disposal pipe manufacturing process (705) of the nuclear reactor facility.
A connecting structure composed of a buoyancy type diesel nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility unit 811 and a distribution input apparatus main body 1 of a nuclear waste treatment facility, A connecting structure constituting a connected structure submarine line wiring 946 to the strut tank upper barge hull 591 and the holding tank lower barge hull 593 provided with individual equipment of the power generation facilities is provided with a hull safety equipment for distribution and input ,
In the hull safety equipment constituting the submarine line wiring 946,
The high-strength bolts 603 and the high-strength nuts 604 are connected to the large-diameter flange 614 through holes 615,
A plurality of double structure block tank holding tanks (590) constituting the hull safety equipment; outer tank tanks (599) with connection structure provided by the body; a large flange (615) (60) and high-strength nuts (604) while connecting the large flange (615) by pre-splitting the connection structure. Structure Large flange (604) (614) includes a distributing / dispensing apparatus of a nuclear hydropower generation facility unit (811) constituting binding in a joint processing hole (615)
A hydraulically rotating cylinder machine 619 for a position regulating device, a hydraulic cylinder machine 624 for a traffic apparatus, and a hydraulic hammer linkage structure for constituting a distributing and inputting device of the nuclear hydroelectric power plant 811, Double structure block tank bridge pier (928) and dual structure block tank pipe bridge (937) decomposition coupling of nuclear reactor hydroelectric power plant nuclear reactor hydropower plant are equipped with hydraulic rotary cylinder machine (619) 598) connecting structures can be disassembled and coupled,
The horizontal dual structure block tank 598, which constitutes the hydraulic rotary cylinder machine 619, is connected to the connecting structure connecting elbow 44 by means of a mounting welder,
At the location of the large flange (614) joints that make up the mounting weld with the mounting welder,
A hydraulic rotary cylinder machine 619 for a positioning device, a hydraulic cylinder machine 624 for a traffic control device, and a hydraulic hammer linkage structure for a transportation device, each of which is composed of a disassembly coupling dispensing device connection structure,
The floating docking station of the hull deck center nuclear power plant (672) of the marine power plant constituting the hydraulic rotary cylinder machine (619) and the center of the hull deck (SDM) constituting the inside of the distribution input unit main body (SDU) Upper part of hull deck (SDU) Upper part of lower deck (SDL) Upper deck top of deck (SDU) Holding tank Upper barge hull (591) and holding tank lower barge hull (592) (946) Maritime power generation facility with connection structure Replacement towers for different towers Crane boats for Isai crane Boom (942) Connected structures Mooring and power generation facilities are connected with each other to form small, medium and large sized marine nuclear hydroelectric power plants. (593, 594, 595) of the nuclear power plant, and a distribution input device of the nuclear hydroelectric power plant (811) constituting the nuclear power plant,
(593, 594, 595) nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants constituting the nuclear power plant facilities and the inside of the main body (1) of the nuclear power plant for nuclear waste disposal The diving process preparatory operation control regulating and distributing apparatus for the hull safety equipment constituting the connection axis position of the nuclear waste disposal pipe manufacturing process 705 of the nuclear reactor plant, the double structure block tank collector of the nuclear hydroelectric power plant 811,
And a control unit for controlling the operation of the auxiliary loading type nuclear power plant 672 of the marine power generation plant and the distribution input apparatus main body of the nuclear waste treatment facility, (1) The connecting structure consisting of the inside of the ship's upper deck (SDU) of the hull deck center (SDM) at the center of the hull deck (591) and the bottom of the holding tank at the lower deck (SDL) A dual structure block tank 598 that provides a position to the hull 592 as a connection structure with a seabed line wiring 946. Submarine mineral resource exploration equipment located outside the connection structure outer block tank 599 Multiple deep sea exploration (843) for the power plant equipment to distribute and input the marine power generation power,
And a lifting / lowering type poisoning lifting device constituting a power generation facility device includes a hull safety facility device connection structure and includes a distribution input device of the nuclear hydroelectric power generation facility part 811,
A harmonics control system and a barge for installing a disaster prevention device were installed as a connection structure of a buoy control device,
A plurality of strut block tanks 590, which are positioned by the outer connecting structure of the strut block tanks 590 constituting the lifting type nuclear power station power plant renovation,
A connecting flange 614 for connecting a large-sized flange 614 constituting the lifting-type docking station reformer, a connecting hole machining hole 615 for connecting the elongated hole 616 and the pin connecting shaft connecting structure by a hydraulic cylinder key 623 The coupling device of the double structure block tank hull disassembly portable lug coupling screw bolt 603 bolt screw thread 603a and the lug screw connecting screw disassembly nut nut screw hole 604b is provided with a Hammer- A cylinder machine 619 and a pin finishing hole 615,
The hydraulic hydraulic power plant part 811 which constitutes the prevention of the nut disengagement from the pin connecting shaft screw thread 603a when the hydraulic rotary cylinder machine 619 is provided with the male thread on the pin node side constituting the binding, A dispensing device,
The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,
It is possible to provide a stable anti-sinking lifting dock even under the influence of any storm waves constituting the nuclear hydroelectric power generation facility 811,
(593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constituting anti-sinking detonation poison (672) and distributing unit of nuclear reactor waste disposal unit (1) (SDM) Upper deck top (SDU) Upper deck (SDU) Upper deck (SDL) Upper deck Upper deck (SDU) Upper deck Upper deck Upper deck Upper deck Upper deck Upper deck Upper bucket hull (592) Connected to the crane boom of each offshore power plant with the submarine line wiring (946) as a connection structure Connected with the mooring device of the crane boom and the connection of the power generation facility device It is equipped with the buoyancy type dock nuclear power plant (672) And a distribution input device of a nuclear hydropower generation facility unit (811) configured to form a nuclear reactor facility inside the main body (1) of the distribution input apparatus of the nuclear reactor facility for waste treatment,
The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,
(SDU) of the floating deck hull deck top (SDU) of the hull deck center (SDM) as a connection structure consisting of a buoyant type docking nuclear power plant (672) of a marine power plant and the interior of the distribution input unit main body (SDL) Upper deck (SDU) Upper stratum (SDU) Upper stratum tank top barge hull (591) and strut tank bottom barge hull (592) (591) and the holding tank lower barge hull (592) that constitute the double structure block tank-combined portable lug (607) at the upper part of the landing block tank and the lower part barge hull, (607) A horizontal pin connection shaft having a plurality of processing holes (615) and an elongated hole (616) in the body. 5, a pin connecting shaft machining hole 615 and a slot hole 616 perpendicular to the pin connecting shaft are provided,
A connecting structure of the connecting portions of the strut block tanks 590 constituting the double structure block tank-combined portable lug 607 body, the vertical upper barge hull 591 and the lower barge hull 592, A plurality of block tanks hingedly coupled to a plurality of processing holes 615 provided with a plurality of processing holes 615. A block tank hinged to several processing holes 615 among connection shafts 606, (606) is removed,
(606) Block Tank Hull Disassembly Portable Rug Fin Pin Connecting Axis (606) Nuclear Waste Treatment Dual Structure Block Tank Marine Tunnel Transportation Device (941) Including,
The dual structure block tank marine tunnel traffic device 941, which constitutes the nuclear waste treatment,
A barge hull 592 of a fixed lifting type hull and a horizontal hull block tank having a level balance on both sides are provided at the upper end constituting the marine tunnel traffic device 941 and a hull diving position control mobile device and a diving buoyancy control device The double structure block tank-combined portable lug 607 provided with the vertical type coupling structure while the level balance of both sides of the barge line hull 592 of the fixed type lifting dock is provided while diving to the bottom of the water, A single block tank hull disassembly portable lug pin connecting shaft (606) block tank hull disassembly engaging portable lug pin connecting shaft axis (606) horizontal standing tackle block tank is built up in a vertical type coupling structure, The upper portion of the strut tank upper barge hull (hereinafter referred to as &quot; upper strut hull &quot;) constituted by the lifting type dock nuclear power plant 672 of the power plant and the inside of the main body 1 of the nuclear reactor- 592) Deck bottom Bottom of the joining joint Location of the concave and convex shape Processing hole (615) of the lug hinge socket (613) and the nuclear waste treatment dual structure block tank marine tunnel traffic device (941 A connecting hook portion lug hinge socket 613 of the fixed lifting type poison holding tank, and a concave and a heft type connecting structure, respectively, and optionally a binding block tank 590,
(590) Nuclear waste treatment dual structural block tank constituting rugged hinge socket (613) located on the top surface of each deck deck which forms a concave / Including,
Double structure block tanks The holding block tanks of the floating marine small-sized and large-scale marine nuclear hydroelectric power station (593,594,595) located at the top of the marine tunnel traffic system (941) constituting the marine tunnel traffic device (941) (593,594,595) connection structures of small, medium and large sized marine nuclear hydroelectric power plants in the fixed ocean,
(SLU) of the sea surface (SLL) of the ship's hull and bottom of the sea surface (SLD) of the offshore power plant (672) and the inside of the dispensing apparatus main body (1) (593, 594, 595) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants with fixed marine vessels that provide coupling to treated dual-structure block tank bridges (929) and small-, medium-, and large-scale offshore nuclear hydroelectric power plants (593, 594, 595) to provide the distribution,
(672) of the marine power plant and the distribution tank of the nuclear reactor waste disposal unit (1). Upper barge hull and holding tank Lower barge ship Several double structure block tanks are connected by hull. Portable A plurality of column block tanks 590 bound to the machining hole 615 of the body 606 and to the lug pin connecting shaft 606 of the dual structure block tank combined portable lug pin connecting shaft 606 body Which includes anti-sinking lifting poisons and anti-sinking lifting devices at sea level,
Hull protective equipment for protection of hull safety equipments and barge lines for mounting disaster prevention devices are provided as a connection structure for rebuilding the reactor facilities of the nuclear power plant and provided with barge lines for mounting disaster prevention equipment and interconnected with the adjustment device Bottom line SLU with a submarine line wiring 946 as a connecting structure composed of a lifting type docking nuclear power plant 672 of a marine power plant and a main body 1 of a distribution input apparatus main body of a reactor facility for nuclear waste disposal, (SDU) connected to the deck top of the deck The offshore power plant located as a connection structure Replacement towers for different towers Cranes for the tower crane Isokine Crane Boom Stand (942) Connection structure Mooring system and power generation equipment Distribution system The reactor facility of the nuclear power plant constituting the power plant 672 and the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste treatment is provided and,
(593,594,595) of a small, medium and large sized nuclear hydroelectric power plant constituting a reactor facility of a nuclear hydroelectric power plant, and a mooring device, a diving buoyancy control device and a nuclear waste disposal dispensing device and a reactor installed at a nuclear power plant (672) It is included as a connecting structure that can be disassembled and combined at marine shipbuilding factory with the connection axes of the nuclear waste processing pipe manufacturing process (701) of the reactor facility at the nuclear hydroelectric power plant part (811) before and after the safe operation of the nuclear plant of the facility. and,
(593, 594, 595) nuclear power plants 672 of the offshore, small, medium and large sized marine nuclear hydroelectric power plants, and the nuclear power plant portion 811 ) Doubling structure Block tank Dust collector Reactor nuclear waste treatment pipe manufacturing process (705) Preparation of diving for hull safety equipment constituting connecting shaft Operation control control distribution dispensing device,
A lifting type docking nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility unit 811 and a connection structure constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant In the connection structure of a nuclear hydroelectric plant to prevent the formation of marine bioglass and barnacles located as an external location connection structure constituting the nuclear reactor facility main body 1 of the nuclear power plant at the bottom of the sea level (SLL) The electrode plate anode 938 is provided at regular intervals outside the body of the nuclear waste treatment double structure block tank bridge 929 and the dual structure block tank pipe bridge 928 at the lower sea level SLL, ) Installation,
(907) of a fish finder that constitutes monitoring of the underwater dynamics of the military equipment submarine constituting the dispensing apparatus of the nuclear hydroelectric power plant unit (811)
The connection structure submarine line wiring 946 constituting the floating type docking nuclear power plant 672 of a marine power plant constituting Sowa (907) of the fish finder and the inside of the distribution input apparatus main body 1 of the nuclear waste disposal reactor facility (SLU) Floating upper deck (SDU) Marine devel- opment facility Replacement towers for different towers Crane boats for Isai crane Boom stand (942) Connection structure Mooring device and power plant equipment (960) which constitutes a hull safety device for hull safety distribution input operation and a satellite connection structure for mutual military communication,
(672) constituting the satellite weather forecast information collecting machine (960) and the inside of the main body (1) of the nuclear power plant for nuclear waste disposal, and the land, small, medium and large sized marine (593,594,595) Nuclear power plant (672) Mooring device, diving buoyancy control device, nuclear waste disposal dispenser and reactor facility safety facility FUJITSU Nuclear Hydroelectric Power Plant (811 (705) of the nuclear waste treatment plant manufacturing process of the reactor facility, and it is composed as a connection structure that can be disassembled and coupled at the marine vessel manufacturing factory,
(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the disassembly and disassembly of the marine shipbuilding factory, and the main body of the distribution apparatus 1) Dual structure of Nuclear Hydroelectric Power Plant (811) inside of the nuclear power plant (811) Reactor Nuclear waste treatment pipe manufacturing process (705) Preparation of diving for hull safety facility The apparatus includes:
In the distribution and input device constituting the nuclear hydroelectric power plant part 811,
The connecting structure constituted by the floating type nuclear power plant 672 of the marine power plant constituting the nuclear hydroelectric power plant 811 and the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste treatment includes the control room of the mooring tower 644 The upper part of the rooftop block is connected to the meteorological observation equipment (840) located at the connection point of the steel tower (116). The upper block of the control tower (116) is connected to a nuclear hydroelectric power plant ) Dispensing device,
The distribution input apparatus lightning rod 500 constituting the nuclear hydroelectric power plant unit 811 is provided as a hull distributing and charging apparatus for hull safety operation,
And a connection structure submarine line wiring 946 constituting a nuclear reactor power plant 672 constituting the nuclear hydroelectric power plant 811 and the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste treatment, ) Floating deck hull deck top (SDU) Offshore power station Countertop replacement tower Cranes Isa crane Boom stand (942) Connection structure Mooring device and power generation facility Distribution operation of hull safety operation Installation of connecting device Construction of nuclear power plant (593,594,595) nuclear power plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants of the land and ocean which constitute the main body (1) of the nuclear power plant for nuclear waste disposal (672) Nuclear waste disposal system and docking buoyancy control system for forming moorings and nuclear reactors at the nuclear power plant (811) (705), which is composed of connection shafts and is composed as a connection structure capable of disassembling and coupling at a marine vessel manufacturing factory,
(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the disassembly and disassembly of the marine shipbuilding factory, and the main body of the distribution apparatus 1) Double structure of the nuclear power plant part (811) inside the nuclear waste treatment plant manufacturing process (705) of the nuclear reactor installation of the double structure block tank Preparing the diving progress for the hull safety facility Operation control adjustment control input device Quot;
The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,
The nuclear power plant (672) of the marine power plant constituting the hull safety facility and the nuclear power plant are connected to each other by the nuclear power plant Supply power of the electric power produced by the distribution and input devices of the power generation facility unit 811 is provided, power control is provided to the connection structure of the transformer 96 of the large-capacity substation,
A transmission line and a connection structure constituting a transformer (96) of a large-capacity substation, a plant for producing small-diameter piping, medium-diameter piping and large-diameter piping by providing a predetermined amount of generated power supply by a transmission tower, and a raw material high- (597) manufacturing plant for nuclear power plants, and a nuclear waste disposal unit of the distribution input unit of the nuclear hydroelectric power plant unit (811) constituting the power line supply execution to the steel beam (149) and the steel plant (839) A structural block tank, a marine tunnel transport device (941)
The facilities of the double structure block tank pipe bridge 928 constituting the nuclear waste treatment dual structure block tank bridge 929 are as follows.
The 5M standard has been established,
A double structure block tank pipe pier (928) over the shape of the Rudyasha (35) shape at a depth of 1 kilometer below sea level is provided as a connection structure with a further enlarged diameter of 1M to 5M,
Semi-submerged operation line (637) Double structure block tank at the upper part of the deck deck The connection structure of the large-sized flange (614) provided for the portable construction band guide (621) The nuclear waste processing pipe manufacturing process 705 of the double structure block tank dust collector reactor facility of the nuclear hydroelectric power plant unit 811 constituted by the dock nuclear power plant 672 and the inside of the distribution input apparatus main body 1 of the nuclear waste processing reactor facility ) Includes the provision of a double structure block tank pipe bridge 928, which is provided with a diving preparation preparation operation control control distribution dispensing device for the hull safety equipment constituting the connecting shaft to perform the nuclear waste treatment of the nuclear installation,
A double structure tank bridge bridge part composed of a buoyancy type nuclear power plant 672 of a marine power plant constituting the facility of the pipe bridge 928 and a distribution structure of the nuclear power plant for treating nuclear waste, The same type of traffic equipment as the saddle mold 617 Block tank of the distribution dispenser Combine portable construction band guide 621 Sinking ship Sink prevention line (634) Movement to the upper deck position The double structure tank bridge bridge saddle mold 617 is provided with disassembly coupling,
A connection structure that constitutes the disaster prevention nozzle 945 by the underground line constituted by the nuclear power plant 672 constituted by the floating saddle mold 617 and the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor installation, (SLU) Upper part of the sea surface (SLU) Upper part of the deck (SDU) Marine power generation facility Mooring device and power plant equipment consisting of connecting structure of the iso crane boom band (942) A double structure block tank bridge pier 928 is provided as a connection structure,
The pipe bridge (928) is a connecting structure supplied with the power produced by the marine power plant of the floating type poison which constitutes the manufacturing installation. It is composed of a buoyancy type nuclear power plant (672) of a marine power generation plant and a distribution input device main body 1) The nuclear waste disposal of internal reactor facilities is to be made up,
A connection structure composed of a lifting type diesel nuclear power plant 672 of a marine power plant constituting treatment of the nuclear waste of the reactor facility and a main body 1 of the distribution input apparatus of the nuclear waste treatment facility, In the body-slit engaging hole 20 constituting the various types of pins 22,
A plurality of sharp-pointed, tool-tip cutters 185, which make up the nuclear waste treatment of the nuclear reactor plant,
In the feeder belt 185 constituting the nuclear waste treatment of the reactor facility,
A plurality of jig 22 processing holes 20 and a plurality of jig crushers 185 constituting the nuclear waste treatment are provided so that anchor car replacement crank 846 and bridge pier level foundation base 851) are disassembled into several crankshaft crankshafts (846) provided on the side and lower sides of the saddle mold body, and are connected to a buoyant type diesel power plant (672) A crusher 185, an crusher crank 846, and a piercing level base footrest (not shown) configured to perform nuclear waste disposal of a reactor facility constituted inside the main body 1 of the distribution apparatus of the nuclear reactor installation 851)
A connection structure composed of a floating type nuclear power plant 672 of a marine power plant constituting the nuclear waste treatment and the inside of a distribution input apparatus main body 1 of a reactor facility for nuclear waste treatment includes a sea bottom surface upper end portion (SLU) Floating deck hull deck top (SDU) Offshore power plant Sea cranes boom stand (942) of tower cranes for replacement of separate towers (942)
The double structure block tank bridge pier (928) is constructed and installed as the connection structure of the mooring device and the power generation equipment constituting the nuclear waste disposal,
The nuclear power plant 672 and the nuclear power plant constituting the inside of the main body 1 of the nuclear power plant for treating nuclear waste are provided with the nuclear waste treatment of the nuclear power plant constituting the connection structure reactor, (593,594,595) of nuclear power plants in the small and medium sized and large oceanic hydroelectric power plants of the ocean, and mooring devices and diving buoyancy control devices in nuclear power plants (672) (705) of the nuclear waste processing pipe manufacturing process of the nuclear reactor facility at the nuclear hydroelectric power generation facility (811) before and after the nuclear power plant;
Wherein the nuclear waste water treatment plant comprises a double structure block tank dust collector as a connection structure capable of disassembling and coupling at a marine vessel manufacturing plant. The method according to claim 1,
(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants of the land and sea making up the nuclear waste treatment, and the inside of the main body (1) The diving process preparation operation control regulating and distributing apparatus for the hull safety equipment constituting the connection shaft of the nuclear waste disposal pipe manufacturing process 705 of the nuclear plant having the double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituting ,
The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,
A connecting structure composed of a floating type diesel nuclear power plant 672 of a marine power plant and an interior of a distribution input apparatus main body 1 of a nuclear waste disposal nuclear reactor facility is provided with anchor replacement crankshaft 846, Ship's safety distribution and operation of hull safety devices and construction machinery equipments, which consists of the top position of floating deck deck plate provided as a connection and disconnection structure of the nuclear power hydroelectric plant (811) (842) for collecting seabed mineral resources by connecting both sides to the inner boom hook hook (18) of the boom-to-body tower crane by distributing both sides with the connection structure of the seesaw crane boom (942) (849), which provides seabed mineral resources to the submarine mineral resource manganese (909)
The submarine mineral resource manganese monolith (909) was moved to the upper deck (SDU) of the floating deck to construct the small crane boom zone (942) This is a connection structure that receives the power generated from offshore power plants. It is composed of a buoyancy type diesel power plant (672) of marine power plant and a submarine mineral resource manganese unit (909 ) Lifting device to the upper deck (SDU) of the lifting deck hull which collects Nuclear waste disposal which consists of the isocrane boom stand (942) And a distribution input device of the nuclear hydroelectric power plant part (811)
Submarine mineral collection and construction equipment provided as a connection structure between the floating type nuclear power plant (672) of the marine power plant and the distribution input unit main body (1) of nuclear reactor waste disposal reactor facility. (SLD) of the sea level surface (SLD) of the sea level surface (SLL) constituting the yard basket 842 and the palette 844 for collecting the seabed mineral resources are provided as a connection structure on both sides of the sea ice crane boom band 942 of the tower crane. The tower crane's bucket cranes at the bottom of the seagoing deck (SDL) and at the bottom of the sea bottom (SLU) to the position of the upper deck (SDU) 942), and control of the movement of submarine mineralized manganese block (909) to the upper part of the floating deck (SDU) Including for the distribution of seabed mineral collecting chute construction equipment that consists of (942), and
In the location of the submarine mineral resource collection site, which consists of the buoyancy type nuclear power plant (672) of the marine power plant constituting the distribution input device of the construction machine and the inside of the distribution input device main body (1) of the reactor facility for nuclear waste treatment, (913) and the mineral collecting robot (912) of the isotope crane boom (912) to the upper end of the lifting deck (SDU) while preparing the submarine mineral resource collection. ) Equipped with a connection structure, which is supplied with power generated from a floating oceanic power plant, and has a floating structure (672) of a marine power plant and a main body (1) of a distribution input device of a nuclear waste treatment facility (911) and a mineral picking robot (912), which are connected to each other. Distribution of submarine mineral collection and construction machinery consisting of collecting machine (911), mineral collecting robot (912), and seesaw crane boom stand (942) Comprising a dosing device,
(672) of the marine power plant constituting the distribution and input device of the underwater minerals collecting construction machine and the inside of the distribution input device main body (1) of the nuclear waste treatment facility, (SLU) with submarine track wiring (946) Upper deck (SDU) of lifting deck hull Deck top location (SDU) Location of offshore power plant located at the connecting structure Each mooring device and power plant equipment It is equipped with a diving control system consisting of buoyancy type dock nuclear power plant (672) and the inside of the dispensing input device main body (1) of nuclear reactor waste treatment facility, 593, 594, and 595) to the seabed to prepare the seats of the connecting structures,
Distribution of hull safety devices, construction machinery equipment, marine power plants, buoyant shipbuilding nuclear power plants (672), and nuclear reactor facilities for nuclear waste disposal, located at the top of the floating deck deck of the dock control system Lifting device composed of the inside of the injection device body (1) Construction machine Replacement towers of the tower Cranes of the iso crane Boom stand (942) Lifting device that constructs the collection of seabed mineral resources by connecting structure Construction machine An isocrane boom band 942,
It is a connection structure that is equipped with a displacement structure to control the position movement to the upper part of the lifting deck (SDU) which constitutes the iso crane boom zone (942), and is supplied with the power produced by the marine power plant of floating dock. (911) and minerals collecting robot (912), which are composed of a buoyant type poisonous nuclear power plant (672) and a nuclear waste disposal reactor main body (1) (911) and mineral collecting robots (912) of the mineral resource collection equipment and the iso crane boom band (942) of the towing crane for the lifting equipment construction machine. The submarine mineral resource collection And a distribution input device of a seabed mineral picking and construction machine constituted so as to realize the above-
(672) of a marine power plant constituting a distribution input device of a submarine mineral collecting construction machine and the inside of a distribution input device main body (1) of a nuclear reactor for nuclear waste disposal, (909), which is composed of submarine location connection structure including submarine mineral resource collecting equipment, is installed on the sampling robot. SDU location of the deck top of the deck is connected to the connecting structure to control the movement of the connecting structure. A connection structure provided in a tower crane 886 having a connection structure of the iso crane boom stand 942 of the replacement tower crane and the connecting structure of the suction collecting machine and the electric magnet magnet 645. The pipeline automatic pneumatic conveying device 916 ) And manganese block (909) on the top of the floating tank upper barge line (591) and on the upper part of the lifting deck (SDU) (842) and a connecting structure (844) for collecting underwater minerals and collecting and transporting the floating deck top deck (SDU) A submarine mineral collection and construction machine dispensing device,
Submarine mineral collecting construction machinery Construction machinery equipment making up distribution dispenser Countertop replacement tower Crane boom (942) Connection structure and conveyor (633) Lifting deck (SDL) with connection structure The seabed mineralization process is composed of submarine mineral resource extraction from the submarine mineral resource collection site located at the top of the deck top of the floating deck (SDU) Navigation equipment and connection structure An illuminating device for providing a submarine line wiring 946 as a connection structure is provided for a searchlight 232 and an underwater light for submarine survey lens glass 843,
(672) of a marine power plant constituting the lighting device and the connection structure constituting the inside of the dispensing apparatus main body (1) of the nuclear reactor waste disposal nuclear plant disposal system. The suction collecting machine and the connection structure mineral picking robot and the submarine mineral resource And a collecting device connecting structure, wherein said submarine mineral resource collecting equipment comprises:
Each of the lever blocks (123) for collecting the undersea mineral resources collecting equipment and the collecting equipment for enduring the water pressure of the deep sea bed and the flow rate of the deep sea bed, And a rope chain (915) connecting structure to provide an undersea elevator elevator (632) and an underwater excavation equipment location connection structure,
In the seabed mineral resource collecting equipment constituting the prevention of loss due to collecting equipment binding,
(123) body, each of which is connected to the wire rope connection structure of the lever block (123) while adjusting the position movement of the submarine mineral resource collecting place, (184), which is included in the submarine surveying equipment, with the rope being rolled up and loosened. Each submarine mineral gathering system is composed of a connecting shaft having the search condition of the submarine mineral collecting process. A construction machine dispensing dispenser,
The submarine mineral resource exploration equipment consisting of the submarine mineral collection and construction machine distribution and input device connection structure and the searchlight (232) and the connection structure are provided, and an underwater light for the submarine survey lens glass (843) (184) includes a distribution input device of a submarine mineral collection construction machine having a connection structure and constituting a submarine mineral collection process status scene transmission,
The connection state of the container box latching and hoisting device 129 of the container box 132 corresponding to the submarine mineral carrier which constitutes the dispensing device of the seabed mineral collecting construction machine is connected to the undersea camera 184, (SLU) lifting of the sea surface (SCU) to the hull safety facility control room location that provides the location to the upper deck (SDU) position. Structure Submarine cable (946) The submarine line wiring 946 included as a connection structure of the power plant 672 and the inside of the distribution input apparatus main body 1 of the reactor facility for nuclear waste disposal, (SLU) Upper deck (SDU) Upper deck (SDU) Hull safety control room Internet network located in the control room 50 Internal control server 51 and the control board 53 to make a transmission of the undersea mining process status scene transmission with the unmanned camera 184 inside the control board 53. Each of the connecting structures mooring devices and connection structures Mineral resources A collection device dispensing device,
The mineral resource collection equipment distribution input apparatus constituting the nuclear hydropower generation facility unit (811)
It is equipped with the construction machines that make up the distribution equipment of the mineral resource collection equipments, and it has the connection structure that the mineral resource collecting equipments can withstand the water pressure of the deep sea bed and the flow rate of the deep sea bed, (1) of a nuclear reactor waste disposal reactor apparatus, a distribution input apparatus for an underwater mineral collection and construction machine is provided,
Mooring devices and diving buoyancy control devices and distribution and input devices for nuclear waste disposal and nuclear reactor facilities of nuclear power plants (672), which constitute a distribution power input device for distribution of mineral resources, And a nuclear waste disposal pipe manufacturing process 705 of the nuclear reactor facility in the power generation facility unit 811, as a connecting structure capable of disassembling and coupling in a marine vessel manufacturing factory,
(593,594,595) nuclear power plants (672) of land, small, medium and large sized marine nuclear hydroelectric power plants constituting disassembly in the marine shipbuilding factory, and the main body (1) of the nuclear power plant for nuclear waste disposal, The diving operation ready controllable control and distribution input device for the hull safety equipment constituting the connection axis of the nuclear waste disposal pipe manufacturing process 705 of the nuclear plant waste facility processing unit of the nuclear power generation facility unit 811,
The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,
(672) of a marine power plant, and a buoyancy type diesel power plant (846) connected to an anchor replacement crank (846) consisting of the inside of the distribution input device main body (1) of the nuclear waste disposal reactor facility A floating structure consisting of a distribution system as a connection structure on the sea floor, a lifting deck with a marine seat of a nuclear power plant installed on the deck, a deck top deck, a hull safety distribution system, In addition,
Hull safety device and connection structure Connection to construction machine equipment Replacement towers for each structure The iso crane boom stand of the tower crane (942) is distributed to the boom-to-shack structure and the hook hook (18) (842), reclaimed submarine mineral resources (842), parat (844), and seismic crane boom band (942) constituting the connecting structure. Provide submarine mineral resource location shift to SDU location,
A power transmission system comprising power transformers for transmitting power of a nuclear hydroelectric power plant unit (811) supplied with power produced by a marine power plant located at the upper part of a lifting deck (SDU) constituting a submarine mineral resource locating movement (811d), and the operation of the lifting type dock nuclear power plant (672) of the marine power plant and the inside of the distribution input apparatus main body (1) of the nuclear waste disposal reactor facility is provided at the isocrane boom stand And a distribution dispenser for operating the submarine mineral collection and construction machine of the nuclear hydroelectric power plant part (811), which is provided with a movement control device to collect seabed mineral resources,
Construction Machinery Equipments Countertop Replacement Tower Cranes for Isai Crane Boom Stand (942) In both connecting structures constituting the connecting structure,
(SLD) of the sea surface (SLL), which is provided with a yard basket 842 and a parat 844 connection structure for collecting seabed mineral resources constituting the connection structure of the iso crane boom band 942, (SDU) in the lower end (SDL) to the upper end of the floating deck (SDU) of the upper part of the sea surface (SLU). The isocrane boom stands (942) And a Si isocrane boom band (942) constituting a mineral resource salvage,
The isocrane boom stands (942) are connected to the seagoing crane boom stand (942) when the submerged mineral resource manganese block (909) constituting the connecting structure is transported and connected to the upper part of the floating deck (SDU) (672) of the nuclear power plant and the inside of the main body (1) of the distribution system of the reactor facility for nuclear waste disposal, the inhalation collection machine of the mineral resource collection equipment and the mineral picking robot are distributed In addition,
The iso crane boom girder 942 is provided with a connection structure for collecting seabed mineral resources, and is provided with a position shifting control to the upper part of the lifting deck (SDU)
The iso crane boom band (942) is connected to the upper part of the floating deck (SDU) constituting the connecting structure, and a transformer for transmitting the power of the nuclear hydroelectric power plant part (811) The operation of the buoyancy type dock nuclear power plant 672 of a marine power plant and the inside of the main body 1 of the nuclear reactor waste disposal apparatus is shown in Fig. And a mineral collecting robot of a mineral resource collecting apparatus configured to collect undersea mineral resources with a boom band (942)
(1) of the floating nuclear power plant of a marine power plant constituting the connection structure of the Si-iso crane boom band (942), which is connected to the inside of the reactor main body (1) 942) The distribution dispensing apparatus,
The seesaw crane boom band (942) distributing and inputting apparatus constituting the submarine mineral collection construction machine,
Submarine mineral resource collection location Inside location Submarine line composed of connecting structure Upper part of sea surface (SLU) with wiring (946) Floating docking hull Deck upper part (SDU) Location Marine power generation facility Alternate towers Replacement towers Boom Stand (942) Connection Structure Mooring System and Connection Structure The lifting system is equipped with a power generation equipment and is supplied with power,
Lifting type deck deck Top construction of buoyant type connecting structure with hull safety distributing input Hull safety device and construction equipment for operation Moving towers for different towers Replacement of tower cranes Connecting to the boom area (942) A crusher, a crusher, a crusher, and a crusher,
(811) supplied with power generated by a marine power plant of a floating type having a positional shift control which is located at the upper part of the lifting deck hull deck (SDU), and is provided with transformers for transmitting the power of the nuclear hydroelectric power plant The power transmission unit 811d is provided as a connection structure and the operation of the lifting type dock nuclear power plant 672 of the marine power generation plant and the inside of the distribution input apparatus main body 1 of the nuclear waste treatment reactor facility is provided with the isocrane boom band 942 ) Position shifting regulator to provide a seismic crane boom band (942) distribution input device configured to collect seabed mineral resources,
(909) for establishing a position on the seafloor including a suction collecting machine, a connection structure mining robot and a submarine mineral resource harvesting equipment connecting structure as a reactor facility connection structure of a nuclear power plant constituting a distribution input device of the construction machine, Lifting diaphragm consisting of connecting structures Position shifting to upper deck (SDU) position Moving to control structure connection structure Construction machinery equipments Alternate towers Replacement tower Cranes Isa crane Boom stand (942) Electrical magnet The magnet 645 and the connection structure Pipe line transport device 916 of the aspiration sampling machine is provided to transport the manganese block 909 as a connection structure,
The allybeat 632 connection structure, which constitutes the distribution input device of the construction machine,
Alignment (632) In the upper part of the strut tank top barge hull (591) constituting the connecting structure, a yacht basket (842) for collecting seabed mineral resources and a basin (844) for collecting seabed mineral resources, and a distribution input device for operating the construction machine,
The distribution dispensing apparatus constituting the construction machine includes:
Construction machinery equipment that adjusts position movement to the upper deck (SDU) position of the buoyant type poison hull constituting the construction machinery. Marine power generation facility It is equipped with the connection structure to the iso crane boom stand (942) The conveyor 633 is provided at the upper end of the lifting deck SSU with the conveyor 633 in the seabed mineral resource collecting place located in the lower end SDL of the lifting deck,
A submarine mineral resource search equipment searching submarine mineral collecting process constituting the construction machine, and a submarine line wiring line 946 providing the submarine search underwater illumination lamp 843 as a connection structure. (672) of a marine power plant, and an intake sampling machine, a mineral picking robot and a submarine mineral resource collection device, which are composed of the inside of the main body (1) of the nuclear reactor waste disposal unit, And a power transmission unit 811d provided as transformers for transmitting the power of the nuclear hydroelectric power plant unit 811 supplied with the power generated by the marine power plant of the floating type poison, A crane boom stand (942) for controlling movement of the earth crane boom (942) constituting the power plant (672) and the main body (1) of the nuclear reactor waste disposal reactor apparatus, Including the distribution chute of construction machinery to achieve the configuration and gatherers,
The distribution input apparatus constituting the submarine mineral collection construction machine comprises:
(672) of a marine power plant constituting a submarine mineral collecting construction machine and the inside of the main body (1) of a nuclear reactor waste disposal reactor facility, and an unmanned camera 184 are connected to the undersea mineral resource search equipment search light 232 and the deep sea exploration underwater light 843 that detect the seabed mineral collecting process state as a connection structure to the underside camera 184, Container box of the container box that transferred the collecting process status scene to the safety control room is connected to the elevator (SGU) by the unmanned camera (184). The submarine line wiring 946 is provided to the hull safety equipment control room position,
(672) that constitutes the submarine mineral collection construction machinery and the connection structure which is composed of the inside of the dispensing device main body (1) of the nuclear reactor waste disposal unit, the suction collecting machine and the connection structure minerals collecting robot and the submarine mineral resource collecting device And a distributing and inputting device for operating a construction machine constituting a connecting shaft of the connecting structure,
(593,594,595) Hull deck upper part (SDU) Hull safety facility of small size, medium size and large size marine nuclear hydroelectric power plant with sea bottom upper part (SLU) with submarine line wiring (946) A submarine mineral collection process state scene transmitted from the unmanned camera 184 to the monitor 52 of the internal control server 51 and the control board 53 of the Internet network 50 is received at the same time as the connection structure located inside the control room Offshore power plant Seaside Crane Boom Stand (942) for tower crane Replacement structure Mooring system and mineral resource collection equipment Distribution input operation equipment Construction machine Distribution of submarine mining equipment with connection structure Construction equipment Distribution equipment And the connection structure of the mineral resource collection equipment is provided as a connection structure,
(672) and the inside of the distribution and dispensing apparatus main body (1) of the nuclear waste disposal reactor facility are provided with connection structures provided to withstand the water pressure of the deep sea bed constituting the submarine mineral collecting construction machine and the flow rate of the deep sea bed, (593,594,595) of a small and medium-sized and large-scale marine nuclear hydroelectric power station; and a mooring device and a diving buoyancy control device for the nuclear power plant (672) (811) of the Nuclear Hydroelectric Power Plant (811) as the connecting shafts (705) of the nuclear waste treatment pipe manufacturing process of the nuclear reactor facility, and as a connection structure capable of disassembling and coupling at the marine vessel manufacturing factory,
(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the submarine mineral collection and construction machinery, and the main body (1) of the nuclear reactor waste disposal unit, The diving operation ready controllable control and distribution input device for the hull safety equipment constituting the connecting shaft of the double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituting the inside of the nuclear waste processing pipe manufacturing process 705 of the reactor facility,
The distribution and input device constituting the construction machine of the nuclear hydroelectric power plant part (811)
It is a connection structure consisting of a buoyancy type nuclear power plant (672) of a marine power plant and the inside of a distribution input apparatus main body (1) of a nuclear waste disposal nuclear reactor facility. It is equipped with a mining resource collecting equipment distribution input moving apparatus construction machine connection structure, A distribution structure is provided to the connection structure with the wiring 946 and the connection structure of the mineral resource collection equipment at the seabed is provided with a connecting structure provided to withstand the water pressure of the deep sea floor and the flow rate of the deep sea floor. The connection structure of the butterfly valve 305 and the damping control device connection structure doctor ventilation 585 is provided with the doctor ventilation inlet port 585a and the doctor ventilation outlet port 585b to directly connect the piping type 581 And a distribution piping device of a nuclear hydroelectric power plant part (811) comprising base piping type (582) connection structures,
The micro-switch 580 constituting the pressure air supply generated in the air compressor 80 of the prime mover constituting the construction machine of the nuclear hydropower generation facility unit 811, Pressure air is injected into the air cylinder 138 provided as a connection structure to the paddle damper 583 automatically without providing any pressure on the hand, So that the damper spindle 584 connection structure provides pressure air while the phantom damper 583 in the doctor ventilation 585 provides full closing and deployment,
The distribution dispensing apparatus constituting the fryer damper (583)
It is provided with devices for controlling the interruption and supply of air constituting the fan damper 583 and has the same connection structure as that of the pipeline auto pneumatic conveying device 916, The same connection structure as that of the butterfly valve 305 is provided,
A connection structure for providing a distributor / dispenser of a butterfly valve (305) of a diving control device of a pipeline line included in a faucet damper (583) constituting a diving control device, A diaphragm pump 583 for controlling the submergence of the fuel cell 672 and the submergence control device composed of the main body 1 of the nuclear reactor waste disposal apparatus main body 1, ,
The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,
And is generated in the air compressor (80) of the prime mover which constitutes the inside of the main body (1) of the nuclear reactor waste disposal reactor apparatus and the floating nuclear fuel plant (672) of the marine nuclear power plant constituting the nuclear hydroelectric power plant unit (811) The solenoid valve over-pressure protection switch (108) of each solenoid valve (76) and the solenoid valve main switch button (66) on the main switch button The butterfly valve 305 provides the deployment and the butterfly valve 305 is depressed when the user presses the off switch main switch button 66 of the main switch button 66 by hand, The connection structure is fully closed to provide a shutdown,
When the butterfly valve 305 is manually depressed on the on-time main switch button 66 of the main switch button 66 for the start switch button constituting the connecting structure, the butterfly valve 305 connection structure is expanded Pressure air generated in the air compressor (80) is provided to perform the operation through the pipeline line structure,
A butterfly valve 305 is provided as a connection structure for providing a connection structure to a plurality of fire doors 154 constituting a connection structure and a plurality of hatch cover 153 bodies to be connected to a floating type nuclear power plant 672 of a marine power plant A nuclear power plant constituting a nuclear power plant for nuclear waste disposal apparatus main body 1, a solenoid valve constituting the inside of the main body 1, a nuclear power plant constituting an operating function of the overpressure prevention switch 108 and the butterfly valve 305 connection structure And a distribution dispensing apparatus of the hydroelectric power plant unit 811,
The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,
The hydraulic control rotary cylinder 35 is rotated by the connecting structure constituted by the lifting type docking nuclear power plant 672 of the marine power plant constituting the butterfly valve 305 connection structure and the inside of the reactor facility main body 1 of the nuclear power plant Provide an operational performance,
A plurality of fire doors (154) and a plurality of hatch cover (153) connecting structures constituting the connection structure of the butterfly valve (305) are opened so that mineral resources provided at the seabed mineral collection site are collected inside the holding tank lower barge hull A connection is made between the connection structure of the vacuum pump 635 for the transport lifting device and the connection structure of the power cable 71,
The butterfly valve 305 is provided as the dispensing and inputting devices of the nuclear hydroelectric power plant 811 constituting the connection structure and the on-time main switch button 66 of the main switch button 66 for the start- The mineral resources provided at the seabed mineral collection site located outside the body of the holding tank lower barge hull 592 are provided to the upper portion of the holding tank upper barge hull 591, (35) Hydraulic rotating cylinder (35) for electronically controlling the inside of reactor main body (1) of buoyancy type dock nuclear power plant of marine power plant, (811), and the control unit
A connecting structure composed of a floating type nuclear power plant 672 of a marine power plant constituting a connection structure of the butterfly valve 305 and a distribution input apparatus main body 1 of a nuclear waste processing reactor installation, In the distribution dispensing apparatus for operation,
Butterfly Valve (305) Submersible Positioning of the Hull Constructing the Connecting Structure The connecting structure of the connecting structure of the connecting structure is to replace the submarine mineral resource connection structure with the connecting structure selected by the diving buoyancy control weight (206) Diversion position control Mobile device and connection structure Submarine mineral resources for diving buoyancy control The buoyant nuclear power plant's nuclear reactor facility provides a seam as a connection structure from the sea floor, Upper part of the sea surface (SLU) Upper part of the deck top (SDU) Upper part of the deck (marine power plant) to provide position as a connection structure Replacement towers of different towers Cranes of sea cranes Boom stand (942) Connection structure Mooring device and connection structure It is a connected structure to be provided at the submarine mineral collection site with a power generation facility equipped with a floating power plant (672 And a distributing and inputting device for operating a submarine mineral collecting construction machine constituted by a distributing and inputting device connecting structure for operating a construction machine constituted by a main body (1) of a nuclear reactor waste disposal reactor main body (1)
The mineral resources constituting the submarine mineral collection and construction machine distribution dispensing apparatus are,
(592) Submarine mineral structure harvesting and construction equipment Ship's tie bottom barge hull (592) constituting distribution dispenser Submersible structure of ship's hull structure between submerged spaces Substituting submerged buoyancy regulator (949) for submersible buoyancy control into seabed mineral resources And a submarine mineral resource for controlling the diving buoyancy, and is provided with a plurality of fire doors and a plurality of hatch covers (153) provided on the outer bulkheads of the respective portions of the holding tank lower barge hull (592) A connection structure having a connection structure to a pipeline automatic pneumatic conveying device 916 and a connection structure with a ballast butterfly valve 305 of a diving control device of the pipeline constituting a connection shaft, Solenoid valve of structure solenoid valve (76) Overpressure prevention switch (108) and main switch button for solenoid valve start switch button 66) The connection structure is connected to the power line (71), and the iso crane boom band of the tower crane for replacing the dead band constructed inside the reactor main body (1) of the buoyancy type dock of the marine power plant 942) connecting structure,
Mineral resource collection distribution input device It is provided as a connection structure provided with a seabed which is composed of a construction machine connection structure,
Mineral resource collection distribution input device Construction machinery Upper part of the sea surface (SLU) composed of connection structure Upper part of the deck (SDU) Upper part of deck (marine power generation facility) to establish position as top connection structure Countertop replacement crane Boom (942) connection structure A connection structure is provided with a mooring device and a connection structure, and is provided with connection structures provided at a seabed mineral collecting place by a power generation facility device, so that a nuclear power plant 672 and a distribution input apparatus main body 1 (593,594,595) of a small, medium and large sized maritime nuclear hydroelectric plant consisting of land and ocean in the interior of the nuclear power plant (672), a docking buoyancy regulator and a nuclear waste disposal dispenser and reactor Before the safe operation of the reactor facility of the facility, the nuclear waste processing pipe manufacturing process (705) of the reactor facility is installed at the connection shaft Including in marine manufacturing plant is connected to the structure can decompose and combine configuration,
(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of land and ocean composed of the above construction machinery connection structure and the main body (1) of the nuclear reactor waste disposal unit The diving operation ready controllable control dispensing input device for the hull safety equipment constituting the connecting shaft of the double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituting the nuclear waste processing pipe manufacturing process 705 of the reactor facility,
The distribution and charging apparatus constituting the nuclear power generating facility unit 811,
(672) of the offshore power plant composed of the construction machinery connection structure and the inside of the main body (1) of the nuclear reactor waste disposal reactor equipment, and the submarine mineral resource collection equipment (590) Upper barge hull (591) Length 500 meters located at the upper side position Double structure block tank A manganese block with a number of hundreds of tons of manganese reserves (909) A plurality of yacht baskets (183) constituting collecting and a connection structure of the nuclear power plant (811) and the connection and disconnection structure of the nuclear power plant part (811) (849) Countertop Replacement Tower Cistern Cistern Cistern Boom Cistern (942) Disconnect both sides of the connection structure and install the iso crane boom stand (9 (842) and a pallet (844) connecting structure for collecting seabed mineral resources located on the hook hooks (18) of the tower crane (42) and arranged on both sides of the seesaw crane boom stand (942) of the tower crane (842) and a pallet (844) connection structure for collecting seabed mineral resources,
(SLD) of sea level (SLL) composed of construction machinery connecting structure Upper part of SLD (upper part of the sea surface) (SLU) Upper part of floating deck (SDU (909) is transferred to the upper part of the lifting deck (SDU), and is controlled by the iso crane boom girder (942) of the tower crane. (672) of the marine power plant and the inside of the main body (1) of the nuclear power plant for nuclear waste disposal, the inhabitants of the submarine mineral resource collection site in the site of the nuclear power plant, And a distribution input device of the nuclear power plant 811 constituting the robot distribution input,
Upper sea level (SLU) of the sea bottom constituting the submarine line wiring (946) Maritime power generation facilities located at the upper part of the deck (SDU) of floating deck hulls Replacement towers of different towers Cranes of sea cranes Boom stand (942) (592,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants equipped with power plant equipment and supplied with electric power, and a nuclear power plant (672) (1) The tower crane at the lower part of the sea surface is divided into seabed mineral resources and seabed mineral collecting equipments by distributing both sides of the iso crane boom stand (942) (811), which is constituted by a connection structure for providing a distribution and dispensing apparatus for the nuclear power plant (811) And a distribution dispensing apparatus of the magnetism hydroelectric power plant unit 811,
(593, 594, 595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting a distribution input device of the nuclear hydroelectric power plant part (811) The distribution input device of the nuclear hydroelectric power generation facility 811 of the mineral resource and the lifting device, which is the connection structure constituting the inside of the apparatus main body 1 and is equipped with lifting poison submarine mineral resource collecting equipment,
The distribution and input apparatus constituting the nuclear hydroelectric power plant unit 811,
The connection structure of the buoyancy type diesel nuclear power plant 672 of the marine power plant constituting the distribution input apparatus of the nuclear hydroelectric power plant unit 811 and the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant facility A tower tank top barge hull (591) constituting a collection of hundreds of millions of tons of manganese block (909) produced by the hydraulic hydraulic cylinder (39) operated annually is installed at the top of deck deck. Inside the hydraulic cylinder machine 624 in which the hydraulic cylinder machine 624 constitutes a rapid operation,
A piston seal 822 and a piston seal 823 constituting the internal equipment of the hydraulic cylinder machine 624 and a bush seal 824 and a seal ring 825 and a slide ring 826, The bush 827, the O-ring 828, the load seal 829, the backup seal 830, the load seal & backup seal 831, the multistage seal 832, the pin multistage seal 833, And a hydraulic cylinder machine 624 as components of the piston 834 and the bushing ring 835 and the piston ring 836 and the multistring 837 are connected to the distribution input device of the nuclear hydroelectric power plant 811 And a hydraulic pressure control valve (not shown) which is provided as a hydraulic pump connection structure high pressure hose 190, a high pressure pipe and a solenoid valve 76, Cylinder machine 624,
The hydraulic cylinder machine 624 is operated in such a manner that the hydraulic cylinder machine 624 is operated in the same manner as the hydraulic cylinder machine 624 except that the iso-crane boom stand 942 of the tower crane replacing tower crane positioned at the upper end of the deck plate of the holding tank upper barge hull 591 constituting the hydraulic cylinder machine 624 (217), the distribution of inputs to the submarine mineral resource collection equipment,
The seabed mineral resources lifted to the top of deck top (SDU) of floating cargo deck, consisting of submarine mineral resource collection equipment,
(SDU) of marine power generation facilities with a submarine line connection line 946 to the upper part of the sea surface (SLU), which is connected to the distributing and loading device of the nuclear hydroelectric power plant 811 composed of submarine mineral resource collecting equipment (942) Mooring system of connecting structure and nuclear power plant (672) and distribution facility of nuclear reactor waste disposal unit (1) Connection structure composed of inside of main body (1) A distribution and input device of the nuclear hydropower generation facility unit 811 constituting the distribution system is provided,
(593, 594, 595) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant constituting the distribution input device of the nuclear power hydroelectric power plant (811) And nuclear waste disposal processing equipment and nuclear reactor facility facility safety operation Fusi Nuclear Hydroelectric Power Plant division (811) before nuclear reactor waste processing pipe manufacturing process (705) connection axis;
Wherein the nuclear waste water treatment plant comprises a double structure block tank dust collector as a connection structure capable of being disassembled and coupled at a marine vessel manufacturing plant. The method according to claim 1,
(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of land and sea constituting the above-mentioned hull safety equipments and the inside of distribution dispensing apparatus main body The diving process preparation operation control regulating and distributing apparatus for the hull safety equipment constituting the connection shaft of the nuclear waste disposal pipe manufacturing process 705 of the nuclear plant having the double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituting ,
The floating type nuclear power plant 672 of a marine power plant constituting the distribution input device of the nuclear hydropower generation facility unit 811 and the furnace distribution input apparatus for operating the mineral resource heat treatment,
The connecting structure composed of the buoyancy type diesel nuclear power plant (672) of the marine power plant constituting the furnace distributing apparatus for operating the mineral resource and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste disposal includes submarine line wiring 946 (SLU) Floating marine power facility located at the upper part of the deck of the poison hull deck. Replacement towers of different towers Crane boats (942) of the tower crane equipped with connection structure Mooring device and connection structure Power generation equipment (946) Submarine crane boom stand (942) Replacement tower crane with submarine track wiring (946) with submarine mineral resources as a connection structure Internal boom hook hook of tower crane composed of body connection structure (842) and a pallet (844) for collecting seabed mineral resources are provided in the main body (18)
In the undersea mineral resource collecting yard basket 842 and the pallet 844 provided as the connection structures on both sides of the sea cranes boom stand 942 of the tower crane constituting the distribution input device of the tow truck replacement tower crane,
(SLD) of the sea surface (SLL) that make up the seabed mineral resources for the collection of the seabed mineral resource (SLD) from the bottom of the deck bottom (SDL) SDU) position of the atomic hydroelectric power plant unit 811,
The distribution input unit of the nuclear hydroelectric power plant unit 811, which provides the position shift control to the floating deck top unit (SDU) constituting the submarine mineral resource manganese block (909)
(SDU) of the upper part of the sea surface (SLU) with the submarine line wiring 946 constituting the connection structure constituting the distribution input device of the nuclear hydroelectric power plant 811. The sea power generation facility Crane Boom Stand (942) Connection structure Mooring system and lifting of marine power plant Nuclear power plant (672) and distribution system of nuclear reactor waste disposal unit (1) And a furnace distributor for operating a mineral resource for heat treatment,
(593,594,595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting the furnace distributing and inputting apparatus for the mineral resource heat treatment operation, and a main body 1) Inside the connection structure, the furnace (948) distributor for operating the mineral resource heat treatment,
(678) of a marine power plant constituting a furnace (948) distribution apparatus and the distribution input device main body (1) of a nuclear waste disposal nuclear reactor facility. Inside the collection site of a submarine mineral resource, (SDU) of the lifting septic tank deck upper part (SDU) with the position movement transportation to the position shift control device by distributing the suction collecting machine and the mineral picking robot of the furnace 948 to the furnace brick 948a to produce a steel plate 597 and a guide rail 618 of a high tensile strength steel by melting a molten manganese ingot 909 into a furnace 948 furnished with a blast furnace for producing molten metal (948) furnace, and to provide production and supply to industrial sites in each region,
A connection structure for providing a nuclear power plant 672 constituting a blast furnace 948 distribution dispensing apparatus and a guide rail 618 for a block tank hull transportation apparatus constituted inside the distribution dispensing apparatus main body 1 of a reactor facility for nuclear waste treatment, Is a double structure block tank (929) connected to a nuclear waste treatment double structure block tank bridge (929) having a connecting shaft of a double structure block tank bridge bridge (937) with production and supply of steel plate (597) and guide rail 598) of the inner block tank (596), and a guide rail (618) provided in the inner structure of the inner block tank (596)
Nuclear waste treatment dual structure block tank At the upper end of the guide rail 618 constituting the marine tunnel traffic apparatus,
A double structure block tank, a train 771 located at an inner position of the inner block tank 596 with an internal train 771 for a marine tunnel device having a speed of 100 to 200 km per hour constituting a marine tunnel traffic device, (597) of the stainless steel and guide rail (618), and is constructed inside the main body (1) of the nuclear reactor main body (1) of the reactor facility for nuclear waste disposal Mooring device and diving buoyancy control device and nuclear waste disposal and disposal device installed in marine power plant buoyancy type nuclear power plant (672) Reactor facility safety operation of FUHI Nuclear Hydroelectric Power Plant (811) Nuclear waste treatment plant manufacturing process (705) Consisting of connecting shafts, it is composed as a connection structure that can be disassembled and bonded at a marine vessel manufacturing factory.
(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power station constructed in the above-mentioned double structure block tank marine tunnel traffic apparatus, and distribution dispensing apparatus main body The double structure block tank dust collector of the nuclear hydroelectric power generation facility 811 constituting the inside of the reactor 1 constitutes the connection axis of the nuclear waste processing pipe manufacturing process 705 of the reactor facility,
Diving preparation preparation for hull safety equipment constituting the construction machine dispensing equipment for submarine energy and mineral collection equipment.
A connection structure composed of a floating type nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility unit 811 and a distribution input apparatus main body 1 of a nuclear waste processing nuclear plant, (SLU) with line wiring (946) Upper deck (SDU) for marine power generation Offshore power plant Sea towers for each alternate tower Cranes Boom booms and boom girders of crane boom stand (942) And is provided as a connection structure on one side of the iso crane boom band 942 constituting the yard basket 842 and the pallet 844 for collecting the seabed mineral resources,
(SLD) of the sea level surface (SLD) composed of the yard basket 842 for collecting the seabed mineral resources constituting the sea iso crane boom zone 942 and the connection structure of the Pareto 844, (SDU) of the nuclear hydroelectric power plant 811 constituting the position shifting control operation to the position of the upper part of the lifting deck (SDU) of the upper part of the sea level surface (SLU) Device,
Submarine Mineral Resources A marine power plant consisting of an isocrane boom band (942) connected structure at the position of the manganese unit (909) to the upper part of the floating deck (SDU) constituting the manganese unit (909) It is equipped as a connection structure of Siiso crane boom band (942) in the submarine mineral resource collecting place composed of buoyant type poison nuclear power plant (672) and nuclear waste disposal unit main body (1) (845) and anti-tank erection (877) for the deep-sea digging equipment of the construction machine squirrel drill to prepare solidified manganese block (909)
The crushed manganese block 909 is provided as tower cranes 886 which constitute the input to the blast furnace,
A diesel pile hammer 883 and a steam hammer 884, a hydraulic crane 885 and a tower crane 886 of a plurality of construction machines 880 constituting a manganese block 909 into a furnace, To provide positional movement control,
(911), a mining robot (912), a construction machine excavator and a connection structure, which are composed of tower cranes (886) It is a connection structure composed of buoyancy type dock nuclear power plant (672) and inside of distribution dispenser main body (1) of reactor facility for nuclear waste disposal, and it is equipped with subcontracting equipment of submersible energy and mining equipment, The collection is made up of a plurality of construction machines 880,
(593,594,595) nuclear power plant (672) of the marine power plant, and a crane boom stand (74) connection structure constituting the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment, A construction machine dispensing device for equipment operation,
A connecting structure composed of a lifting type docking nuclear power plant 672 of a marine power plant and the inside of a distribution input apparatus main body 1 of a reactor facility for nuclear waste disposal includes a crane boom And a boom girder (652) having a plurality of heavy oil tanks on both sides of the body and connected to the 500m high pressure hose (190) connected to the bottom of the heavy oil tank (795) A plurality of drill rod pipe racks (854) as a connection structure for a rotary table lathe machine (908) of a drilling machine for crude oil drilling while providing a double structure high pressure hose (190) connected by a plurality of hoses (190) Drill (917) Submarine energy and mining equipment for construction of a certain quantity of piping files with crude oil borehole (936) and natural gas borehole (936) excavated with connection structure. And including,
The loom and the cement constituting the dispensing equipment of the construction machine are supplied to the piping line passage through the pipe line of the drilling rod pipe rack (854) to fill the piping file crevice space with the loess and cement. ) High pressure hose with coupling (29) High pressure hose Double structure of connecting shafts with multiple connecting structures Tanks with joints on both sides of high pressure hose (190) Crude oil and natural gas The gas is supplied to the tower crane boom boom boom of the city iso crane boom band (942) and boom hook ring (652) inside the boom girder hook hook (18) 844 is connected to a construction machine distributing and inputting device for operating the mining equipment of both the undersea mineral resource collecting yard basket 842 and the pallet 844 of the iso crane boom band 942 constituting the connection structure artillery However,
(SLD) of the sea surface (SLL) from the position of the submarine mineral resource collection site inside the SDL to the upside of the SLU to the upper SDU of the floating deck. (672) and the distribution of reactor facilities for nuclear waste disposal, with the provision of control to move to the upper deck area (SDU) of the lifting dock, which constitutes the transportation of manganese monoliths (909) Crude oil and natural gas and undersea energy harvesting equipment that lifts up to the floating deck top deck position in a vertical rotation operation comprised of the interior of the apparatus body (1) is located at a location with the connecting structure submarine line wiring (946) Sea level top (SLU) Floating docking deck Upper deck (SDU) Offshore power plant located at the upper position Alternate towers Alternative tower Cranes Boom boom boom of boats (942) And a boom girder bridge 652. The connecting structure is provided with connection structures for providing a mooring device and a power generation facility device and is installed in the nuclear hydroelectric power generation facility 811 through connection axes of the nuclear waste treatment pipe manufacturing process 705 of the reactor installation The ship is constructed as a connection structure that can be disassembled and coupled at marine shipbuilding factories.
(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plant of land and ocean and nuclear power hydroelectric power plant The diving operation ready controllable control and dispensing apparatus for the hull safety equipment for the hull safety processing equipment 705 constituting the connecting shaft of the nuclear waste disposal pipe manufacturing process 705 of the reactor facility with the double structure block tank dust collector of the unit 811,
The nuclear power plant 672 of the marine power plant constituting the distribution input device of the nuclear hydropower generation facility 811 and the nuclear power plant 672 constituting the inside of the distribution input apparatus main body 1 of the nuclear waste treatment nuclear plant In reactor installations,
A plurality of nuclear radiation leakage control dual structural block tank dust collectors 794 constituting a reactor facility of a nuclear power plant, a plurality of internal block tanks 596,
A plurality of external block tanks 599, a first auxiliary type steel 600 for a block tank and a second auxiliary steel plate 601 for a block tank are arranged outside a plurality of inner block tanks 596 constituting a reactor facility of the nuclear power plant A vertical partition 605, a horizontal partition 609 and a steel beam 149 to form a first auxiliary steel 600 for the block tank, a second auxiliary steel plate 601 for the block tank, A cutting process is performed by a computer laser cutter 954 for each of the horizontal partition wall 609, the steel beam 149, the snap hole 602 and the partition wall manhole 610,
The welder of the welding process constituting the reactor facility of the nuclear power plant is provided with the double structure block tank dust collector (794)
A fifth protection wall distribution input device formed on the outer wall surface of the fourth protection wall storage container 808 constituting a reactor facility of a nuclear power plant, a nuclear fuel explosion control distribution dispensing device, and a reactor facility nuclear radiation leakage control dual structure block tank dust collector 794 (672) of a marine power plant, and nuclear waste disposal nuclear reactor facility (1) Nuclear reactor facility nuclear reactor Nuclear waste disposal screening system Double structure block tank dust collector 794) for diving operation preparatory operation control control distribution dispensing device for hull safety equipment,
A floating manhole 610 constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing reactor facility and the lifting type mannitol nuclear power plant 672 of the marine power plant constituting the distribution input device of the nuclear hydroelectric power generation facility unit 811, The vertical partition wall 605 and the horizontal partition wall 609 and the communication unit hydraulic cylinder door 624 and the emergency stairs 631 are welded to the floating type nuclear power plant 672 and the nuclear waste disposal reactor In the double structure block tank dust collector 794 constructed inside the distribution dispensing apparatus main body 1 of the facility,
Dual Structure Block Tank Dust Collector (794) Transmission Equipment for Preventing Explosion of Nuclear Reactor Built in the Facility Inside the Dual Structure Block Tank Dust Collector (794) with Hydraulic Cylinder Door (624) and Emergency Step (631) And a distributor / dispenser of the nuclear hydroelectric power plant 811 configured to operate the nuclear reactor as a nuclear waste disposal screening device equipped with transportation devices at the time of renovation of the outside,
A cylindrical double structure block tank 598 composed of a plurality of stopper plates 625 constituting a distribution dispenser of the nuclear hydroelectric power plant 811 includes a plurality of inner block tanks 596, Tanks 599 are provided at the upper and lower ends of the double structure block tanks individually with double structure block tank dust collectors 794 connecting the welding process dual structure block tank dust collector 794 and the large flange, The dust collector 794 is provided in the form of an egg,
A plurality of reactor nuclear waste (224) consisting of a buoyancy type nuclear power plant (672) of a marine power plant and the inside of a distribution input apparatus main body (1) of a nuclear waste disposal nuclear reactor facility, and a nuclear fuel explosion control distribution input apparatus The reactor facilities are divided into a reactor facility by a barge hull (591) at the top of the holding tank and a barge hull (592) at the bottom of the holding tank,
(672) of a marine power plant, and a plurality of nuclear reactor nuclear waste (224) processing apparatus and nuclear fuel explosion control apparatus constituting the main body (1) of a nuclear reactor waste disposal apparatus main body (1) And the distribution of the nuclear hydraulic power plant unit 811 constituting the nuclear power plant 672 and the inside of the distribution apparatus main body 1 of the reactor facility for nuclear waste treatment to operate the nuclear power plant, Comprising a dosing device,
And a double structure block tank dust collector 794 constituting a distribution dispenser of the nuclear hydroelectric power plant 811. In the vicinity of the lower portion between the plurality of inner block tanks and the plurality of outer block tank vacancies before and after the reactor large explosion accident, And a double structure block tank dust collector 794 constituting a distribution input device of the nuclear hydroelectric power plant part 811 is provided at the bottom of the nuclear reactor facility,
A fixation is provided by a reinforced concrete mat 225 and a steel beam 149 having a thickness of several meters (GLD)
The barge hull 591 at the upper end of the holding tank is replaced with a reactor building 688 outside the inner block tank 596 having a single fuel explosion-proof double structure block tank dust collector 794,
A plurality of nuclear reactors of a nuclear power plant on land A nuclear reactor (672) consisting of nuclear reactors of the nuclear waste disposal system is installed in the reactor main body (1) The nuclear fuel pellet 683 is injected into the wall to provide a nuclear fuel explosion control distributing and dispensing unit double structure block tank dust collector 794 to be installed in the floating nuclear fuel plant 672 of the marine power plant and the distribution input apparatus A plurality of nuclear reactor nuclear waste disposal and dispensing apparatuses including the interior of the main body 1 and a nuclear fuel explosion control distribution dispensing apparatus dual structure block tank dust collector 794,
And a distribution input device of a nuclear hydropower generation facility unit (811) configured to operate the nuclear reactor with a nuclear radiation leakage control dual structure block tank dust collector (794)
Inside the reactor facility constituted by the lifting type diesel nuclear power plant 672 of the marine power plant constituting the distribution input device of the nuclear hydropower generation facility part 811 and the inside of the distribution input device main body 1 of the nuclear waste treatment facility, A reactor plant in which an enormous amount of radiation is generated is equipped with a nuclear fuel explosion control dispensing device,
A first wall pellet constituting a distribution input device of the nuclear reactor installation, a covering tube providing protection of the second wall fuel rod, a third wall reactor pressure vessel, a fourth wall separator vessel and a fifth wall reactor building (688) A double structure block tank dust collector 794 constructed by replacing a reinforced concrete mat 225 with a five-layered protective wall is provided as a distribution dispensing apparatus and a nuclear fuel explosion control dispensing apparatus,
A plurality of nuclear reactor facilities constituting the nuclear power plant 672 constituting the distribution apparatus of the nuclear reactor facility and the inside of the main body 1 of the nuclear reactor waste disposal apparatus main body 1 are connected to the barge hull 591 at the upper end of the holding tank (688) double-structured block tank reactors to provide nuclear reactor waste disposal and dispensing equipment,
The barge hull 592 at the lower end of the holding tank constituting the distribution dispensing apparatus of the nuclear reactor facility,
Nuclear Fuel Explosion Control Distribution Equipment such as a Nuclear Power Plant Reactor Facility that Constructs a Barge Hull (592) at the bottom of a Holding Tank Dual Structure Block Nuclear Power Generation in a Tank Dust Collector (794) And a distribution injector of the nuclear hydropower generation facility unit (811) configured to operate the nuclear power plant with the control double structure block tank dust collector (794)
A steam generator 810 and a steam dryer 786 installed outside the body of the pressure vessel 813 constituting the dispensing apparatus of the nuclear hydroelectric power plant 811,
A plurality of through holes 808 are formed at an angle of 45 degrees at an upper end portion of the nuclear reactor building 688 corresponding to the fifth wall and a rupture container 808 corresponding to the fourth wall constituting the distributing and dispensing apparatus of the nuclear hydropower generating facility 811, The holes are provided by cutting machines and construction machines,
The reactor installation includes a plurality of safety valves 472 and a block piping line 74 having a double pipe structure is formed in a plurality of through holes constituting the distributing and dispensing apparatus of the nuclear hydropower generation facility unit 811, A bolt 24, a nut 25 and gaskets 32 are provided on the outer wall 74 of the reactor building 688 to provide a flange coupling connection,
The dual structure block tank dust collector 794 constituting the distribution and charging device of the nuclear hydroelectric power plant 811 has a double structure block tank 598 having a size twice the diameter of the reactor building 688, The combination of the outer block tank (599) for treatment storage and the block piping line (74) of the radiation type double pipe structure is provided with a nuclear waste disposal dispensing apparatus and a nuclear fuel explosion control dispensing apparatus, And a distribution input device of a nuclear hydropower generation facility unit (811) configured to operate the nuclear reactor with a nuclear radiation leakage control dual structure block tank dust collector (794)
In the double structure block tank reactor building 688 constituting the distribution input device of the nuclear hydroelectric power plant part 811,
A double structure block tank A plurality of inner block tanks 596 and a plurality of outer block tanks 599 constituting the nuclear reactor building 688 are separately installed in the nuclear fuel explosion control distribution dispensing apparatus such as loess (158) cement mixing equipment mixer machine (649), it is provided in the same pressure vessel (813) as the blast furnace immediately before the large-scale explosion of the reactor facility,
And a loess mixture 927 in the form of a dentifrice formed by mixing cooling water 287 and loess 158 with a mixer machine 649 constituting an internal cleaning process of the reactor installation, (10) Double-structured fire-fighting nozzle Nozzles (10) are installed at the same time into the reactor facility, and the inside of the reactor facility is cleaned before and after the earthquake. The inside of the reactor facility, which is constructed inside the vessel (813) inside the body of the vessel and inside the vessel (808), and provided with no human and robot input, is installed. and,
A nuclear fuel explosion control distribution dispensing apparatus having a nuclear reactor constituting a nuclear reactor explosion preventive double structure block tank dust collector 794 and a plurality of nuclear fuel explosion control dispensing apparatuses including nuclear fuel explosion prevention control apparatuses, Double structure of reactor facility Block tank Nuclear radiation leak control Dual structure block Nuclear waste disposal dispenser for internal and external refurbishment of nuclear reactor facilities with dust collector (794) Prevention of explosion of reactor facilities before and after safety operation And a distribution input device of the nuclear hydropower generation facility unit (811) configured to operate the nuclear power plant by providing input of control goods,
The internal cleaning of the reactor installation constituting the distribution and injection apparatus of the nuclear hydropower generation facility unit 811 is performed by the circulation water pump 242 connected to the cooling water 287 and the piping line 352 to the distribution and injection apparatus of the fuel explosion control apparatus ) And cooling water 287, which prevented solidification of the loess mixture, was provided with a suitable mixture of loess mixture with loess and cement mixer mixer machine 649,
The yellow loess mixture mixed with the nuclear fuel explosion control article cooling water 287 constituted by the mixing equipment mixer machine 649 is supplied to the inside of the pressure vessel 813 through the plurality of double structure firefighting nozzle 10 and the internal block tank 596 The pressure sensing sensor safety valve 472 is opened and at the same time the hatch cover located at the upper end of the pressure vessel 813 and the upper end of the reservoir 808 is expanded,
The nuclear fuel explosion control appliances of the nuclear reactor facility are injected into the inside of the nuclear reactor facility so that the fuel explosion control is provided so that the outer block piping 74b of the block piping line 74 is prevented from exploiting the fuel explosion stored in the inner block tank 596 Control materials Cool water and yellow loess mixtures which generate soap bubbles in the form of toothpaste are fed to the inside of the pressure vessel 813 and the fourth protective wall vessel 808 by the feed pump 241,
In the nuclear reactor facility constituting the distribution input device of the nuclear hydroelectric power generation facility unit 811,
It is necessary to prepare internal control of the nuclear reactor immediately before and after the earthquake,
A nuclear waste disposal and dispensing apparatus having a nuclear reactor explosion-proof nuclear radiation leakage control dual structural block tank dust collector 794 that maximizes safety operation of a nuclear reactor facility that has been provided with continuous power generation excluding natural disaster constraints by inputting a disaster prevention device And a plurality of nuclear reactor explosion control dispensing apparatuses including a nuclear reactor (672) and a nuclear reactor main body (1) of a nuclear reactor waste disposal apparatus main body (1) The system includes a distribution input device of a nuclear hydropower plant (811) which is configured to operate a nuclear reactor at a nuclear reactor facility,
A nuclear power plant 672 equipped with nuclear waste disposal apparatuses and a mooring device and a diving buoyancy control device formed in a buoyancy type nuclear power plant 672 of a marine power plant constructed inside the main body 1 of a nuclear power plant for nuclear waste disposal, Equipment and Nuclear Waste Dispensing Equipment and Nuclear Reactor Facilities Safety Operation Before and After Nuclear Hydroelectric Power Plant (811) Reactor Nuclear Waste Tube Manufacturing Process (705) Connection Axis;
Wherein the nuclear waste water treatment plant comprises a double structure block tank dust collector as a connection structure capable of disassembling and coupling at a marine vessel manufacturing plant. The method according to claim 1,
(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants of land and sea constituting the above-mentioned hull safety equipments and the inside of distribution dispensing apparatus main body The diving operation ready controllable control and distribution input device for the hull safety equipment for the hull safety processing equipment 705 constituting the coupling process of the nuclear waste disposal pipe manufacturing process 705 of the nuclear plant having the double structure block tank dust collector of the nuclear hydroelectric power plant 811,
The nuclear radiation leak control system (1) comprises a floating type nuclear power plant (672) of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility (811) and a distribution input apparatus main body (1) A nuclear waste disposal and dispensing apparatus having a dual structure block tank collector 794 and a nuclear fuel explosion control dispensing and dispensing apparatus having a plurality of nuclear reactor facilities to be installed on a barge of an anti-
The installation position of the distribution power input unit of the nuclear hydroelectric power plant 811 located at the top of the sea level 40 m above sea level excluding the weather condition of the earthquake and tsunami constituting the step to be installed on the barge, Nuclear reactor facility safety operation before and after nuclear reactor safety facility Nuclear reactor leakage control by nuclear reactor of nuclear power plant Nuclear power plant leak prevention control system (794) And a distribution input device of the nuclear hydroelectric power plant part (811)
The upper part of the nuclear water hydropower generation facility part (811) is provided with a distribution input device of the nuclear hydropower generation facility part (811) at the top of the sea surface excluding the restriction on the weather condition constituting the distribution device, (593,594,595) Nuclear power plant (672) Anchor (639), anchor chain (640), small keybed (616) and rotary table lathe machine for crude oil drilling machine 908) and buoyancy regulator piping line Automatic pneumatic valve transport device (916) and vacuum pump (635), high pressure multi-stage multi-stage emergency pump for emergency pump (8) Block tank Dust collector (794) Closures for access to the air space of the nuclear reactor facility and the tank inlet for blocking the foreign matter The tie-bar network (28) and the jet pump (157)
And a control unit for controlling the operation of the nuclear waste disposal storage tank and the doctor ventilation 585 of the nuclear waste disposal control apparatus, Doctor Ventilation Suction (585a), Doctor Ventilation Exit (585b) and Block Tank Hydraulic Cylinder Door (624) for Hull Traffic Control Unit and Hydraulic Cylinder Machine (624) A solenoid valve (76) formed in the solenoid valve (76), a diving position adjusting and moving device for the hull, and an inclination adjusting device for the diving buoyancy adjusting weight (949) And a distribution input device of the nuclear hydropower generation facility unit (811)
Large-scale marine nuclear power plant floating structure (595) With the weight of the hull constituting the structure of the operating structure, sea level gravity and buoyancy generated, buoyancy-type poison (595) The marine nuclear power plant lifting tank 595 includes a strut tank upper barge hull 591 constituting a plurality of bollards 638 for hull rescue of the ship mooring facility rope of a barge slowly floating on the sea, The lower barge hull 592 is formed as an upper portion of the deck plate,
The anchor 639 formed in the anchor chain 640 for connecting the plurality of balls 638 and the mooring device anchor 639 is pierced to the seabed by a winch 137 ,
Large-scale offshore nuclear power plant (595) consisting of tacho-winch (137) machine The vessel is equipped with an anchor-ring anchoring device to provide anchorage to the ship's buoy (595) An earth surface excavation of the seabed is provided by a rotary table lathe machine 908 of a drilling machine for crude oil, which is formed in a floating tank 595,
(595) barge hull mooring anchor constructed by a rotary table lathe machine (908) of the drilling machine, and a mooring device replacing the mooring device anchor The operation of the feed dog 185 is performed by folding the main body of the feed dog 185 with the feed dog 185 and the hydraulic cylinder hydraulic pressure key 623 formed on the hydraulic cylinder hydraulic key 623 of the hydraulic cylinder,
(595) barge hull anchoring that is composed of the hydraulic cylinder hydraulic pressure generating key (623), and the hydraulic cylinder hydraulic pressure key (623) is used to move the main body of the feed dog (185) As a result,
(185) A large-scale marine nuclear power plant lifting tongue (595) consisting of a umbrella body extending from the main body. Anchor bolting mooring devices are installed to form the barge anchoring,
(595) Dual structural block tank barge hull Anchor bolt anchoring system to the nuclear power plant (672) and the main body of the distribution system of nuclear reactor waste treatment facility 1) a nuclear power plant operation unit including an internal nuclear power plant unit 811 configured to operate the nuclear power plant before and after the operation of the nuclear power plant,
A lifting type poisonous fuselage (hereinafter referred to as &quot; fusing type poisonous fuselage &quot;) 6 consisting of a floating type poisonous nuclear power plant 672 of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility part 811 and a distribution input device body 1 of a nuclear waste processing facility An air recycling tank 145 for an air storage tank for providing diving control,
A cooling mechanism cooling fan 645 constituting an air liquefying apparatus of this system and an air balloon 78 and a rubber balloon 914 and a tube 188 are floated in the air A heater fan 642 for providing a heater,
In order to prevent the war from occurring,
The parties involved in the international diplomatic dispute should be provided with the satellite launch pad (643), satellites and airships for the expulsion of all expatriates outside the global atmosphere,
A mooring tower 644 for controlling and controlling nuclear bombs and missiles composed of a buoyant type poison nuclear power plant 672 and a distribution input apparatus main body 1 of a reactor facility for nuclear waste treatment,
An air compressor 80 constituting the satellite launching platform 643 and the space rocket launching platform 646 is provided,
And the tackle winch 137 operated by the supplied compressed air constituted by the air compressor 80 is connected to the lifting type docking nuclear power plant 672 of the marine power generation plant and the distribution input device main body 1 ) The Nuclear Hydroelectric Power Plant (811), which consists of a dual structure block tank dispensing device of the Nuclear Hydroelectric Power Plant (811) before the operation of the nuclear power plant inside the nuclear power plant, 811, &lt; / RTI &gt;
A crane 861 installed as a lifting deck upper deck (SDU) of the lifting / lowering deck, constituting a distribution input device of the nuclear hydroelectric power plant 811,
An air hose 109 connected to the front of the trolley winch 137 in front of and behind the air receiver tank at the rear of the air compressor 80, And an electrical magnet magnet 645 is provided at the lower end SDL of the lifting deck,
The pipeline automatic pneumatic conveying device 916, which constitutes the transportation of the loess and cement to the piping and the high pressure hose,
A mixer mixer machine 73 for providing a position in front of the pipeline automatic pneumatic conveying device 916 is provided and a lever block 123 coupled by a double structure block tank 598 is connected to a tonnage capacity (598) units to provide a combination of nuclear reactor hydroelectric power plants,
The auxiliary steel plate 165, which is coupled with the holding tank and the holding tank combining part by bolt-nuts, is provided with the male and female parts, while the bolt 640 of the atomic hydroelectric power plant part 811 constitutes the distributing- A joining processing hole is provided,
In the double structure block tank facility constituting the distribution dispensing apparatus of the nuclear hydroelectric power plant unit 811,
(1) inside of the distribution input device main body (1) of the floating type nuclear power plant (672) of the marine power plant and the nuclear plant waste disposal nuclear reactor facility, Nuclear Waste Treatment Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Including the dispensing device of the part 811,
The rubber packing 32 of the gasket packing is connected to the intermediate portion of the gap between the large flange 614 and the large flange 614 in the gap between the large flange 614 and the large flange 614 constituting the distribution and charging device of the nuclear hydroelectric power plant 811,
In the double structure block tank facility constituting the distribution dispensing apparatus of the nuclear hydroelectric power plant unit 811,
The double structure block tank 598 is connected to the double structure block tank flange 614 and the other coupling flange 614 by a high-strength bolt and nut in the large flange processing hole 615 constituting the double structure block tank facility. Respectively,
A dual structure block tank connection is constructed in which the dual structure block tank flange 614 is arranged inside the dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment, and the high pressure multi-stage pump 8 and the doctor ventilation The operation of the valve disk inside the bellows butterfly valve 622 in which the float 195 is operated and the float 610 and the hatchback 153 are opened and the float is floated on the seabed, The butterfly valve 622 is opened,
The double-structure vertical lifting tank, which consists of lifting-type poison hulls floating in the sea, is formed as a nuclear waste disposal storage tank in the reactor hull at the bottom of the vertical tanks, and is equipped with a key bed (616) (606), which are connected to the long hole (616) of the long hole at the vertical and horizontal hinge joints of each tank unit, are connected to the buoyancy type diesel power plant (672) Nuclear waste disposal facility of main nuclear power plant consisting of main unit (1) of nuclear reactor installation Continuous reactor facility of nuclear reactor facility safety operation Before and after operation of nuclear power plant division (811) (622) of the nuclear power plant, and the nuclear power plant which constitutes the operation of the nuclear power plant before and after the operation of the nuclear power plant (811), and the control unit
A deck top upper part equipment guide rail 618 for constituting a distribution dispenser of the nuclear hydroelectric power plant 811,
And a helicopter stop 619 located at the top end of the lifting deck deck deck,
A hydraulic cylinder operation key 623 for installing a semi-submerged operation line in which a double structure block tank frame assembly for folding the umbrella, which constitutes a coupling facility of a dual structure block tank,
Tank frame with double pipe structure Double structure block making up joint separation Tank connection area Double structure block for marine safety work on board for offshore cutting and welding Docking tanks (598) 621, the hydraulic cylinder is provided on the semi-submerged operation line 637,
The submarine barge line which constitutes the coupling facility of the double structure block tank constituting the distribution input device of the nuclear hydroelectric power plant 811, the submarine submerged sea surface flotation control device for the submersible barge line control float valve 622 )Wow,
Above-mentioned poisonous ship engine Other motor of double-structured block tanks constituting the preparatory motion before and after the operation of the motor. Combination of the motor body (192) of the power motor and the operation of the nuclear power plant before and after operation And a distribution input device of the nuclear hydropower generation facility unit (811)
A hood 193, a snap ring 194, a fan 195, a body frame 196, a body front reinforcing steel plate 197, a rotating shaft 198, and a hinge 193 constituting internal components of the motor body 192 of the power motor. The motor frame 202 and the terminal box 203, the lifting bolts 204 and the terminal box cover 205 and the front rotation shaft support 200, the stator assembly 201, the motor protection casting frame 202, The assembly 200 having the shaft support 206, the rear reinforcing steel plate 207, the gap 208, the protective cover 209, the rotor iron core 210, the stator core 211 and the stator winding wires 212, And the power is supplied to the motor body (192) of the power motor, and the rotation is provided to the rotating body, and the time required for the prevention of the sinking and the time required for the crew of the sinking extension time is provided. Equipment doctor ventilation 585,
An electronic control device for providing a mineral resource intake / suction control device and a connection structure that constitute the hydrostatic pressure inside the lifting type poisonous hull,
The switch on-off switch is open and includes a hydraulic cylinder door 624 that provides switchover off-
A hydraulic cylinder, a hull of a hull constituting the door (624), a barring tank, an intake port for blocking foreign materials, and a stopper plate (625) formed of a wire netting (28) (672) of the nuclear power plant of the nuclear power plant and the main body (1) of the nuclear power plant of the nuclear waste disposal facility. And a distribution input device of the nuclear hydroelectric power plant part (811) constituting the operation of the nuclear power plant,
The hull sinking prevention air piping line 181 constituting the dispensing and inputting device of the nuclear power hydroelectric power plant 811 and the emergency engine 226 for extending the hull sinking prevention are provided,
In the case of a float-type dock safety marine assembly consisting of a double structure block tank, an air-float type flagpole 628 for identifying the position of a double-pipe structure tank is provided,
In the lifting-type docking facility consisting of a double structure block tank unit,
A rope linkage rope 629 and a rope connecting knot pawl 630 constituting a lifting type poisoning facility and an elevator alley for constructing an emergency stairway 631 facility inside the block steel tower 116 (636) and a conveyor (633) for conveying minerals and mechanical equipment to the outside of the inside of the double structure block tank holding tank upper barge hull (591) and the holding tank lower barge hull (592) (635) and air lifting lines (634) of the air suction and discharge apparatus provided with the hull lifting of the sinking ship,
The division of the nuclear power plant (811) is equipped with a tug line (666) for assembly of marine vessel manufacturing plant and heavy industrial field, The conveyor 633 is formed and the barge line elevation control position is provided with the airbag-type flagpole rubber balloon 628,
(672) of a marine power plant and nuclear waste disposal reactor main body (1) of nuclear power plant with safety equipments, nuclear waste disposal reactor of marine nuclear power plant And a distribution input device of the nuclear hydropower generation facility part (811), which is provided with the distribution and input devices of the facility nuclear hydroelectric power plant part (811)
The distribution input device of the nuclear hydroelectric power plant part 811, which prevents the explosion of the reactor facility of the nuclear power plant of the nuclear power plant excluding the influence of the earthquake and the tsunami constituting the distribution input device of the nuclear hydroelectric power plant part 811, Nuclear waste treatment to prevent environmental pollution caused by nuclear waste Nuclear power plant with double structural block tank to prevent explosion of reactor in nuclear fuel chamber constituting dispensing apparatus Nuclear power plant has nuclear reactor facility formed from 1st wall to 5th wall The nuclear waste treatment storage tank comprises a plurality of dual structure block tanks, the dual structure block tanks comprising an inner block tank and outer block tanks, and a dual structure block tank dust collector 794 for preventing nuclear explosion,
The safety assurance of the nuclear power plant constituting the safe and continuous operation of the nuclear power plant is provided by the distribution input device of the nuclear hydroelectric power plant 811,
The safety of the repair of the reactor equipment is provided by the distributing apparatuses,
And a nuclear explosion preventive double structure block tank dust collector 794 for treating the nuclear waste is installed in the nuclear hydroelectric power plant 811, which includes the nuclear power plant connection shaft, to operate the nuclear power plant before and after the operation of the nuclear power plant. A dispensing device,
A nuclear power plant 672 constituting a distribution input device of the nuclear hydropower generation facility 811 and a dual structure block 673 which prevents nuclear explosion of the nuclear fuel chamber constituting the inside of the distribution input apparatus main body 1 of the nuclear waste processing nuclear reactor facility Providing storage with the nuclear waste 224 in a reservoir between the dual structure block tanks 598 while passing through the nuclear waste 224 with the tank reactor facility exploded into the block piping line 74,
And a robot 700 that is provided with cutting by remote control when disassembling reactor facilities of a nuclear power plant having a long life to constitute nuclear waste disposal. When the explosion of the reactor pressure vessel 813 stops, a plurality of safety valves 472 are closed To ensure the safety of nuclear power plants,
At the time of operation of the nuclear reactor constituting nuclear waste treatment,
The remote control device robots 700 having a plurality of safety valves 472 fully closed to provide continuous operation of nuclear reactors for nuclear waste disposal facilities of the offshore nuclear power plant before and after the safe operation of the nuclear reactor facility, Provision of pollution prevention is provided by the distribution and input devices of the nuclear hydroelectric power plant 811,
Nuclear power plant (672) that prevents nuclear explosion inside and outside the nuclear fuel chamber that constitutes the nuclear waste disposal and dual structure block tank which consists of the inside of the distribution injector main body (1) of the nuclear waste disposal reactor Nuclear reactor facility And disposal facilities for nuclear waste disposal and nuclear reactors installed in the offshore nuclear power plant (672) of the offshore power plant. 811) as the connection axes of the nuclear waste disposal and dispensing equipment of the nuclear reactor facility and as a connection structure capable of disassembling and coupling at the marine ship manufacturing factory,
(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants of the land and sea making up the nuclear waste treatment, and the inside of the main body (1) The nuclear waste disposal and dispensing apparatus of the reactor facility for the hull safety equipment constituting the connecting shaft of the nuclear waste disposal dispensing apparatus of the nuclear reactor facility is composed of a double structure block tank dust collector of the nuclear hydroelectric power plant 811,
The nuclear radiation leak control system (1) comprises a floating type nuclear power plant (672) of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility (811) and a distribution input apparatus main body (1) A nuclear waste disposal dispensing apparatus having a dual structure block tank sorter 794 and a nuclear fuel explosion control dispensing dispenser, comprising the steps of: providing a plurality of reactor installations to the barge of an anti-sunken dual structure block tank of the ocean; (811) located at the upper 40 m above sea level excluding the restrictions on the weather conditions of the sea, and to prevent the sinking of the barge line reactor facilities. Nuclear reactor safety control device Nuclear power plant Nuclear power generation Nuclear radiation leak control to prevent multiple reactor explosion Double structure block tank JINI (794) Includes the distribution and input device of the nuclear hydropower plant (811) that constitutes the operation of the nuclear waste disposal plant of the nuclear reactor facility as the distribution input devices to make the operation of the nuclear power plant before and after the operation of the nuclear power plant operation device continuous. and,
The nuclear waste disposal and dispensing apparatus equipment constituting the nuclear hydroelectric power plant unit (811)
(672) of a marine power plant constituting a nuclear waste disposal and dispensing apparatus facility of the nuclear hydroelectric power plant (811) and nuclear power plant (672) constituting the inside of the dispensing apparatus main body (1) of the nuclear waste disposal nuclear plant The washing water in the case where the water leaking from the valve of the power generation plant 672, the water in the building and the regenerated liquid of the ion exchange resin are liquid is collected in the storage tank 216 and the nuclear waste disposal filtration is provided by the filter 217 ,
The radioactivity measuring unit 218, which constitutes the nuclear waste disposal dispensing apparatus, measures the radioactivity value, and together with the cooling seawater which is confirmed to be free from harm, the water other than the washing water to be sent to the sea is purified by the filter 217 Respectively,
The filtered water and the distilled water constituting the nuclear waste disposal dispenser device are provided with reactor coolant and have monitoring monitoring posts 219 constituting the nuclear waste disposal dispenser device, (672) and the inside and outside of the main body (1) of the nuclear reactor waste disposal unit,
Nuclear Waste Treatment Dispenser The nuclear waste disposal and dispensing system consisting of the inside of the main body (1) of the nuclear reactor waste disposal unit that constitutes the facility of the disposal unit is provided, and the nuclear waste disposal unit is installed in the floating nuclear power plant (672) Mooring device and diving buoyancy control device for nuclear waste disposal Dispensing device of nuclear waste disposal facility and nuclear reactor facility safety operation Fusi Nuclear Hydroelectric Power Plant division (811) Double structure block tank Dust collector Nuclear waste disposal equipment Of the total length of the ship, and it is composed as a connection structure which can be disassembled and coupled at the ship manufacturing factory.
(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the above-mentioned nuclear waste disposal dispenser installation apparatus, and the main body 1) Double-structured block of the nuclear waste disposal unit (811a) of the nuclear hydroelectric power plant (811) consisting of internal nuclear waste disposal reactor The nuclear waste disposal dispenser facility of the nuclear reactor facility for hull safety equipment, which constitutes treatment of the nuclear waste (224)
The buoyant type diesel nuclear power plant 672 of the marine power plant constituting the nuclear waste disposal dispensing apparatus of the nuclear hydroelectric power plant 811 and the inside of the distribution dispatch apparatus main body 1 of the nuclear waste disposal reactor apparatus Nuclear Waste Dispensing and Discharging Apparatus with Nuclear Radiation Leakage Control Dual Structure Block Tank Dust Collector (794) and Nuclear Fuel Explosion Control Distribution Dispensing Apparatus A plurality of nuclear reactor facilities are installed on the barge of an anti-sunken double structure block tank Including,
(811) located at the uppermost 40 m above sea level excluding the restrictions on the weather conditions of earthquake and tsunami, and the submerged-type barge line reactor facility with the installation position of the distribution input unit. Nuclear reactors to prevent explosion of nuclear reactors in nuclear power plants of Nuclear power plants Leakage control of nuclear reactors Nuclear reactor facilities to constitute reactors to operate nuclear reactors by dual structure block tank dust collector (794) Includes nuclear waste disposal dispenser and,
(593, 594, 595) nuclear power plants (672) of the marine small, medium and large sized marine nuclear hydroelectric power plants, and the nuclear power plant (1) of the nuclear power plant The nuclear waste treatment facility of the nuclear power generation nuclear waste treatment unit 811a,
The nuclear power plant 672 constituting the nuclear waste disposal apparatus of the nuclear power generation nuclear waste processing unit 811a and the inside of the distribution input apparatus main body 1 of the nuclear waste disposal nuclear plant processing apparatus are constituted by small, Long-half-life nuclear wastes (224) from the reprocessing process at the Nuclear Power Plant's (593,594,595) Nuclear Power Plant (672) of the Marine Nuclear Hydroelectric Power Plant are used for equipment construction machinery heavy equipment harbors The reactor 877 and the excavator 845 may be used to provide nuclear waste 224 in the interior of polar glaciers and the nuclear waste 224 processing facility to constitute nuclear waste treatment with construction machines,
The nuclear waste treatment facility, which constitutes the nuclear waste disposal dispenser device,
Fission in the nuclear hydroelectric power plant (811) to constitute conversion into another material;
Construction of nuclear waste (224) is carried out according to the depth of the stratum and the depth of the seabed. At the same time, nuclear waste disposal is carried out by the construction machine heavy equipment hunter (877) and excavator (845)
In the nuclear waste disposal device vessel constituting the nuclear waste disposal dispenser device,
(220), which contains nuclear waste, and nuclear waste (224) in the buried area, to transport nuclear waste to ships. (2) Nuclear hydroelectric power plants, which constitute nuclear power plants to operate nuclear reactors before and after nuclear power plants, And a distribution input device of the power generation facility unit 811,
The space rocket 612 and the space rocket launching rods 646 constituting the nuclear waste disposal apparatus transportation facility of the nuclear power nuclear waste processing unit 811a constituting the nuclear waste disposal dispensing apparatus are installed to the barge deck deck The nuclear waste 224 processing unit space rocket 612 and the space rocket launching unit 612 are constructed so that the dual tubular structure drum 220 containing the nuclear waste at the upper end position is mounted on the space rocket 612 and transferred to the space space. (593,594,595) Nuclear power plant (672) and nuclear reactor plant main body (1) Nuclear radioactive contamination composed of inside and outside of nuclear power plant (1) And to include nuclear waste (224) as a treatment unit space rocket (612) and space rocket launch unit (646) transportation facilities to achieve nuclear waste treatment.
(593,594,595) Nuclear power plant (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the above-mentioned nuclear waste disposal dispenser installation apparatus, and the main body 1) Nuclear Hydroelectric Power Plant (811) with internal structure Nuclear waste nuclear waste treatment unit (811a) from dual structure Block tank Dust Collector Nuclear waste treatment facility of nuclear reactor facility A nuclear waste disposal dispenser remodeling facility of a nuclear reactor facility for a hull safety facility constituting treatment of a nuclear waste (224)
(672) of a marine power plant (672) that constitutes the nuclear waste disposal dispenser refurbishment facility of the reactor facility of the nuclear hydroelectric power plant (811) constituting the nuclear waste disposal dispenser installation facility and the nuclear waste disposal system Nuclear Waste Dispensing Apparatus and Nuclear Fuel Explosion Control Distribution Apparatus Having Nuclear Radiation Leakage Control Dual Structure Block Tank Dust Collector (794) Consisting of Dispensing Apparatus Main Unit (1) of the Reactor Facility A plurality of nuclear reactor facilities sink into the ocean And providing an installation on the barge of the anti-double structure block tank,
Nuclear waste disposal dispenser In the upper 40m of the sea level excluding the restrictions on the weather condition of the earthquake and tsunami constituting the facility, it is equipped with the installation position of the distribution power input unit of the nuclear hydroelectric power plant (811) Nuclear power plant safety operation device to form safety of nuclear reactor facilities before and after safety operation Nuclear power generation to prevent explosion of nuclear reactors of nuclear power plant Nuclear power generation leakage control of nuclear waste disposal unit (811a) Double structure block tank dust collector (794) Reactor And a nuclear waste disposal and dispensing equipment remodeling facility of the nuclear waste disposal facility so as to operate the nuclear power plant before and after the operation of the nuclear power plant moving apparatus,
(593,594,595) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the reactor facility remodeling facilities of the nuclear power generation nuclear waste treatment unit (811a) constituting the nuclear waste disposal dispensing apparatus, In the case of a failure in the nuclear power plant (811) constituting the nuclear power plant (672) constituting the distribution injector main body (1) of the nuclear reactor facility, the reactor piping line With the safety valve 472,
(811a) for providing a substitute for the operation of the boiler (783) of the thermal power generating plant constituting the nuclear waste disposal dispensing apparatus, the nuclear waste processing section (811a) of the nuclear power generation nuclear waste treatment section The company also provided thermal power generation facilities that provided emergency power generation operation by supplying steam to replace the electric power supply with thermal power generation facilities during the period of inspection for the repair of faults inside the reactor facilities. In the case of renovation of the reactor facilities, it is necessary to arrange for the guarantee of the repair of the reactor facilities with the prevention of radioactive contamination,
(1) of the nuclear waste disposal reactor equipment constituting the nuclear waste disposal dispenser installation facility, and (3) a thermal power generation facility consisting of the inside of the main body (1) (593,594,595) Mooring device and diving buoyancy control device for nuclear power plant (672) and nuclear waste disposal and distribution system of nuclear waste disposal Nuclear waste of nuclear facilities at nuclear power plant (811) It is composed of connecting shafts of processing thermal power generation facilities and it is composed as connection structure that can be disassembled and coupled at marine ship manufacturing factory,
(593,594,595) Nuclear power plant (672) of the offshore and offshore marine power plants constituting the above-mentioned nuclear waste disposal dispenser, and the nuclear power plant (672) In the nuclear power generation nuclear waste treatment unit 811a of the power generation facility unit 811, the nuclear waste waste treatment facility 811a is provided with a nuclear fuel cycle of the nuclear waste fuel industry in the connection axis of the nuclear waste treatment distribution apparatus of the dual structure block tank dust collector reactor facility, The nuclear waste disposal and dispensing device remodeling equipment for the nuclear safety equipment for the hull safety equipment,
The floating nuclear power plant 672 of the marine nuclear power plant constituting the distribution input device of the nuclear hydropower generation facility unit 811 constituting the nuclear waste disposal dispenser system and the main body of the distribution apparatus of the nuclear waste disposal system 1), and a nuclear radiation disposal control double structure block tank precipitator 794 constituting a connection structure to the nuclear waste nuclear waste disposal unit 811a with a connection axis of the nuclear hydroelectric power plant unit 811 constituting the nuclear waste disposal unit Dispensing injector and nuclear fuel explosion control dispensing dispenser Providing a plurality of reactor installations to the barge of an anti-sinking double structure block tank of the ocean,
Nuclear waste disposal system The disposal input device installation position of Nuclear Hydroelectric Power Plant (811) located at the upper 40m above the sea level excluding the restrictions on the weather condition of earthquake and tsunami constituting the facility of installation and disposal of the nuclear waste, Type float barriers Reactor facilities Safety pre-operation Nuclear reactors Facility safety devices Nuclear power plants Nuclear reactors Nuclear power plants Nuclear reactors Leakage control Dual structure block tank Dust collector (794) Reactor (811) which constitutes a nuclear power plant to operate the nuclear power plant before and after the operation of the nuclear power plant,
(593,594,595) nuclear hydroelectric power plant (672) constituting the nuclear waste disposal dispenser apparatus and the nuclear hydroelectric power plant (672) constituting the inside of the dispensing apparatus main body (1) of the nuclear waste disposal nuclear reactor facility The nuclear reactor nuclear waste processing unit 811a,
Around the launch pad of the satellite and the space rocket constituting the reactor facility of the nuclear power plant of the nuclear power nuclear waste treatment section (811a) constituting the nuclear waste disposal dispensing apparatus, It is equipped with loess soil and disaster prevention company, and arranges loading of natural loess soil and disaster prevention company on deck deck with construction machine,
In the vicinity of the launching platform constituted by the disaster prevention walls,
A 60 m circular ocher block An earth and space rocket fired at a launch pad and a space rocket launch pad at the top of the deck deck, with a wall of 3 m in height and 15 m in height, has an enormous amount of propulsion for satellite and space rockets Fuel is burned to block the generation of high temperature by disaster prevention walls,
High temperature and high pressure combustion heat generated by firing of satellite and space rocket consisting of disaster prevention walls at high temperature is provided with 60m circular ocher block disaster prevention wall, It is equipped with a hull safety device for replacing dead-end crane. Isocrane crane boom zone (942) is 60m in diameter and 15m in height. It is a block tank hull disassembly unit with double pipe structure tank bridge pier ) Of the nuclear power generation nuclear waste processing unit 811a,
A provisional hypothesis is provided on the circumference of the position that constitutes the satellite launch pad and the space rocket launch pad,
The manganese block (909) at the top of the deck plate was laid on the deck plate with a thickness of 2 m,
After the launch of the satellite and space rocket, the removal of the auxiliary saddle mold (617)
At the location of the 10 meter deep water area or the deep sea area,
We prepare length of puncture by depth,
A nuclear waste nuclear waste disposal unit (not shown) constituting a hydraulic cylinder operation, which is formed by a seesaw crane boom stand 942, a hydraulic rotary cylinder machine 619, and a hydraulic cylinder machine 624, 811a, &lt; / RTI &gt;
The hull, which constitutes a quarry at the front of the hull,
The coastal moorings, which constitute the tailworms both at the back and at the front and back,
(593,594,595) nuclear power plant facilities of marine small, medium and large sized marine nuclear hydroelectric power plants constituting vessel shelters of the marine corridor,
Nuclear power plant (672) with anchors and anchor chains constituting nuclear waste disposal dispenser installation facility, small and medium sized and large-sized offshore that consists of main body (1) of nuclear power plant for nuclear waste disposal (593,594,595) of marine nuclear hydroelectric power station (593,594,595) Mooring device and diving buoyancy control device of nuclear power plant (672) and distribution and input device of nuclear waste treatment Reactor facility safety operation of FUHI Nuclear Hydroelectric Power Plant The connection axis of the nuclear reactor facility of the nuclear power generation nuclear waste treatment unit 811a at the reactor 811;
Wherein the nuclear waste water treatment plant comprises a double structure block tank dust collector as a connection structure capable of being disassembled and coupled at a marine vessel manufacturing plant. The method according to claim 1,
(593,594,595) nuclear hydroelectric power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the reactor facilities of the nuclear power plant, and the main body of the distribution input apparatus (811a) constituted by an internal nuclear power plant (811) constituting an inner part of a nuclear reactor waste disposal apparatus, In the reactor facility 802,
The nuclear radiation leak control system (1) comprises a floating type nuclear power plant (672) of a marine power plant constituting a distribution input device of the nuclear hydropower generation facility (811) and a distribution input apparatus main body (1) A nuclear waste disposal and dispensing apparatus having a dual structure block tank dust collector 794 and a nuclear fuel explosion control dispensing and dispensing apparatus; providing a plurality of nuclear reactor facilities to the barge of an anti-sunken double structure block tank of the ocean;
Earthquake, and tsunami Disaster prevention equipment is installed at the top of the sea (409m above sea level) Restrictions on installation and disposition of the nuclear power plant (811) Nuclear reactor leakage control to prevent explosion of a plurality of nuclear reactors of a nuclear power plant of a nuclear power plant. A double structure block tank dust collector (794) is provided with a boiling water reactor reactor facility (802) (811) for constituting the operation of the nuclear power plant moving apparatus before and after the operation of the nuclear power plant to operate the nuclear power plant,
A double structure block tank which constitutes a distribution input device of the nuclear hydroelectric power plant 811, and a boiling water reactor reactor 802 constituting a connection shaft of a nuclear waste disposal dispenser of the reactor system, Steam to form a turbine spinning operation,
In the boiling water reactor 802 constituting the dual structure block tank dust collector reactor facility,
A control rod 798, a recirculation pump 239, and a pressure control pool 240 for trapping water in the lower portion of the pressure vessel 813 in the reactor pressure vessel 813 constituting the dust collector reactor installation A steam line 780 composed of a turbine 267 and a generator 772 is provided in the steam pipe 779 line to the outside of the reactor,
The residual steam 780, which constitutes generation power generation,
A cooling action is provided in the condenser 790 constituting the remaining steam 780,
The steam 780, which constitutes the cooling action,
The cooling water 287 is provided,
The water supply pump 241 moves the cooling water 287 to the circulating water pump 242 in the inside of the condenser 790 while moving it into the reactor inside the purifier 809 and recirculating it into the reactor constituting the hard water 654a ,
The cooling water 287 is discharged from the condenser 790 external waterproofing passage constituting the cooling water 287 to the circulating water pump 242 as a nuclear power plant power generation production facility,
The distribution and input device of the nuclear hydroelectric power plant unit 811 into the buoyancy type nuclear power plant facility of the marine power plant comprising the generation power generation facility,
A nuclear power plant unit (811) comprising a buoyancy type nuclear power plant (672) of a marine power plant constituted by a power generation production facility and a nuclear power generation facility unit (1) of a nuclear power plant for treatment of nuclear waste, And a distribution input device of the nuclear hydropower generation facility unit (811) configured to operate the nuclear power plant before and after the operation of the nuclear power plant of the power plant operation apparatus,
A nuclear waste disposal unit 811a, and a double piping line 74 constituting a connection structure. The nuclear waste location movement control unit and the nuclear waste location transfer passage are provided as a nuclear waste disposal and dispensing apparatus ,
Nuclear waste disposal Dispenser Nuclear radioactivity Contaminants are composed of a number of temperature and pressure sensors Sensors for safety valves Temperature sensors are in operation when the temperature inside the reactor reaches 700 to 800 degrees Celsius The temperature and pressure sensing sensors provide an alarm message transmission to the computer of the safety control room while opening a plurality of temperature and pressure sensing sensor safety valves, respectively, so that an explosion is generated in the inner block piping line 74a of each pressure vessel 813, And the nuclear waste is stored in each of the double structure block tanks, the temperature pressure sensor safety valve 472 connected to the inner block tank at the bottom of the pressure vessel 813 is opened,
As the outer block piping line 74b constituting the opening of the pressure detection sensor safety valve 472,
An explosion prevention control article of the fuel 683 stored in the inner block tank constituting the opening of the safety valve 472 is connected to the automatic injector flashing warning lamp 99 and the pressure gauge 101 and the temperature sensing sensor bimetal 102 The safety valve 472 of the pipeline automatic pneumatic valve transport device 916 and the flow rate check flow meter 105 and the level switch 104 for the flow rate check operation are connected to the thermostat thermometer sensor switch 103, A plurality of through holes in the double pipe structure block piping line 74 at an angle of 45 degrees at the upper end of the nuclear reactor building 688 with connection structures are formed by a laser cutter and a double structure block tank constituting through- Including dust collector reactor facilities,
In the plurality of through holes constituting the dust collector reactor facility,
A dual tubular block piping line 74 is formed,
A plurality of safety valves 472 are provided to provide a flange connection to the bolt 24 and the nut 25 in the block piping line 74 by gasket 32,
A double structure block tank 598 having a size twice as large as the diameter of the reactor constituting the outer wall surface of the reactor building 688 is provided with an outer block tank 599 for nuclear waste processing storage and a double structure block tank dust collector reactor facility (683) Explosion control Dispensing device for injecting nuclear reactors inside reactor core (681) and outside reactor core (681) Prevent explosion of nuclear fuel immediately before reactor explosion (683) explosion-proof control equipment for a plurality of nuclear reactor facility connection structure fuel elements (683) as nuclear power plants (1) for nuclear waste disposal for land and ocean, 672) and the nuclear reactor waste disposal facility. (683) Nuclear nuclear fuel (683) consisting of the inside of the main body (1) of boiling water reactor By providing a structure of the input equipment 802 double tank structure block dust collector 794 inside the reactor equipment and configured to fulfill a nuclear power plant operation,
Mooring device, diving buoyancy control device, nuclear waste disposal dispenser, and reactor facility safety operation of the off-shore nuclear power plant (672), which constitute the operation of the nuclear power plant, (811a) a double structure block tank dust collector (794), a boiling water reactor reactor (802) is installed in the reactor facility, and the connection shaft is configured to operate the nuclear power plant It is composed as a connection structure that can be disassembled and bonded at a marine vessel manufacturing factory,
(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant with nuclear reactor waste processing double structure block tank dust collecting reactor facility consisting of the above nuclear hydroelectric power plant (811) ) And the equipment of the disaster prevention apparatus constituted by the inside of the connecting shaft of the main body (1) of the nuclear reactor waste disposal reactor apparatus,
The floating nuclear power plant 672 of the marine power plant constituting the facility of the disaster prevention apparatus constituting the inside of the connection shaft and the nuclear radiation leakage control dual structural block tank 672 of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste treatment, A nuclear waste disposal and dispensing apparatus having a dust collector 794, and a nuclear fuel explosion control dispensing and dispensing apparatus. The method includes the steps of: providing a plurality of nuclear reactor facilities on a barge of an anti-
(811) located at the uppermost 40 m of the sea level, which prevents the earthquake and tsunami that constitute the equipment of the disaster prevention device from being obstructed by disaster prevention equipment, is installed on the barge of the anti- Nuclear reactors leak prevention control to prevent explosion of nuclear reactors of nuclear power plants Nuclear power plant leak prevention control system for nuclear power plant Nuclear power plant leakage prevention control system Tank dust collector (794) A disaster prevention device composed of the inside of the reactor connection shaft includes a distribution shaft of the connection shaft nuclear hydroelectric power generation facility 811 configured to operate the nuclear power station before and after the operation of the nuclear power station operation apparatus ,
The disaster prevention line, which weakens the power of the typhoon constituting the facilities of the disaster prevention apparatus constituting the inside of the connected shaft nuclear hydroelectric power plant part 811, includes a jet nozzle provided in the water of the seabed, a diaphragm rubber balloon 628, A rope 629, a rope knot claw 630, a marine cable car 256, an unmanned camera 184, a high pressure multi-stage disaster prevention pump 8 for a disaster prevention pump, a double structure nozzle hose and a double structure fire hose 9 A satellite weather forecast information collecting machine 960 and an alternative use sail 959 of a dual structure firefighting nozzle 10 and an air pocket 130 of an undersea mining and weather forecasting 958 and an emergency pump control system (942) of an electronic control device of the control system (150), an air supply device and a tower crane boom stand (942) of a tow crane replacement tower crane,
In the disaster area where the earth and coastal cumulonimbus and storm surge of the world are equipped with the facilities of the disaster prevention device constituting the dissolution of the global warming phenomenon, facilities of the sound vibration frequency disaster prevention device are provided, , A radiation-type densely packed disaster prevention device and a radiation-type dispersing and dismounting device for submersing a non-spherical shape to the facilities of the disaster prevention device in accordance with the power of the wind equivalent to the falling sound of the submersible (959) and a tower crane replacement ship crane boom (942), which are used for the replacement of the sail (959) and the trunk replacement tower (942) of the crane's iso crane boom,
In addition to the radiation vibration frequency and the wavelength of sound vibration which are alternatively constituted by the radiation type dispersing / disaster prevention device,
Nuclear waste treatment plant manufacturing process (705) of disaster prevention equipment of nuclear power plant which constitutes disaster prevention equipment and pre-intercepts the occurrence of severe typhoon with wind along the sea surface constituting equipment of disaster prevention device It is equipped with disaster prevention devices, A lightning rod 500 positioned at the top of a deck plate upper end block pylon 116 of a floating solar power plant 672 of a marine power plant and a block pylon 116 disaster prevention device The location of the lightning rod 500 is provided on the control room roof of the mooring tower 644,
Weather observation equipment (840) Lightning arresters (500), which provide hull conservation from lightning and lightning, are installed in the control tower to provide a peaceful earth environment preservation.
Double structure block tank composing global environment preservation It is necessary to prepare for disaster prevention structure of disaster prevention line which weakened power of typhoon of disaster prevention device by having reactor facility of nuclear power plant having reactor dust collector,
(672) constituting the Earth Environment Preservation and the inside of the main body (1) of the nuclear reactor disposal unit for nuclear waste disposal, and a mooring device formed at the marine power station floating type nuclear power plant (672) And diving buoyancy control device and nuclear waste disposal processing device and nuclear reactor facility safety facility Before and after safety operation Nuclear power generation facilities section (811) Nuclear waste treatment of nuclear reactor facilities Disconnection facility of the disconnection device inside the connection axis As a connection structure capable of disassembling and coupling at a marine shipbuilding factory,
(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with reactor facilities for nuclear waste disposal double structure block tank dust collector constructed in the nuclear hydroelectric power plant part (811) ) And nuclear reactor waste disposal reactor equipment The installation of the disaster prevention apparatus, which is composed of the inside of the connecting shaft of the main body (1)
The nuclear water power generation facility unit 811 is provided with a disaster prevention apparatus for the distribution and input apparatus and is constructed inside the distribution input apparatus main body 1 of the nuclear waste disposal reactor apparatus and the floating nuclear power plant 672 of the marine power plant. A nuclear waste disposal dispensing apparatus having a nuclear radiation leakage control dual structure block tank dust collector 794, and a nuclear fuel explosion control dispensing dispenser. A plurality of nuclear reactor facilities are installed on a barge of an anti- Wow,
(811) located at the top of the sea surface (40m above the sea level), which does not limit the weather conditions of the earthquake and tsunami, which are also formed on the barge of the anti-sinking double structure block tank, Barge Reactor Facility Safety Operation Before and After Nuclear Reactor Facility Safety Facility Safety Operation Device Nuclear Power Plant Nuclear Power Generation Nuclear Radiation Leakage Control to Prevent Explosion of Nuclear Power Plant Double Structure Block Tank Dust Collector (794) And a disaster prevention device of a distribution and input device of a nuclear hydropower generation facility unit (811) configured to operate the nuclear power plants before and after the operation of the nuclear power plant operation apparatus,
The facilities of the floating nuclear power plant 811 constituting the inside of the distribution and dispensing apparatus main body 1 of the reactor facility for nuclear waste disposal constitute facilities of the floating nuclear power plant 672 constituting the above- In addition, the number of injections for jetting through a gap between the nozzles of the dual structure is provided as a disaster prevention device according to the type of the jet nozzle, and the prevention of the occurrence of harmful red tide is provided as a disaster prevention device,
The reciprocating piston type air compressor 80 which weakens the power of the wind constituting the facility of the disaster prevention device of the nuclear hydroelectric power plant 811 is formed and the air compressor 80 is operated by the electronic control unit 88 In addition,
Is provided together with the first pressure check sensor 86 and the second pressure check sensor 87 by the pressure reducing valve 85 and the safety valve 259 without the electronic control unit 88 constituting the facilities of the disaster prevention device,
A motor belt 252, a motor frame 250, a belt cover 261, an air suction filter 262, and an oil cooler 151 are formed to a predetermined size,
In the tank constituting the oil cooler 151,
And a cooling water inlet 287 and attached to the upper end of the channel base of the bed frame 286 to produce air together with the injection nozzle 10. The rubber tube 947 and the high pressure hose 190, (29) coupled to the high pressure hose, the disruption device of the nuclear hydroelectric power plant part (811) which weakens the power of the typhoon constituting the coupling,
Disaster prevention equipment is installed at the upper and lower sides of the sea surface controlled by the sulfur dust fine dust constituting the rising air current (925) and the descending air current (926) of the typhoon of the nuclear hydroelectric power facility part (811) Respectively,
Equipment that constitutes the disaster prevention device of the nuclear hydroelectric power plant 811 has a number of manhole covers 152, several hatch covers 153, and several fire doors 154) shall be located at the bow, left and right sides of the bow of the sailing vessel, the stern and the sailing vessel, and in any case,
The International Maritime Safety Association, which constitutes the prevention of hull submersion, is responsible for safely implementing the safety regulations, while discharging the number of discharges to reduce the power of the typhoon that constitutes the facilities of the disaster prevention system of the Nuclear Hydroelectric Power Plant (811) 38) is provided at the falling point of the jetting water jetting nozzle (38) to continuously form the jetting jetting number (38)
The number 38 of ejection nozzles (38), together with the number of ejection nozzles (38), which continuously fall and form a fall, such as the same artificial waterfall roughening the power of the typhoon, The strong typhoon also transforms into a warm wind,
The scene of the reduction of the power of the typhoon that constitutes the conversion of the strong typhoon and the warm air wind was prepared by the unmanned camera (184), and the scene was transmitted from the reed meteorological observation center, (593,594,595) nuclear power plants (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants controlled by the Ministry of Energy and Natural Resources (925) and the downward currents (926) An unattended camera 184 and a weather observing device 840 are mounted in the basket 42 on which the lower end pile of the advertising balloon 77 is mounted in the main body 1 of the injecting apparatus ,
A rubber tube 947 for air supply for the inside of a container for an infiltration control device provided in a connection structure to a disaster prevention nozzle 945 and a submarine line wiring 946 on which a meteorological observation layer 840 is mounted, 948 to the inside of the nuclear radiation leak control double structure block tank dust collector 794 by the furnace brick 948a of the blast furnace 948 provided with the continuous safety operation of the nuclear power hydroelectric power plant part 811 and,
The furnace brick 948a of the blast furnace 948 constituting the facility of the disaster prevention apparatus is provided so as to supply power of the nuclear power generation power, and the diving position adjusting mobile device of the hull, A hydrothermal generator pump aberration 943a of a marine iso hydroelectric power plant 943 provided with a thermostat thermometer switch 950 for an automatic sensing sensor and a seesaw crane boom stand 942 of a tow crane replacement tower crane is provided as a connection structure, (943b) for a large hydroelectric power plant and a Francis turbine (943c) for a large hydro-electric power plant. The hydroelectric power plant of the large hydroelectric generator isotope plant (944) And a water hammer pump 952 of a non-powered pump to provide a production power supply,
The yard basket (951) and the military equipment submarine (953) for the hazardous borehole suction /
A computer laser cutting machine 954 constituting a facility of a disaster prevention device is provided to provide a nuclear hydroelectric power plant 672 constituted of a buoyancy type dock nuclear power plant 672 of a marine power generation plant and a distribution input device main body 1 of a nuclear waste treatment facility (811), which is a more powerful weapon than the nuclear bomb that makes up the facility maintenance management check of the disaster prevention equipment, includes equipment for disaster prevention equipment in the Photoshop (955)
The wind power generator windmill 957a of the offshore wind power plant 957 constituting the facility of the disaster prevention device of the nuclear power hydroelectric power plant 811, the underground line disaster prevention nozzle 945 and the submarine line wiring 946, (959) and a satellite weather forecast information collection machine (960) are provided as a facility of a disconnection device connecting shaft of a nuclear hydroelectric power plant part (811) constituting the inside of a nuclear reactor facility body (1) of a nuclear power plant (593,594,595) of marine nuclear power hydroelectric power plants of small size, medium and large scale, and the mooring device and diving buoyancy control device of nuclear power plant (672) (811) of the Fusi Nuclear Hydroelectric Power Plant (811) as a connection structure capable of disassembling and coupling at a marine shipbuilding factory,
(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with reactor facilities for nuclear waste disposal double structure block tank dust collector constructed in the nuclear hydroelectric power plant part (811) ) And the equipment of the disaster prevention device of the connection shaft constituted inside the main body (1) of the nuclear reactor waste disposal reactor apparatus,
The nuclear power plant 672 constituting the facility of the disaster prevention device of the connection shaft and the disaster prevention device 811 constituting the inside of the facility of the disaster prevention device of the connection shaft of the distribution input apparatus main body 1 of the nuclear waste processing nuclear plant And a nuclear radiation leakage control dual structure block tank dust collector 794 constituted of a lifting type diesel nuclear power plant 672 of a marine power plant constituting equipment of the apparatus and a distribution input apparatus main body 1 of a nuclear waste treatment facility A nuclear waste disposal dispensing device and a nuclear fuel explosion control dispensing dispenser, comprising the steps of: providing a plurality of reactor facilities to the barge of an anti-sunken double structure block tank of the ocean;
Earthquake and tsunami were excluded as disaster prevention devices by the disaster prevention device. The upper 40m of the sea level was installed at the nuclear power hydroelectric power plant (811) with the position setting of the distribution input device. Nuclear reactor safety control device to form safety Nuclear radiation leak control to prevent explosion of nuclear reactors of nuclear power plant of nuclear power plant Double structure block tank dust collector (794) Nuclear power plant operation And a disaster prevention device of a connection shaft of a nuclear hydroelectric power plant part (811) constituting a nuclear power plant before and after operation of the nuclear power plant,
(593,594,595) nuclear power plant (672) of a marine small-sized and large-scale marine nuclear hydroelectric power plant, and a reactor installation axis constituting the interior of the main body (1) of the nuclear reactor waste disposal unit The marine sovereignty line that constitutes the facilities of the disaster prevention equipment is provided with the bladibostock and the lagoon of Russia and Dokdo and Pohang by connecting the energy resource transportation to the nuclear waste disposal dual structure block tank marine tunnel traffic equipment (941)
Yeosu and Jeju Island are connected to the Nuclear Waste Treatment Double Structure Block Tank Ocean Tunnel Traffic System (941)
Pyeongtaek, Baekryeongdo and Shandong Peninsula were connected to the Nuclear Waste Treatment Double Structure Block Tank (941), and the nuclear waste disposal in Pohang and Japan was also connected to the Marine Tunnel Transportation System (941). In addition,
The illegal fishing line and all military vessels of other countries that come and go to the territory of the 5th degree (NLL) of the West Sea while preparing the conversion to the one-day living zone are provided with the measures that allow passage through the permission of the sovereignty area, The fishing grounds are the same as seaweeds in the sea constituting the rope knot claws 630 formed in the netting of the flagpoles and the wire rope 19,
Illegal fishing vessels are equipped with disaster prevention devices to prevent illegal fishing boats from entering fishing grounds, and rope knot hooks (630) can not pull thrust nets on them,
(593,594,595) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants consisting of nuclear power plant (672) and nuclear power plant (1) ) Mooring device and diving buoyancy control device installed in nuclear power plant (672), nuclear waste disposal dispenser and nuclear reactor facility safety facility Nuclear waste treatment system of nuclear power plant division (811) before and after safety operation Double structure block tank dust collector A connecting shaft of a floating type nuclear power plant (672) of an offshore and offshore marine power plant equipped with a nuclear reactor facility and the inside of a distribution input apparatus main body (1) of a nuclear reactor for nuclear waste treatment;
Wherein the nuclear waste water treatment plant comprises a double structure block tank dust collector as a connection structure capable of disassembling and coupling at a marine vessel manufacturing plant. The method according to claim 1,
The nuclear waste treatment system of the nuclear hydroelectric power plant (811) constituting the reactor facility for nuclear waste treatment is constructed as follows: a dual structural block tank, a dust collector of a small-sized, large-sized and large-scale marine nuclear hydroelectric power plant equipped with a reactor- (593,594,595) Distribution facility of the nuclear power plant (672) and the inside of the distributing and dispensing apparatus main body (1) of the reactor facility for nuclear waste disposal The facilities of the disaster prevention apparatus include,
The nuclear radiation leakage control dual structure block tank dust collector (1) constituted by the floating type nuclear power plant (672) of the marine power plant constituting the facility of the distribution input apparatus disaster prevention apparatus and the inside of the distribution input apparatus main body (794), and a nuclear fuel explosion-control distribution dispensing apparatus, comprising the steps of: providing a plurality of nuclear reactor facilities to a barge of an anti-sunken double structure block tank in the ocean;
The sinking prevention double structure block tank is installed on the barge line with the installation position of the distribution input device of the nuclear hydroelectric power plant part (811) at the top 40m of the sea surface excluding the restriction of the weather condition of the earthquake and tsunami constituting the facilities of the disaster prevention device. Prevention barge line Reactor facility Safety operation before and after operation Reactor facility safety device to establish safety of reactor facility safety Nuclear power plant Nuclear power generation Nuclear power generation Prevention of explosion Nuclear radiation leak control Dual structure block tank Dust collector (794) (811) that constitutes a nuclear power plant operation before and after the operation of the nuclear power station of the power plant moving apparatus,
The connection shaft constituted by the nuclear power plant 672 constituting the facility of the disaster prevention apparatus and the inside of the distribution and dispensing apparatus main body 1 of the nuclear waste disposal reactor facility,
The range from the ground up to 29 Km, which consists of the buoyancy type nuclear power plant (672) of the marine power plant constituting the facilities of the disaster prevention device and the inside of the main body (1) of the reactor installation for nuclear waste treatment, Respectively,
The surveillance function that prevents the production of military equipment by installing sensor sensor for military defense is installed in the floating sea above the sea surface constituting the equipment of the disaster prevention device and the sea west sea 5, A further enhanced military sensor sensor is provided,
The facilities of Pyongan-do and Hamk-gong, which constitute facilities of disaster prevention system,
When a missile is fired, it is formed as a defensive missile attached to the net at the top of the firing position. When the missile is fired by the other party, the missile is shot down by a collision between a nuclear missile fired by the missile launching party and a sensor for military defense. , Which includes a defense missile attached to a harmful rusty net that constitutes an immediate abandonment of a nuclear weapon build up that constitutes all military provocation abandonment activities by providing a facility to cause its own nuclear missile explosion in the other region,
In addition to the sea bombs above the sea surface above sea level and the sea above the sea in the East Sea and the 38 ° north sea above the sea of the East Sea constituting the equipment of the disaster prevention device, Including a peaceful preserved message photoshop 958 with a stronger weapon,
The system of the disaster prevention device is 29 km above the ground. It is equipped with a sensor for detecting military defense and a disaster prevention device installed on a large number of floating docks. 1) Floating dock (593,594,595) of marine small, medium and large sized marine nuclear hydroelectric power station constructed in the interior of the nuclear power plant (672), docking buoy regulator and nuclear waste disposal dispenser and reactor installation (811) of Nuclear Hydroelectric Power Plant (811) of Nuclear Hydroelectric Power Plant (811) of Nuclear Power Plant of Ministry of Land, Infrastructure and Transport (593,594,595) Nuclear power plant (672) of a large-scale marine nuclear hydroelectric power plant and the main body (1) of the nuclear reactor waste disposal apparatus for nuclear waste treatment, Emergency device comprises a connection structure capable decomposition combined in a marine vessel comprising a manufacturing plant to the connection axis of the composing parts and configurations,
(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with nuclear reactor waste processing double structure block tank dust collector facilities of the above nuclear hydroelectric power plant (811) Equipment for nuclear reactor waste disposal facility The equipment for the nuclear waste disposal facility of the nuclear power generation facility, which is constructed inside the main body (1)
A buoyant type poisonous nuclear power plant 672 of a marine power plant constituting facilities of a disaster prevention apparatus inside the connection shaft of the nuclear hydroelectric power generation facility unit 811 and an inside of the distribution input apparatus main body 1 of the nuclear waste treatment nuclear plant A nuclear waste disposal dispensing apparatus having a nuclear radiation leakage control dual structure block tank dust collector 794, and a nuclear fuel explosion control dispensing dispenser. A plurality of nuclear reactor facilities are installed on a barge of an anti- Wow,
(811) located at the uppermost 40 m above sea level excluding the restrictions on the weather conditions of earthquake and tsunami constituting equipment of disaster prevention device, Nuclear reactors to prevent explosion of nuclear reactors in nuclear power plants Nuclear radiation leakage control Double structure block tank dust collector (794) Disaster prevention equipment to be installed inside reactor connection shaft And the facility of the nuclear power hydroelectric power plant 811 configured to operate the nuclear power plant with the facilities of the nuclear power plant 811,
(593,594,595) Nuclear power plant (672) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting the facilities of the above-mentioned disaster prevention apparatus and the inside of the distribution input apparatus main body (1) of the reactor facility for nuclear waste treatment. A vertical structure of a typhoon is provided together with a straight discharge outlet 38 of a disaster prevention line that hides a typhoon into a facility of the disaster prevention apparatus of the nuclear hydroelectric power plant 811,
A dropping device is installed on the sea level surface at the upper end of the SLD in the troposphere 10 km above the top of the sea surface constituting the disaster prevention device of the nuclear hydroelectric power plant 811,
The atmospheric circulation passage 958 for the dual structure disaster prevention apparatus at the equatorial point is provided at the upper end of the arctic pole with the disaster prevention water which has been annihilated and disinfected to constitute the disaster prevention apparatus of the nuclear hydroelectric power plant unit 811,
(958) Displacement piping line for disaster prevention equipment (958) The isocrane crane boom zone (942) of the tower crane for replacing the quadruple crane constituting the atmospheric circulation passage is provided so that the rain cloud is transported to the seabed 10 km below the sea level, The same artificial waterfall as the disaster prevention waterway,
As the natural disaster is made up of internal facilities that make up facilities for the disaster prevention system of the Nuclear Hydroelectric Power Plant (811), the typhoon is a latent heat of the thermal energy quantity of the atomic bombs that were estimated to be one million annually in Hiroshima in the Pacific and the Atlantic And a seesaw crane boom band 942 of a tow-crane replacement tower crane configured to sequentially fall on the sea level of the sea-
And a pipe level piping line 958 for a double structure disaster prevention device constituting facilities of the disaster prevention device,
The human race of the global village is prepared for the sadness and suffering from disaster disaster,
A double-structure high-pressure hose 190 having a 500-meter-high upper part of the sea surface with an electromagnetic control device connection structure provided on the connection shaft provided by the manufacture of the electromagnetic control device connection structure of the control system 150, (190) Coupled with a number of coupling knurls (29) The length of the combined pipe is less than 10 km and the pipe level piping line (958) is located at the deck plate side of several floating docks. The crane boom zone (942) provided a 10 km-long jet stream to change the course of the typhoon,
The seesaw crane boom stand 942 of the tower crane, which constitutes a course change of the typhoon on the jet stream,
It is possible to provide a switching to constitute the descending airflow 926 as the ascending airflow 925,
The tube level piping line 958, which is made of a nonferrous metal with a better thermal conduction efficiency than that of the iron, constitutes the reduction of the damage to the land marine hurricane, and the loess mixture constituting the discharge is supplied from the satellites In order to prevent the disaster, it is necessary to prepare the falling material from the upper part of the sea surface to the sea surface,
Preventive conditions consisting of the nuclear power plant 672 constituting the prevention of typhoon and harmful red tide breeding and the inside of the main body 1 of the nuclear reactor waste disposal apparatus main body 1 are referred to as nuclear radiation leakage control double structure block tank dust collector 794 ) Includes a facility of a connection shaft disaster prevention device of a nuclear hydroelectric power plant part (811) configured to operate a nuclear power plant by a facility of a disaster prevention device constituted inside a connection shaft of a reactor facility,
(672) for land and marine nuclear power plants, and disaster prevention equipment consisting of the inside of the main body (1) of nuclear power plant for nuclear waste disposal, and to prevent explosion of reactor facilities while maximizing the production power by operating the nuclear power plants efficiently. The disaster prevention device of the reactor connection shaft,
(1) of the nuclear power plant for the treatment of nuclear waste, and (2) the installation of the disaster prevention system of the nuclear fuel explosion prevention and distribution shaft. Mooring device and diving buoyancy control device of nuclear power plant (672) and distribution facility of nuclear waste treatment and reactor facility of nuclear reactor facility Safety operation FUJITSU nuclear power plant (811) Structure block Tank dust collector (794) It is composed of the connecting shaft of the disaster prevention device that constitutes the inside of the connecting shaft of the reactor facility, and it is composed as a connection structure that can be disassembled and coupled at the marine ship manufacturing factory.
(593,594,595) Nuclear Power Plant (672) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants equipped with reactor facilities for nuclear waste disposal double structure block tank dust collector constructed in the nuclear hydroelectric power plant part (811) ) And nuclear reactor waste disposal reactor equipment The installation of the disaster prevention apparatus, which is composed of the inside of the connecting shaft of the main body (1)
The lifting type dock nuclear power plant 672 of the marine power plant constituting the facility of the disaster prevention apparatus constituting the inside of the connection shaft of the nuclear hydroelectric power generation facility unit 811 and the inside of the distribution input apparatus main body 1 of the nuclear waste disposal reactor facility Nuclear Waste Dispensing and Discharging Apparatus with a Nuclear Radiation Leakage Control Dual Structure Block Tank Dust Collector (794) Consisting of Nuclear Fuel Explosion Control Distribution Apparatus A plurality of nuclear reactor facilities are installed on the barge of an anti- , &Lt; / RTI &
The installation position of the distribution input device of the nuclear hydroelectric power plant part (811) located at the upper 40 m of the sea surface excluding the restriction of the weather condition of the earthquake and tsunami constituting the barge of the anti-sinking double structure block tank is excluded Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Reactor Leakage Control Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Nuclear Power Plant Leakage Control Dual Structure Block Tank Dust Collector (794) (811) for constructing a reactor to operate a nuclear power plant, the facility including a facility of a distribution and input device connection shaft disaster prevention device of a nuclear hydropower generation facility (811)
(593,594, 595) nuclear power plant (672) of the marine small-sized and large-scale marine nuclear hydroelectric power plant, and the nuclear power plant (672) (593,594,595) nuclear power plant (672) of a marine small, medium and large sized marine nuclear hydroelectric power plant constituting facilities of the disaster prevention device of the facility (811), and a main body 1) Dual-structure block tank for controlling leakage of nuclear radiation leaked from the inside The equipment for installing the coupling shaft dust collector (794) and the nuclear waste treatment double structure block tank bridge (937) ,
(593, 594, 595) nuclear power plant (672) of a marine small-sized and large-scale marine nuclear hydroelectric power plant, and the inside of the main body (1) of a nuclear reactor waste disposal reactor, Of the power of the weak countries consisting of the storks of the great powers and the leaders of the weak countries composed of the leaders of the powerful countries within the connecting axis, Of the nuclear power plant (811) which constitutes the stork which constitutes the facilities of the nuclear power plant (811) which constitutes the stork to be able to imitate the struggle and to imitate the stork 's foot, ) Of the disconnection device,
Leading members of the international community who make up the facility of the disaster prevention device of the connecting axis,
The disaster prevention system is equipped with disaster prevention equipment for tanks, bombers, bombs, bullets, satellites, missiles, nuclear bombs and rocket bombs on land,
It includes equipment of disaster prevention device which overcame the punctured global economic crisis by establishing it as international social codes and norms constituting facilities of disaster prevention device,
The provision of facilities for disaster prevention equipment on the connecting shafts, which are designed to save the world economy by fostering the environmentally friendly pollution-free energy industry,
When the weather conditions of the bad condition constituting the facilities of the disaster prevention apparatus constituting the connection axis of the nuclear hydroelectric power generation facility unit (811) and the sinking accident of the ship in the bombardment state often occur, And a facility of a disaster prevention device of a connecting shaft constituting prevention of sinking accident,
(948) located inside the steel mill building which constitutes all military materials, and the nuclear hydroelectric power plant part (1) constituting the inside of the main body (1) of the nuclear reactor waste disposal reactor equipment for the construction machine heavy equipment 811, the facility connection shaft of the disaster prevention device,
(593, 594, 595) of marine nuclear, hydro, and nuclear power plants (592, 595) Mooring devices and diving buoyancy control devices in nuclear power plants (672) (811) of the nuclear power plant (811) before the operation of the nuclear power plant.
Wherein the nuclear waste water treatment plant comprises a double structure block tank dust collector as a connection structure capable of being disassembled and coupled at a marine vessel manufacturing plant.

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