KR20140094482A - Global nuclear power reactors of different types of body hydroelectric plants operating nuclear power plant reactor shield alternative nuclear waste disposal facility for nuclear reactor radiation leak precipitator control dual structure of the main body of the block distribution feeder tank - Google Patents

Abstract

The present invention relates to a distribution and input device of a nuclear radiation leakage control dual structure block tank reactor precipitator body for nuclear reactor equipment in various types of nuclear reactor equipment power plant operation replacement nuclear waste treatment shielding devices of a global hydro nuclear power plant body. More specifically, various types of nuclear reactor facilities in a light-water reactor operation replacement nuclear waste treatment shielding device of a nuclear power plant is composed of a boiling water reactor and a pressurized water reactor in a nuclear reactor using water.

Description

TECHNICAL FIELD [0001] The present invention relates to a nuclear reactor power plant, and more particularly, to a nuclear reactor power plant, operating nuclear power plant reactor shield alternative nuclear waste disposal facility for nuclear reactor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dispensing apparatus for a nuclear reactor leak detector of a nuclear reactor power plant, Storage tanks for storing coolant and toothpaste-level loess mixtures, each of which is a nuclear fuel explosion-proof control, and storage tanks of nuclear waste alternatives for nuclear waste disposal, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, Depending on the type and number of reactors, nuclear reactors of nuclear hydroelectric power plants are operated. Alternative reactor installations of nuclear waste disposal systems consist of boiling water reactors and pressurized water reactors in normal water reactors. Power reactors The light-water reactor is mainly used Nuclear power plants equipped with pressurized water reactors in water reactors and multi-purpose high-temperature gas lines in gas cooling furnaces and fast-breeder reactors in new conversion paths Nuclear reactors of various types of hydroelectric power plants and nuclear hydroelectric power plants Alternative nuclear waste Nuclear Radiation Leakage Control of the Nuclear Radiation Emission Control System of the Nuclear Reactor Facilities of the Shielding Device The main body of the distribution injector of the double structure block tank is separately provided so as not to be disturbed by the main body, thereby preventing explosion of the nuclear reactor, Storage tanks for storing the loess mixtures of the nuclear waste and the storage tanks of the nuclear waste disposal screening apparatus for nuclear power plant alternation do not move in a reciprocating motion but rotate the nuclear waste through the storage tank of the nuclear waste disposal screening apparatus itself to the outside of the nuclear power plant Nuclear radiation leak A nuclear reactor explosion prevention control device which prevents an environmental pollution is constructed as a connection structure of an alternative vessel for marine vessel, and each body is absolutely safe and continuous, and a nuclear reactor radiation leak control double structure block tank reactor It is possible to freely control the amount of production electric power of the main body constituted in the operation of the nuclear power plant constituting the distribution and dispensing apparatus and to mix various kinds of reactor facilities in which the nuclear power plants can not be coped with from the natural disaster, So that the reactor body of the alternative nuclear waste treatment shielding apparatus can be injected into several nuclear reactor facilities at the nuclear power plant of the nuclear hydroelectric power plant at the same time, Rest assured In addition to being able to control non-electric power, it is also possible to construct various types of reactor facilities of the nuclear power plant of the world in order to improve the operation of the main body of land and ocean, The present invention relates to a nuclear reactor radiation leak control dual structure block tank reactor main body distribution dispensing apparatus for nuclear reactor waste disposal shielding apparatus.

Generally, the installation of the conventional nuclear power plant's reactor facilities installed according to the installation location of the inland river in the global village and the coastal area of the coast causes the worst situation of the world nuclear power generation due to the shutdown of the nuclear power generation operation from the natural disaster or the explosion of the reactor. Thus, once the manufacturers of these reactors have been working to meet the reliability of electric power consumers, they have developed a new reactor vessel that is the fourth wall of the reactor and the upper wall of the reactor building corresponding to the fifth wall A plurality of through holes at a predetermined angle of 45 ° are machined into a drilling machine and a machine turning lathe machine by a computer cutter, a construction machine crane and a conveyor, and a plurality of through holes are formed in the plurality of through holes, Safety valves are bolted to the block piping line and gasketed to the nut flange And the nuclear waste treatment storage block tanks and the radiation type connection structure are constructed in eight double structure block tanks each having a size twice as large as the reactor building along the circumference of the outer wall of the nuclear reactor building. Nuclear power plant with the best nuclear safety and economics to recover the reliability of electric power consumers because of the very serious and dangerous level of nuclear reactor design process being exposed. Nuclear Radiation Leakage Control Double Structure Block Tank The necessity of proper installation for the distribution dispenser of the reactor main body of the reactor has been urgently pointed out and the design and experiment for the safety and economical solution to this problem have been continued, Power plant It made many efforts to find a design process of the various lines of reactor nuclear power plant operations alternate nuclear reactor plant waste shield nuclear radiation leakage control block double structure distribution tank of the nuclear reactor main body dust collector for the input device.

However, since the demands of those skilled in the art have become more diverse, and serious risk levels have been expressed regarding nuclear safety and economy, in order to solve the desire to recover the reliability of electric power consumers, the nuclear radiation leakage control double structural block tank reactor Of the distribution wall of the reactor and a reactor wall corresponding to the fifth wall of the distribution wall of the fourth wall of the injection device Drilling a plurality of through holes at an angle of 45 ° at an upper portion of the building Building machine and machine After machining with a mechanical crane and a concrete pipe, a block pipe line of a double pipe structure is formed in the plurality of through holes, and a plurality of safety valve connection structures are attached to a block piping line by bolts and nuts and gasket rubber packing is provided To the flange. The number of structures. The tool hammer and the wrench are provided, and at the same time, A hollow space for a nuclear waste disposal storage block tank is secured at one double structure block tank having a size twice the diameter of the nuclear reactor building along the circumference of the nuclear reactor building, and at the same time, a double pipe structure block piping line is formed in a plurality of through holes The block piping line with multiple safety valve connection structures is a radiation-type connection structure. The floating type of the marine power plant. Dock type Nuclear power plant Various kinds of nuclear plants in the main body (1) Nuclear reactors for nuclear facilities Leakage Control Double Structure Block Tank Reactor Type of Nuclear Power Plant (1) and Connected Structure of Marine Power Plant for Dispensing and Discharging System of Reactor Main Body (1) The tabletop table of the dispensing device is equivalent to the barge hull and the tabletop table leg Because the table is equivalent to the holding block tanks of the barge hull, anyone can easily tilt the table table legs by manpower, and the operation of pushing and holding the holding block tanks of the barge hull at the sea level is easily done by the ocean. The barge hull at the top of the sea level is set up so that anyone can easily tilt and unfold the holding block tanks of the barge hull so that the operation of the nuclear reactor plant can be further performed by inputting the barge hull position shifting control device and the throttle control device provided in the ocean.

The distribution injector of the nuclear radiation leakage control double structure block tank reactor reactor of the main body,

Operation of Nuclear Power Hydroelectric Power Plant Nuclear Power Hydroelectric Power Plant Land and Ocean 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 Nuclear waste and nuclear radiation pollutants, which are the explosives of the reactor with the entrance, are placed in the double structure block tank piping, which is located inside the double structure block tank. A temperature sensor of the safety valve temperature sensor of the safety valve when the temperature of the reactor inside the reactor is 700 to 800 degrees and the pressure reaches the danger level of the high pressure state, While transmitting the alarm message, at the same time, As each valve is opened, the explosive nuclear waste passes through each block of the pressure vessel inside each place, and the nuclear waste is stored in each block tank, and the temperature pressure sensor connected to the inner block tank of the pressure vessel is opened At the same time, as the outer block piping line, the cooling energy of the fuel explosion prevention control product stored in the inner block tank and the mixture of the yellowing of the toothpaste level constitute the conversion of the position energy of the water into the kinetic energy, The block piping line with a plurality of safety valve connection structures constituting the explosion stop by filling the vessel with coolant and toothpaste level loess mixture constitutes the operation of the nuclear power plant as a radiation type connection structure and it is less pollution than fossil fuel Nuclear energy is the energy source. This nuclear energy is in the spotlight as a new power source for the future.

However, this nuclear energy is not without problems. Not only are the reserves of uranium as a raw material for nuclear energy limited, but the more troublesome problem is the disposal of nuclear waste.

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

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

There are many ways to get energy from the ocean. Tidal power to generate energy using tidal and tide movements, wave power to generate energy using the power of waves, and seawater temperature difference power to obtain energy using the temperature difference of seawater. By using these methods well, we can get unlimited pollution energy from the sea.

The distribution injector of the nuclear radiation leakage control double structure block tank reactor reactor of the main body,

Nuclear fuel explosion prevention control goods are transported to provide storage to block nuclear radioactive contaminants from outside the nuclear reactor, shielding the nuclear safety engineering concept of deep defense concept using the shielding system at the same time while one double structure block tank reactor To prevent leakage of nuclear fuel radiation and prevent nuclear explosion Prevention of nuclear radiation leakage and prevention of nuclear fuel explosion Primary control of nuclear waste treatment to dual structure block tank nuclear reactor dust collector and simultaneous replacement of secondary marine vessel traffic equipment facility A double-structured block tank consisting of a main body. Nuclear power plants of land and sea nuclear power plants that efficiently control the nuclear waste disposal to the outside of the nuclear reactor and improve the operation of the nuclear power plant. Nuclear Radiation Leakage Control Structure block tank The distribution injector of the reactor dust collector is usually double pipe structure piping using the energy of water. It is equipped with safety pressure sensor and water supply pumps, and mixes the dispersion material such as cooling water and soap with a mixer machine Toothpaste mixture of soot and toothpaste mixture of ocher (a mixture of soot and toothpaste mixture) In the case of a double-structured block tank reactor, the distribution of the dust collector's chute block tank reactor is usually in the form of an egg or a capsule. As a result of the connection structure, it is very different from the existing reactor facilities. The.

FIG. 1 is a perspective view showing the construction of a nuclear power hydroelectric power plant and a thermal power plant according to the prior art, and FIG. 2 is a side view and a cross-sectional view showing the construction of a nuclear power hydroelectric power plant and a thermal power plant according to the present invention,

Referring to FIGS. 1A to 1T and FIGS. 2A to 2B of FIG. 1, a reactor structure of a nuclear power plant according to the prior art has a structure in which five-folded protective walls are formed in a closed structure, If the number of neutrons is large, the chain reaction will be over, and the energy generated when the nuclear explosion occurs will exceed the danger level. If this occurs, the nuclear reactor will proceed to explode the fission chain reaction in an ideal state. In terms of being equipped, the following facts can be recognized.

The water reactor for ordinary water, which is a nuclear reactor of various prior art levels, is formed by the structure of a boiling water reactor reactor facility body 802 and a pressurized water reactor reactor facility body 803, and a power reactor is mainly used for a light reactor In addition, a reactor main body 805 and a new type conversion reactor main body 806 are used as a multipurpose hot gas in the gas cooling furnace reactor main body 804. The boiler water reactor main reactor facility body 802, The nuclear reactor facility main body 803 and the gas cooling furnace reactor facility main body 804 are combined with the nuclear reactor facility main body 805 and the new type conversion furnace 803 by multipurpose hot gas, In the present invention, the above-mentioned various kinds of reactor reactors are used for the purpose of improving the efficiency of operation of the nuclear power plant on the facility main body 811, (688) Double-structured block tank with double the diameter of the previous reactor building (688) along the outer wall surface Double structure block tank for nuclear waste treatment storage at one location A nuclear reactor building has a radiation- And a plurality of safety valves are formed as a block pipe line (74) having a double tube structure. The reinforced concrete mat is formed in a conventional reactor building. The reinforced concrete mat is formed of a mixture of cooling water, a soap and a dispersant It is a substitute for the explosion prevention control product of the fuel rod, which is a mixture of the loess soil formed for the purpose of preventing nuclear fuel collision. It is formed of nuclear waste disposal control devices and nuclear waste disposal devices for treating nuclear waste generated before and after operation of nuclear power plants, Nuclear power generation facilities along the outer wall of the building Integrated land and marine nuclear power plants The reactor structure is composed of a nuclear waste disposal unit with a nuclear reactor building and a distribution injecting unit of a nuclear fuel explosion control unit.

Hereinafter, the cause of the explosion accident of various types of conventional nuclear reactors 811 will be described as follows.

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 that a violent chain reaction like atomic bombs does not occur, , Nuclear power generation is performed by regulating the fuel 683 in which uranium 235 (812) is diluted to be slowly burned so that the fuel made by baking and hardening the low enriched uranium 812 is called pellet 683 and the pellet 683 is covered It is the fuel assembly 671 that the fuel rod 689 filled with the fuel rod 689 is filled with the fuel rod 689 as a bundle of squares filled in the jig rail 682 of the pipe 682. Here, If the number of neutrons (821) is large due to the occurrence of tsunami, the chain reaction becomes excessive and the energy generated when the nuclear fission breaks exceeds the danger level, The fact that the facility main body 811 explodes like an atomic bomb and has a shape of a chain explosive is the first type of the various kinds of nuclear reactor facilities 811 in which nuclear fuel 683) It can be recognized as a key cause of the explosion.

Secondly, in the past several kinds of reactors (811), there is no exhaust system (791) and exhaust gas (171) exits and entrance of exhaust gas (171) The reason for the explosion of the Fukushima Dai-ichi Nuclear Power Plant caused by the failure of the cooling system due to the failure of the cooling system is that it is a reactor that can not cope with the high temperature and high pressure inflation gas inside the reactor and the expansion liquid. Therefore, The water as the high-pressure expansion liquid turns into steam, and the steam of high temperature and high pressure is combined 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, Its electron flame is ignited by high-temperature and high-pressure oxygen and hydrogen, causing hydrogen explosion. Recognizing that a secondary explosion has the shape of a series of explosive explosive explosions, such as a nuclear explosion in a reactor core loaded with fuel inside a pressure vessel, the reactor being converted from an atomic bomb to a hydrogen bomb, It can be recognized as a key cause of nuclear fuel explosion in nuclear reactors.

The third is that the existing nuclear submarine and the nuclear-powered aircraft carrier can carry out the safe operation without any explosion of the reactor engine to this day. Therefore, The reason for canceling the installation of the existing reactor building 688, which is the fifth protection wall formed of concrete among the reactor installed in the reactor 811, is that the barge hull 591 formed of the double structure block tanks 598 itself The reactor building 688 formed of concrete in the past has a deteriorated state due to the combination of the reinforced concrete mat 225 and the nuclear waste ([<<<, >>>], 224) generated in the reactor explosion The explosion of nuclear explosives is the result of the fact that the nuclear reactors of the former nuclear reactors were converted from atomic bombs to hydrogen bombs. The fact that it has the shape of an abrupt chain explosion can be recognized as a key cause of the initial reactor explosion.

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 chemical decomposition of oxygen and hydrogen, and the electron flame generated by the air friction due to the instantaneous earthquake occurs, , Causing a hydrogen explosion, which is the first explosion in the space outside the pressure vessel and inside the reactor building, and a secondary explosion As the reactor explosion progresses in the reactor core loaded with nuclear fuel inside the pressure vessel, the nuclear waste disposal concept of the deep defense concept of the conventional nuclear reactors (811) is very weak. Therefore, In the present invention, the double structure block tank reinforced with the concept of depth defense is provided. In the present invention, the light water reactor of the nuclear power hydroelectric power plant of the land and ocean having the nuclear reactor main body is substituted with the nuclear radiation leakage control structure of the reactor facility of the nuclear waste processing shielding apparatus. Block tank A double tube structure block piping using the energy of the water constituted by the dispensing device of the reactor dust collector. It is equipped with a safety pressure valve and water pumps. It is equipped with a cooling water and a toothpaste level mixture By selecting the automatic injection method, the nuclear waste disposal device and the fuel explosion control device Ship uses of nuclear waste shielding method of input devices.

In the following, the structure of a nuclear waste disposal unit equipped with a reactor building and a distribution input unit of a nuclear fuel explosion control unit of a double structure block tank for a reactor plant of a nuclear power plant, the reactor operation normally operates in spite of the nuclear fuel explosion accident of the reactor, The contents of moving and storing will be clearly explained as follows.

Dual structure block tank for reactor installation of nuclear hydroelectric power plant using shielding system of deep defense concept Nuclear waste treatment device and nuclear fuel explosion control device equipped with nuclear reactor building are equipped with dual structure for reactor facility of nuclear hydroelectric power plant CLAIMS 1. A nuclear waste disposal apparatus having a block tank reactor building and a dispensing apparatus for a nuclear fuel explosion control apparatus,

The nuclear reactor facility main body 811 of the nuclear reactor radiation leakage control dual structure block tank reactor main body of the distribution injector of the nuclear hydroelectric power plant has a plurality of double block building tank reactors 596, A plurality of outer block tanks 599, a first auxiliary type steel 600 for a block tank and a vertical partition 605 for a second auxiliary steel plate 601 for a block tank are arranged outside the plurality of inner block tanks 596, And the vertical partition 605 and the horizontal partition 609 are provided to the first auxiliary steel 600 for the block tank and the second auxiliary steel plate 601 for the block tank as steel beams 149 in the horizontal partition 609 and the horizontal partition 609, The metal beam 149 and the partition wall manholes 610 to the snap hole 602 are cut by a computer laser cutter 954 and simultaneously combined with an arc welder or an argon welder 853 of the welding process A fourth guard wall dividing container 808, A double structure block tank having a double wall structure, a nuclear reactor waste disposal apparatus having a nuclear reactor building, and a distribution injecting apparatus for a nuclear fuel explosion control apparatus, the nuclear radiation leakage control of a nuclear power plant is divided into a dual structure block tank, Various types of reactor facility bodies 811 are formed.

The hydraulic cylinder door 624 and the emergency stairs 631 are formed by a welding process on the vertical partition wall 605 and the horizontal partition wall 609 on which the partition wall manhole 610 is formed and the reactor structural explosion prevention double structure block tank reactor It is constructed as a traffic facility of the building, and it is formed as a main body of a nuclear reactor facility with a double-structure block tank reactor inside and outside.

The plurality of stopper steel plates 625 are connected to a plurality of inner block tanks 596 and a plurality of outer block tanks 599 of the cylindrical double structure block tank 598 at the upper and lower ends of the block tanks, Flanged bolting connection device with dual structure Egg-shaped explosion-proof double structure block tank It is equipped with reactor installation and equipped with nuclear waste of various kinds of reactor (811) inside main body of nuclear power plant (1) The nuclear reactor radiation leakage control system of the nuclear power plant is divided into a distributing and inputting apparatus of the processing apparatus and a distributing and inputting apparatus of the nuclear fuel explosion control apparatus. The nuclear reactor facility main body 811 of the distribution injector of the dual structure block tank reactor .

In the event of a large reactor explosion, the nuclear waste is stored in one place at the lower end between the vacant spaces of the plurality of inner block tanks and the plurality of outer block tanks, so that the bottom of the GLD reactor of the double structure block tank has a thickness a reactor core 592 fixed within the inner block tank 596 with a nuclear reactor main body 794 and a plurality of nuclear explosion-proof dual structure block tanks 598 fixed with a reinforcing concrete mat 225 of m and a steel beam 149, Nuclear power generation occurs after nuclear fuel is injected into the third wall of the body. Reactor explosion prevention Preventing the explosion of the reactor Nuclear waste disposal unit with nuclear reactor building of double structure block tank and distribution injector of nuclear fuel explosion control unit (811) nuclear waste disposal unit of the various nuclear reactors (1) inside the nuclear hydroelectric power plant, The control unit 811 of the reactor main body 811 of the main body of the distribution injector of the dual structure block tank nuclear reactor leakage control nuclear power hydroelectric power plant is divided into two groups.

Inside the nuclear reactor reactor, a large amount of radiation is generated so that the reactor can safely cover the first wall pellet and the second wall fuel rod, the third wall reactor pressure vessel and the fourth wall vessel, A dual structure block tank with a five-ply protective wall formed by withdrawing a former reactor building formed of a mat 225. Distribution of the nuclear waste processing apparatus with nuclear reactor building 688 and the distribution of nuclear fuel explosion control apparatus (811) of the nuclear power generation into the main body (1) of the nuclear hydroelectric power plant, and the reactor building (688) is formed as a double-structure block tank reactor building (688).

A steam generator 810 and a steam dryer 786 installed outside the reactor pressure vessel 813 are connected to each other so that the fluid reservoir 808 corresponding to the fourth wall of the reactor 811 A plurality of through holes are formed in the upper layer of the reactor building 688 corresponding to the fifth wall by a predetermined angle of 45 ° with oxygen cutters and construction machines, and then a double pipe structure block piping line 74 is formed in the plurality of through holes A plurality of safety valves 472 are connected to the flange by the gasket 32 on the bolt 24 and the nut 25 on the block piping line 74 and the plurality of safety valves 472 are formed on the outer surface of the reactor building 688 A double structure block tank 598 having a size twice as large as the reactor building 688 is connected to an outer block tank 599 for storing nuclear waste treatment in a radiation type connection structure, And the distribution injector of the fuel explosion control device To form a reactor facility.

The double structure block tank reactor building 688 includes a plurality of inner block tanks 596 and a plurality of outer block tanks 599 and a loess soil 158 cement mixing equipment mixer 649 as a distribution injector of the nuclear fuel explosion control apparatus Cooling water (287), which is a control material for fuel explosion prevention, which is injected into a pressure vessel (813) at the same level as a blast furnace immediately before a reactor explosion, and a dispersion material The fire extinguisher nozzle 10 is cleanly cleaned after the occurrence of the earthquake, while the control article is introduced into the pressure dispensing apparatus at the same time into the pressure vessel 813, Several of them are formed inside the pressure vessel (813) and inside the vessel (808), and the inside of the reactor (811) is automatically subjected to the internal cleaning process without human and robot input Is equipped with a distribution input device of a nuclear fuel explosion control device having a nuclear reactor building of a double structure block tank for preventing explosion of a reactor and nuclear fuel explosion prevention control articles and is installed in the main body (1) of a nuclear power plant, Structure block tank A tank of nuclear waste disposal system for internal and external refurbishment with nuclear reactor building. It is formed before and after safe operation of nuclear reactor facility.

The inside of the reactor 811 is internally cleaned by forming a circulating water pump 858 connected to the piping line 352 of the cooling water 287 which is a dispensing device of the nuclear fuel explosion control apparatus and cooling water 287 to prevent solidification of the loess mixture, (813) to the inside of the pressure vessel (813). After the earthquake has stopped, the interior of the reactor (811) is immediately cleaned to restrict the natural disasters It is possible to maintain continuous development without receiving the reactor and to prevent the explosion of the reactor by maximizing the safe operation of the reactor facility. Double structure block tank The nuclear waste disposal unit with nuclear reactor building and the distribution injector of nuclear fuel explosion control unit Nuclear Power Hydrogen Power Plant The nuclear fuel explosion control device of various kinds of nuclear reactors (811) into the main body (1) It is formed before and after the facility safety operation.

And a plurality of dual structure block tank reactor nuclear reactor (s) for storing the nuclear reactor effluent (224) connecting the outer wall surface of the reactor building wall from the first wall of the reactor to the double structure block tank reactor wall of the fifth wall The nuclear power generation, which is formed at the nuclear power plant before and after the operation of the nuclear power plant formed in the main body (1) of the nuclear hydroelectric power plant by the combined connection structure with various kinds of nuclear power generation reactors (811) A steam turbine 267 for generating power by rotating the steam turbine 267 by generating steam with the heat generated by the steam turbine 267, a nuclear power generator 772 for converting the power produced from the steam turbine 267, A rotating rotor electromagnet coil 774 for a nuclear power generator installed along a circumferential surface of a shaft 198, which is a rotation shaft connecting the rotor 267 and the nuclear power generator 772, An unrotatable armature coil 773 for a nuclear power generator installed along a circumferential surface of a rotating rotor electromagnet coil 774 for the nuclear power generator and an armature coil 773 for rotating the nuclear power generator 772 and the shaft 198 And a frame 775 that integrally fixes the power plant 775 to the power plant.

A cooling water 287 piping line 352 having a connection structure with a condenser 790 at a lower portion of a body of the steam turbine 267 of the power generation equipment unit and a cooling water 287) A circulating water pump 858 connected to the pipeline line 352 is formed so as to be provided before and after the safe operation of the reactor facility.

A feed pump 857 is formed outside the rear end of the condenser 790 and the reactor 811 and a purifier 809 is formed outside the reactor in front of the feed pump 857, A plurality of coolant pumps 859 are installed outside the reactor pressure vessel 813 containing uranium 812 fuel and a safety device control rod 798 is installed inside the reactor pressure vessel 813 The control rod 798 is automatically inserted at a time so that the reactor is formed in an emergency stop state before and after the safe operation of the reactor facility.

The first wall pellet 683 of the nuclear reactors 811 and the cover tube 682 protecting the second wall flaring rods 689 and the like are connected to the inside of the third wall reactor pressure vessel 813 The safety valve 472 formed with the plurality of temperature pressure sensors immediately before the explosion is opened in the fourth wall containment vessel 808 and the inner block piping 74a of the upper block piping line 74 of the pressure vessel 813 at each location is opened, The explosive nuclear waste 224 passes through the inner block tank 596 and the outer block piping 74b is filled with coolant and toothpaste-like loess mixture, which is a fuel explosion prevention control product stored in the inner block tank 596, The nuclear waste 224 is transported and stored in the inner bottom portion of each of the two portions of the double structure block tank 598 and the inner block tank 596 of the pressure vessel 813 is transported to the inside of the pressure vessel 813 and the fourth protective wall containment vessel 808, The temperature-sensing sensor safety valve 472 is opened, Cooling water, which is a fuel explosion-proof control product stored in the inner block tank 596, and the mixture of loess mixtures at the toothpaste level are stored in the outer block pipe 74b of the lock pipe line 74 by a feed pump 857, And the fourth protection wall containment vessel 808. The cooling water and the yellow earth mixture at the toothpaste level are transferred to the reactor by using the energy of the water and the cooling water stored in the inner block tank 596 and the outer block tank 599, When the mixture is filled, the reactor explosion is terminated and the reactor block replacement tank of the double structure block tank prevents the reactor explosion.

When the decommissioning of the reactor pressure vessel 813 is stopped by the remote control cutting or the robot 700 when the reactor decommissioning operation of the nuclear hydroelectric power plant is stopped, the plurality of the temperature pressure detection sensor safety valves 472 are closed, A plurality of types of reactors formed by closing the plurality of temperature-sensing sensor safety valves 472 are formed in the marine barge 591 before and after the safe operation of the nuclear power plant.

Several types of reactors (811) are installed in the offshore sinking barges.

In order to prevent the earthquake and tsunami from being affected by the weather conditions, the location of the nuclear power plant is installed at the upper 40m above sea level by the mooring device formed in the sinking type barge and the diving and buoyancy adjusting devices to affect the earthquake and tsunami Of nuclear power plants that do not receive nuclear power will be formed so that various kinds of nuclear reactors can not explode.

By constructing the dual structure block tank reactor building in the marine nuclear hydroelectric power plant so that the reactor explosion prevention of the nuclear fuel chamber can be prevented so as to prevent environmental pollution due to the nuclear waste, it is possible to establish safe and continuous operation, In order to ensure the safety of the facility and to ensure the renovation of the nuclear reactors by continuous operation, the mooring device formed on the barge for the treatment of nuclear waste, the control device for the submersible buoyancy, the distribution input device for the nuclear waste treatment device, (6) Nuclear power plant (672) Nuclear power plant (6) Nuclear power plant (6) Nuclear power plant (6) Nuclear power plant Nuclear waste treatment system with dual structure block tank reactor building It includes the step of forming be made be made during distribution after input device before the reactor equipment safe operation of the nuclear reactor facility into the nuclear fuel blast controller.

Herein, the nuclear waste disposal apparatus having the reactor building and the nuclear reactor equipment of the distribution injecting apparatus of the nuclear fuel explosion control apparatus are installed in the dual structure block tank reactor structure of the nuclear power plant. The nuclear reactor 811 is connected to the anti- In order to prevent the installation phase and the weather conditions such as earthquakes and tsunamis, it is necessary to set the installation position of the nuclear power plant at the top of the sea level to 40m. In a method of operating a nuclear safety operation device,

Nuclear power plant is installed at 40m above sea level in order to avoid the weather conditions. Barge line height adjustment is performed in the anchor and anchor chain of the mooring device. Key bed, drilling machine, buoy control pump and valve for diving control (107 (595) is a buoyant force generated by hull weight and sea level gravity and generated by the buoyancy of the large marine nuclear power plant, so that the floating oceanic power plant floating ship (595) is slowly floated to the sea. A plurality of bollard (638) for mooring device sailing and fixed-type hull anchoring are connected to a plurality of bollards (638) formed on the top of the holding tank upper barge hull and the holding tank lower barge hull deck deck and the mooring device anchor The anchor 639 formed in the anchor chain 640 for a hook is pierced by a machine winch 137 to the bottom of the sea floor, A method of anchoring the barge ship hull by a mooring anchor ring method after excavating the bottom of the sea with a drilling machine 908 for crude oil when the sea floor depth is deeper than the depth of the continental shelf, And a paddle wheel 185 formed on a hydraulic cylinder 623 of the hydraulic cylinder of the mooring device replacing the mooring device anchor and a paddle folding body 185 operated by the hydraulic cylinder hydraulic pressure pad 623 When the barge hull anchoring is canceled and the hydraulic cylinder hydraulic oil presser 623 operates as a umbrella lifting body, the anchor bolting mooring method in which the barge hull anchoring is formed can regulate the position of the barge hull, The berth is formed before and after the nuclear power plant operation.

In order for the lifting type poisonous ship to be submerged in the nuclear power plant body 1, an air receiver tank 145 for the air storage tank, a cooling fan 645, which is an air liquefier cooling mechanism of the HVAC system, A heater fan 642 that allows the air balloons 77 and 78 to float in the air with rubber balloons 914 and tubing 188 and a heater fan 642 that is capable of inflating war, A satellite launch pad 643 for letting a person in the field out of the earth's atmosphere without any accident, a mooring tower 644 for controlling and controlling the missile on the airship and the nuclear bomb on the satellite and a space rocket launcher 644 equivalent to the satellite, (646) and an air-operated tachograph winch (137) operated by air supplied from the air compressor (80) to the air compressor air compressor (80) .

A hoist rope 19 included in the crane 861, a wire rope chain 915, and an air compressor (not shown) ) Air hose 109 connected to the front of the air tidal winch 137 in front of and behind the air receiver tank at the rear of the air intake tank, and an electric magnet magnet 645 and yellow soil and cement are connected to the lower end SDL of the floating deck hull deck A pipeline line conveying device 916 for conveying the pipeline conveying device 916 in a high pressure hose and a mixing machine mechanical mixer 73 positioned in front of the pipeline conveying device 916, The lever block 123 is provided for each tonnage capacity and is combined in units of the block tanks 598. Then, the turn block 640 is used to fasten the coupling body again and the bolt nut To the steel plate bracket 165 to be engaged After welding with a coupling hole, it is welded to a block tank, so that it can withstand the high pressure at the joint between the flange and the flange. Continuous nuclear operation of the nuclear waste treatment reactor facility of the marine nuclear power plant is formed do.

After the gasket packing and the rubber packing 32 are sandwiched by the gap between the large flange 614 and the large flange 614, the double structure block tank 598 is fixed to the large flange processing hole 615 with high strength bolts and nuts, A double structure block tank flange 614 which is made in the other coupling with the double structure block tank flange 614 inside and outside is formed inside the nuclear power plant body 1 and the high pressure multi stage multi pump pump 8 and the doctor ventilation The valve 195 is opened and the valve disk operation inside the Bell-rotor butterfly valve 622 submerged on the seabed with the opening of the manhole 610 and the hatch cover 153 floats up after the valve is opened and the dual structure vertical holding tank In the lower barge hull, a nuclear waste treatment storage tank formed from the reactor is formed, and a jet bed (616), which is a control unit for the bottom of the barge hull, Ball continuous operation of the nuclear reactor nuclear waste disposal facilities of the marine nuclear power plant in the hole 616, the shaft 606 is adjusted in the bond forms be achieved when the reactor plant safety after the movable former.

A guide rail 618 for conveying deck deck top equipment, a helicopter stop 619 at the top of a floating deck deck, and a hydraulic tank for semi-submerged operation line Cylinder structure key (623), double structure structure type tank frame coupling detachment and block tank connection area double-structure block tank for marine safety work for submerging operation for cutting and welding in the sea (598) A ballast butterfly valve 622, which is a control device for controlling the floatation of the sea surface for submerged submergence of the submerged barge line control flood line installed in the semi-submerging operation line 637 by the band guide 621, Engine It is necessary to take the time required to prevent the sinking and to extend the time of the sinking in the case of damage to the part of the hull part before and after the preparation of the operation of the power motor. (585), which is the equipment of the VISION system, and the SWITCH-ONSITE door, which is the mineral resource intake suction control unit, is opened by the water pressure control inside the float-type poison hull, and the SWITCH- A hydraulic cylinder door 624 and a stopper plate 625 formed of a perforated plate of a plurality of processing holes to block foreign matter from entering the ballast pump inlet and to continuously control the nuclear operation of the nuclear waste treatment reactor of the marine nuclear power plant, It is formed before and after operation.

The air piping line 181 for preventing sinking of the hull and the emergency engine 226 for extending the prevention of hull sinking prevention are provided. In order to prevent access to other ships during the safe marine assembly period, The airbag-type flagpole rubber balloon 628 is connected to the tugboat and the floodplain and the rope connecting rope 629 and the rope connecting knot pawl 630 are provided and the emergency staircase and step 631 A conveyor 633 for mining and mechanical equipment conveying equipment to the outside of the inside of the barge hull 591 and a discharge suction vacuum pump for adjusting the balance between the barge hull 592 and the elevator alibault 636 635) and the air suction line (634) to lift the hull of the sinking ship, the parts are manufactured at marine ship manufacturing factory and heavy industry field, Safety formed by the assembly method tugboat (666) and formed to be made during the entire operation after continuing nuclear reactor facility safe operation of nuclear reactor waste treatment facility of a nuclear power plant to ocean having its equipment the barge elevator position.

It is not affected by earthquakes and tsunamis. It does not allow nuclear reactors of nuclear power plants to explode. It does not cause explosion of nuclear reactors in nuclear fuel chambers so that the environment is not contaminated by nuclear waste. Is formed of a single number of double structure block tanks which are reactor nuclear waste treatment storage tanks formed from the first wall to the fifth wall on the reactor circumferential surface and the double structure block tanks are formed into inner block tanks and outer block tanks, To ensure safe and continuous operation, it is necessary to ensure the safety of the nuclear power plant, ensure the renovation of the nuclear reactor, and provide a nuclear explosion-proof double structure block tank for nuclear waste disposal. A dual structure block in which the reactor of the fuel chamber does not explode The nuclear waste 224 is stored in the block tank 598 through the nuclear waste 224 that has been exploded into the block piping line 74 of the nuclear reactor facility and is remotely controlled during decommissioning of the nuclear reactor, And the robot 700 is stopped and the explosion of the reactor pressure vessel 813 is stopped, the plurality of safety valves 472 are closed and the plurality of safety valves 472 are always closed normally during the operation of the reactor, And the step of forming a nuclear waste disposal reactor facility of a marine nuclear power plant to be carried out before and after the safe operation of the nuclear reactor reactor.

In the meantime, in the nuclear waste disposal apparatus having the nuclear reactor building and the nuclear waste disposal method in the nuclear disposal unit of the nuclear fuel explosion control apparatus,

When the regenerated liquid of the ion exchange resin is liquid in the water leaking from the valve of the nuclear power plant 672 and the water in the building inside the nuclear power plant body 1, 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 used again as a reactor coolant, and monitoring monitoring posts 219 are provided to prevent nuclear radiation pollution both inside and outside the nuclear power plant body 1.

When the ion exchange resin and the filter material are solid in the paper, cloth, work clothes, shoes, etc. inside the nuclear power plant 672 inside the nuclear power plant body 1, the filter sludge, And the like are filled in the drum 220. The drum 220 is filled with the paper or the like to be compressed and attenuated so as to be compacted into concrete. The nuclear waste storage unit 332 and the monitoring monitoring post 219 are further provided for the purpose of treating the nuclear waste by moving and storing the nuclear waste 224 by the forklift, To prevent contamination.

The spent fuel 683 used in the nuclear power plant 672 and the remaining uranium 812 are processed in the reprocessing plant 228 into the nuclear power plant body 1 and then subjected to fluorination Uranium 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 pellets 683 to form fuel rods 689 Plutonium 801 produced and processed at the reprocessing plant is produced at the conversion and processing plant 231 by the fuel rods 689 and these reprocessed fuel rods 689 are returned to the nuclear power plant 672 with the fuel 683 The conversion and processing plants 231 to the nuclear power plant 672 and the reprocessing plant 228 to the concentration plant 230 and the conversion plant 229 are installed on the sunken prevention barge deck On the top of the deck, nuclear waste (224) Provided to the be made to form a nuclear power plant body (1) of radioactive pollution control in and out is.

Since the nuclear waste 224 having a long half life period from the reprocessing process at the nuclear power plant 672 inside the nuclear power plant body 1 has a long half-life, it must be stored for several thousand years. Therefore, The permanent disposal method includes the steps of forming a nuclear waste material 224 buried in the polar glacier with a construction machine heavy equipment hoeing 877 and an excavator 845,

Forming a transition from the nuclear reactor 811 to another material by fission; forming a deep buried layer in the ground or under the ocean;

Forming a dual tubular drum (220) containing a nuclear waste to be transported in a buried area with a ship,

A double pipe structure drum 220 containing nuclear waste is mounted on a space rocket 612 on the upper surface of a barge deck deck 591 equipped with a space rocket 612 and a space rocket launching platform 646 to form a transfer to an outer space The nuclear waste 224 is treated to prevent nuclear radiation pollution both inside and outside the body 1 of the nuclear power plant.

In addition, the nuclear waste disposal apparatus equipped with a nuclear reactor waste disposal unit and the distribution and input apparatus of the nuclear fuel explosion control apparatus are continuously operated at the nuclear power plant to secure the safety of the nuclear power generation facilities and to ensure the renovation of the reactor A method according to claim 1,

The piping line of the reactor 811 is shut off by the safety valve 472 in preparation for a period of three months or longer for the period of time for the repair work to be performed when the inside of the reactor 811 of the nuclear power plant 672 fails within the nuclear power plant body 1 The boiler (783) of the thermal power plant is operated separately, and the connection structure is formed in the reactor power generation facility. Further, the boiler (783) is provided to supply the high temperature and high pressure steam for the emergency power generation operation. In order to ensure the safety of nuclear power plants by safe and continuous operation of nuclear power plant inside the body (1) of the nuclear power plant by replacing the power supply with the thermal power generation facility, it is necessary to pay close attention to the workers in order to prevent radioactive contamination And guarantees the repair of nuclear reactors.

In addition, in the nuclear waste disposal apparatus having the nuclear reactor building and the nuclear waste disposal apparatus of the nuclear disposal unit of the nuclear fuel explosion control apparatus,

When the inside of the building and the air contained in the water inside the reactor 811 are in the form of gas, the activated film type gas hold-up device 213, which weakens the radioactivity when the pressurized water reactor 811 is in operation, And exhausting the ventilation of the power plant to a plurality of symmetric filters 214 and discharging all of the ventilated air from the exhaust tower 215 to prevent nuclear radioactivity pollution both inside and outside the nuclear power plant body 1 .

On the other hand, around the launch pad of satellites and space rockets, a natural loess and disaster prevention material of 1 meter of tug is placed on the deck deck on the deck deck floor of the floating deck, and a round ocher block disaster prevention By forming a wall (15 meters high, 3 meters high), when satellites and space rockets are fired from a satellite launch pad and a space rocket launch pad located at the top of the deck deck, an enormous amount of fuel is burned In this case, the fire heat of high temperature and high pressure generated by the firing of satellites and space rockets is blocked by the fire heat of high temperature and high pressure of the circular ocher block wall of 100 m in diameter. Therefore, deck deck can be held firmly, The means for moving the hull, either in the area of the deep-sea zone or in the 10-meter depth zone, depends on the length of the puncture Cylinder boom for replacement of crucibles for deep sea use Long axis adjustment Seesaw crane When operating a plurality of hydraulic cylinders formed on a boom stand, it is possible to rearrange the hull from two places in front of the hull. If the hull is retracted, It can be used as a ship shelter in a ship's anchorage and is equipped with a nuclear-explosion-proof double-structure block tank reactor building equipped with an anchor and anchor chain, It is urgently necessary to form a nuclear power plant inside the nuclear power plant.

Nuclear fusion is a phenomenon in which atomic nuclei are split into two atomic nuclei with similar mass numbers. Nuclear fusion is a phenomenon in which a mass of small atomic nuclei is united and becomes a massive atomic nucleus. In nuclear fission or fusion reaction, enormous energy is released.

In order to understand the structure of atomic power generation, it is necessary to understand the structure of the boiler (778) and the melting furnace (783) to dissolve the metal because the environmental pollution caused by the nuclear waste can destructively destroy our only earth. Conventional nuclear power plant and a double structure block tank for a nuclear power plant of a newly installed nuclear power plant All of the central control room 781 that controls the operation of a nuclear power plant by a nuclear waste disposal apparatus equipped with a nuclear reactor building and a distribution input device of a nuclear fuel explosion control apparatus Computer processing of things is equivalent.

In the existing nuclear power plants of the nuclear power plants in the world, the boiler and the reactor of the thermal power plant are technically different, but the method of generating power by rotating the turbine by using the high-pressure steam is the same, This concept, which includes measures to protect the environment from disasters, includes prevention of accidents and alleviation of accidents, mitigation of internal (O nS ite) and external (O f f S ite) to minimize the effects of radioactive leaks in case of serious accidents Measures are prepared. In addition, it is classified into the proven engineering methods in general technical principles, quality assurance, human safety evaluation and verification, and radiation protection and operation experience. In nuclear essential safety requirements, core safety requirements for preventing nuclear radiation leakage As follows.

First, control of various types of reactor 811 outputs,

Second, the continuous cooling of the fuel 681,

Thirdly, it is necessary to control the reactor output when the reactor is in normal operation, and to be able to stop the reactor surely if it is out of the normal state.

Since the reactor continues to generate residual heat due to the radioactive decay of the fission products even after being stopped during normal operation, the cooling of the fuel (683) must be continuously ensured.

If only the above two requirements are met completely, the external leakage of radioactive material from the reactor is completely blocked.

However, if the fuel fails to cool, the core (681) melts due to the collapse heat, and radioactive material may leak out of the reactor.

Therefore, the function of releasing the radioactive material into the proper wall is required, and the containment vessel is the most important function. Several safety equipment and means applied to the nuclear power plant are controlled by one or more of the above three requirements directly so that the nuclear reactor reacts slowly to the nuclear power plant, A waste disposal apparatus, and a nuclear fuel explosion control apparatus.

Hereinafter, the structure of the nuclear fuel (683) of a nuclear power plant constituting a nuclear waste disposal apparatus having a nuclear reactor building and a nuclear fuel explosion control apparatus as a double structure block tank reactor structure for a nuclear power plant will be described in detail as follows I will explain.

The electrons are composed of the nucleus 815 and the surrounding electrons and the nucleus 815 is a nucleus 815 in which the proton 820 and the neutron 821 are energized by a strong nuclear force (a bonding force between the proton and the neutron in the nucleus) .

]쯤 이나 그 질량은 원자(784) 질량의 대부분을 차지한다.The radius of the nucleus 815 is about 10 ^-14 m and the neutron 821 of the nucleus 815 is electrically neutral and the mass is almost the same as the proton 820 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 (helium atom) is a nucleus in which a proton and a neutron (821) are bonded together. The charge of an electron (the static electricity that an object undergoes [the electricity that stops on a rubbed object]] and the amount of static electricity ) Is negative (-) and the proton's charge is positive (+). The charge of the same sign repulses each other and the charge of the other sign pulls each other.

The number of protons (820) in the nucleus (815) is equal to the number of neutrons (821). The number of protons in the hydrogen and isotopes of trihydrogen is one The number of neutrons is the same, so it is called isotropic trihydrogen in light hydrogen and heavy hydrogen. Assuming that the number of protons 820 plus the number of neutrons 821 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 atomic nucleus of uranium (815) is a model of a neutron red bead. The paranoid bead is a proton, the isotopes uranium 238, uranium 235, and uranium 234 vary in weight depending on the number of neutrons. First, uranium 238 is the most abundant uranium, but unfortunately it can not fission. The following are uranium 235 and uranium 234, which are only slightly contained in the natural uranium, so it is uranium 235 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 electric charge of the atomic nucleus (815) of Ura 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 821 is electrically neutral, it is easy to access atomic nuclei 815, and of course colliding is also simple.

When a neutron collides, the uranium 235 is split into a colorless odorless gas that is slightly oxidized in the air while the pale yellow barium or silvery white barium is oxidized well in the air. At the same time, two or three neutrons 821 protrude A large energy is generated.

The number of protons (820) in the nucleus (815) is equal to the number of neutrons (821). The number of protons (820) in the hydrogen and isotopes of hydrogen isotopes The number of neutrons (821) is different because of the number of neutrons (821). The number of neutrons (821) plus the number of protons (820) Half-life is shorter than uranium 238 to 4.51 × 10 ⁸ years (679).

The uranium nucleus 815 is a model of a red bead that is a neutron 821. The paran ball is a proton 820, which contains uranium 238 (812), uranium 234, and neutrons 821 to uranium 238 (679) Uranium 238 (679) is the most abundant uranium, but unfortunately it is not capable of nuclear fission, so uranium 235 (812) and uranium 234 are not contained in natural uranium, It is uranium 235 (812).

The atomic nucleus formed by the collapse of the radiation nucleus 815 contains a property that it becomes unstable to become even a little stabile. It is a natural collapse, that is, it emits gamma rays to alpha particles or beta particles itself to become a stable atom 784. Uranium 235 (812) has the greatest property. So the main role 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 820 having a charge of + are collided with each other, they repulse each other by the law of charge and cut off the protons 820.

Since neutron 821 is electrically neutral, it is easy to access atomic nuclei 815, and of course colliding is also simple.

When neutron 821 collides with uranium 235 (812), uranium 235 (812) is split into barium (pale yellow or silvery white barium is well oxidized in air) or krypton (krypton is a colorless odorless gas mixed slightly in the air) A large number of neutrons (821) protrude out of the cell.

Originally, uranium 235 (812) absorbs slow neutrons 821, but neutrons 821, which are fresh from nuclear fission, can not catch neutrons 821 because of their high velocity. In order to slow down the velocity of fresh neutrons from nuclear fission, Or heavy water (heavy water refers to water having a higher molecular weight than ordinary water) or a moderator such as graphite (819).

If a heavy object collides with a neutron (821), the neutrons (821) fizzle out, but if it is a particle of similar size, the neutrons (821) will eventually become thermal neutrons because they are splashed. Thermal neutrons are not hot, Neutrons with energies of less than leV (electron volts) are called thermogravimetric, and their neutrons collide with other uranium 235 (812), causing fragmentation and collision. 1e V to 1k e V are called low-speed neutrons (812), and 100k e V to 10M e V are high-speed neutrons (821).

After two or three neutrons (821) are formed in a single fission, I think that the number of neutrons can be increased when the chain reaction is finished. If the number of neutrons 821 is large, the chain reaction becomes excessive, and the energy generated at the time of nuclear fission exceeds the danger level. Then, the reactor 811 which exploits the fission chain reaction in an ideal state is exploded.

In order to prevent such an explosion, a control rod 798 made of cadmium is inserted in the reactor 811 to control the chain reaction of the fission, but since the control rod 798 eats the neutron 821 generated from the fission, The moderator 819 lowers the speed of the neutron 821. In nuclear fission, the speed and number of neutrons (821) 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, there are two or three neutrons. If the chain reaction is over, I think that the number of neutrons can be increased, but that is not it. If the number of neutrons is too high, the chain reaction will be excessive, and the energy generated when the nuclear fission breaks out will exceed the danger level. If this happens, a nuclear reactor that exploits the fission chain reaction in an ideal state will explode. In order to prevent such an explosion, To control the cadmium control rod is inserted, but the control rod eats neutrons generated from the fission, so the moderator slows the speed of the neutron. In nuclear fission, the neutron velocity and number are regulated by the horse reins and the dorsal horns. When 1 kg of uranium 235 is broken, neutrons bounce out in barium and krypton. When compared to the original uranium 235 1 k g, 1 g is lighter Loses.

Einstein's E = mc ² equation shows that this lighter mass is converted to the kinetic energy of barium and krypton and neutrons, which is theoretically the same heat as when a mass of about 1 g is about 2150 tons of oil at a time. Actually, the energy of 1 kg of uranium 235 is 20 billion kcal of energy. If gasoline is used, it can be 500 times as long as the car, 300 tons of coal, and 2 million liter of oil. And if one neutron is used to split one uranium nucleus, two or three neutrons will be released,

Hereinafter, a detailed description of the scope of a nuclear waste disposal apparatus having a nuclear reactor building and a construction machine of a dispensing apparatus of a nuclear fuel explosion control apparatus with a double structure block tank reactor building for a nuclear power plant according to the prior art level The following description will be given in the scope of the machine management method as described below.

In other words, a construction machine is a generic term of all machines used for construction work, that is, a construction machine and a medium-sized machine used for excavation, transportation, traction and the like using power obtained from a prime mover. The construction machine of the present invention will be described in detail as follows.

First, the range of the bulldozer is the infinite orbit and the tire equation; the specification is self weight (t o n).

Second, the excavator range is more than one ton with an excavator in infinite orbital and tire type; the specification is self weight (t o n).

Third, the road range is more than one ton with a loading device in infinite orbital and tire type; standard bucket capacity (㎥).

Fourth, the range of forklifts is to have a lifting device in the form of a tire; the specification is the lifting capacity (t o n).

Fifth, the scope of screipers are voluntary with soil and sand excavation and conveyance; standard is the ball capacity (m 3).

Sixth, the range of the dump trucks is 12 tons or more, but not more than 12 tons of cargo capacity and less than 20 tons of cargo.

Seventh, the range of the crane is an infinite orbit and a tire type, with steel pylons and pivoting devices, except for the rails (standard) capacity (t o n).

Eighth, the motor grader range is an autonomous one with a stop; the standard is the blade length (m).

Ninth, the roller range is 1. Voluntary with adjustable and voltage devices.

The tenth, safety guard range is a voluntary one with safety measures; the standard is the capacity of the fluid tank (ℓ).

The eleventh concrete batching plant range is aggregate reservoirs, movable, with metering devices and mixing devices, with prime mover (ton / hr) of concrete per hour.

Twelfth, the concrete finisher range has prime movers as well as clearance and mover; the standard is the standard width (m) that can be constructed.

The third, concrete spreader range, with prime mover, with prime mover; the standard is the standard width (m) that can be constructed.

Fourteenth, the concrete mixer truck range is self-propelled with a mixer, which includes the attachment of an auxiliary device for the input and discharge of material; the specification is the amount of concrete (m3) that can be mixed in the container more than once.

Fifteenth, the concrete pump range is a mobile and truckload with a prime mover of more than 5m3 per hour of concrete delivery capacity; the standard is the capacity (m3 / hr) per hour of ascon.

Sixteen asphalt mixing plant ranges are aggregate feeders, dry heaters, mixers, asphalt feeders with prime mover (ascon) capacity per hour (ton / hr).

The seventh, the asphalt finisher range, is a standard with a prime mover with pruning and finishing devices;

Eighteenth, the asphalt spreader range is self-propelled with the asphalt spreader; the specification is the capacity (ℓ) of the asphalt tank.

Nineteenth, aggregate spreader range is self-propelled with aggregate sprayer; standard is bedding width (m).

20th, crusher range is movable with a prime mover of 20KW or more, standard (㎥ / hr).

Twenty-first, the range of the air compressor is that the air discharge amount is more than 283 ㎥ (7 ㎏ per ㎠) or more per minute, and the specification is the air output per minute (㎥ / min).

Twenty-second, the perforator range is self-propelled with a perforator;

Twenty-third, horseshoe and anti-erectile range with a perforator, the hammer and flushing device weighing more than 0.5 tonnes;

Twenty-fourth, the sowing range is the one with the sowing device and the prime mover;

Twenty-fifth, the dredge range is pump type, bucket type, dipper type and grab type and visa type; Specification is P8 and ㎥.

Twenty-sixth, the special construction machinery range is machinery with structure and function similar to those of the construction machinery of No. 1 to No. 25, which is specified by the Minister of Construction and is located inside the body of the shared water surface embedding system. A double structure block tank for a reactor plant of a nuclear power plant formed before and after a shared water surface treatment process. A nuclear waste treatment apparatus having a nuclear reactor building and a distribution apparatus of a nuclear fuel explosion control apparatus are provided with a construction machine. &Lt; / RTI &gt;

Hereinafter, the machinery having a construction machine connection structure constituting a nuclear hydroelectric power plant will be described.

Hereinafter, the details of the classification of the construction machine are as follows

First, the digger 855 and the scraper 859 are separated into an excavator 856 and a luther in the excavating machine. Next, the excavator 854 is a basic operator, and a steam hammer 884 is installed in the pile driver 882 and the diesel pile hammer 883, And separated into a hydraulic crane 885 and a tower crane 886 by a crawler crane 887 and a truck crane 888 in the next crane 861

The loader 857 in the fourth loading machine is separated into the shovel loader 857a and the payloader 857c to the palletizer 857b and separated into the next stopping machine by the motor grader 864, The asphalt finisher 871 and the asphalt distributor 871a are separated by the tamping roller 891 and the tire roller 892 in the tandem roller 890 and the concrete finisher 866 in the following packing machine. The conveying machine is separated into a dump truck 860 and a tractor 893 and a trailer 894 and a fork lift truck 858 by a conveyor 633 after separated into an asphalt mixer 865 and an asphalt mixing plant 870 by an aggregate duster 873. [ The dredger 879 of the dredging machine is separated into a pump dredging line 879a and a bucket dredging line 879b by a dredge dredging line 879c and a grab dredging line 879d. The crusher 874 and the air compressor 875 and is formed at the upper end of the deck deck of the barge main body 591 to be used for excavation, transportation, traction, etc., and an unmanned camera 184 is attached to an underwater light 843 and the like, Is isolated from the respective construction machine body and the manner of operation of the unattended monitor 52 is selected

A more detailed description of the construction machine, such as the road,

First of all, a soil construction machine is used in which a clay board (straight type, angled type, etc.) is attached to the front part of a tractor and an auxiliary device such as a ripper and a rooter is attached to the rear surface, to be.

In other words, it is the most basic earthworking machine of the construction machine, and it is a compound term of fire (bull) + dozer (resting machine). It is a powerful pushing machine that releases the bull from labor.

In the present invention, there is provided a wind power generation marine power plant (marine bar structure as a barge ship main body) according to the present invention, in which a plurality of water intake facilities and water supply facilities are separated into power generating facilities and waterproofing facilities, A water turbine generator in which a water turbine generator hole is formed is installed and a mobile aerator generator having a plurality of generator holes formed in front of the whole of the fixed aerator generator is installed and then the mobile aerator generator is rotated, The kinetic energy of the fluid and the kinetic energy of the fluid are determined according to the amount of balance of the water pressure of the hydraulic pipe in front of the aberration from the reservoir, and the aberration and the generator can be disassembled and assembled, The dam on the land that will be produced. The water-cooled generator and the tube of the ocean. The present invention relates to a trench-type seawater-type feng-shui power generator facility for simply developing an environment-friendly industrial power of a marine power plant formed by joining a tidal power generator, And to set the position energy of the fluid and the position of the mechanical energy generation equipment precisely.

In order to prevent the damage of the lightning bolt in the occurrence of thunderstorms in the worsening weather condition, which guarantees safety of the power plant equipment, the uppermost part of the upper part of the barge main body is provided with a lightning rod, Meteorological Observation Equipment Radiosonde and weather observation equipment mounted on an adver- bulon or an airship An unmanned camera integrated in a weather radar was installed on the upper part of the steel tower and a dam or a water intake dam was installed on the lower part of the steel tower in a multi- The partition wall is provided with a plurality of eco-friendly, non-polluting energy generating wind turbines, in which fluids introduced into a water supply facility such as a plurality of pressure water passages of the intake port and hydraulic pipes of the pressure water tank are connected to the rotors of the Francis aberration or the Pelton aberration, Hydraulic irregular type water turbine generator The water flow of the watertightness and the watertightness section of the waterproofing section including the waterproofing facility is switched to the amphibious power generation, and the installation position of the flow control valve is accurately determined at the inlet of the multi- In order to supply pollution-free electric power to each region of the global village, it is necessary to supply the power of the feng-shui-type feng shui power generator, It is a feng shui power generator with remarkable difference.

By integrating a water turbine generator of the eco-friendly wind power generator of the present invention, it is possible to prevent the submarine water depth from sinking in a region of 10 km, and to improve the marine environment industry and eliminate resource depletion of the world. The control pump is installed at the upper and lower sides of the barge. The unmanned pipe bridge is provided with power supply to the inside of the tethered toothed body, and more specifically, to the undersea bottom of the sea (including offshore, underwater, Natural gas or crude oil energy resources, seabed mineral resources, manganese nodule, or other mineral resources, and to deepen economic development cooperation between the countries of the five major regions of the world, and to solve the obstacles to economic development caused by depletion of global resources. Eco-friendly energy resources for supplementing alternative energy resources A wind turbine generator, a tidal generator, or a hydropower generator and a tidal generator are installed alternately in order to replenish eco-friendly energy resources, and further furnace a melting furnace capable of processing submarine mineral resources with solar energy. As a maritime station, it is used as anchorage for ships or aircraft, and it is a transportation device connecting the five major ports of Daejeon and Daejangju. It is a source of essential resources for the construction of marine piers and submarine tunnels. It is a treasure ship that has already been sunk in the past according to the depth of the marine water depth of the global marine structure, or a submarine, Secure passenger ships, fishing boats and cargo ships. A 10 km to the bottom of the floor, and a transportation system that can raise the submarine mineral resources to the support tanks and auxiliary supporting tanks. A searchlight that replaces solar heat and light, an air compressor that feeds fresh air to the bottom of the sea, or a meteorological observatory over the sea, a spray nozzle of a disaster prevention device, and a doctor ventilation system. Module to power motor module system for power use, and a large-capacity battery production method for power saving caused by naturally occurring lightning or lightning stroke. It is an iron structure for achieving marine power generation after the trouble is solved. The power plant is installed at a distance of 1km at 100M.

In the above-mentioned power generation facilities, the body of the feng-shui power marine power plant emits the disaster prevention water (seawater) stored in the double-walled tank block inside the hull of the floodgate according to the gravity and buoyancy of the sea without being sunk by the high pressure multi- The air is compressed and stored in the tank block by a fan (FAN) or an air compressor, the submerged state is canceled and the barge body is slowly lifted by the buoyancy, and then the upper end of the sea surface (SLU) The ballast control valve is opened so that the main body of the barge is submerged in the bottom of the seabed at the time of removal or disappearance by a plurality of seizure type disaster prevention apparatuses. In the case where the electrolytic water is sucked into the tank block by the multi- It is used as a versatile so that it can sink safely and slowly into the bottom floor. The bottom of the barge main body at the bottom of the holding tank is constructed by the operation of the air compressor, and the bottom of the bottom tank of the holding tank is operated by the operation of air compressors. Is composed of a large number of large hydro generators which are constructed to operate up and down a large number of rubber tubes for air supply for inside the container so that a water turbine generators can operate 1000 meters higher than the upper part of the sea surface. However, as an environmentally friendly pollution- A plurality of transformers and power wires are formed to supply power to the machine

In this way, we will promote the development of environment and industrial economy in the field of political economy and diplomacy between countries and countries around the world, and to detect the future disasters in advance, Multi-purpose multi-function combined with disaster prevention to achieve marine environmental industry development including multi-purpose multifunctional combined with artificial disaster and natural disaster prevention combined with numerous disasters on land in unspecified areas beyond borders. The deck top deck of deck type deck top deck is used to supply and supply electric power, but the means of solving resource depletion on the land, which is the source of the obstacles to national economic development around the world, And double pipe structure piping made of iron plate Is installed at the bottom of the sea floor in accordance with the depth of the unspecified water depth so that it can be separated from the sea and combined with disaster prevention equipment for procuring crude oil and natural gas, And is equipped with an electronic control device of a plurality of disaster prevention nozzles and a multi-stage multi-stage pump control system, an advection sensor of a detection sensor and a weather observing equipment system, a rubber tube for airship and air input, a wire rope and a rope, Is formed by means of distributing the load of the tunnel pot to ensure the life of the object and to fix and secure the object

The engine function installed in the integrated equipment is operated by the equipment of the large generator system to supply infinite power to the whole world and supply electric power to the multi-stage disaster prevention pump control system equipment of the marine safety HVAC system, And the means to mitigate a number of disaster catastrophic disasters such as turbulent typhoons and storm surges in the waters of the Pacific Ocean, It is a versatile, multi-purpose disaster prevention device equipped with all kinds of torpedoes of the storm level around the time of disaster, such as torpedoes and flood droughts, fire extinguishing devices and undersea exploration equipment. In order to prevent terrorism, a missile or a nuclear Includes the operation of a telecommunication equipment system, a space rocket launcher for exploration of space equipment outside the Earth's atmosphere, and a maritime manufacturing and installation operation of offshore structures capable of sporting events around the world. (Auto-sensing) the reserves and buried locations of crude oil and natural gas, which are iron ore minerals and iron ore resources on the bottom of the ocean floor, Submersible barge line with integrated high-performance submersible pump system in electronic control pump and injection type air compressors. Adjustable flood control system. Score of achievement of acquisition of submarine resource reserves.

Generally, a marine power plant body formed by a feng shui power generator is referred to as a ship's dock for drying or repairing or for loading and unloading a ship, but is attached to a rope at the tail of an air tug boat The steel-free steel hull, which is dragged, is referred to as a barge, and the steel bar, which is a high-strength steel of marine iron structure in a double-pipe structure type, is machined into a block pipe for a tank in an industrial field so that the barge is not sunk in a 10- And an odd number or even number of potter block plates are provided at the upper and lower ends of the main body of the barge at the upper end of the holding tank as a holding tank and an outer supporting tank for the inner supporting tank. And a potter bluff pin, and then the table table legs and the slightly inclined slope The bellyst butterfly valve is opened to the inside of the block pipe so as to submerge the leg of the block, while the bottom of the block is filled with the electrolytic water from the diving site, The coupling shaft and the lug pin are connected to the plate processing hole for the porter block at the joint joining point so as to be lowered, and the score is calculated according to the number of joining parts at the sides of the slope, Level seesaw type power generation facility which is able to regulate the inflow by combining the game of Ganggang Suwolai game and the game of hide and seek in water

On the other hand, there are many disasters such as typhoons, harmful red tide, yellow sand as a level to eliminate disasters, and furthermore, the standard of preservation management of flood, drought and ice age due to global warming phenomenon has not been universally systemized yet, It is a sad reality because it is very short. The various disaster countermeasures have been continuing at low speeds and lukewarm conditions in the unspecified areas of the country, including man-made disasters, so that the anxiety, concern and anxiety of the people around the world are increasing day by day. This is accomplished by ensuring the pumped-water power generation function of the non-powered pump while eliminating the above mentioned difficulties by means of a number of openings in the brass-inverted turntoxic body.

As a result, natural and man-made disasters are caused by war, terrorism, large-scale fire, large-scale fire and maritime piracy, causing diplomatic problems, and filling up cyber space with international social issues of economic instability level. Of the present invention is characterized by the present invention being equipped with a machine and an apparatus of the present invention which makes an accident news before unexpected disasters such as an unmanned camera, The factors behind the occurrence of the above-mentioned disasters will be described in reference literature.

[Reference 3] Ministry of Environment 2004 Environment White Paper Publication Registration No. 11-1480000-000586-10 and Weather Climatic Warming Tropical Route on the Climate Regarding the harmful red tide in 1980 and the harmful red tide microorganisms issued by the Fisheries Science Institute, information on peaceful reunification of the Korean peninsula The contents were published by the Ministry of Land, Transport and Maritime Affairs (published in December 1970 and published in 1971, as well as in the 1990s, and the Technical Specification of Semi Submersible Drilling Rig- Aug. 24th, 1984), the fire safety standard of the firefighting and firefighting agency under the firefighting agency, and the manual for selecting materials in English, German, Swedish, Chinese and Japanese) (HVAC) system for testing and the NWCD system of the present invention not registered in the prior art document, In order to solve the contradiction between the two countries, which are promoted in the wrong direction, and to promote political and economic development on the Korean Peninsula, which aims at peaceful reunification, We will give priority to the ambition and desire of human beings to the level of suggesting the direction of peaceful coexistence of Asia and the Far East to the people of the neighboring countries and the unspecified political leaders surrounding the Korean Peninsula, (Political leaders, environmentalists, development theorists) through an unmanned camera (CCS Tv) 184, the status of the unspecified number of people (political leaders, environmentalists, development theorists) ), It is important to note that the position energy of the fluid and the We set the position of the power generation facility precisely and supply the electric energy to the global village without any accident.

In this way, the present applicant is called a "human frog" as a people of the international community and a citizen of the people, and an unspecified number of political leaders are called "fashionable children" and the unspecified number of political leaders after World War II as " Quot;

The Korean Peninsula is located in the vicinity of the Yellow River Civilization Cradle. It is a pre-eminent country that maintains a long tradition of half-a-century history with a silvery and tenacious history. And the peaceful days are coming. When it comes to the gesture, it is this. It is that it is random and randomly laid out at will, the two big ideological disputes in the middle of this, The ideological Samchonri Kangtou is a mischievous mischievous child, and the fact that the country is born by the children ' At this time, a fashionable child is a squirrel, a wheel that turns around and is buried without a name in the wheel of history. Many patriotic branches are the ones who have led the government of the Shanghai temporary revolutionary government, the grandfather of the invention inventor of the present invention, As the applicant, the human frog is a traditional blood donor with root. The secret document of the revolutionary government has been lost after the incidents of scandal over the headquarters of the revolutionary government, and the unlisted matters that were not reported to the media during the period from 1910 to 1945 were lost This is all due to a bunch of guns and bullets in the hands of naughty sneakers. At that time, there was no justification for the legitimacy of both the traditional and legitimate sides of the rumor. 1950. On 25th of June, the people of South Korea came under the pretext of liberation of the people. The rumor and the mischievous child were transformed into a scary child. The tragedy lasted for three years 1953. On July 17, 1951, another military demarcation line stopped 155 miles offshore, including NLL, 2 kilometers to the left of the Central Military Demarcation Line, This area is shared by about half of the area of about 1,000 square kilometers as the demilitarized zone of the South and North Korea. The area is managed by the United Nations forces in the international community, and its area is unexpectedly the area of the administrative district of Seoul. In the area mentioned above, there is a lot of space for the view booster and anti-tank mines, which are called as the demilitarized zone, and when the winter comes, it becomes the snow field. When the summer comes, the flood drought and the end of the division are finished. Do not know what to do (Do not Know, do not you know?) Do you know the troublemaker naughty? The frog that is in the pond or playing at the pond is resting. As a human being, the so-called warrant of all things, whether a demilitarized zone or a border line, the parties to the dispute are to provide 500,000 square kilometers of iron around the triangle zone as a paradise for the future generations of humanity in the Pyunggang, Cheorwon and Kwanghwa regions. It is the responsibility of the people to solve the question of how long the tragedy of the division will last without sharing the blood relationship and the homogeneity of the nation because of the blocking boundary of the division. And obligation to fulfill its responsibilities and obligations as an unspecified number of international organizations. At this point, many human frogs on the southern tip of the barbed wire and the human frog on the northern end of the barbed wire must be peacefully unified on the Korean Peninsula without losing their lives on walking or crawling from Baekdokdam to Baekdusan, In order to ensure the peaceful coexistence of the Korean peninsula in Northeast Asia, the history of the neighboring countries of the Korean peninsula was restored to its previous history in 1910, The quality of life is a level to move forward, because the time can not be reversed, but the history of peace can be turned. Peace of Creation is not merely a word but the present applicant as an aesthetic for the future as an auspicious grace of the ancestor in and out of the world many times, The government of the Republic of Korea is expected to be reborn as a child of the level of fashion, and the solution is also expressed together with the solution as follows: By the Free of Charge method, Maintenance.

Therefore, only those who were born before the 1940s were allowed to travel unmanned to the uninhabited area for the freedom of travel so that a large number of human beings (human beings in the world) could travel on the southern and northern tip of the armistice In order to appease the wartime after the war, troubled troops (unspecified majority political leaders) are required to travel safely to the United Nations peacekeeping agency of the international community regardless of the political ideology and ideology of the south and north, As a result of pursuing the life of mankind, which is superior to wind, such as the wind that passes through the iron fence line freely, the so-called warrant of all things as mentioned above, In order to achieve the succession development of tradition under the noble and holy conception of As a feature of the invention, to participate in the international community order to be fully adapted to the order of the people, the commercial explosives inside the Demilitarized Zone will be eliminated by consultation between practitioners in the North and South, half of the area will be returned from China, The Dokdo of the East Sea and the Sea of the Yellow Sea shall be established in the South Sea, but the way that the monotheistic poison becomes the maritime sovereignty boundary and transformed into a means of defending the territory and the territorial sea, It is a device that is formed as a cushioner of a gap in a powerful country to store the treasure of the mechanical civilization. It is a feature of the present invention that a peaceful global village is formed. The generation and disappearance of 1,000,000 nuclear bombs potential calories per year To be installed according to the sea depth Medium, and large marine power plants.

In general, the floodplain of the prior art (barge main body) is not well conditioned even in a region where the depth of the sea floor is less than 10 meters, so that the bow portion of the barge hull, the aft portion, the left side of the hull, And the water crane is mounted on the top of the hull deck deck. Then, the engine or water turbine generator is operated and power is supplied to the control pump device, and a wire rope or a rope mooring device Considering the fact that it is used as a marine control ship after being fixed, the marine power plant mooring facility is installed with a bridge type saddle formwork of fixed type double pipe structure tank bridge pier

As described above, the marine power plant body of the present invention has a double-pipe structure holding tank and auxiliary tank separated and coupled according to the depth of the sea so that the sea bottom is not sunk even in a bad weather condition in an area of 10 km or more, And a hinge connection method is used for each of the lug and bulldozer main body of the barge, and the hanger connection method is used. After the assembling by the hinge coupling method, the upper part of the floating deck deck is used to produce electric power using an environmentally friendly pollution- After that, it supplies the injection nozzle control electronic control pump machine room and the power motor control module device of the electronic pump control system to the crude oil drilling drilling machine, the air compressors, the submarine mineral resource search lights that produce manganese nodules, The power supply is first supplied to the suction sampling machine and the collecting robot. In order to provide the required power, mineral resources and energy resources on land by means of mid-line wiring, the piping or hermetic transport system's lematic system is used, As a result, the literature on the background technology of the hydraulic power plant of the prior art level is described as follows

In order to allow a person skilled in the art to understand the background of the above-mentioned power plant (land-based hydroelectric power generation) hydraulically and hydraulically and hydraulically by the person skilled in the art by means of a more detailed explanation, The following is the explanation of HyePo and HaDo, which are formed by combining technology and large scale power generation facilities. First, about the overview of hydropower plants

Since the hydropower plant is a facility that utilizes flow and dropping, it should always be constructed so as to securely obtain the flowrate necessary for power generation, and also to minimize the loss of lift and flow. Hydropower facilities in hydroelectric power plants are divided into four types according to their function: water intake facilities, water supply facilities, power generation facilities, and waterproof facilities. However, these facilities are designed to be suitable for the terrain, You have to plan to make the best use of the hydraulic power you have.

There are various structures in the equipment used in each facility. Depending on how these are assembled, the structure of the power plant is classified as a lowland. Here, we will briefly review the overview of hydroelectric power plants for hydroelectric power plants.

In order to get the water of the charge for the hydroelectric power generation, the facility which blocks the water in the direction almost perpendicular to the flow of the river - this is called the water intake dam - and the facility which takes water in the water just upstream of it - .

The water taken from the intake port is guided to the water tank in the upper part of the power plant through the water channel to obtain a drop. This is sent back to the aberration through the water pressure pipe, where the potential energy of the water is converted into mechanical energy and electrical energy is generated by the generator. The water that is used is discharged to the river again through the watertight path. In this process, sediments are formed in the vicinity of the withdrawal port to deposit sediments in the effluent. In addition, a waterway is installed in the water tank to suddenly reduce the load, and when the water level exceeds the specified value, surplus water is discharged to the river safely. Among them, the area from the water intake point to the water supply entrance is called the waterway.

There are two types of waterpipe: pressure waterpipe, which is pressurized as a whole, and unsponsored water, where the upper part of the waterpipe is in contact with the atmosphere. The constant water tank is used for the natural downfall type. If it is a pressure water tank, the tank water tank is used instead of this water tank.

On the other hand, in the case of taking water from the reservoir or adjustment, these pegs themselves act as a function of the gypsum, so no gypsum is installed. In addition, in the dam-type power plant, the reservoir was operated as a constant tank, so no water tank was installed.

Second, in the power generation dam,

If the power generation dam is classified according to its application, it is possible to use a simple intake dam used for a hydroelectric power plant, a slightly larger dam used to increase the water level on the upstream side in a dam-type hydroelectric power plant, There is a huge reservoir that makes reservoirs by adjusting the valleys and rivers (dam-type power plant).

Here are some important things to keep in mind when building a dam: First, it should be rationally designed to be safe even when receiving floods and other external forces. The following dam type should be selected as the most economical considering the topography and geology, and after the selection, Soon it was said to be a drainage - that the damage to be done should be reduced to a minimum, and that the maximum flow rate should be safely discharged even during the flood, so as not to endanger the power plant and all downstream facilities.

According to the purpose of the power generation dam, the intake dam and the low water dam are formed

First, in the intake dam,

Waterfalls Generally, the height and width of dams are not so large.

Next, in the low water dam,

The dam is used to increase the water level in the upstream side to obtain a drop, and to be able to control the quantity through the season or year. It is as described above that it is divided into the adjustment area and the reservoir depending on the magnitude of the adjustment ability.

According to classification of materials used for power generation dam, a rock dam is formed in concrete dam and dirt dam

First, in a concrete dam.

Cement, sand and gravel mixed concrete is used as the dam, which is the most widely used dam because it has high stability.

Second, in a dirt dam.

Sand, gravel, clay, etc. are properly mixed and constructed. It 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, as shown in the drawing.

In the third rock dam,

It is economical when such rock materials are procured locally as well as dirt dams using mainly rocks as building materials. This dam can make the dam higher than the dam, and the stability is high, but it is necessary to strengthen the foundation because the weight is large. This is a kind of gravity dam as well as a dirt dam.

According to the mechanical structure of power generation dam, a gravity dam is formed

The gravity dam is the most widely used type at present, and the stability of the gravity dam is maintained with respect to the external force by its own weight. This dam should be in a place where there is a solid rock mass, because large pressure is applied to the base part.

Gravity dams are mainly constructed of concrete, but other dirt dams using rocks and rock dams using rocks are also used as gravity dams. Hado is an explanatory diagram of a concrete gravity dam.

Third,

It is installed on the upper part of the fixed dam to close the upper part of the dam to increase the water level on the upstream side to facilitate the water intake. By opening this water to flood, it prevents water level from rising excessively, It has the function of letting out the salvage. There are several types of gates used for this.

First, a sloshing gate was used, which is the simplest water gate used for a small-scale dam. The gate is usually constructed by vertically opening and closing a rectangular gate.

Next, a roller gate is used, and when the sloshing gate becomes large, the frictional resistance between the door frame and the door contact portion becomes large. Therefore, the roller is used to reduce the friction. The wire rope and the hoisting machine are usually used for the upper and lower operation of the water inlet.

Next, a rolling gate is used, so that a cylindrical gate made of steel is installed at the top of the dam, such as a sidewalk, and the sidewall is rotated to open and close the sidewall. This structure is robust and can withstand impacts such as oil spills, and is thus widely used in water intake dams and the like.

Fourth, the installation of hydraulic pipes

Generally, a water pipe from a water tank (or a seawater pressure tank) to a water turbine inlet of a power plant is called a water pressure pipe, and a workpiece for supporting the water pressure pipe and the like are collectively referred to as a water pressure pipe.

The position of the hydraulic pipe should be a straight line as short as possible according to the position of the water tank and the power plant. The diameter of the hydraulic pipe should be 3 ~ 5 [m / s]. In addition, there are one water pipe and one water pipe. However, in case of low water level or low water level, there may be one water pipe for two water turbines.

The pressure tube should be determined so that the thickness t [cm] of the tube will be sufficient to withstand the maximum water pressure applied to it, since the pressure of the water pipe,

It is assumed that the diameter of the hydraulic pipe is D [cm], the maximum water pressure is P [kg / ㎠], the allowable stress of the steel material is σ [kg / ㎠], the pipe joint efficiency is η [%] If the allowable thickness is ε [cm], the tube thickness t [cm] is calculated by the following formula.

A watertight path is used after the next aberration.

This is a channel for discharging the water coming out of the aquifer to the original river.

The structure of the waterproofing basin is almost the same as that of the blind channel previously described, but it was necessary to select a place as deep as possible as possible to smooth the flow of the river, and to discharge it in the same direction as the flow of the river.

The principle of hydropower generation is explained as follows.

Thermal energy from coal, oil, and other underground resources among the energy resources currently on the earth is destined to be depleted in the future and is expected to develop nuclear power in recent years, but water energy is infinite as long as the universe exists I can think.

In Korea, we have recently made a large dam to create an artificial reservoir to control flood, develop and irrigate.

In addition, water has energy of pressure and position, and in the natural world, there are many light oil retained as a form of potential energy. This position energy can be changed into kinetic energy and pressure energy, or kinetic energy alone, so that it can be converted into mechanical energy.

If the generated power of water P kg · m / sec is H m, the flow rate is Q m 3 / sec, and the specific weight of water is r kg / m 3

Therefore, the hydraulic power is determined according to the drop and flow rate. Fall was generally constant if the condition of the stream or source was determined, and the flow rate was related to the watershed and rainfall

Since the output generated here is proportional to the product of the drop and the yield, it depends on the pavement hydraulic power at the top of the power plant. Also, in order to increase the output at this time, it was necessary to artificially change the water flow to concentrate the water in one place and to select the generation point where a large fall can be obtained

When the water of the present use quantity Q [m3 / s] falls into the aberration by dropping the effective head drop H [m], the power P _o [kW]

Which is usually called hydrodynamic.

This theoretical hydraulic power is input to the aberration as in the underway, and the aberration and the generator are rotated. When the aberration output P _t and the generator output P _g are respectively a η _t and a generator efficiency η _g ,

.

_{(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. When the downstream part of the river is used, the amount of water to be used can be increased, but the drop amount becomes smaller. On the other hand, the water amount in the upstream part of the river is generally decreased.

[Table 1] Approximate values of aberration and generator efficiency

The following types of hydroelectric power plants and facilities

Hydroelectric power plants are classified into several categories according to the method of water intake and the method of operation. First, in the classification by the intake method, the dam type hydroelectric power plant and the watershed type power generation plant are formed in the dam type power plant and the hydroelectric type power plant such as the underside type, and the dam type power plant is constructed by constructing a dam crossing the river to prevent the runoff, to be. For this type of big dropping, it is necessary to construct a dam which is quite high and it is not an economical method because it has a large burial area. However, in addition to the aptitude terrain, it is often used as an irrigation reservoir or a flood control reservoir. . This dam is the most useful in Korea and it is very important to construct this dam in future. The dam constructed for the purposes of power generation, irrigation, flood control, etc. is called a multipurpose dam. In addition, if the dam type is used, it is often impossible to avoid significant fluctuations due to the imbalance between the amount of rainfall and the amount of water used. Such a power plant may be called a parasitic power plant in particular.

This is because the more abundant the water stored in the dam is, the economically advantageous and also the desirable from the viewpoint of operation, so that many types of power plants are built in the middle and lower part of the Han river system which is relatively sloping and abundant in Korea (Chuncheon, , Cheongpyeong, Paldang, Soyang River Power Plant, etc.)

And a hydroelectric power plant is used when a dam is built in a river main stream and a small gradient channel or a pressure channel is made to obtain a middle drop or a head drop by a water route of a considerable distance mainly by using a stream or a bent topography of a stream.

[Fig. 3] is a variation type, and water flows in the order of a water intake, a geyser, a waterway or a pressure water, a water tank, a water tank, a hydraulic tube, a water tank, and a waterproofing tank.

Closer to the water intake, the water is temporarily stopped, and sediments such as soil, sand, and vegetation are removed to allow clear water to enter the waterway. At the top of the gypsum, the gypsum is made into the gypsum, sometimes discharging the settled soil and sand. Depending on the terrain, waterways are used as canal, culvert, pressure waterway, aqueduct, siphon, etc. Selection of the passage of the waterway, section design, etc. are considered from the viewpoint of economic considerations such as construction cost, operation maintenance cost, maintenance and operation. The water channel gradient is usually 1 / 1,000 ~ 1 / 2,000. If the gradient is higher than this, the flow velocity becomes larger and therefore the channel section becomes smaller, so that the construction cost becomes smaller while the friction loss becomes larger. If it rushes more than 1 / 5,000, soil and sand move into the aberration, and the abrasion of the aberration part quickly. The water tank is a water tank installed at the connection point between the water channel and the water pressure pipe, and is intended to remove soil and sand and to control the flow rate. At the exit of the water tank there is usually a damping system and a ferry that drains extra water is installed. In some cases, instead of a water tank, a pilot pressure water tank is installed in the middle of a hydraulic pipe to prevent the risk of water hampering when water flow fluctuations or faults occur. The material and the thickness of the watertank or tank are different depending on the drop and the diameter, but the reinforced concrete pipe, cast iron pipe, main steel pipe, riveted steel pipe, welded steel pipe and the like are used. Generally, one hydraulic tube is installed in one water turbine, but in order to lower the price, it is often necessary to drain water from one tube to the branch at the entrance of the water turbine to water several water turbines. The maximum diameter is 4m, and the flow rate in the tube is usually 2 ~ 4m / sec. The loss head in the pipe reaches 2 ~ 5% of the total fall. Since the hydraulic pipe has a considerable length, special attention should be paid to the seam part as a measure for the change in length due to temperature. The watertightness is a waterway for introducing the water discharged from the aquifer into the river. The location of the watertightness should be selected in consideration of the river gradient, river bed, topography, etc., A section with a small variation in water level is required.

In Korea, the Hwangcheon power plant located in the upper part of the North Korea River and the Kangnung Hydroelectric Power Plant connected to the East Coast through the underground tunnel are representative examples of such hydroelectric power plants.

This type of dam is a combination of a dam and a waterway, and it is the most favorable form for a hydroelectric development point because it can obtain a great drop by installing a dam in a liquor like a river with a fairly rapid gradient. Depending on the terrain, the waterway used the pressure waterway, or one of them, and the water path was roughly the same as the waterway.

In the above-mentioned watershed-altered power plant, there is another river adjacent to a river, and when a great free fall can be obtained between these two rivers, it is a power plant that connects the two rivers by a channel and uses the drop. The Kangnung Hydroelectric Power Plant and the Seomjin River Hydroelectric Power Plant, which have been described above, represent a representative example of the Korean watershed-altered dam hydroelectric power plant. The Kangnung Hydroelectric Power Plant is a water supply system of the Kangnung Water System (Gangneung Water System) And 15.6 [k / m] for the waterway tunnel), which is up to 640 [m].

The water source of the gravity concrete dam located in Gangjin-myeon, Imsil-gun, Jeonbuk, which is about 21km from the power station and 82km from the upper part of the Seomjin River, is introduced into the intake port located in the inner area of Jeongeup Gun and is discharged through the 6km pressure channel. And is the first watershed-modified power plant in Korea to be used as a wide-area water source.

The classification according to the following operation methods was conventionally installed in each of the inflow-type power plants, reservoir-type power plants, tidal power plants, and pneumatic power plants. How to use the flow rate depends on how the natural flow rate in the river is controlled. For example, if floods are collected and released into the watersheds, the flow rate is averaged over a year and a stable flow rate can be obtained. On the other hand, it is possible to collect so-called peak (peak) at the peak load when peak demand is the highest at the light load such as the late night when the power consumption is low.

Depending on how the river flow rate is used, hydroelectric power plants are divided into several types as follows.

First,

At the point where the natural flow is abundant, it is a power plant that continuously uses the natural flow of the river for the power generation without any artificial control within the range of the maximum use amount of the power plant. This is the type of hydroelectric power station that does not have a reservoir or adjustment.

In this method, the construction cost is not so great, but the generated electric power is changed according to the natural flow rate. Moreover, since the natural flow rate also changes according to the season, there is a drawback that smooth electric power supply can not be provided in response to the load change.

In Korea, there is no such power plant, but in an abundant river such as Russia (Siberia) or Brazil, an inflow-type power plant that uses natural flow as it is for power generation is constructed and operated.

The following reservoir type power plant is a power plant with a large reservoir capable of adjusting the seasonal flow rate of the stream. For example, it stores the water remaining in the feng shui and discharges it in the dry season so that the stream flow is effective over a long period of time It is a power plant to use.

The reservoir type power plant is precious because the water system of Korea is relatively small in flow rate. Among them, the Soyanggang power plant in Kanggye in North Korea and the Chungju power plant in the South Han River are multi-purpose dams built as a reservoir power plant. In terms of effective reservoir, Soyanggang Dam is about 1.9 billion [t] and Chungju Dam is about 1.8 billion [t].

And Adjustment Knowledge In a water system with a low flow rate that can not construct a reservoir in a power plant, an adjustment paper is installed either in the middle of a waterway or in front of the intake (in the case of a dam type), and the difference between the water withdrawn from the river Thereby enabling to cope with load fluctuations over several hours or several days. This method has the advantage of being able to design the maximum amount of the power plant to be considerably larger than the water withdrawal amount of the river unlike the influent type power plant. In addition, there are many cases where the peak load is shared. In such a case, this is sometimes referred to as peak power generation.

The fourth amphibious power plant is a kind of regulating knowledge or reservoir type power plant. It uses a cheap power such as nuclear power plant at light and heavy loads such as the late night or the weekend when electricity demand is low and pumped the lower reservoir water to the upper reservoir and stores it. It is a power plant that uses this at city.

In this method, there are mixed-type pumped-storage power plants that have a natural inflow from the river in the upper reservoir, pumping only the insufficient water from the lower reservoir, and a power plant in the upper reservoir, There are branches.

Currently, the pumping stations in Korea are Cheongpyeong (400,000 kW), Samrangjin (600,000 kW), Muju (600,000 kW), Sancheong (700,000 kW) and Yangyang (1 million kW) These are all the latter's Sunyang formula power plant.

In the conventional tidal power plant, the above-mentioned tidal power generation is a power plant in which seawater converts the potential energy due to the tidal difference into electric power, and the place where the tidal power is installed is preferably as large as possible. When the seawater is pushed by the tide, it is guided to the reservoir built on the shore. When the tide is escaped, the seawater stored in the reservoir is dropped into the sea. As in the case of pumped storage, to be.

An example of the operation of a tidal power plant is the Reuns tidal power plant at the Reims Estuary in France, where a tidal range of up to 13 [m] can be used. In this case, 10,000 [kW] × 24 units of 240,000 [kW] are generated using the tidal difference of maximum 13 [m] and average 8.5 [m]. The greatest problem of this method of development is the location conditions and the condition that the seawater has a sea of maximum 10 m or more and the coast is suitable for the construction of the reservoir should be met.

In Korea, we are planning a tidal power development plan in several places around Chulmim Bay in Chungnam. It is known as a very favorable candidate for constructing a power plant with a maximum tidal pitch of 7.9 m, a land area of 120 m ², a dike length of 2.1 km, and a capacity of 400,000 kW.

For reference, [Table 2] shows the average (tidal difference) at major points in the world (here, the average is even more than 4.6 [m]).

[Table 2] Even the average at major points in the world

For reference, [Fig. 12] summarizes the location of each power plant and the terminal diagram in the Han River system, where most of the hydroelectric power plants in Korea are concentrated.

In the hydrodynamics of the prior art, the physical properties of water and hydrodynamics are included in the hydrodynamics to simplify the installation conditions of the marine power plant of the present invention. In this way, the density of water in the physical properties of water becomes maximum at 4 [℃] under atmospheric pressure, and it changes somewhat with temperature, but since the change is very small, it can be handled as having a constant weight in ordinary hydraulic calculations. That is, the weight of water is 1 [g / cm 3] or 1 [t / m 2].

Applying pressure to water is a very small value but the volume is reduced. However, since the rate of change of the volume, that is, the compressibility of water, is only about 5 × 10 -5 at a pressure of 1 atmospheric pressure at normal temperature and atmospheric pressure, there is no problem even if water is considered incompressible.

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 viscosity or internal friction, which is expressed by the viscosity coefficient,

In the following hydrodynamics, we consider an order with depth H [m] and cross-sectional area A [m 2] from the water surface stopping like the underpass. The volume of this order is AH [㎥], and assuming that the weight per unit volume of water is ω [kg / ㎤], the total weight of this order is ωAH [kg]. Therefore, the order is supported by the force of water ω [kg] acting upward from its base, and is in equilibrium.

That is, since W = ωAH [kg], the average force p [kg / T m2

. This p is called the pressure intensity or pressure intensity at the depth H [m], and the water pressure P acting on the whole is called a voltage force or a total pressure to distinguish it.

를 압력수두(pressure head]라고 말한다.At this time,

Is called the pressure head.

The unit of pressure is [kg / ㎠] or [kg / ㎡].

And in hydrodynamics, we first explain the principle of continuity as follows

Hydrodynamics deals with the laws of motion of fluids (mainly water). The motion of the fluid is greatly divided into the flow, the vortex, and the wave. When the flow is subdivided, the streamlines become geometrically straight lines, which are not disturbed, and the flowing streams and streamlines become tangled and become confused, resulting in flowing turbulence. The flow of fluids used in hydroelectric plants is generally turbulent.

In general, the amount of water Q [m 3] flowing through a pipe or a waterway is expressed as a product of the sectional area A [m 2] of the water flow and the average flow velocity v [m / s].

Primer υ the two points a, the sectional area of each of _{A 1 [㎡], A 2} [㎡] The average flow rate in b in running water and surrounded by a solid such as a conduit, such as _{1 [m / s], υ} 2 [m / s] A ₁ B ₂ [m 3 / s] is the flow rate from point a in unit time, and A ₂ υ ₂ [m 3 / s] is flow rate from point b .

However, the water flow is surrounded by solid and is also incompressible, so the amount of water flowing from point a and the amount of water flowing from point b are the same, as long as there is no water in the middle. This is called the principle of continuity and the following relation holds.

From this relationship, it can be easily seen that the flow velocity is inversely proportional to the cross-sectional area of the flow path, and that the flow velocity is large in a narrow space and becomes small in a wide space.

The following Bernoulli theorem is explained as follows

The stopping water is kept in equilibrium by the external force and the pressure acting on it, but in the running water, the acceleration acts in addition to these two forces, so that the equilibrium is maintained by these three forces. The acceleration does not act and the external force is only the gravitational force of the earth)

Let p ₁ [kg / m 2] and p ₂ [kg / m ₂ ] represent the pressures of water at points A and B, respectively, and the heights from the reference surface are h ₁ [m] and h ₂ [m] . At the same time, when the weight per unit volume of water is ω [kg / ㎥] and the acceleration of gravity is g = 9.8 [m / s ² ], the following equation is established according to the law of conservation of energy.

Therefore, the relation of the above equation is generally expressed as follows.

However, H : integer

That is, equation (5) represents power. Therefore, ωQh , Qp and are respectively called position power, pressure power, and velocity power or kinetic power.

(1) Position power ( ωQh ): The position energy per second at the height of h from the reference plane, which is the same as the positional head described below.

(2) Pressure power ( Qp ): The pressure energy per second of the flow rate is equal to the pressure head described below.

) : 상기 유량이 갖는 1초당의 운동 에너지로서 역시 다음에 설명하는 속도수두와 같다.③ Speed power (

): The kinetic energy per second of the flow rate is also the same as the velocity head described below.

However, the sum of the above three powers is constant according to the law of conservation of energy, so this is expressed as ωQH . In general, this ωQH is called total power or total hydraulic power (ie, total energy per second). Equation (5) above shows that when the complete fluid flows along the wire, the sum of the position energy, the pressure energy and the kinetic energy is equal to the total energy per second ωQH of the fluid .

The fact that the sum of these energies is constant means that mutual conversion between these energies is possible.

The hydroelectric power generation is performed by rotating the aberration using this mutual conversion. Soon, the potential energy at the high position (the intake of the reservoir) is converted into the kinetic energy at the low position (the water hole with the aberration), and the amount is expressed as the difference between the water levels of these two. The car is called a total freefall)

Now divide both sides of equation (2) by ωQ as follows.

This is called Bernouli's theorem.

An upper head where expression h, p / ω a pressure head, referred to as the ² υ / 2 g velocity head, transfer the two H.

If Bernoulli's theorem is applied to the flow of the waterway, consider the losses that are actually experienced when the water flows - the head equivalent to the loss is called the loss head and is denoted as h ₁ .

Let's briefly explain each of these heads below.

When the water in a high position falls, it is called a position energy.

In the undercoating any reference plane (X - X ') with respect to the point a water in height h _a is (X - X') the means to have the position of the h _a with respect to a hydraulic call this position the head.

Similarly, the position head of point _b is h _b . Two points a, _a difference h of the head position of the b - _b h is displayed as a vertical distance h _a and h _b, there is no relation from a is the length of the passage up to b. When using energy such as river runoff, the difference in the position head is called the head in particular. As shown in [Fig. 2-5], assuming the order of sectional area A [㎡] and depth H [m] in stationary water, the pressure P [kg] acting on the bottom side of this order is the weight of this order Equal

. Where? Is the weight per unit volume of water [kg / m 3]. If the pressure is p [kg / ㎡] here,

Which is the pressure energy of the water of a unit volume. In hydraulics,

The height of the water is indicated by the height of the above-mentioned order, which is also called the pressure head.

The case where water flows as described above is considered. Assuming that the acceleration of gravity is g [m / s2], the mass of water of unit volume m [kg]

to be. Here, the kinetic energy per unit volume of water flowing at the velocity v [m / s]

As shown in the above-mentioned mutual conversion of energy, it is assumed that the kinetic energy per unit volume is converted into the potential energy per unit volume, and this is expressed as ω H [kg · m]

from

. Thus, water flowing at a rate υ is to think to have the head that corresponds to the height H of yisangron termed the velocity head are ^{H (= υ 2 / 2g)} .

Finally, we explain the theorems of Toricelli as follows.

The velocity υ ₂ of water ejected from a very small hole in the lower side, ie, the orifice ②,

, P ₁ and P ₂ are equal to the atmospheric pressure P _a ( P ₁ = P ₂ = P _a ), and υ ₁ is ignored because the cross-sectional area of the water tank is much larger than the cross- (? 0)

If the condition h ₁ - h ₂ = h is substituted into the above formula,

으로부터

From

.

This relation is called Torricelli's theorem. Actually, since the viscosity of water and the friction loss in the ejection hole are present, the actual ejection speed υ ₂ 'becomes slightly smaller than υ _{2 and} is expressed by the following equation.

As described above, in the conventional technology of hydroelectric power generation, there is not much obstacle to the requirement of hydroelectric power generation in water supply facilities and water supply facilities in power generation facilities (pumping water), while the setting of the dam 680 or the intake water dam 680 The problems (matters to be solved) of the environmental impact around the vicinity due to the setting of the water intake dam 680 are as follows.

First, in order to obtain adequate generation capacity, the installation cost due to the construction of the dam and the period of the construction of the dam are much larger than the generation facilities compared with 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 (such as the fact that the ground and crustal changes of the dam installation site stratum have not been thoroughly checked in advance). After installing the dam, As the period became prolonged, there was a case where small cities were buried due to earthquakes or landslides due to algae or harmful red tide breeding, small amount of water intake, and small earthquakes. In addition, The damage caused by the flood droughts such as damaging the drought caused by the accident of the former Chernobyl nuclear power plant in the case of nuclear power generation, which caused obstacles to the national economic development (obstacles or ailing complexes), caused considerable damage. On the other hand, thermal power plants are usually located near metropolitan areas where demand for electricity is high or The ecosystem order is broken due to the waste gas emitted from the chimneys (stacks). In the meantime, due to the increase of pollution of the atmosphere and the emission of carbon dioxide due to dusts such as soot emitted by automobiles, natural disasters And the countermeasure against this is a means of solving the anxieties of mankind by installing endless seaweed type feng shui power generator of the disaster free global marine power plant of the present invention in the sea by endless production of environment friendly energy.

Therefore, the invention patent registration No. 0546221 is registered in the country by the present applicant in a three-step tiered manner of the registered multi-purpose terraced manhole so as to eliminate the danger of losing the life of the worker and the obstruction of the road traffic due to the passage of the vehicle. It is the same as the ground surface at the moment when it goes away from the installation position. It is another equipments to the lower end of the manhole cover after the level is uniformly set. The entrance hole of the manhole of the patent 10-0650936 is the manhole of the manhole. In order to solve this problem, the paraffin liquid was injected into the key inserting port for 3 minutes, and then the paraffin liquid was injected for 3 minutes from the paraffin liquid for 3 minutes Afterwards, the paraffin becomes solid and the key insert will not rust In addition, since it is a device that can not insert a key in a solid state, a key expert (tentatively called a locker) is no longer able to approach the inside of a manhole without knowing the principle. At this time, It is impossible to identify the location where the gas is fumigated with the toxic gas that is sprayed together with the toxic gas by the short line, and the evacuation personnel can not evolve. In the development nozzle of the present invention, Carbon dioxide and halon gas are injected into the underground line together with the flameproof to achieve the initial evolution, and without the person being injured, the multifunctional stepped manhole mold and the manhole cover formed in the double pipe structure without approaching the ignition site. By precisely putting disaster prevention material into position, The application No. 10-2009-0088090 filed by the present invention is a pipe nozzle moving type fire pump sensor which is used for a fire fighting room and detects a very low temperature detection efficiency with a sensor of a conventional fire fighting device at a detection speed of about a candle By referring to the application number specification (342 pages) with a remarkable difference, it is very helpful to understand the technique of the present invention.

No. 10-2007-0099575, filed in the name of the present applicant, discloses a method of controlling the height and the height of a bridge connected to the land and the ocean of the Great Taejong Peninsula, It is a device that blocks the disaster from the source of the disaster clearly so as not to be affected by the flood drought and the earthquake tsunami by the landslide. It is the distance that the pipe nozzle of the fire fighting disaster prevention article is crossing the South pole and the North pole at the latitude of the equatorial line The size of the nozzle is 92500 km and it should be formed with the tube nozzle body as 20 times of the above dimension. In order to guarantee the happiness of the peaceful global village without war and terror, which is an artificial disaster, So that the function can be guaranteed so as to be developed and completely closed in a variable form.

The technical level of the present invention is that the word 'control activity' is a feature to be removed or removed from the disaster prevention system, which is a remarkable difference from the conventional technology level, In order to achieve the object of the present invention, the conventional construction equipment and the construction machine of the middle class are formed in the present invention, so that the economic depression of the global economy and the political, economic, cultural and scientific , And production and installation inside the future-oriented offshore power plant body that includes future blueprint of environment field is a technical feature.

The tank 590 is connected to the barge main body 591 at the upper end of the tank 590. The tank 590 is connected to the tank 590 at the upper end of the tank 590, (593), which is capable of disassembling and disassembling the barge body (592) at the lower end, and a large oceanic power station floating picket fence (595) at the mid- Which is fixed to the nose portion.

In other words, construction machinery is a generic term for all machines used for construction. The present invention relates to a construction machine and a heavy machine, which are used for excavation, transportation, traction and the like, using power obtained from a prime mover, and the construction machine according to the type of the machine. A detailed explanation is as follows.

In the detailed description of the range of construction machinery, the scope of construction machinery management law was as follows.

A detailed description of the classification of construction machinery is as follows

First, the digger 855 and the scraper 859 are separated into an excavator 856 and a luther in the excavating machine. Next, the excavator 854 is a basic operator, and a steam hammer 884 is installed in the pile driver 882 and the diesel pile hammer 883, And separated into a hydraulic crane 885 and a tower crane 886 by a crawler crane 887 and a truck crane 888 in the next crane 861

로더(857b)에 페이 로더(857c)로 분리하고 다음의 정지기계에는 모터 그레이더(864)로 분리한 후 다짐기계에 있어 머캐덤 롤러(889)와 탠덤 롤러(890)에 탬핑 롤러(891)와 타이어 롤러(892)로 분리되며 다음의 포장기계에는 콘크리트 피니셔(866)에 아스팔트 피니셔(871)와 아스팔트 디스트리뷰터(871a)에 콘크리트 배칭 플랜트(865)와 아스팔트 믹싱 플랜트(870)에 골재 살포기(873)로 분리한 후 운반기계는 덤프트럭(860)과 트랙터(893) 및 트레일러(894)와 지게차(858)에 컨베이어(633)로 분리하고 준설기계에 있어서는 준설선(879)으로서 그에 대한 범위에는 펌프 준설선(879a)과 버킷 준설선 (879b)에 디퍼 준설선(879c) 그래브 준설선(879d)으로 분리시킨 후 별도의 주요 건설기계에는 천공기(876)에 쇄석기(874)와 공기 압축기(875)로 분리되어서 바지선 본체(591) 갑판데크 상단부에서 형성시켜 굴착, 운반, 견인 등에 사용하는 방식과 심해저 저층 바닥에 수중조명(843) 등과 무인카메라(184)를 부착한 후 엔진발전기(226)는 각개의 건설기계 몸체에서 격리시켜 무인작동방식의 모니터(52) 작동방식이 선택된다In the fourth loading machine, the loader 857 is provided with the shovel loader 857a

The tandem roller 890 is separated from the tandem roller 890 by the tandem roller 891 and the tandem roller 890 in the compaction machine after the separation by the loader 857c of the loader 857b by the payloader 857c, The next packing machine is provided with a concrete finisher 866 and an asphalt finisher 871 and an asphalt distributor 871a with a concrete batching plant 865 and an asphalt mixing plant 870 with an aggregate spreader 873 After separation, the conveying machine is separated into a dump truck 860, a tractor 893 and a trailer 894 and a conveyor 633 to a forklift 858. In the dredging machine, the dredger 879 is connected to a pump dredger The crusher 874 is separated from the crusher 874 by the crusher 874 and the air compressor 875 by the drilling machine 876 in the main construction machine after separating the crusher 879a and the bucket dredger 879b into the dredger dredger 879c and grab dredger 879d. (591) from the top deck deck And an unmanned camera 184 is attached to an underwater light 843 and the like on the bottom floor of the deep sea floor. Then, the engine generator 226 is isolated from each construction machine body, and an unmanned operation monitor (52) operation mode is selected

A more detailed description of the construction machine, such as the road,

First of all, a soil construction machine is used in which a clay board (straight type, angled type, etc.) is attached to the front part of a tractor and an auxiliary device such as a ripper and a rooter is attached to the rear surface, to be.

In other words, it is the most basic earthworking machine of the construction machine, and it is a compound term of fire (bull) + dozer (resting machine). It is a powerful pushing machine that releases the bull from labor.

Explain the application as follows.

As a general rule, the dozer is indicated by its weight in tonnes or kilograms.

The economical working distance of the dozer is 10 ~ 100m and the distance between the shovel and dozer is 100m.

The three major tasks of the dozer are the same

The doser's power transmission order is the same as

In calculating the workload of the dozer, we explain it as follows.

1) Workload per hour:

Where q is the capacity of the through-hole (m3), f is the soil conversion factor

E : Work efficiency (%) C _m : 1 cycle time (min)

① Blade (soil board) Capacity:

Here, Q : the blade capacity (m 3)

B : Blade width (m)

H : Blade height (m)

② One cycle time

(Where, L: the working distance (m), V _1: forward speed _{(m / min), V 2} : reverse speed (m / min), t: gear shift time (min))

A detailed description of the traction force is as follows.

Here, ( μ : coefficient of friction)

( W : Vehicle weight (kg))

Traction horsepower (H)

only,

Describe the bottom and bottom of the dozer classification

First, classification by traveling device (= classification considering ground pressure) is separated into crawler-type dozer and wheel-type dozer which use infinite track type like under and under road

Crawler type: It has wide grounding area, low earth pressure, and strong excavation ability even on bad terrain, and it has good ability to climb. The use of traverse for wetlands makes it very suitable for wetland work due to its low ground pressure, and it is easy to work underwater to the depth where the track can be locked.

Wheel type: It has a large grounding area and a large grounding pressure, which makes it impossible to work on wetlands and limbs. However, it is more maneuverable and mobility than an infinite tracked type and is effective for working on flat ground or pavement.

Secondly, in the classification by the working device, the straight dozer and tilt dozer are separated by an angle dozer

The straight dozer is usually called a dozer and can not change the shovel. The top of the blade (slab) is tilted by 10 °. It is used for straight cutting, plucking. Up and down operation of the blade It is a machine that uses a hydraulic cylinder to exert a strong force by its own weight. It can adjust the oyster force by changing the pitch of the shovel by 10 ° in front and rear.

The following Angle dozer

It can be used as a tilt dozer and a straight dozer by changing the angle of blades (20 ° ~ 30 °) to the left and right, and it is suitable to shave the hillside on one side for new road construction

Uses: sloping soil work, cutting work, snow removal, side burial work, trench landfill work, pipe embedding work, hard ground side cropping work

And the tilt dozer

The angle of the blade can be adjusted to the left or right by a horizontal plane of about 15cm.

Uses: Used for land, hard land, side ditch excavation, rock stone rolling, V-type drainage works

Thirdly, in classification by Attachment, it is subdivided into a lake dozer and a hinge dozer, a tree dozer, a hydrick ripper, a push dozer, and a Tina dozer to a U dozer

First, the Lake Dozer Rake dozer)

It is a dozer equipped with a raking device instead of a blade. It is suitable for picking rocks in farmland clearance and road construction, drawing brushes and tree roots, carrying rocks for dam construction, hard rock digging, etc. .

Tree dozer is suitable for clearing and stopping

The hinge doser is suitable for jetting, snow removal,

Ripper is used in the case where the ground is hard and rigid, making it difficult to excavate. It is used for the removal of rocks or jade pores which are difficult to excavate, asphalt pavement, etc.

The push dozer pushes the scraper from the back to provide traction when working the scraper

And the turntable or the dozer is a low-pressure rubber tire type dozer, which is faster than the infinite tracked type, and can increase the amount of cargo to be transported. Also, it is easy to move and does not harm packaging.

On the other hand, the U Dozer has fewer overflows because the blade is U-shaped.

In attachment of bulldozer

The bulldozer can work with attachments of various attachments instead of earth-moving devices.

Straight rake dozer is used for roots and excavation of rocks by attaching rake instead of a shovel to a straight dozer. The following back hoe is used for buried pipes of pipelines and excavation of drainage holes. And the following hydraulic ripper was used for crushing, roots, and rock scraping of grounds and pavements that were difficult to excavate from hard and hard ground, and towing winch was used for traction of heavy wood etc. The snow plow is used for snow removal. The skit loader is used for carrying round objects such as wood and pumps. The crane hook is used for loading, buckets were dedicated to the loading of rocks and shovels were used for excavation (mountain or cliff excavation)

summary

It is called "Carry all", which is bigger than bulldozer.

It is a machine for mass excavation work. It can work continuously on 5 tasks such as excavation, loading, transportation, laying, compaction, etc.

A motor scraper is a combination of a vehicle-type tractor and a scraper, which is often used for power, and it has different power.

Uses and specifications

Usage

It is capable of excavating and transporting large quantities of soil, and mowing the ground surface of flat terrain with loamy soil. It can be used for soil, cutting, loading, transportation and embankment work. → I can not carry it by pushing it.

standard

The capacity of the ball (bowl) is indicated as ㎥.

Power transmission sequence

A detailed description of the following scrapers is given below and explained below

[Comparison of pull type scraper and power type scraper]

Main parts and roles of scraper

Bowl

This is a container for conveying gravels. It forms the center of the scraper. The cutter edge is attached to the lower side of the moving direction.

Apron

It is installed on the front of the ball to prevent the soil from falling down.

Ejector

The so-called tailgate is located on the back of the ball and serves to push out the gravel in the ball and to create a large space for loading the gravel

Yoke

A member that combines the ball and the tractor

Workload of scraper (braking scraper)

Here, Q : the ball carrying capacity

f : soil conversion factor

E : Working efficiency of the scraper

C _m : Cycle time

summary

Graders are mainly used for civil engineering works, and they are mainly used for stationary work. They are equipped with a blade (blades) to scrape the ground to pick the ground

Equipments to be used for finishing the ground smoothly

Uses and specifications

Usage

Performance indication: indicated by the length of blade (blade)

Power transmission sequence

· The parking brake of the motor grader catches the lower shaft of the transmission and is externally contractible.

· Power transmission sequence

For the propulsion angle and cutting angle of the blade,

Propelling angle

The angle between the center line of the grade and the blade makes it small in hard land,

Cutting angle

The angle at which the blade cutting edge is inclined relative to the cutting surface

It is small for cutting and large for cutting.

Adjust the angle between the main body of the grader and the clayboard to adjust the angle to about 45 to 60 degrees when pushing the soil to the side and 90 degrees to the finishing point.

Blade Capacity

Q : Blade capacity (m3)

B : Blade width (m)

H : Blade height (m)

Minimum turning radius of the steering system

(단, L : 축거리, γ : 킹핀, α : 외측 바퀴각 )

(Where L : axis distance, γ : king pin, α : outer wheel angle)

Why there is no differential mechanism

In order to improve the accuracy of finishing by improving the straightness and work efficiency in terms of work characteristics.

summary

Shovel excavator is the oldest used loading machine and it is a multipurpose machine that can be used as a digging machine and also can do many works by installing front attachment.

As a basic type of shovel or crane, it performs various excavation work and crane work by exchanging various accessories, and the upper rotating body can turn 360 °.

The structure of the excavator is explained as follows.

Three major components

External structure of excavator

In the classification of excavators

According to the classification according to the traveling device, the crawler type and the wheel type are separated into a truck mounted type

First, the crawler type is easy to operate in a place with a large pulling force and narrow space, and it is easy to operate wetlands, limbs, and livestock, and stability is very good.

And it is difficult to drive on the pavement and the running speed is slow as 3.2 km / hr.

The following types of wheel are good for pavement and bridge, easy to move the work place, speed is about 40 km / hr and work efficiency is 30 ~ 35% higher than crawler type.

On the other hand, the truck mounted type has a running speed of about 60 km / hr and has good maneuverability but poor working efficiency.

In the classification according to the operating method, it is separated into the manual type and the hydraulic type by air type and electric type

For size classification, it is divided into small size and medium size.

The small size is a limit of a weight that can be rounded for transporting railroad, trailer, etc. It means a weight less than 20t. A shovel with a bucket capacity of 0.6 ㎥ or less and a medium size bucket capacity of 3 ㎥ are capable of anchorage capacity of about 10t. Is of medium weight or more.

The performance indicators of such excavators are indicated by the capacity (m) of the backhoe, power shovel, drag line and clam shell bucket, the earth drill is indicated by the excavation diameter, the file driver is indicated by the weight of the hammer, The middle is indicated by (ton)

The workload calculation formula of the shovel, backhoe, drag line, and clam shell is as follows

only,

On the other hand, in the type of front attachment

Back hoe is used for excavation lower than the working position and is used for foundation excavation of river and construction. (Trench digging) Excavate the lower side of the machine. It is possible to load on conveying equipment higher than the machine. Excavate mainly narrow locations. The above-mentioned backhoe is suitable for disaster prevention and prevention pipeline installation for prevention of large-scale forest fires

And the power shovel is circular, suitable for excavation higher than the working position, and is used for mountain and cliff excavation. (shovel)

Also, according to the characteristics of the hydraulic excavator (as compared with the mechanical rope type)

First, the structure is simple.

The second is easy to exchange the front and run.

Third, maintenance and driving operation is easy.

Finally, it was superior to the mechanical rope type on all sides

In addition, the drag radius of the drag line is large and it is easy to underwater excavation. Next, it is used to excavate the area lower than the ground, then it is used to collect the sari of the river, It is not suitable for soil and gravel extraction.

On the other hand, an earth drill is used for drilling a deep hole of a large diameter by silencing and is used for on-site adjustment, and is suitable for installation of a pier of the present invention

The following crane is used for unloading of heavy objects and high construction work. In other words, it is a machine that installs a hook instead of a bucket and lifts a heavy object.

The pile driver is a pile driver and is used to load concrete piles or sheet piles. (Pillar) is suitable for pier installation.

The clamshell is also suitable for excavation in certain places such as underwater excavation and explosion work. (Clamshell), which is used for vertical excavation in a narrow place underneath the ground and is suitable for recycling manganese nodules. Gravel, sand, earth, etc., are used for loading on dump trucks, which is not suitable for digging hard ground.

Finally, the trencher is suitable as a machine for digging trenches.

The maximum excavation depth is the length from the ground surface to the tip of the bucket tooth when the tip of the bucket tooth is lowered to the lowest position. The maximum excavation radius (= maximum working radius) is the distance from the center of the circle The maximum horizontal distance of the bucket tooth and the maximum dump height was the maximum ground clearance

The structure and function of the skimmer is a construction equipment that slides the surface of the bucket along the boom of the swinging platform by moving the power of the chain. It is suitable for thin excavation in a narrow place. It was used for thin excavation in difficult narrow places

On the other hand, it is used in the structure and function of the ripper and the rooter when the ground is hard and solid and difficult to excavate. It is attached to the back of the large bulldozer, It was suitable for scratching and digging the ground. It was used for the purpose of removing the tree roots, asphalt, concrete pavement, and rock or stone pavement.

It is called crane according to the outline of crane (crane, 861). It is widely used for lifting and lowering of heavy objects, crushing work using other working devices, collection of waste iron and construction work. Soil, stone, equipment used in civil engineering construction The structure and the names of the hooks, clamshells, dragon lines, etc., are described in the following table.

Name of basic three parts

The structures and names thereof are the same as those described in the other drawings.

The standard method of performance is to display the maximum hoisting load in tonnes. The seven basic operations of the crane are as follows.

As mentioned above, the crane (hook) is used for the general lifting work, cargo loading and loading work, and the clamshell (clamshell) It is suitable for dirt removal work, underwater excavation, hopper work and deep hole digging work. Shovel is suitable for soil excavation, slope descent, earth loading of vehicles, road foundation and drag line (Scraping: Drag line is suitable for embankment construction work, drainage construction work, and loading of soil to flat bottom and underwater work vehicle. Trench hoe is used for drainage work, burial work, excavation work, mining work, The pile drivers are used for pillar-laying work on the foundation work of the building, and the pile driving work of bridges. The six crane marine power plants It is the main equipment for assembling the body (1)

And the driving angle of the boom 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 45-65 °. And as the weight of the object increases, the length of the boom becomes shorter and the angle becomes larger as the crane works.

The cranes are divided into crawler type and truck type.

It is separated as follows according to the purpose of use.

The function of drag crane is large in earth pressure, can not work in soft ground but is good in maneuverability and is used for steel frame assembly of high-rise buildings, loading and unloading of materials,

The structure and function of the tower crane was a crane equipped with a short jib or hammerhead truss on a high tower

Uses: It has been widely used in high-rise buildings and construction sites that require height

The structure and function of the hydraulic crane is a mobile crane that operates the equipment by hydraulic pressure. The boom can be extended to 5 ~ 10m and the hoisting load is usually 3 ~ 10ton. It was used for civil engineering work, pole work, hoisting of heavy objects

The structure and function of the cable crane are such that the trolleys are lifted by hitting thick cables on both ends of the tower, and the application is used for conveying concrete or materials during dam construction

Derrick crane is a main constituent part of the present invention. The structure and function of the derrick crane are such that a boom is installed at an angle from the lower part of a steel mast, a winch rolls a wire rope through a block, It is used for assembly of steel frame, foundation work, and construction of bridge.

Gaiderik is capable of hanging loads on materials beams, has a large working radius and is easy to disassemble and disassemble. It is used for unloading work, moving heavy objects, and assembling steel frames. The three-angle derrick is suitable for roofing work in narrow places or buildings, If it is installed on a wheel, it is easy to move, so it is used for file hammer work, bridge construction, harbor loading and unloading

Meanwhile, the tractor crane (Tractor crane) is attached to the crane on the upper body of the shovel excavator, wheel type and crawler type. The following outriggers maintain safety and prevent the tire from being subjected to load, thus preventing wear and tear due to loads such as tires and springs.

On the other hand, the overhead traveling crane (=

It is a crane designed to move and install a running rail on the ceiling. It is usually used for the production and processing of concrete beams. The fixed type is used for loading work in factories, warehouses, and so on. However, it is not used for construction work. And driving type is often used for construction work.

As such, the chain block 648 can be lifted up to a maximum of 15 tonnes for unloading.

The safeguard device for lifting and unloading the crane is a braking and limiting switch.

The next offshore cranes are used for transportation and construction of large steel structures in bridges, transportation and installation of super-large structures, and transport and installation of offshore structures, including hydraulic cranes and cable cranes in tower cranes and cranes with clam shell attachments .

In the overview of the loader,

It is a construction equipment that is called a loader and it is mainly used to load gravel, sand, soil in a dump truck by constructing a shovel device on the front of the tractor body.

First, the standard bucket capacity is expressed in m3 as a performance indication method

Second, in the classification of the loader,

First, as the classification by the driving method

A crawler type loader (long-track type = crawler type = shovel loader) can be installed in a bucket in front of a crawler tractor to perform work in a tough bog or sandy area,

A wheel type loader (wheel type = tire type = wheel type loader) is a bucket installed in front of a wheel type tractor. It has excellent maneuverability in a flat work place,

The semi-infinite crawler loader has one side of the front and rear wheels in an infinite track system, and the other side is equipped with tires, which compensates for the disadvantages of infinite track system and wheel system.

And the rail type loader is a device that can run on the rail and loads in the tunnel or mine.

Classification by the following loading method is as follows

On the other hand, the loading method of the loader is as follows.

Other loaders

It is used as a Muk loader in tunnel construction. It is used to load demolished stone from excavation works on a car.

The pay loader is used to load the dirt on the dump truck and should be run as slowly as possible and should not raise the bucket during no-load operation

The next rail-type slack loader is a dedicated heavy-duty truck that loads explosive slag into a car when it is digging in tunnels and tunnels.

The continuous loader was used for various tunnels, land formations, and limestone digging with the gauling arm loader. The screw excavator was used for underground excavation work in the city area, for loading the soil in a factory or ship, The belts were used and the following belt loaders were used

The following skid loaders are suitable loading machines for working in tunnels and tunnels.

here

On the other hand, the type of the dump truck is as follows. The rear dump truck is the truck which loads the load by tilting the luggage compartment backward, and the side dump truck is used for the truck Bottom dump trucks are the ones that open the bottom of the jib and can be used to load down the trailer, and the three-chamber open dump trucks are loadable trucks in three directions.

The calculation formula of the workload of the dump truck is the same as

Calculating the required number of trucks:

Calculate truck workload:

here,

Thus, the driving resistance of the dump truck has a formula for calculating the driving force on the rotational resistance and the gradient resistance.

표시하고The rotational resistance (W _r )

Display

상기와 같었고The gradient resistance (W _g )

As above

상기와 같았다The driving force (W _s )

As above

here

The following dumptors are special off-road trucks for short-haul trucks that can be operated in narrow workshops

And the locomotive is used when the transportation distance is more than 1km as follows and it is used for the construction of the tunnel construction seawall and its size is indicated by the weight indicating the pulling force (ton).

In addition, tractors and trailers are machines that transport tractors by trailers that are loaded with heavy objects, equipment and construction machines (bulldozers, rollers, etc.), and the tractor's traveling devices are divided into crawler type, half crawler type and wheel type

On the other hand, the Rope way is a machine that carries a cargo by placing a steel tower on both sides of the mountains and arranging a car every 60m after connecting cables. It is not restricted by topography and road conditions, . It is used to transport materials such as aggregate and cement in dam construction.

Such a wagon is similar to a motor scraper, but it can not be ground by magnetic force, and it is a machine that carries the soil from the loading machine.

☞ A tractor drawer wagon is towed by a tractor, with axles and wheels on the front and rear ends, also called a full trailer.

The following is an overview of a forklift (Forklift), which is a device for lifting or lowering cargo. It is widely used in warehouses and paddocks indoors and outdoors. In other words, it is effective for short distance transportation and loading and dropping work of hardened product. The standard indication shows the capacity (in tonnes) that can be lifted (middle of 1 ton or more), and the tilt lever installed in the cockpit is a master Can be tilted forward by 5 to 6 degrees (referred to as foreground angles), 10 to 12 degrees backward (referred to as posterior triggers), and up to 4500 mm and at least 3000 mm (called the maximum height).

The minimum radius is very small. (Steering angle of 65 - 75 ° inside wheel)

The pressure of the hydraulic piston is 110 to 130 kgf / cm 2.

Front-wheel drive, and rear-wheel-drive.

☞ Steering device of forklift: rear-wheel drive

A master batch that operates hydraulically is installed. (Hydraulic pressure 70 to 130 kgf / cm 2)

In operation, the fork is raised 150-200mm from the ground.

It is efficient within 250m.

The front wheel is installed directly on the frame, while the rear wheel does not have a suspension spring in the small size, but a large suspension spring is used.

For the handling method, the efficient transportation distance is suitable for the work within 250m. The height of the fork during the operation is 150 ~ 200mm for the height of the fork when it is transported. When the slope is transported, ) Headed to the top and backed up to slow down

Conveyor 633 is widely used for transportation of materials and concrete. It is widely used because it is easy and economical.

Large conveyors are used for transportation of sand, soil, gravel, crushed stone, etc.

Screw conveyors are used for sand, cement and concrete conveying.

Belt conveyors are the most widely used for soil, crushing and aggregate transportation. ☞ Size: ton · m

Portable conveyors were used to carry and collect sand gravel.

This type of car is described as a non-stop driving car and a hoisting to a unimog

An unstable driving car is a wheel-drive type front-wheel drive vehicle capable of transporting in difficult conditions such as mud, sand, and unevenness

Uni-mog (Uni mog) is widely used in various fields such as agriculture, civil engineering, snow removal, road maintenance, etc. Hoisting is a machine that carries heavy loads.

Roller overview is a compaction machine with two or more smooth drum rollers, which is a voluntary one with a voltage device. It is also called a voltage machine, and it is a construction machine that is mainly used for the construction of roads, embankments, airfields and runways. to be.

In the roller specification display, the weight of the roller is expressed in tone (ton)

· When the rollers are 8 to 15 tons (ton), the self weight is 8ton and the ballast (additional load) is loaded up to 7ton

And in the kind of roller, it separates by the vibration type of the impact type and the pressure type in the voltage type.

Ballast (weight) is the weight of the roller itself. When the voltage capability is low due to the weight of the roller itself, the additional load is called load. It can be added more than twice its own weight. The additional load is iron, water, and sand. The tire roller is injected as much as necessary in the water tank. The machine, tandem, and tamping roller increase the voltage capability by injecting an additional load on the wheel.

In the classification by the pressurizing method, the voltage type compaction machine is separated into a rod roller, a tire roller, and a tamping roller, the impact type compaction machine is separated into a rammer and a tamper, and the vibration type compaction machine is separated into a vibration roller and a soil compactor

The roller by the static pressure according to the following types and characteristics of the rollers is to tighten the road surface by the static self weight of the ruler

Machadam rollers are suitable for initial compaction of crushed stone (gravel) base layer, road surface, roadbed, and asphalt pavements. Features include differentials that can slow down the speed of the inner ring for smooth turning when curving. using

☞ It is a differential gear that is installed at the center of the rear axle and drives both wheels at different speeds when turning a curve.

On the other hand, the use of the tandem roller is suitable for compaction of clay, clayey soil, thick soil and used for the finishing work of asphalt pavement, and the power transmission order is engine → main clutch → transmission → front, → continuous decelerating device → rear wheel. The characteristics can not be used for crushing compaction. Heavy oil injection into the driving drum is a smooth cylindrical iron wheel with two axis tandem and three axis tandem. In addition, it is possible to expand the compaction width separately from the operation of the front and rear wheels.

The use of tamping rollers is also used to prepare areas where the soil is fragile. It is a foot roller, a turn-feed roller, and a tape foot roller. It is characterized by rotating and attaching a plurality of projections in the form of a cylindrical cylinder of a forcible cylinder

In addition, the outline of the tire roller (Tire roller) is a tire with tires attached to the tire instead of iron wheels, self-propelled and self-propelled to use the airfield runway, highway asphalt pave the road to constant pressure to use the tire, The air pressure was 1.5 ~ 10kg / ㎠ and the characteristic was that the traveling speed was very high.

In this way, the roller by centrifugal force is used to consolidate the road surface by centrifugal force on its own weight

The vibrating roller is a machine for vibrating the compaction wheels by a vibrator and suitable for compaction of crushed stone, gravel, earth, asphalt, concrete etc.

The standard indication method is the weight of all equipment

Such an impact compaction machine is used to free-fall impact

Rammer has a compaction foot on a two-stroke cycle engine body of a small internal combustion engine. Tamper changes the explosive power of the gasoline engine to torque and then turns it into reciprocating movement of the crankshaft. It has a structure that is suitable for tightening the narrow places and roads.

Soil compacter is a compaction machine that combines a vibrating device and a flat vibrator using a small gasoline engine. It has a movable type by self-propelled and gravitational force. It has a large compaction effect compared to weight and is suitable for sandy soil. It was inappropriate for clayey soil.

The reason for this is that the width (maximum width)

Line pressure is the grounding weight of the wheel divided by the width of the wheel (kg / cm)

Soil stabilizer (864) is an economical compaction stabilization method for soil, road, aerodrome construction, etc. It is a stable processing construction machine that can finish all kinds of work in one job at one time. Therefore, it is precisely to put the hearth and the bedrock material into the site, and to excavate and grind it by itself, and to mix the whole materials uniformly.

Of the following concrete packing machines

The type is classified as a concrete pumping plant 865 in a concrete mixer truck 868 and a concrete spreader 867 in a concrete mixer truck 868 and a concrete finisher 866 in a concrete mixer

The concrete is a concrete manufacturing machine. Concrete plant (865) has an aggregate reservoir, an upgrading device and a mixing device. It has a prime mover and is a device that manufactures and produces concrete with a predetermined mixing ratio of each material. There is a fixed formula, a transfer formula, a trolley formula, and a middle-of-the-line formula, and the standard display indicates the output per ton of time (ton / hr)

As shown in the lower part of the following concrete mixer, the outline is a mixer for sand, gravel, cement and water to work effectively on the construction site. The dryness type is a method in which cement and aggregate are metered into the mixer, The water is mixed and transported to the destination (construction site) and the mixer is driven by hydraulic pressure. Wetness type is also referred to as "agitator" in which a fully mixed raw concrete mixture is transported with agitation.

The standard mark is expressed as the amount of concrete that can be mixed once (㎥)

On the other hand, in the concrete mixer truck outline of concrete conveying machine, it mixes gravel, sand, cement and water effectively for construction work. Dry mixer is cement or aggregate feed, water is mixed and transported to the destination, Is transported while agitating a fully mixed raw concrete mix, the standard marking is expressed as the yield (m3) that can be mixed once in the vessel

The outline of the concrete pump (869) is convenient when transporting concrete in a limited space such as a bridge in a tunnel or a building. The pump has mechanical and hydraulic pressure. It is easy to move and installation is not limited. It is easy to handle, easy maintenance, and economical. It is used for conveying high-rise building and long-distance concrete.

This type of topography is used for portable and mechanical hydraulic and truck loading types. The diaphragm type is used for high-rise buildings (more than 100m), the standard indication is expressed as the hourly delivery capacity (㎥ / hr), and the components of piston type concrete pump are concrete injection A hopper, a suction and discharge valve, a piston, and a cylinder

Concrete finisher 866 is a concrete finishing machine, which is a concrete finishing machine. After finishing the concrete, the finishing machine is installed as a laying machine. The concrete finisher is made of a vibrator. After finishing, the finisher moves in the transverse direction, It is explained as follows that the slab surface is finished.

The concrete finisher is used to finish the surface of the pavement while making the front and back of the surface and vibration, etc., because the structure of the machine is less, the wear of the machine is less and the noise is less. Is expressed as a standard width (m) that can be applied

The outline of concrete spreader (867) is a packing machine for uniformly laying the raw concrete sprayed on the pavement board. The concrete spreader is used for conveying, laying and laying concrete from a truck mixer or dump truck while traveling in front of a concrete finisher The standard marking is indicated by the standard width (m) that can be applied and classified as blades, screws and boxes

And asphalt pavement machine

The type is separated into an asphalt mixing furnace 870 and an asphalt finisher 871 and an asphalt spreader 872 with an asphalt cover and an asphalt spray

The outline of the asphalt mixing plant (870) has an aggregate supply device, a drying heating device, and a mixer asphalt supply device. The movable type with a prime mover is a machine for manufacturing asphalt mixed materials used for airport, The equipment is a device to clean the centrifugal separator using steam, dust, combustion gas or dust generated from the vibration screen generated in the dryer drum. The standard specification is the output per ton of the asphalt mixture (ascon) hr &lt; / RTI &gt;

In this type, weighing and mixing method is formed by batch type and continuous type. Installation method is fixed type and transfer type. Operation method is manual type in electronic type and semiautomatic type. Usage is asphalt heating in aggregate drying and asphalt mixing. Feed hopper and aggregate drying device, exhaust dust collector and hot elevator, vibrating screen, mixer and asphalt cutter.

Asphalt finisher (871) is an asphalt finisher (871), which has a sorting and sizing device. The asphalt mixing plant boils gravel sand at 160 ° C or higher to lay the mixed aggregate on the road to a certain standard thickness. (M / s) and packing capacity (ton / hr) in the asphalt pavement, and the screed is sprayed on the road surface in the mechanism of the asphalt finisher (871) A living hopper is a container for storing mixed material (asphalt) carried by a dump truck with a hopper of more than 5 tons installed on the front of the equipment. The feeder is installed on the bottom of the hopper and sends the mixture to a spreading screw The bumper is installed on the front of the screed and requires the mixed material sprayed on the road surface. Geotinde primer is the same as that of one that lay the pavement thickness.

And the outline of the asphalt distributor (872) is that the asphalt is boiled and sprayed on the road surface for the first time. In other words, it is a spreader that allows asphalt to be sprayed on the road surface. The type of the sprayer is a self-propelled type, a gear pump type, a solution pressurized type and a mounted type. The standard indication is expressed by maximum spraying butterfly m and tank capacity

On the other hand, the asphalt cover is a construction equipment that continuously cuts the asphalt mixture for highway

In addition, asphalt spray is an equipment to heat and dissolve asphalt, asphalt emulsion and tar by oil burner and pressurize and spray it on the road surface

The outline of the Stabilizer is a device that performs various work while the gas is running on the hearth, and mixes and mixes the surface by adding and mixing water, etc., and the standard mark is expressed as the capacity (㎥) of the fluid tank It is characterized by good working efficiency, good maneuverability, good efficiency of the sprayer, ease of depth adjustment of the ground, and the like.

The outline of the dredger is the equipment for digging the soil in the water. In order to increase the water depth and maintain the depth of the waterway such as the route, the marine river, the river, the waterway, etc., Classification by type of dredger and classification by ability

In classification by type

으로 비자항식인 것이다

It is non-response

In the classification by power, electric and diesel type are classified into steam turbine type and gas turbine type.

In the structure and use of the dredger, the pump dredger (879a)

It is used for dredging or landfilling of harbor with equipment that transports soil to a toe line or sucks up soil and water by using a low-head pump line when the delivery pipe is difficult to install or the distance is long. The hull moving range angle is 70 to 90 degrees.

And the standard indication is indicated by the rated output (PS) of the drive engine.

Bucket dredger (879b) is constructed by using soil bucket conveyor to continuously submerged the soil to the dredge. The dredger dredge is transported by a toe line and used for dredging of large-scale routes and anchorage.

There are continuous and intermittent types,

The standard marking is indicated by the continuous rated output (PS) of the main engine and is described as follows.

It's like the top

The structure and use of the Dipper dredger (879c) is used to dredge rocks and rocks with strong excavation forces, and the standard designation is indicated by the capacity (㎥) of the bucket.

On the other hand, the structure and use of the grab dredger (879d) is a device for dredging by a special crane equipped with a clamshell on the ship. It is used for dredging of small-sized lanes or anchorage. (㎥), and its characteristics are explained in the following table.

Diesel pile hammer (883) is described in the following section as a basic machine for use (hover and anti-aircraft, 877), and its outline is a machine that uses the explosive force of a two- It is vibrated, and the speed of hitting is twice as fast as that of a steam hammer.

In this method, when the ram is raised and lowered by the starter, the injecting device is operated. When the ram is injected into the concave surface of the anvil, the ram explodes at the moment of hitting the anvil, so that the explosive force and the ram's striking force are transmitted to the pile And the ram is repelled by the repulsive force. At this time, the exhaust and suction are performed, and the falling, the impact and the explosion are repeated again, so that the continuous hammering operation is possible. The anvil inserted in the lower part of the cylinder and the ram was composed of a fuel pump and a starter in the fuel injector, and was equipped with a water tank for cooling the cylinder

A starter 893 is attached to a left side of the diesel pile hammer 883 and a ram 895 and a fuel tank 810 are connected to a lower portion of the cylinder 126 in a right upper portion of the starter 903. The fuel pump 900 and the heel 899 are formed below the cam 901 and the pump 900 and the pile 899 is attached to the bottom of the helium 899 to perform the pile operation.

Its standard marking is to indicate the weight (in tonnes) of the ram, which is used for filing wood, concrete, and steel pipe files.

The outline of the following column hammer (= column file 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 pile in the ram at the bottom of the piston rod

The type of the column hammer is steam hammer. The outline of this is the machine that drives the piston by using the expansion energy of steam. The standard indication is expressed by the weight of the piston (ton), which is complicated in structure and difficult to maintain and repair It is the point that maintenance cost is high, it is used to put pile in hard and dense soil, it is guided to lead and it has single acting type and double acting type. The outline of the vibration hammer is hovering or drawing by the vibration power, and the frequency is more than 500 times per minute. The standard mark is expressed by the output (kW) and the excitation force (ton) of the motor. It was suitable for lowering the equipment cost and operating cost when the same conditions were used for a small amount of installation in a remote place among the basic use machines. The advantages and disadvantages of the equipment are as follows

The first advantage was that the operation of the driving and hammering was simple, and the equipment was small in size, so that the required expenditure was low, and it was possible to increase the striking energy by adjusting the drop height.

The second point was that the piling of the pile was slow and there was a risk of destroying the pile, so it was easy to damage the surrounding buildings due to the vibration at the time of work and it was impossible to work underwater .

On the other hand, the file driver (Pile driver 882)

An adapter 906 and a wire rope 19 are provided on the boom front pin 904 and a crane boom 651 on the drill 135 on the top of the lead 896 of the pile driver 882, 905) was attached. The file driver 882 loads the deck deck on the upper deck deck of the barge main body 591,

This is a generic term for diesel hammer steam hammer and drop hammer on vibration hammer. It uses drop hammer or diesel hammer when laying files and equips the work device on crane boom.

The pile 898 is attached to an anchor pile 898 for fixing to a foundation pillar of a lower part of the lower floor of the deep sea so that a concrete pier is installed at the upper part of the lower floor of the sea floor by a saddle form frame 617 Work easily.

The air compressor (875) is also described below

The outline is composed of a driving device, a compression device, and other accessories, which are used for various purposes in various construction works by making compressed air by sucking and compressing the air in the atmosphere and making it into a high pressure state. 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 work

For this purpose, the quarrying work was to drill holes in the rocks using a rock drill, to work on the clay, and the clay excavation work was to excavate hard rocks, such as hard rocks, The destruction work is to break concrete, asphalt with brake.

Therefore, concrete vibration work, cutting work, tire air injection and equipment cleaning, and construction air compressors are large capacity.

In this type, compressors are classified and separated into a reciprocating compressor (piston type) and a screw type compressor and a centrifugal (turbo type) compressor in a vane type compressor and a rotor type compressor. It is mainly used for large-scale construction, and it is possible to use the compressor while moving the compressor easily

The process of producing compressed air is explained as follows

Air cleaner → Low pressure cylinder → Intermediate cooler → High pressure cylinder → Air tank

Its specification is indicated by the air discharge rate per minute (㎥ / min). In other words,

· 210 c · f · m is expressed as 210 cubic feet of compressed air per minute (ft ³ / min)

The components of the air compressor include a piston, a cylinder, and a pressure regulating valve on the intake and exhaust valves

The function (role) of the main part of it is explained as follows.

A detailed description of the following boring equipment (like a rock drill, 876)

The outline of this is that it is operated by an air compressor or hydraulic pressure, which is a machine that punches a rock on the ground or ground. The striking formula is excavated by the impact energy of the blade, and the excavation speed is fast but its depth is low. Most of the compressed air is used, and the impact rod is operated by this compressed air, and the rock is crushed by the impact force. Therefore, the structure is simple, easy to handle, and compressed air is easily used. And the rotary is excavated with a rotating blade in the hole, and the speed of excavation is slow or deep.

The crawler type is expressed by the weight of the rock drill and the air consumption per minute (㎥ / min). The crawler jumbo type is expressed by the number of prestrol rolls and the number of rock drums (short × big). And the tunnel excavator is indicated by the maximum excavation dimension (mm)

In its kind, the sinker is the latest type of rock drill with soundproofing, suitable for hole drilling in rock, various swell cuts, and semi-downward work on the tunnel. In other words, it is a small-sized machine that can be operated by manpower, and it operates by the force of air. It is a machine that carries out the cutting by transferring the price force to the rod by the up and down operation of the piston. It is suitable for drilling large holes in dam excavation. By means of a manual or automatic feeder, the drill is drilled with a bit of suitable pressure. The feeder is chain and screw type. The stopper is a machine for punching from the horizontal to the sky and is suitable for vertical excavation. It is

And the breaker is used for the crushing of concrete road, the destruction of the building and the hard foundation, and the stronger crushing power with less air consumption. It is mainly used by attaching it to a hydraulic backhoe excavator

Rock crackers are used to crush rocks, concrete, etc. in places where gunpowder can not be used.

Thus, the hand hammer is effective for narrowing work and secondary crushing work, and it is easy to use because it has a soundproofing device. It is also called a jack hammer. It is a small type of rock drill that can be moved and manipulated by manpower. It is mainly used to drill holes downward.

Other than that, there are rag drills for boring machines, crawler drills for wagon drills and pick hammer.

The outline of the crusher (Crusher, 874) is used for compaction of aggregate layers in road and concrete works. The following is a machine that breaks down the gemstone to make it smaller. It is used to produce and supply crushed stone. It is used for all crushing works and mainly used for aggregate production.

The types of crushers are separated into primary, secondary and tertiary crushers. Explanations of the respective parts of the primary crusher are explained as follows

Jaw crusher is a machine that is crushed by compressive force. When rocks are inserted between jaws on both sides and one side is fixed, the other side is activated and crushed by the price pressure at that time. It comes down in the discharge direction by magnetic gravity and pushing force. Such a jaw is made of a structure capable of crushing any hard rock pomegranate with powerful force.

Like the top view, the Gyratory crusher is made of cast iron or steel and consists of a frame lower eccentric shaft and a drive gear, and a cone-shaped crushing chamber at the top. The crusher is a crusher which has a hard crushing head on the vertical crushing shaft and is first crushed while being rotated, and then discharged to the bottom crushing chamber. This crusher has the advantages of less vibration and continuous crushing compared to a jaw crusher. It has the upper part of the machine as a discharge port and the lower part as a discharge port, so that a gravel input hopper can be installed and loaded on a dump truck There are advantages. It is crushed by compressive force.

Impact crusher

Hammer mill crusher has many discs on one rotating shaft, hanging a rectangular hammer around its hinges and rotating rapidly, the stones are hit, and they are crushed by the striking force.

The con crusher of the second crusher has an umbrella-shaped con- mantle head on a short vertical spindle, and a stone is stuck between the con- curb balls installed in the frame by the pumping motion thereof, and the lower stone is crushed again . This structure is somewhat complicated because it is crushed by the impact action, and there is almost no slip 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 Zaireetori crusher, it has the advantage that the cone is short, the size of the supply port is small, and the standard size can be produced from the crushed stone with the largest dimension of the outlet interval. It is suitable for mass production of certain fine aggregates.

Hammer crusher

Double roll crusher has two hard rolls fixed on separate horizontal axes, and the spacing can be adjusted freely. The rolls are installed in parallel, but the rolls are rotated in opposite directions to each other so that the rocks are squeezed while passing between the rolls. This roll has the main function of compression crushing and discharging and is widely used in the production of packing aggregate.

On the other hand, the rod mill of the third crusher 874 produces fine aggregate of 5 mm or less, and the ball mill is a machine for producing the crushed stone as a fine aggregate as a rod mill and a ball mill. A rod of a short round rod is inserted into a circular drum, and fine aggregate is continuously supplied with the water, and the drum is rotated while being hit, pulverized and then discharged. The particle size is comparatively uniform, and when the water is small, If the water is large, the degree of roughness of the particle size is large. Wheat with water is wet, and dry without water is generally wet. The ball mill is different from the rod mill in that the steel ball is rotated in the cylinder to obtain the fine aggregate.

Its standard indication is to display the crushing capacity per hour in tonnes (T · P · H (ton per hour)].

As described above, each equipment of the construction machine is installed inside the body 1 of the non-disaster global marine power plant 1 by the power source 46 of the engine generator 226 at the upper end of the barge main body 591, In order to be able to use for a limited period of time before completion, in order to ensure safety and fire during the construction, the pipe nozzle of the fire prevention disaster prevention products of the global village was formed inside the body of the marine power plant (1) Therefore, the more detailed explanation will be explained as if it is meaningful to collect both A fire for each type of fire and C fire for B fire, and to take measures against disasters regardless of land or sea place.

The pipe nozzle moving type fire pump sensor pump includes a plurality of fire-fighting and disinfection products such as a paraffin-type pipe joint nozzle, a paraffin tape for a fire detection sensor, a nozzle hole and a nozzle processing hole, High and Low Nozzles for Connection Nozzles and Ridges at the Top of the Mountains and High and Low Building Buildings near Bathing Beaches Cable rope type cable car roofs with separate roofs Nozzle Nozzle Movement Type fire prevention sensor for anti- When a fire occurs, which is usually fire, such as a building belonging to a large number of fires, and general combustible materials such as forests, paper, and blankets. In the past, fire trucks such as helicopters and fire trucks started to fire at siphones, Obstacles and obstacles such as roadside vehicles and fire fighting helicopters in the mountains are loaded with fire water The fire that is turned off in the moment of going back and forth is revived again and for the reason and the reason for the digestion activity of the fire scene for one reason is delayed by one second and the risk of losing life in the urgent and imminent situation In the early stage of the first fire, a fire-prevention sensor pump of a nozzle-transfer type fire-prevention sensor pump of an accident-free fire-fighting and disaster prevention countermeasure which is initially evolved just before a fire vehicle or a helicopter dispatch is mounted inside the present invention body (1) A plurality of non-hazardous paraffin nozzle caps formed inside the multi-pipe nozzle body of the pump body, and a multi-pipe nozzle sealed with paraffin tapes. A plurality of pipe nozzle holes are opened to the periphery, As the fire extinguisher is moved within 1 second, the non-disposable nozzle-moving type fire-extinguishing sensor pump of the present invention is designed so that the disaster prevention material mixed with the liquid and the solid in the gas within 1 second It is simply a non-flammable gas (non-combustible gas) that encloses the combustible material to block the supply of air (oxygen) to prevent combustion and to cool down the combustible to a temperature below the ignition point. This is the first time the fleet is evacuated to the firefighting cable car safety zone by carrying relief refugees in the adver- tain and the baskets under the airship at the initial stage of the ignition and the adve- lon and the airship distribute the object loads of the marine power plant body to ensure safety of the power plant body, From the large fire to the rescue area (the territorial territorial sovereignty zone) ), The fire-prevention sensor pump is installed in the body of the offshore power plant so that the installation location of the fire-extinguishing sensor pump fire extinguisher can be clearly set, and the fire-prevention sensor pump, which is significantly different from the conventional one, It is also installed in the body (1) of the offshore power plant in the world without accidents.

A plurality of flange gaps and a plurality of circumferential surfaces of a plurality of pipe bodies are formed in a zigzag symmetrical diagonal slot-like machining hole 20 in the interior of a marine power plant body 1 of a global village, A predetermined amount of the disaster prevention material is supplied to the disaster prevention water passage 17 and the disaster prevention pipe 89 via the disruption pipe 89 and the disaster prevention pipe 89, And a check valve 499, which is connected to a lever of the check sensor 499, which is a check sensing sensor for checking the level of the water level in the water collecting tank 35, When the butt-tap valve is deployed according to the operation of the elevator lever, a certain amount of fire water is filled into the refinement tank,

(34) Drain piping line at the bottom of drainage tank. (34) Nylon cord or strapping cloth, which is made of ignition material with hose or fire hose (9) The hose knot is fitted with a solid paraffin nozzle stopper (100), and the detection rope (41) is used to secure the inside and the outside of the hull of the land and sea, (9) Disassembly hose (9) Elbows or tee elbows (44) and reed washers (35) Connection of elbow bushing sockets Elbotti elbow fittings with hose holes (spray nozzles) (177) Detecting the ignition sensor (177) The sensor is attached to the cord (41) and placed in a long, short, long, The hose hole or the candle 100 of the connection hole of the tee elbow 44 is melted and the hose hole is exposed so that the disaster prevention water in the hose is discharged into the hose by the discharge jetting water instantaneously (Dioxin) generated when the pyrotechnic material is formed upon the formation of a plurality of radiation-like curtain membrane films and a plurality of linear or straight curtain film films after approaching and moving to the original pyrotechnic material, A plurality of formed curtain wall tanks are sprayed vertically down and the flue gas is discharged from the corridor floor or the ceiling wall to the corridor floor or the ceiling wall so that the flue gas is separated from the corridor by the emergency passage It is installed in the fire scene and is calmly safe. Life style is preferred, and the god of the inconvenience (patient, So that there is no abnormality in the fire. After the flame is suppressed before the fire rescue personnel and the fire fighting equipment are activated in the beginning, the inside mini-bed nozzle is used for fire fighting in the global village, Is installed inside the body 1 of the marine power plant as a fire-fighting disaster prevention device that evolves at first and rescues human life.

In this way, the electronic multi-stage pump 8, the motor of the power motor 192, the electronic control unit of the operation control sensor, and the suction valve of the electromagnetic control valve and the bypass disruption water line 3, A limit switch (183) and a sensing wire (41) are installed together on the roof of a large building in a neighboring neighborhood living area so as to fill the tank with fire water around the water collecting tank so as to be able to receive disaster prevention material. If the duty of responsibility and responsiveness is emphasized, it is necessary to have a certain amount of disaster prevention material mixer for the fire scene. Air hose and nipple are used as a mixer, and a breaker switch for regulator bushing socket and air compressor operation control After formation, air is stored at a certain amount of pressure in an air receiver high pressure storage tank, which is a disaster prevention material storage tank, and then the upper surface of the road surface GLL (SLL) with the disaster prevention nozzle installed at the bottom of the upper part of the sea level surface (SLL) and secured to the center of the tent fixed frame of the means for supporting the plastic pack (43) with non-material wire, 41), and the ignition material paraffin adsorbent tape was installed close to the ignition point. After the weather condition deteriorated or the night emergency disaster was not possible, the helicopter was replaced with the helicopter and the air balloon, the airship, the emergency generator, Woo rope wire rope, hook-shaped material frame, non-flammable frame and high-performance submersible pump are combined with other lifesaving structures and early evolution equipment to improve the existing evolutionary methods. In order to prevent the large-sized fire of the building, the roof of the building was previously equipped with a collecting tank and a small-sized pump Since the tacho-winch reducer motor that operates the elevator is installed in the machine room, it is possible to use the above-mentioned U-inch decelerator motor and the trowel-shaped winch, The sensor pump is driven like a wheel lorer and a window curtain in the same way as an indoor window curtain, and the building is connected to the mountain peaks. The fire prevention sensor pump of the all-weather fire prevention disaster prevention countermeasures nozzle movement type fire pump sensor detects the initial evolution and lifesaving To be determined by clearly setting the installation position of the function before, during, or after the disaster. The conventional background art will be described as follows.

When the conventional fire extinguishing equipment is largely divided, the fire extinguishing equipment and the fire extinguishing equipment are separately equipped with the sprinkler equipment and the drencher equipment. The above-mentioned facilities have prescribed the installation standards for the buildings according to the digestion method and the fire prevention condition regulations of each city. In this way, fire extinguishers are most suitable for simple and easy use in the early days of fire. Schools, inns, and various sales offices have been set up by the statute to set up standards for buildings where many people gather, and the digestion of fire extinguishers has become the following way, including the general ship fire in the ocean.

first; And was used to enclose the combustible material with an incombustible gas (unburned gas) 164 to block the supply of air (oxygen) to prevent combustion.

second; There is a cooling action to lower the temperature of the combustible material to a temperature below the ignition point, and in general, these two actions are often performed at the same time.

The fire extinguishing method using water hose is mainly cooling, and the fire type is as shown in Table 1-1.

(Table 1-1) Types of firewood

As described above, in order to set fire extinguishers according to the type of fire, the type of fire extinguisher will be explained as follows.

first; In the acid / alkali fire extinguishers 124a in detail,

It puts bottles of bicarbonate in the container and puts the bottles of miscarriage. When the container falls, deoxidization gas is generated and the water is ejected by the pressure.

second; In the detailed description of the foam fire extinguishers 124b,

A solution of sodium bicarbonate and aluminum sulfate was mixed to generate a foam of carbon dioxide gas, which was then ejected and then extinguished.

third; In the detailed description of the chlorinated carbon fire extinguisher 124c,

When carbon tetrachloride is injected into the container, uncombustible gas 164 which is about five times as heavy as air is generated, and this causes digestion by cutting off the supply of oxygen to the combustible material.

fourth; As a detailed description of the carbon dioxide gas fire extinguisher 124d,

When the liquid carbonic acid gas 174 in the container was ejected, the amount of oxygen was about 450 times as much as the storage volume so that the supply of oxygen could be cut off and digested.

fifth; In the detailed description of the pump extinguisher 124e,

And water was discharged by the pressure of the liquid carbonic acid gas 124 by waterproofing using a small pump with a bucket.

Sixth; In the detailed description of the powder fire extinguishers 124f,

The carbonated gas 124 is generated by the endothermic endothermic reaction caused by heat when the baolrae powder of medium tempering is injected into the bomb at the pressure of the carbonic acid gas 124 and is extinguished.

The types of fire extinguishers and their applications are shown in Table 1-2.

<Table 1-2> Types of fire extinguishers and targets

It was agreed that the fire-fighting materials adapted to the fire type as described above were adapted to various types of fire to liquids and solid bodies.

Accordingly, in the detailed description of the hydrant installation,

There are outdoor fire hydrant facilities and indoor fire hydrant (179) facilities. Outdoor fire hydrant is installed outside buildings such as school, apartment, factory, and ground. There are underground type and underground type fire extinguishers. But it is installed inside the power plant at the upper part of the barge main body 591 of the present invention and inside and outside the turntable body.

Accordingly, the outdoor fire hydrant (179)

The detailed description according to the installation standard of the outdoor fire hydrant (179) is as follows

As for the installation standard of outdoor fire hydrant, the ground surface area of the building is more than 9,000㎡ for refractory buildings, and fire hydrant must be installed in these buildings and the following conditions should be satisfied,

First, the outdoor fire hydrant was installed so that the horizontal distance from each part of the building to one hose connection port was less than 40m,

The next water source was that when two outdoor fire hydrants were used at the same time, it should be waterproof for more than 20 minutes,

Third, when the pressure is not enough, pressurized water pump is installed, and when two water hydrants are used simultaneously, three 18m hoses (9) are connected and waterproof pressure of 2.5kg / min.

In the above-mentioned detailed types of outdoor fire hydrants, the outdoor fire hydrants are ground type and underground type, and the ground type is a shell type fire hydrant. The diameter of the fire hydrant is 75mm and the diameter of the fire extinguisher is 75mm and the double spherical shape is 100mm. The diameter of the hose (9), which is used exclusively for the fire department, I was together.

As described above, in the outdoor fire hydrant, the twin-shell type ground-type fire hydrant (179) and the extinguish-type fire hydrant (179) were installed and positioned.

As described above, in the detailed description of the indoor fire hydrant system,

Indoor fire hydrant facilities

Installation and installation of indoor fire hydrant and installation intervals shall be established in accordance with the Fire Service Act. If two or more buildings are built in the same lot and the corridors are connected by a corridor, the building is recognized as the same building. The installation interval of the indoor fire hydrant was that each floor should have objects within a radius of 25m around the fire hydrant.

On the other hand, in the installation of the water tank, refer to <Table 1-3>

The capacity of the water tank should be the capacity to water 130 t / min for one fire hydrant for 20 minutes or more and the maximum number of fire hydrants to open at the same time is 5. If the number of installed tanks is less than 5, When the fire hydrant was opened at the same time, it had to be waterproof for 20 minutes

<Table 1-3> Quantity required for simultaneous opening of indoor fire hydrant and water tank

Refer to <Table 1-4> for the standard of installation of the fire extinguishing pump and multi-stage turbine pump is generally used for fire extinguishing pump. The water pressure of the pump should be 1.7kg / ㎠ or more and the discharge rate should be 130ℓ / min or more . The pressure at this time was the pressure excluding the loss of pipe and hose loss, and the number of pumps was specified to be 15% higher than the required amount of water.

<Table 1-4> Size of fire pump

In this way, in the installation regulations of the fire hydrant box 160,

A fire hydrant box is generally made of steel, and a fire extinguisher valve, a conduit, a hose (15 to 30 meters) and a hose hanger are contained in the box (160). On the surface of the box was a fire hydrant, and on the top of the box was a red light (day and night).

The standard dimensions of fire-extinguishing nozzle and fire hydrant box are the same as in <Table 1-5> and <Table 1-6> and are shown in the same figure.

<Table 1-5>

<Table 1-6> Standard dimensions of fire hydrant box (mm)

Again, a detailed description of the connection pipe is as follows.

The water pipes (169) and the water pipes (169) installed in the building are referred to as connection pipes, and fire prevention objects and installation standards are as shown in <Table 1-7>.

For the fire protection object of 1 in <Table 1-7>, it is recommended that the waterproofing hole is installed in three or more floors, and it should be installed in three floors below.

<Table 1-7> Establishment of connection water pipe

As described above, the detailed description of the water supply / discharge port 168 is as shown in the following table

It is installed on the outer wall of the building. It is installed on the outer wall of the building which is easy to see and accessible by firefighters. When a fire occurs, the fire pump hose is connected to the water supply port and the pressure water is sent to the water outlet. The diameter of the water inlet is 63.5mm and it is made of female thread. There is a check valve in the vertical pipe, the diameter of the water pipe near the water pipe is 100mm, and the pressure of the water pipe is 7kg / ㎠. The height of the installation should be 0.5 ~ 1.0m from the ground, and a drain pipe should be installed to drain the water of the vessel. Also, the water pipe had to be attached to a road that is 3m wide or more in width and easy to see

<Table 1-8> Quantity of spout from exposure to digestion (minute)

<Table 1-9> Standards for installation of fire hydrants and water pipes

As described above, the detailed description of the waterproof port 169 is the same as that shown in the drawing.

The water leak port is called fire extinguishing fire extinguisher by connecting fire hose (65m length) and it is called fire extinguishing fire extinguisher only. The pressure water which is pumped by the fire pump reaches through the water supply port and the water pipe, .

The diameter of the water hole was 63.5mm, the water pressure was 3.5kg / ㎠ at the end of the nozzle, the water amount was 450ℓ / mm, the diameter of the nozzle tip was 19mm,

The installation location of the water hole was 0.5 ~ 1m above the floor of the building,

The water outlet of the connecting water pipe may be installed in the indoor fire hydrant box or may be installed alone. It may also be installed by exposing, but it must be capped.

<Table 1-10 Dimensions of waterproof box (mm)

The dimensions of the fire hydrant (179)

Steel pipe for pipes and galvanized steel pipes for water pipes are used for indoor fire hydrant pipes. When connecting pipes, screw joints are used, and malleable cast iron fittings are used.

The dimensions of the vertical tube shall be 50 mm for the number of layers or less and 65 mm for the number of layers. In the case of using an expensive tank, the piping of the indoor fire hydrant is provided with a check valve (451) and a stop valve (481) in the high-pressure tank main pipe and connected to the main tank of the high- When a pressure tank is used, it is connected to the main pipe of the pressure tank 189 by using a check valve and a stop valve. As shown in the figure, four standard methods of the hydrant piping system are shown.

On the other hand, in the sprinkler system as shown in the figure, the sprinkler head 111 equipped with a separate valve is arranged on the ceiling at regular intervals as shown in the figure, When the room temperature rises when a fire occurs, the metal 113 of the head melts (normally melts at 65-75 ° C), the stop valve 114 is automatically released, It was an autosampler equipment that was dispersed and digested in this fraction.

However, since this fire extinguishing system does not stop the water automatically after the fire extinguishes even if the water comes out automatically, it is necessary to install an auto alarm device in this device.

When the above-described sprinkler head 111 is operated and water is spouted, water flows into the alarm valve 120. This flow of water opens the auxiliary valve and a part of the water flows into the alarm system. As a result, the bell 119 is sounded by connecting the electric bell 119 circuit by the operation of the pressure switch 104. And water is flowing to the aberration, and it is mechanically ringing the alarm by the rotation of the aberration. The test valve 121 was occasionally used for testing

As shown in the figure, the drencher head 299 is arranged at regular intervals on the outer wall, the underbody, the roof, etc. of the building, and the drencher head 299 is piped to the main building, Was opened and the valves were opened and sprayed from each head to form a water film to prevent fire.

On the other hand, with respect to a separate fire extinguishing system and fire extinguishing system,

Dangerous combustible materials such as gasoline, petroleum and other chemicals are increasing from the production plant, warehouse, building to housing as well as the development of industrial culture. Therefore, it is often not possible to digest water by putting it on like a fire. Therefore, it is stipulated to use separate fire extinguishing facilities depending on the type of combustible material, each layer (single layer or high layer) of the building, and other conditions

The separate fire extinguishing facilities were as follows.

first; Water spray fire extinguishing system

second; Foam fire extinguishing equipment

Third; Non-combustible gas extinguishing facility (carbon dioxide extinguishing facility)

Fourth: Powder fire extinguishing equipment

fifth; Evaporative liquid fire extinguishing system (4-chlorinated fire extinguishing system)

As described above, in the fire alarm system 300,

The digestion activity is a fight for a moment, and it becomes big fire by one second delay. In the event of a fire, it is necessary to complete a fire alarm system in order to be able to engage in fire-fighting activities as quickly as possible. Therefore, it specifies the type and size of the building in which the fire alarm system specified in the fire extinguishing method should be installed. The manual fire alarm system was designed to detect the location of the ignition by the hand of a fire detector,

An auto fire alarm system is installed on a ceiling such as an inn, a hotel, an office apartment, etc. where a fire is likely to occur, or a place where ignition is difficult to detect at first, or a wall near the ceiling, When the detector is connected to the plate, the detector is automatically operated by the rise of the room temperature or smoke due to the ignition, so that the enrichment circuit switch 118 is closed and the rich plate 117 of the receiving plate rings. It was a device that made it possible to know.

There are many kinds of auto detectors, but they are divided according to their operation methods as follows.

first; Deformation due to thermal expansion of metal, melting or the like

second; By thermal expansion of air or other gases

Third; By thermal expansion and evaporation of liquid

fourth; By thermoelectric power of thermocouple

fifth; Using the change of electric resistance by heat

Sixth; By phototank

.

As described above, the installation standards of conventional fire extinguishing facilities are strict and advanced fire-extinguishing equipment is considerable technology. However, since the adaptation is not good at the site for some reason, the detailed explanation will be carried out so as to solve the question.

In a detailed description of the water source and water quality of the water supply, which is the fire water 7,

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 source of water supply was river water and well water.

Therefore, the average water temperature of the wells is 16 ~ 17 ℃, which is suitable for cooling water and industrial water because of the difference in water temperature due to seasonal changes.

Since river water is abundant in quantity, it is purified and used widely as tap water in large cities. The tap water is 3 ~ 8 ℃ in winter and 25 ~ 28 ℃ in summer, so it is not suitable for photographic development and other industrial use due to the seasonal changes in water temperature.

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. The germs are the cause of the disease, and the harmful substances are the minerals that exceed the standard value, which is bad for cooking and laundry.

The hardness of water is expressed on the basis of the content of minerals such as calcium carbonate contained in water. That is, when calcium carbonate is contained in water by a factor of one million, this is called 1 (p.p.m. part per milion). Drinking water should be between 90 and 110 (p.p.m) and should not exceed 300 (p.p.m.). In addition, water was divided into soft water and soft water according to hardness, and it was said that water less than 90 p.p.m was hard water more than soft water (110 p.p.m).

Generally, for a pump body,

The positive water of the pump is performed by the action of sucking up the inside of the suction pipe by vacuum and pressing the inside of the pipe which blows water. The sucking action is due to the vacuum, so atmospheric pressure head. That is, it can not be sucked up to more than 10.33 meters under standard atmospheric pressure. However, this 10.33m is the theoretical suction 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 loss of resistance in the tube to suck up, it is about 2/3 of the theoretical sucking height In other words, it is only about 7m. Therefore, the installation height of the pump (lift-up head) should be within 7m from the lowest water surface. The lower the height, the better.

There are two types of pumps used in architectural design: a reciprocating pump and a rotary pump (fugal pump).

On the other hand,

As shown in the figure, the reciprocating pump 320 and the aspiration valve 321 are formed in the reciprocating pump, and a hood valve (not shown) is connected to the lower surface WLD of the water surface And a piston 127 or a plunger 253 is attached to the shaft 198 into the cylinder body 126. The piston 127 or the plunger 253 is attached to the shaft 198,

The reciprocating pump includes a piston 127 pump, a plunger pump a worthington pump, and the like. Piston pumps were found to be suitable for large waves due to large fluctuations in water pressure and low water content

The plunger pump 148 is less likely to leak from around the plunger 253 and is used in a high-pressure pump for water and other liquids

The Washington pump was that the pump was directly connected to the steam engine, so it was suitable for the feed pump of the high-pressure boiler.

In the following rotary pump, as shown in the figure, the rotary pump includes a Centrifugal Pump 308, a Turbine Pump, and a Gear Pump. As compared with the reciprocating pump, it has the following advantages and is widely used in general.

First, it is lightweight and compact, suitable for high-speed operation and directly connected to the motor. The driving performance is also excellent.

Secondly, it was easy to control the quantity because there was less vibration and noise, the device was simple and there was no wave in the water pressure.

The centrifugal pump 308 is mainly used as a pump of a low head of about 15 m and is designed to pump the impeller 143 by rotating and centrifugal force in the pump in starting.

The turbine pump 140 has a guide uane on the outer shaft of the impeller 143 of the centrifugal pump 308 to control the flow of water and is used for a high pumping water of 20 m or more. And

The operation procedure for starting the rotary pump was that the embodiment was as follows.

First, it was necessary to lubricate the bearing 227 with a smooth rotation

The next step is to lock the pump's discharge valve. (The reciprocating pump is open and starts)

Next, pour water into the pump before starting. (Priming, 339) omitted below

And to switch on the motor while locking the fourth spout

After the fifth start-up, the pressure gauge showed that when the pressure rises to a predetermined pressure,

When the ammeter is above the predetermined amperage, the valve of the outlet is regulated by the sixth ammeter.

A detailed description of the next deep well pump is that the pump is used to pump deeper wells. The borehole pump is a vertical pump, The impeller and the strainer are in the water and the motor is on the coke,

In the following, the underwater motor pump was designed to direct the motor under the vertical type turbine pump, to pump it, and the motor and turbine to operate underwater. This pump is very similar to the high performance underwater pump (36).

The jet pump (157) then establishes a suction line and a pressure line in the well connected to the ground turbine pump. In the turbine, a part of the pressure water is sent through the pressure pipe to the jet in the water and injected at high speed into the venturi pipe. At this time, the pressure of the benzylidone pipe is lowered and the well water is sucked, and the sucked water rises to the suction pipe like the pressure water and is discharged to the turbine pump 140.

The jet of the pump serves as an auxiliary pump and can lift the well water up to an absorbable range (6 to 7 m) of the Century Pewer Pump 308, and thus can be used for a diaphragm up to a height of up to 25 m. .

A sewage pump 309 is formed on the lower part of the water surface WLD on the upper part of the water pump 313 and the water pump 309 is connected to the water surface portion WLL of the pump 309 A float switch 318 is attached to the float 315, the discharging port 270 to the upper portion of the sewage pipe, the flexible carriage 317 to the lower portion of the electric motor body 192, and the drill bowl 316 to the left of the bowl 316 .

The sewage pump 309 is used when it is used to exclude water containing residues such as dirty waste from houses or water mixed with oils and fats and cloths for building equipment when the sewage in the stratum or the purified water in the septic tank is pumped to the public sewer pipe And shows the installation state according to the drawing. This pump also belongs to the rotary pump, but the structure of the water pump and the impeller are somewhat different, so that the solids do not get caught and the impeller becomes 1 or 2 times larger and the spiral casing 310 becomes wide enough so that the solids are not blocked

In the case of sewage that does not contain large solids, the number of impellers is four or six. As shown in the drawing, the motor is installed on the ground, and the pump is submerged in the water of the sewage pipe, and the sewage is pumped through the discharge pipe. The pump was automatically operated by the flow throttle switch 318.

As described above, the description of the conventional operation for the operation of the pump for the flow of the flammable water 7 will be omitted, and a detailed description will be made as follows regarding a compressor such as an air compressor, a blower,

The compressor is a machine that transfers mechanical energy to a gas to increase its pressure and speed. A fan with a pressure rise of less than 1,000 mm (Aq), a blower (blower) with a pressure of less than 1 kg / cm 2 and a pressure of 1 kg / cm 2 g or more is called a compressor.

In this way, the type of compressor is turbo type and volumetric type, and the separation and separation structure is described as follows, but reference is made to the manufacture and repair of the embodiment shown in the drawing.

First, the turbo compressor will be described in detail as follows.

Firstly, since the pressure and velocity energy are generally obtained by using the centrifugal force, the centrifugal compressor is referred to as a centrifugal compressor,

Second, it was faster, smaller, and less vibration, noise, weight, installation area, wear or friction loss than reciprocating,

Thirdly, the gas pressure was due to continuous rotation, so there was no pulsation,

Fourth, it is suitable for large capacity. Since it does not use lubricating oil inside, it is said that oil is not mixed in the pressurized fluid.

Fifth, it means that there is no need for a reduction device by connecting directly to the prime mover,

Sixth, the manufacturing cost is higher than that of the reciprocating type, and since the mechanical contact portion is only the portion of the bearing 227,

The seventh was that high pressure required a high degree of processing technology in the shaft device,

In the eighth, it was greatly influenced by the specific gravity of the gas, and the change in the capacity due to the change in the discharge pressure was great.

For the ninth time, the capacity adjustment range was relatively narrow (70-100%),

In the tenth, there was a need to be careful about the surging phenomenon during operation.

A detailed description of the following reciprocating compressor will be given below.

The reciprocating compressor may be classified as follows. In the compressor, the horizontal piston first reciprocates horizontally according to the cylinder arrangement. Next, the reciprocating piston vertically reciprocates. Next, L Type piston is one of vertical and one of which is a reciprocating motion in the horizontal direction and the V type piston type is arranged in a V type and then reciprocating in a W type piston type in a W type reciprocating motion The opposite type was a low reciprocating motion in which the pistons were placed against each other on both sides

According to the first compression method, compression is performed only on one side of the single piston 127 and compression is performed alternately on both sides of the piston

Second, depending on the number of compression stages, one-stage, two-stage, three-stage ... ..., multi-

Thirdly, the forced lubrication type according to the lubrication method is a method of lubrication to the bearing portion by a hydraulic pump such as the gear pump 326 or the like, and a method of lubrication of the lubricating oil to the bearing portion by rotation of the crankshaft of the lubricant-

In addition to these oil feeds, there was no oil feed that did not supply lubricants

In addition to this, the fixed type and movable type which can be moved according to the installation method, and the deceleration type using the direct coupling type or the V-belt 252, the flat belt, and the gear reducer 251 according to the power connection of the prime mover, The characteristics of the compressor were as follows.

First, a certain amount of quantification was compressed in a volumetric form,

Secondly, the reciprocating motion was intermittently pulsating,

Thirdly, by being able to obtain high pressure even at low speed,

Fourth, since suction and discharge valves are necessary and there are many operating parts, it is claimed that vibration, noise,

Fifthly, it has a large appearance, a large weight, a large installation area, and a solid foundation,

Sixth, the overall efficiency was high, the capacity adjustment was wide (0-100%) and the capacity was easy to control.

The seventh was that it was not significantly affected by the specific gravity of the gas,

In the eighth, when the piston 127 is moved to the cylinder 126, the lubricant for forming the oil film must be supplied to reduce the airtightness and the frictional resistance, so that the oil may be mixed into the discharged gas.

In the detailed description of the third rotary compressor,

As a kind of the positive displacement compressor, compression is performed by a piston or a wing that performs rotational motion instead of reciprocating motion. Depending on the type of the rotation, a stationary blade type in which a vane is fixed, Rotary blade type and so on. Screw type compressors are also a type of rotary type, but we have looked at their characteristics in the following separate items.

First, since the operation is simple, the number of parts is small and it is simple,

Next, it was said that there was less vibration because it was rotating motion,

Third, the casing friction portion is required to have precision and abrasion resistance, has noise, requires lubrication in order to improve gap efficiency,

The fourth was that it was efficient, had a high compression ratio, and could be manufactured with a large capacity,

Fifthly, the compressed discharge amount is almost constant, and there is no increase or decrease of discharge amount due to the variation of the load, and the discharge amount is proportional to the rotation speed without decreasing the compression ratio.

In the description of the fourth screw compressor (screw compressor, 147)

It was developed as a non-lube compressor for high-speed (reaching 15,000r · p · m) with a large-capacity rotary compressor as a volume type compressor.

The principle is that the arm and the pair of rotors are engaged and rotated continuously in the casing. Although there is no need to use lubricating oil between the two rotors and the casing, lubricating oil may be used to improve the leakage and efficiency of the gap. The main features are as follows.

First, it was developed as a volumetric type,

Therefore, the two rotors are continuously transmitted without vibration or pulsation due to rotational motion,

Accordingly, it is light, and has a small vibration, heat, fault, and small installation area, and is suitable for high capacity and medium capacity,

As described above, the capacity change due to the change in the discharge pressure was small, and it was slightly influenced by the specific gravity of the gas.

In general, the efficiency is low, the capacity adjustment is difficult, and the capacity adjustment range (70 to 100%) is small.

In the detailed description of the reciprocating compressor 263 according to the fifth and other uses,

Firstly, since oxygen compressor of oxygen compressors can not use lubricating oil, use water (or diluted glycerin less than 10%) as lubricating oil or use non-lubricating compressor. When using water as a lubricant, use a U-shaped packing (chrome-plated) or a piston ring made of fiber or Teflon coated with chrome so that leakage does not occur and oxygen or water leaking from the cylinder does not enter the crankcase. Install the collar. In order to prevent the metal material from being oxidized and rusted, the piston rod is selected as a non-corrosive steel, the valve is made of cast or non-steel, and the piston, cylinder and valve box are made of a forging agent,

Stainless steel (an alloy of steel with chromium and nickel)

It is a type of bronze which is an alloy of copper and tin in its deposit. It is made of 90% of copper (Cu) and 10% of tin (Sn). It has high strength and ductility and excellent corrosion resistance and abrasion resistance. (Gun Metal), which is the origin of the "

The non-lube compressor was to compress without lubrication by using a carbonding or teflon ring or using a labyrinth piston or diaphragm compressor.

Next, the acetylene gas of the acetylene compressor is a combustible gas having a very wide range of explosion, and it forms an explosive compound material by contact with copper, copper alloy, silver, mercury, etc., and pressurizes without self- do. Therefore, the use of more than 62% of copper alloys, mercury manometer or silver should be avoided in the compressor, and the reciprocating compressors of low speed rotation (usually around 100r · p · m) Use,

The compressor requires sufficient cooling (normally operating in water and keeps the coolant temperature below 20 ° C) and connects it to an explosion-proof motor isolated with an airtight structure, and at the time of charging, at least 25 kg / cm 2 The pressure should not be raised, and when compressed to a pressure of 25 kg / cm3 despite the temperature, it was supposed to add a thinner such as carbon monoxide, nitrogen, ethylene, methane.

In the main characteristics of the compressor described above,

The functions and conditions of the suction and discharge valves of the reciprocating compressor

First, suction and discharge valves are necessary in reciprocating compressors for the function of suction and discharge valves, but they affect the efficiency and the life of the compressor depending on the operation. Rather than having a mushroom shape like an internal combustion engine, it has the shape of a thin plate (0.8 ~ 4.0mm or so) like a normal ring. This flush valve plate should be as light as possible with nickel-chromium alloy steel,

Valve seats in contact with this valve are made of high grade cast iron. The spring that holds the valve plate is made of spring steel. If it is too strong, there is a loss of power. If it is too weak, the valve plate is vibrated and the gas is back flowed to reduce the discharge amount

In addition, in the condition of the valve, it is required that the valve should be opened and closed in this way so that the closing and opening are not delayed, the operation should be good, the fluid passage should have a sufficient passage area and the fluid resistance should be small, , And there should be no disassembly during operation

On the other hand, in the method for controlling the capacity of the reciprocating compressor, there are a method of closing the suction main valve, a method of controlling the time by the timing valve to the method of returning the gas to the suction side by the bypass valve, It was a way to change the number

(Unloader method) in which the volume efficiency is lowered by the clearance valve and the suction valve is opened to reduce the actual gas suction.

In addition, the suction main valve closure controls the opening of the main valve on the suction side. When the suction pressure is lowered, the discharge temperature rises. If the suction valve is sucked at atmospheric pressure, the suction pressure is lowered to atmospheric pressure or less, , It was used almost exclusively in compact air compressors.

On the other hand, by-pass is a method of returning compressed gas back to the suction side by returning compressed gas from the middle or the last stage, and can be continuously controlled from 0 to 100%. However, since power loss is large, large- It was mainly used for

In addition, the timed valve is controlled by forcibly delaying the closing timing of the intake valve by the elasticity of the spring to regenerate the sucked gas to regulate the stroke distance, so that the power loss is small and the backflow time is freely adjusted There was an advantage to choose from,

In this way, even if the capacity is adjusted by changing the number of revolutions, there is almost no pressure change in the reciprocating type, but the pulsation cycle becomes longer

A clearance box is provided in a part of the cylinder 126 and the connection with the cylinder 126 is controlled by the stop valve 301 so that the gap volume is changed and the volume efficiency is increased or decreased in the clearance box Since the gas recompresses and raises the temperature of the discharge gas, a water jacket should be provided so that sufficient cooling water flows when the capacity of the clearance box is large. There is no power loss, but it is not continuously adjusted, so there are many examples to be combined with the bypass method,

Finally, the suction valve is forcibly opened by opening the suction valve so as not to perform compression, and it is operated by power such as hydraulic pressure or air pressure in addition to manual operation. Since some of the cylinders can operate only some cylinders, they are sometimes referred to as 'how to tease some cylinders', or 'unloader method'. Although there is no power loss and it is a simple structure, since it is adjusted step by step, it is used alone in combination with a clearance valve or bypass system.

However, in the capacity control method of the turbo compressor,

First, the method by changing the number of rotations has the following relation with the rotation speed

(QαN; the amount of discharge is proportional to 1 power of speed)

(HαN ² ; pressure is proportional to the square of velocity)

(KWαN ³ ; power is proportional to the third power of speed)

This relationship is not established for multi-stage compression ratios but it is the most realistic and economical method

The following adjustment by the discharge valve was most commonly used as a method of adjusting the amount of pressure to be delivered by adjusting the opening of the valve installed in the discharge pipe

The adjustment by the third suction valve is widely used in air compressors sucking atmospheric pressure by adjusting the amount of pressure to be supplied by adjusting the opening of the valve installed in the suction pipe. Adjusting with the intake valve saved the shaft power and reduced the throttling limit,

In general, safety managers who deal with freezers know that turbo compressors do not have suction and discharge valves. In this sense Turbo compressors cover turbo compressors in a comprehensive sense, so that the 'damper' As a suction / discharge valve

Adjustment by the vane control can change the angle of the impeller and change the characteristic curve by adjusting the angle of the guide vane placed in the radiation on the impeller inlet of the compressor. This means that the shafting force can be saved more than the adjustment by the intake valve and the throttling limit can be adjusted to a smaller amount. The adjustment by other bypass can be performed by bypassing the bypass line It is necessary to install a cooler in the bypass pipe when returning to the suction side because the discharge temperature is raised by installing a pipe and returning a part of the discharge amount to the suction side or discharging it to the atmosphere

In this way, the effect of cooling the reciprocating compressor was firstly that the volume efficiency was increased. Next, the compression efficiency was increased and the power was decreased. Next, the lubrication function was improved and the proper viscosity was maintained. To prevent deterioration and carbonization of the piston ring, and eventually to maintain the life of the wet parts such as the piston ring bearing.

If the cooling water is reduced in the jacket of the intermediate cooler in the reciprocating multi-stage compressor, the following phenomenon occurs.

first; The gas temperature in the cylinder was raised,

The second is; And that the volume efficiency is lowered due to the reduction of the intake gas amount,

The third is; The compression efficiency is reduced, and the power is increased,

Fourth is; And the pressure of the end or the back end was raised.

As you can see, the role of lubricant in the compressor body is explained as follows:

First, for the purpose of lubrication,

First, the oil film is formed in the active part to reduce the frictional resistance and smooth the operation.

Second, oil film is formed to prevent gas leakage.

Third, the efficiency of the machine is improved by removing the frictional heat from the activity part.

The fourth was to prevent superheat compression and to extend the machine life, which in the end was rust inhibitive.

The following describes the conditions for lubricating oil

first; It was chemically stable and would not react with the used gas

second; The higher the flash point

Third; The viscosity is appropriate, and the anti-freezing property is large; The higher the refining level, the lower the residual carbon

fourth; The impurities such as moisture and acid will be small and the sixth; It was not thermally decomposed easily because of its good thermal stability

A third lubricant dedicated to each gas will be described.

First, the air compressor is a high-quality mineral oil (high-grade diesel engine oil)

The internal lubricating oil of the air compressor is a product other than the recycled oil, in which the mass of the residual carbon is 1% or less of the total mass, the product is not decomposed even when stirring is carried out at a temperature of 170 ° C for 8 hours or more, Of the total mass should be above 1% and below 1.5%, with a flash point of 230 ° C or higher and no agitation even at a temperature of 170 ° C for at least 12 hours

Secondly, oxygen compressors can not use oil or concentrated glycerin with water or dilute glycerin lubricating oil of less than 10%. Oxygen is a strong oxidizing gas, because when oxygen and oil are mixed, they explode when they are compressed.

The concentrated sulfuric acid in the third chlorine compressor uses concentrated sulfuric acid as the lubricant for the chlorine gas compressor, while the concentrated sulfuric acid serves as the desiccant for the chlorine gas.

The fourth acetylene compressor was to use a high-quality mineral oil with high anti-emulsifying properties

(5) Hydrogen compressors use high-quality mineral oils with high viscosity. Therefore, methyl chloride (methane) compressors use white flow, and sulfur dioxide (sulfurous acid) gas compressors do not infiltrate into white or refined solvent turban oil gas, It should not be.

Fourthly, the experiment was to use the following formula for the lubricating oil. See the table below.

A detailed explanation of lubricant inspection is as follows.

Firstly, the choice of lubricant was to choose the right one with the help of the manufacturer

Second, for the change in lubricating oil quality, it was necessary to analyze the flash point, impurity, viscosity, acidity (acid value), etc. 1,000 hours after the start of normal operation and then every 2,000 hours thereafter.

Thirdly, it was necessary to always check the lubricating pressure, lubrication temperature, oil pressure of the oil for the shaft or other oil of the bearing or other shaft and the temperature or leakage flow of the returned oil and to keep the operation from being stopped by sudden accidents. A detailed description will be given of the characteristics of the electric motor directly connected to the compressor and the pump in order to eliminate the curiosity of those skilled in the art or those of the present applicant so that the technical background of the present invention, .

A lifting bolt 204 made of an O-ring bolt is lifted up to the upper portion of the electric motor body along the outer wall surface of the body frame 196 of the electric motor body 192 of the power motor control module 106, A stepped box 203 for connecting the electrodes is formed on the left side of the body and a front racket 197 is formed on the front and rear sides of the body frame 196, A motor shaft 198 is installed on the opposite side of the bucket racket 197 to the center of the rear racket 207 and a rotor iron core 210 is mounted on the circumference of the shaft 198, The object of the electronic assembly 199 is installed on both sides of the rotor iron core 210 and the stator winding 212 is provided with a plurality of copper wires 211, The motor-driven casting frame A rotor iron core 210 for the rotor assembly 199 and a rotor assembly 199 for fixing the iron core 210 are installed along the circumference of the shaft 198, And then the front and rear bearings 200 and 206 are coupled to both sides of the shaft, and the motor and the motor are separated from each other by a bolt and a nut. At this time, The hood 193 and the fan 195 in the snap ring 194 are assembled and disassembled in the order of assembling and then the spiral casing 141 and the guide vane 142 formed in the turbine pump body 140 in the shaft 198 And an integral body attached to the shaft is partly formed of a key punch type fixed body male key punch type.

As shown in the figure, the conventional fire prevention and disaster control apparatus includes a pump control system (Control Assy 2) of the pump control system 150 inside the fire detection sensor pump body, An isolation valve 5, which is an internal pump isolation valve, is disposed on the left side of the pump by a suction merge pipe 3 and a discharge merge pipe 4 on the upper side of the upper side of the pump lower end bed frame 286 to the rear upper machine room floor GLU, Stage pump 8 in which the pump 8 and the check valve 6 for preventing the backflow of the pump are assembled is mounted on the top of the upper pump control box of the machine room bottom floor frame 286 by hooking lugs 21 And the shackle 22 and is installed with the bolts 24, the nuts 25 and the washer 26 as the bed frame and the pump control box 2 and the pump binding assembly connection parts, After attaching with a hinge (spatula, 27) The coupling flange 28 is connected to the coupling 29 and the plug connection flange, and is connected to the fire hose so as to be connected to the coupling member 29 and the coupling coupling 29. The coupling member 29 and the couplings 29, Since the rubber packing 32 is connected to the coupling hose of the standard type of firefighting window and the fire hose is loaded in the nozzle hose equipment holder 33 and the length of the fire hose is standardized to 15 meters, Hose operating pressure is more than 13 kg per square centimeter and 13 kilograms of fire hose is connected to the couplings and it is actually used in the field. When the pump is operated 100 meters vertically, the water pressure inside the fire hose is increased 16 bar The fire hose is used at a pressure of 16 kilograms per square centimeter. Since a pressure load is generated, the operating pressure of 160 bar The impeller inside the pump idles and the reflux water flows back into the suction port at the suction position inside the pump. The difficult technical problem is solved by the fire-fighting nozzle 10 connected to the hose nozzle and the high- And the pump 36.

Conventionally, after opening the manhole cover 152 of the fire station 40 from the road surface lower surface collecting tank 34 at the bottom of the road surface GLL and the disaster prevention water path 17 at the rear, The fire helicopter is operated by the engine 226. After the propeller 146 is operated, the helicopter is operated in the upper part of the ground surface (GLU) The baskets 42 were operated at the upper part of the building 333 to carry out firefighting with the upper fire trucks and firefighters at the upper surface of the ground,

The fire extinguishing material supply system of the conventional evolution system includes a fire extinguisher 179 on the building upper wall of the fire-fighting water supply line of the water intake pump in the industrial site where the fire fighting water (7) After opening, connect the connection port coupling by opening the underground burial valve inside the manhole and proceed the fire suppression after recharging. At this time, the pipe connection is connected to the connecting elbow or tee elbow (44) The valve is provided as emergency valve 84 in case of pipe breakage, and the power supply (single phase 220V, 60Hz, three phase, 380V, 60Hz, 440V, 60Hz) of the power supply 46 of the multi- And the pump 8 is connected to the pump stage 8 by a three-stage multi-stage pump 8, and is supplied to the control panel by the electric wire 71, 2 sets, 3 sets and 4 sets, 5 sets and 6 sets, according to the order of the person skilled in the art.

However, in the inside of the fire sensor pump body, a plurality of pump control type pressure sensing is a non-contact pressure sensor, and it is used in pumping water temperature (0 ° C or 70 ° C) 4) The bore is formed of a suction confluent pipe (3) and a discharge confluent pipe (4) with a diameter of 50 mm, 65 mm, 80 mm, 100 mm, 125 mm, 150 mm, 200 mm and 250 mm, If there is a lot of plumbing, bends, or a large change in flow rate, use a pipe that is larger than the suction port of the pump. Here, the discharge specimen 35 is used to adjust the pump size and the rubber packing 32 is fastened onto the joint when the flange is engaged

The access point 49 and the Internet network 50 and the booster pump control server 51 are connected to the inverter 47 and the Vividon off 48 into the single pump control system 150, A wireless control module 55 of a short range wireless communication device, a liquid crystal display (LCD) 56 and an electronic control unit (CPU) 56 are connected to a booster pump control board 53 and a short- A switch input 58 is connected to an advanced developing counting (ADC) 57, an MCU 59 as an electronic control unit, and a development assistance unit 60 as an electronic control unit (DAC) A main switch button 66 and a sub switch button 67 which are switches for on-off control of the respective pumps to the analog input 64 and the digital input 65 on the power source 62 and the display screen 63, Input (computer network input, 68) and the current pressure value or set pressure value A memory 70 and a power cable 71 for operating a pump motor and a powder fire extinguisher 124 and a sprinkler head (not shown) are attached to the air compressor 80 of the disaster prevention material liquid and solid mixing equipment, 247 to the low pressure shut-off valve 83 and the emergency valve 84 to the short message service 81, the portable terminal (PDA) 82 and the pressure reducing valve 85 to the first pressure check A second pressure check sensor 87 and an electronic control unit 88 are connected to the sensor 86 and a plurality of compressors 92 are connected to the valve handle handle 90 and the drencher head 91 in a plurality of piping lines 89 A flashing warning lamp 99, a disposable gas container 101 and a sensor bimetal 102 (not shown) are attached to the emergency siren 93 in the nozzle operating paraffin (candle 100), the Alfygia gas bottle 79 and the reducer bushing socket 97, A flow rate meter 106 for checking the amount of water, a thermocouple thermometer switch 103, a power motor control module 106, a switch operation weight and a lead weight for the detection sensor. (Air hose connection device 110), lifesaving air tube 130 and regulator 136 to the tumbler winch 137 and the impeller 143 to the air hose 109, The hatch cover 153 and the fire door 154 of the air pump 151 and the manhole cover 152 to the air pump 226, the air receiver high pressure storage tank 145 and the propeller pump 146, The installation position is adjusted by the loess 158 or the disaster prevention yarn 159 and the fire hydrant (single-sided a, double-sided b 179) and other fire-fighting and disaster prevention countermeasures.

As shown in the figure, as it is once again seen that the fire water moving state inside the inside of the previous industrial field pump machine room and inside the disaster prevention material pipe and the correct control operation of the pump operation,

In the main function of the pump operation in which the microcomputer control and the inverter system are combined,

The microcomputer controls the number and speed of the pumps according to the increase and decrease of the water supply and the nut and washer in the bolt with various valves and sensors in the multi-stage pump (8) and the pump control panel (2) It is easy to assemble with a monkey spanner. The control panel of the pump has a self-diagnosis function and an over-current overload protection function integrated with the valve and sensor. .

The microcomputer alternately operates the pump to prevent the concentration of the load by a specific pump, so that the lifetime of each pump is equalized and the pump and the pump are sequentially operated to protect the system and piping and reduce the pressure ripple phenomenon. The pressure reducing valve 85 is installed in the discharge and confluence pipe 4 because the pressure fluctuation is severe.

In the event of failure of the power motor control module (106), fault report is output and operation is performed by skipping over to the faultless pump, so that the water supply is not cut off smoothly and the pump is operated using the ON and OFF select buttons It is easy to use for maintenance and preliminary operation by alternate control. All selected pumps are activated when fire of external emergency signal or signal of portable terminal is detected. Preventing prevention of freezing in winter by adding temperature sensing function, The warning status is displayed on the display window. The automatic operation mode and the manual emergency operation mode have various operation modes. Therefore, the Proportional Integral Differential control method is used to flexibly respond to difficult situations and to improve responsiveness. (PID) coefficient is set for the field, but where the flow rate change is severe, the response The inverter can be switched to the logarithmic control method in case of failure of the inverter. Therefore, even in the case of the failure of the inverter (47), it is possible to maintain the normal operating point by the logarithmic control method In order to be able to operate, a pressure tank of adequate capacity is desperately needed.

The pressure tank is a head tank 189. The head tank 189 is provided with 100 liter, 200 liter, 300 liter, 500 liter, 750 liter, 1000 liter, 1500 liter and 2000 liter head tanks 189 respectively. (8) is an electronic sensor pump. When a fire occurs, the fire heat detection signal is operated according to the signal of the pump machine room. In the range of application, it can be applied to the pressurization of a large-sized residential area, High-rise buildings and hotels have a significant range of applications for industrial applications such as hospitals and water pump pumps.

The above-mentioned fire-fighting pipe nozzle fire prevention sensor pump type multi-stage pump (8) of the pump body is a bottom-up and top-down facility of high-capacity water supply pressurization. The application liquid includes drinking water, domestic water, cooling water, The detailed description of the operation of the fire fighting and disinfection control device (when using a six-mass pump) is a maximum capacity of 580 cubic meters per hour, with a maximum head height of 160 meters and a maximum liquid temperature of two 70 ° C. The maximum ambient temperature of the pump is 40 ° C. The maximum operating pressure is 16 bar (bAR). The suction pressure value is included. The maximum suction pressure is 6 bar and the motor rotation speed is 3500 rpm In the description of the installation type of the high-performance submersible pump 36 that has been operated and is installed inside or outside the machine room, The selection is made according to the order specification.

According to this model, the voltage of the power supply 46 is 220 volts and 380 volts (VOLT), and it is connected to the electric wire (three phase AC, 71) and the rated output (5.5kw, 7.5Hp) At a height of 220 meters per minute, the flushing water is supplied to the agricultural water, fountain and industrial water, and the air is supplied to the air compressor (PISTON AIR COMPRESSORS) 80 is a low speed type operation of the reciprocating operation, so that the ring 194 of the piston 127 has less wear of metal or the like, and therefore is used as a long, reliable compressor 80 having a long product life.

The rotation of the motor of the pump power motor control module 106 of this flushing water liquid is the same as the rotation of the power motor of the air compressor 80 but is controlled by the balance 334 of the crank shaft 248 at low speed by the speed reducer 251, The cooling water inlet 287 and the oil separator tank 287 are connected to the compressor 192 and the after cooler 182 and the intercooler 170 of the motor at the rear of the electric motor, A gear train 290 is formed in the tank 288 and an air tank (airizer tank) 145 is formed as a unit.

The above-mentioned electric motor is simply installed, but a model is selected as an output (0.75 kw, 1.5 kw, 2.2 kw, 3.7 kw, 5.5 kw, 7.5 kw 11.0 (15Hp) kw, 15.0 (20Hp) kw) Depending on the ordering order of the order, the Two Stage Screw Compressor (147) produces suction air at 23.37㎥ cubic meters per minute at discharge pressure (14 bar or 35 bar) Intercooler (intercooler: 170) and aftercooler that generates heat when air is compressed, which is the device that cools this heat, and after cooler (moisture) The oil cooler (the compressor main body 263) or the oil separating tank 288 is operated at a low temperature of the compressed air without the role of preventing water from being removed and preventing the oil from being corroded, Lubricant oil cooler 151 ), Heat is distributed only through it, and other specification is decided after specification review when ordering order.

On the other hand, the actual amount of air produced by the piston 127 is 138 liters or 2518 liters per minute and the compressor speed (rpm) is 660 revolutions or 1040 revolutions and the diameter (Bore) × stroke (Stroke) (40, 67, 89, 108, 100) × number of cylinders (diameter 65, 77, 90) × 4 and 6 in the number of 1 and 2, and a rich model is assembled according to installation purpose. The fire-fighting and disaster control device is equipped with a multi-stage multi-stage pump 8 or a high-performance submerged pump 36, which is a power pump including advanced, highly rigorous and advanced technical functions, and an air compressor, While the sensor and fire nozzle exhibit better functions as a single valve, the fire-fighting material (7), which is transported to the basket in the previous large-scale fire evacuation system, transports fire water through the water by a helicopter (292) and flame (293) are asleep at the scene of the fire on the way back and forth, the phenomenon that the dropped fire water evaporates with water vapor and then resurfaced with the wind repeats year after year, It is the same as the reopening of the right wing, The multi-stage pump control system (PC) 184 transmits the fire scene condition to the inside of the control room by the unmanned camera (CCS) 184, because the life structure of the present invention and the evolution method opposite to the initial evolution method are like fireflies, The control server 51 and the monitor 52 of the control unit 150 display a scene before and after the occurrence of a fire.

In the conventional fire fighting and disinfection control system, the fire fighting and disinfection control device is equipped with a state-of-the-art transportation equipment fire fighting helicopter, an engine 226 of a fire engine, a fire hose 9, The fire water 7 in the disinfection piping line 14 and the collecting tank 34 is supplied to the water supply pump of the water pump machine room installed in the integrated unit of the multi-stage multi-stage pump 8 and the pump 8 control system 150 The engine 226 of the fire truck is re-activated, the engine pump is operated, and the fire water is regulated by the handle of the standard fire pipe window of the fire fighter window through the fire hose, and the fire prevention disaster is underway, The fire helicopter by communication is used to transport the unknown fire water 7 to the basket 42 after the fire water drops suddenly from the high water level to the disaster prevention water 17 or to the time when it is fully evolved in the pond or the river or the reservoir Fire fighting of fire helicopters or fire trucks is not at the level of initial evolution, and the ties between local residents or evacuees are getting farther away. Evacuation personnel lose their lives during fire fighting and disaster, or residents of the fire scene are confused, The ignition point was not able to grasp the cause of ignition and the fact that it could not distribute the supply water smoothly as an obstacle to the operation of the fire fighting vehicle,

In addition, in the conventional fire fighting / disinfection system, when the weather condition is deteriorated, the disaster prevention activity is stopped and the fire (292) and the flame (293) If the inside of the building is the first ignition point after disappearing somewhere, fire water should be injected into the inside of the first ignition point with disaster prevention materials and fire fighting equipment. However, fire extinguishing water is sprayed intensively from the outside of the building and the building is collapsed. The value is damaged and the gas (163) is sucked in and it leads to a death accident, and it is very cumbersome and complicated process of the disaster recovery. The reexamination of the cause of the former fire is repeatedly reanalyzed. Considering the local arrival time of the fire engine dispatch, In order to quickly and accurately initialize a large fire quickly and accurately, it is necessary to continuously discharge the fire-fighting water (7) and fire-fighting material (159) Emergency siren will be activated after the proper installation position and the solenoid valve (76) and the valve operation switch are activated by the sensor, so that the sleeping teenager and the studying teenager can be evacuated to emergency evacuation, the patient in the diseased, The disaster prevention system of the present invention for early evolving and lifesaving of the fire suppression in the neighborhood living residence by allowing the installation site of the dual life bed nozzle 172 to be installed in the emergency site after the installation location is selected, "By the inhabitants' own practice" "to suppress the large fire" "feature" to determine the installation location It is a tube nozzle which is very different from the conventional one because it has opened many closed tube nozzles at the time of disaster, This is because it guarantees the functions of fire fighting and disaster countermeasure equipment which surely guarantees lifesaving structure and early evolution.

On the other hand, fire (292) and fire (293) are removed before the fire is perceived and perceived to be permanently ending. In the event of a fire, when a fire breaks out, Casualties have often arisen and now the neighborhood living residence dual life bed nozzle 172 is always installed in the room and the hallway,

Therefore, a plurality of nozzle openings 15 are attached to the lifesaving agent and the lifesaving agent so that they can breathe together, and the gap between the nozzles is opened by a plurality of nozzle openings. Thereafter, a radial discharge jetting number curtain water film 39, And a hose and a pipe which are formed in a multi-pipe structure which is easily separated from and connected to the inside of the building.

On the other hand, a paraffin tape 177 is sandwiched in the middle of the initial ignition sense cord 41 in the middle of the ignition sense cord 41, and is formed into a ceiling inside the room by a non-ignition wire 178 which is not ignited. Before the disaster occurred, the tube nozzle of the tube nozzle body, which is a closed type fixed tube nozzle, was installed along the circumference of the hose pipe, and a tube nozzle cap was installed as a solid candle. (292) and the flame (293), the sealed tube nozzle shape is gradually exposed, so that the gas and liquid fire-fighting water inside the hose pipe, The bimetal 102 as the initial ignition sensor and the pressure switch 104 to the thermocouple thermometer switch 103 are connected to the solenoid valve 76 and the valve The pressure switch 104 is connected to the pressure switch 104 by a paraffin stopper or a paraffin paper tape 177 which is opened and closed by a connection wire 71 to switch a plurality of pipe nozzle holes from a closed (full closed) It is evolved early without worker and evacuation personnel, and without fire engine and helicopter mobilization. The nozzle nozzle hole is normally sealed, but it is immediately opened in the field immediately after the occurrence of a disaster, The speed reducer 251 attached to the motor together with the top of mountain and the collecting tank 34 on the rooftop of the large building and the tacky winch 137 inside the machine room and the sensor pump of the fire cable car 256 formed on the wire rope, Voltage transformer substation 690 and the transmission line 775 to protect the transmission tower 776.

Therefore, in the tube-level insulated tubular body 1 of the marine power plant, a steel plate coupling diaphragm 185 as a fire-fighting and disaster prevention device is attached to the inside and outside of the building, The jig or jig 22 and the shackle 23 are fastened to the wire rope 19 and the spring 186 and the lug 21 by the hooking hook 21 and the attaching hole 20, The machine room pylon 116 on the rooftop of the large building by the lever block 123 on the winch 137 and the air tube 188 on the chain 189 by the washer 26 and the hinge 27 with the nut 25, And emergency fire extinguishing equipment including emergency generator (124) on the pylon (116) on the top of the mountain. It is a fire fighting and disaster prevention countermeasure system of the disaster fire fighting system generated in the sea. To ensure the installation position to release the material, and to set the expansion and full position, It is also installed in Ternel.

Disclosure of the Invention Disclosure of the Invention Problems to be Solved by the Invention [0003] Disclosure of the Invention Problems to be Solved by the Invention [0004] , A fire truck, which uses a basket (42) as a transportation tool for disaster prevention material in its transport equipment, and a reservoir or pond (17) of a river stream rich in disaster prevention material or a reservoir or pond Fire fighting water is transported to the country in order to evacuate fire from national disaster prevention, and disaster prevention activity is carried out with transportation equipment. It is fortunate if initial evoluation is done at this time, and it is declared as disaster area when evolving activity progresses for more than one week. As a result of the technical level, there is a need to prevent accidental disasters, which collectively refers to all disasters that are not declared as a disaster area. Development of disaster prevention is proceeding further.

Accordingly, it is an object of the present invention to provide disaster prevention technology of the present invention which aims to preserve cultural property from a large fire belonging to disaster disaster and protect the life, body and property of the residents, The advantages and disadvantages of the transportation equipments are selected and selected to be used in the body of the present invention to replace the existing fire fighting equipment among the above-mentioned fire fighting equipment due to the fire fighting, The rubber hose is a pipe nozzle processing hole formed by a hose of a double pipe structure and a nozzle body to prevent a large-sized fire from being prevented by the equipment other than the above,

As described above, the fire nozzle 10 is a spray nozzle that includes a fire prevention and disaster prevention device that discharges disaster prevention material at a higher level, farther, faster and more rapidly than a conventional standard fire fighting window. A disaster prevention nozzle 10 connected to a pipeline of a high pressure multi-stage pump 8 and a disaster prevention nozzle 10 connected to a disaster prevention hose 9 made of a double composite of piping 14 and air (gas) The nozzle is installed in the nozzle support frame 11 and the hook 13 so that the hook 18 and the wire rope 19 are attached to the nozzle support frame 11 and the wire rope 19, A spring 186 for the safety pin and a nut 25 and a washer 26 are used to fasten the iron plate 165 and the flange 28 to the hooking lug 21 and the safety pin shackle 23 with bolts 24 After assembling, the portable cellular phone 82 of the communication means and the cable car 256 engine 226, (36) and a system of a high-pressure bottom-up pump control device.

Accordingly, the number of ejection nozzles 38 ejected into the nozzle gap 15 and the plurality of straight lines, the water film, or the plurality of the radiation curtain film films 39 suppress the fire structure for the fire structure for the large fire and the fire for the early evolution It is a cornerstone.

The multi-stage multi-stage pump 8, which is a high-pressure multi-stage pump, is a water supply system of a bottom-up pressurized water supply system for supplying water from a low place to a high place by supplying fire water having a height of about 160 m. In the step-drive system in which the pump is controlled to be turned on and off, the inverter drive system is changed to the inverter drive system in which the inverter 47 is used to perform variable-speed drive control. The control system for efficiently controlling the driving of the multi-stage multi-stage pump of high pressure is such that the high-pressure multi-stage multi-stage pump 8, as shown in the figure, The pump 8 is connected to a plurality of high performance submersible pumps 36 at intervals of 160 meters in a stepwise manner after the height of the pump is adjusted to a height lower than the lower part of the advertisement balloon 77.

In such a conventional high-pressure type multi-stage pump system (high-pressure type multi-stage pump + control system)

first; Since most of them are monitored and controlled independently off-line, the burden is imposed on the operation of high pressure multi-stage multi-stage pumps in places where worker or worker access is difficult and dangerous.

second; The visibility and operability are deteriorated due to the use of the switch button.

third; It is difficult to apply a system for managing the entire system when the system is distributed in various places.

fourth; In order to manufacture and install a large number of multi-stage multi-stage pump (8) control system (150), it takes a lot of time and money to perform the independent test for initialization and program initialization.

In some conventional techniques for solving the above problems,

first; In the high-pressure type multi-stage pump remote control system using public telephone network and the method thereof, an alarm signal is transmitted to the central control server at the time of occurrence of abnormality of the control apparatus using the public telephone network so as to control it remotely and to control a plurality of pump devices While an unmanned camera (184) at the same distance as the installation position of the telephone pole is installed at a distance of 50 meters outside the pipe nozzle industrial site to detect the flame and the pillar at night. However, It is also possible to install without installing expensive sensor.

second; In a motor-integrated in-line high-pressure bottom-up type having communication means of a circulating water supply device, a plurality of neighboring high-pressure bottom-up type wired / wireless communication units are provided and interlocked control is possible by a control system 150. The helium 176 gas is formed into a plurality of hoses through the intake port and the exhaust port to disperse the load of the fire sensor pump body 1.

Third; In the "pressurized water supply operation management system ", the operating state of the hydraulic pressurized water supply operation facility is grasped by using the Internet network 50. The operating state of the water hydraulic hydraulic operation facility transmitted through the Internet network 50 is referred to as a date base And a management sub-system for providing information to the portable wireless communication terminal 82 with a built-in Internet function at a remote location. Pressure multi-stage pump short-range control system capable of providing various services to the monitor 52 through the portable wireless communication terminal 82. The high-pressure multi-stage pump short-range control system includes an Ad-hoc or Infra- Infrastructure) is easy to build network,

In the high-pressure multi-stage multi-stage pump 8 installed inside the machine room, a motor motor is provided, a motor power is supplied to the motor, the motor is constantly rotated by electric power supply, and the piston 127 reciprocates, The motor for generating a high pressure is referred to as a high pressure multistage multistage pump. The motor is equivalent to the engine module and is coupled to the pump module as a mechanical value. In the multistage multistage pump, the flow of the fluid in the impeller 143 is uniform, ) Of the water discharged from the discharge port of the discharge port.

Accordingly, the operation control device is provided in the control room and the inside of the machine room as a power line, a sensor line for sensing sensor, and an electric line arrangement for electronic control, so that the overcurrent breaker 61 and the main switch button 66, respectively. The switch button is connected to the isolation valve 5, which is formed outside the pump body connected to the control device by "ON-ON" and "OFF-ON" An electronic control unit 88 formed of a plurality of pumps in each of an electronic control unit and a plurality of valves such as a check valve 6 and an emergency valve 84 and a pressure check sensor in the low pressure shut- And a power supply 46 as a power supply unit is connected to the short-range wireless communication antenna 54 (54) of the unit via the inverter VCO 48 of the unit, the multi-stage pump control board 53 of the high- And the short-range wireless communication control module 55 The portable radio terminal 82 of the communication means or the electronic control device connected to the public telephone communication network is installed inside the multi-stage multi-stage pump control box 2 and is connected to the point 49 at the point of the portable radio communication terminal When a signal is wirelessly transmitted, the electronic control unit module receives the signal and, when the "switch button-on" inside the control room, displays the display screen 63 of the monitor 52 so that it can be visually recognized in the control room, The communication device belonging to the electronic control device and the isolation valve 5 on the front and rear sides of the multi-stage pump, the low-pressure shut-off valve 83 and the reducing valve 85 to the check valve 6 and the electronic control Which includes a wired / wireless communication device and an electronic control device which are connected to the solenoid valve 76 and the air compressor 80 of the air conditioner 34 by a collecting nozzle 34 and a dust collection line 89, It controls the flow of gas and liquid, and fire disruption material with a constant pressure of water pressure in multiple nozzle gap and multiple nozzle gap processing hole. It is equipment for fire prevention disaster prevention measures for early evolution and rescue.

The multi-stage pump control box 2 of the high-pressure type inside the machine room connected to the detection sensor 104 for checking the fire volume with the low level of the inner wall of the water collecting compartment is connected to the initial ignition sense wire, And the pump is operated again when the disaster prevention water reaches a predetermined water level after the pump operation is stopped. In this case, in the fire water level sensor device, a spherical support bolt (499) is attached to the sensing strap (41) The pump is stopped when the bolt 499 is moved down and the pump is stopped when the position of the bolt 411 is fixed to the horizontal. ). At this time, the sensing line (41) is formed at an angle of 90 ° or 120 °, and the high-acid low-acid collecting tank does not damage the nature. Caution The water tank (34) can be opened and closed with the air compressor (80) so that it can be adjusted before and after the disaster by using the double membrane structure tank. Including the means of simple rescue of a normal fire within one second.

A machining hole 20 is formed in the stopper steel plate 165 at a predetermined size on the flange joint portion in front of the water volume intake port located inside the tank 34, The filtered disinfection water having a filtration function passes through the isolation valve 5 and the check valve 6 while passing through the suction and confluence pipe 3.

The above-mentioned detection sensor unit includes a meter 105 for checking the amount of water to be introduced, a boat 104 for sensing the water level, an electronic control unit for opening and closing the valve located in each of the partial elements . A high pressure isolation valve is installed in the middle of the meter unit 105 and the pump suction connection flange 28 to the piping upper end of the pump suction port 269 and the high pressure isolation valve 5 is an automatic control valve for controlling the disaster prevention water delivery A solenoid valve 76 or a butterfly butterfly valve 305 is generally referred to as a disengagement piping line or a butterfly valve as a control operation section, (89)

In addition, the sensing wire 41 provided as a sensing sensor is provided with a basket 42 for storage of disaster prevention material distributed in a vast area or a disposable material such as a basket vinyl of a certain standard in a tent tent or a plastic pack 43 of a double structure, After being stored in a bag, it is connected to the upper part of the disaster prevention material by the sensing wire and installed at a proper distance from the inside wall to the outside wall of the building or land structure. And a detection sensor for an electronic control located at the upper end of a displacement type control valve in which an electronic control sensor provided in a local unit is located. The sensing wire is connected to the sensing wire at a corner of the plurality of the awning tents (43) 41) were fixed at 4 places and 8 places, respectively, so that the installation position of the above-mentioned twine knot was fixed to the tent fixed frame clearly And install the mobile easy plastic bag (43) water bath tank 295 is installed on the bottom and top are bought.

When the fire occurs, the basket 42 or the plastic pack 43 falls down to the upper end of the upper surface of the ground surface by the fire 292 or the flame 293 for the first time, The fire water having a certain water pressure in the disaster prevention pipe and having a constant water pressure passes through the valve opened to the disaster prevention pipe and reaches the plurality of injection nozzles 10 in the fire occurrence area. This is the ejection number 38 of ejection. Accordingly, the disaster prevention piping 89 is provided at the lower end of the high pressure multi-stage pump inside the machine room, and the joint connection site emergency valve 84 and the hydraulic pressure control reducing valve 85 of the head tank 189, The first pressure check sensor 86, which is a sensing sensor attached to the first multi-stage pump control box 53, is connected to the inner multi-stage pump control box internal control board 53, and the pump is operated again, will be. Thus, the disaster prevention piping line 89 is constructed with the water pressure sensing regulating pressure reducing valve 85 at a predetermined distance from the floor surface MFG of the machine room like the water piping line 89.

On the other hand, the pressure suction and discharge piping (3), (4) coupled to the left and right sides around the suction port around the impeller 143 inside the protective cover of the pump 8 are referred to as a head tank 189, At this time, the head tank is compressed and stored at a pressure of 8 liters and a pressure of 16 bar. When a certain pressure is reached, the pump inlet or pump (front portion of the head tank) The installation position is set accurately by including a large-sized pipe (14) of a certain standard size at the tail end of the discharge port and a suitable material which is made of an elbow or a tee elbow (44)

Also, the flange 28 and the flange 28 are connected to each other through a flange connection above the junction of the anti-dust pump connection port. In the flange connection, the injection nozzle 10 and the fire- Hose (9) Separate into a basic 1 type and a basic 2 type, consisting of a pipe nozzle type movable and separated by a connecting node, and a pipe nozzle fixed type such as a telephone pole

In addition, although a separate pressure sensor may be mounted on the head tank 189, a high-level technique for mounting a separate sensor in the high-pressure head tank 189 is required, which makes it unrealistic and uneconomical. 10, the spray nozzle body B is divided into a basic type 1 and a basic type 2 and is divided into two parts, namely, "Nominal 75" 236 and "Nominal 65" for "Nominal 100" 234, "Nominal 90" (10) body (B) joined to and separated from the standard fire hose joint at "Nominal 50" (238) and "Nominal 40" (239) "Nominal 25" (240) do.

The water supply pipe 14 is connected next to the disaster prevention pipe 14 for disaster prevention and then the injection nozzle connection pipe is connected to the pipe connection connecting pipe 35 to adjust the standard, By name and name 50 × 40 (245) to name 65 × 50 (244) to name 75 × 65 (243) and name 75 × 65 (243) 246), the injection nozzle body is connected to the injection nozzle body in an antenna type so that the nozzle body can be installed after the manufacture, and the injection nozzle is connected to the pipe joint of a certain length. The pipe 14 of the nozzle body is joined or connected one by one, The flange 28 is separately manufactured for each designation and is connected to the pipe 14 of the disaster prevention nozzle body after the piping connection reducer 35. [ 14) and then the piping connection reducer (35) in this order, The coupling separation is performed in the reverse order. The bolts 24 for connecting the injection nozzle and the nut 25 are connected to the flange connection processing hole 20 in the circumference of the disaster prevention nozzle flange 28 by the washer 26, The nozzle body B coupled to the concave portion constituted by the nozzle clearance 15 which corresponds to the nozzle in the intermediate region of the nozzle body 28 is composed of a basic two-type.

A bolt nut is easily used so that the washer 26 can be adjusted to 0.5 millimeter or 5 millimeter in the middle of the flange and the flange so that the ejection number 38 can be easily controlled by using the radiation curtain film 39 or the straight- The discharge nozzle 38, which discharges the fire retardant water quickly, accurately, more continuously and continuously to the nozzle gap 15 by the operation of the valve serving as the control device and the multi-stage multi-stage pump 8, And a plurality of airships 78 in the form of a multipurpose line for observing the meteorological observation system on the upper part of the discharge jetting water curtain, And the air hose 109 and the connecting nipple 110 to the inside of the nozzle hose to transfer the air generated by the air compressor 80 The apparatus is installed in the inside of a double structure type pipe nozzle body, which is a global system of disaster prevention equipment system, and ensures installation position so as to emit disaster prevention material farther and farther.

The nozzle gap 15 formed around the circumference of the pipe 14 of the spray nozzle 10 has a plurality of linear water discharge nozzles 38 to rapidly and accurately measure the flame 292 and the flame 293 As evidenced by the gradual evolution, it is a shortcut to prevent large-scale fire. As the length of the piping of the disaster prevention nozzle (10), there is a high and low mountain around the rice fields and roads, Using a large and small piping, the small piping is applied as disaster prevention water conveying means, and the piping slightly bigger than the small piping is divided into half by the bolt and the natto, and the nozzle gap (15) was connected to the piping parts with the piping length of 4 meters, and it was connected and connected to the high pressure multi-stage pump (8) as tested. The shooter 38 was sprayed and regulated by the gap 15 to test the performance 20 times. The conclusion was very favorable, and the nozzle gap length of the spray nozzle was made so that the water curtain of the triangle was installed According to the height, by the installation length, after the firefighter nozzle is formed so that the road does not freeze in the winter when snow conditions are deteriorated due to the deterioration of the weather condition, it is aimed at the physical stability of the ROK soldiers who are eager for the front- In order to improve the safety of the vehicle driver, it is necessary to increase the visibility of the road ahead by eliminating the fog around the road surface, to smoothly communicate traffic vehicles and to protect the crops of the vinyl house, Prevent damage and also on rainy days when the water in the valley is properly controlled (91) of the ridge line and the disaster prevention waterway (17) of the constant ridge line of the ridge line and the constant slope angle (91) of the ridge line in the drought. To prevent hail damage and cool the heat on a hot day with a holiday resort shoreline on the resort sandy beach. In areas where visibility is high around the highway due to fog, a partitioned water film that emits from multiple single linear nozzle crevices and cold air burst together This is to prevent the loss of grain and prevent the occurrence of yellow dust in spring by preventing fog from being removed from the vicinity of the harvesting sparrow grasshopper in the autumn season so as to preserve the bridge structure. After establishing the scope of application in a wide area, In order to achieve a zero-accident global village, or to establish a peaceful coexistence in Northeast Asia, the border line of the center of the triangle Pyung River, Cheorwon, and gold coins of the Demilitarized Zone, We should cooperate with all the people of the respective countries in the creation of the global village without disaster by demonstrating the diplomatic capacity of reconciliation and friendship of the international community.

The disaster prevention piping 14 is connected to the disaster prevention hose 9 of the disaster prevention nozzle 10 and the disaster prevention piping 14 is connected to the high performance submerged pump 36 and the portable wireless communication terminal 82 of the multi- A switch button for controlling the operation of the inside of the transporting equipment and pipe nozzle body, a switch button 66 for operating the high pressure multi-stage pump for spraying the fire water according to the weather forecast, a multi-stage pump control board 53 and a power supply The power source 46 as a device is installed inside the three-stage multi-stage pump control box 2 and is reconnected to the inverter 47 and the power source unit 62 by the power line 80 and the brake line for the overcurrent circuit breaker 61, (80) is installed, it is provided in the control room and the inside of the machine room by the switch button for on / off control of each pump, and the method of using the disaster prevention equipment is selected in close cooperation with the crew of the transportation equipment (73) Inside the multi-stage pump The high pressure isolating isolation valve 5, the check valve 6 for preventing the reverse flow, the emergency valve 84, the isolation valve 5 for shutting off the high pressure by the plunger, The plunger pump 148 as a reciprocating pump provided with the check valve 6 is suitable for use in the present invention.

Meanwhile, the above-mentioned disaster prevention nozzle is installed so as to be capable of being separated by the disaster prevention nozzle upper support frame 11, the lower support frame 11 and the vertical support frame 11, and the injection nozzle claw 13 and the hook hook 18 or The hooking hook frame 11 and the hooking hook engaging hole 20 are formed to protect the injection nozzle and the nozzle hose and the wire rope 11 and the wire rope knotting hooking hole 20 are formed in the injection nozzle and the nozzle hose The connection hooking lug 21 and the connecting hooking lug working hole 20 or the connecting hooking safety hook shackle 23 are used for disassembling the injection nozzle and the nozzle hose, Coupling ring (29) Internal and external evapotranspiration Couplings Female threaded body (30) and splash-proof coupling element male threaded body (31) A paraffin stopper for a fire detection sensor is attached as a substitute material for the packing 32 as a nozzle gap after the coupling rubber packing 32 of the coupling is provided to suppress the fire and flame in the event of a fire, If the replacement is made, the technology will be advanced in such a way as to minimize the cost or make the environment uncompromising in consideration of the difficulty of financing the supply due to a large change due to the new production technology.

Therefore, the air hose 109 and the high pressure hose 190 are used for the air cleaner 77 and the airship 78, and the loess soil 158 is discharged from the air compressor In order to prevent disasters, it is used as a substitute method to supply compressed air and hot air, which is always compressed and mixed, and then air is supplied and fixed by wire rope and frame. The system uses a domino-style active and passive disaster-prevention means that is coordinated with equipment, combined with communication and fire-fighting equipment systems, and then connected. In addition, the mixer section at the rear of the disaster prevention pump uses a carbon dioxide (174) gas cylinder 171 as a teel elbow coupling gas inlet, and the carbon dioxide evolves 15 times faster than the fire water as a powder and compressed liquid gas, A gas cylinder 171 is installed in the monohull gas supply pipe 175 to construct a pipeline line 89 at the end of a high pressure multistage multistage pump formed by the gas inlet mix mixer 191 to perform a PORT injection And the port injection method described above is similar to the method of injecting the injection liquid into the blood vessels in the human body.

In general, the air hose is smaller than the disaster prevention hose (9) inside the disaster prevention hose (9) so as to be inside the disaster prevention hose (9) And is connected to a collecting tank (34) and an elevator speed reducer (251) motor built on the roof of a number of mountain tops and a plurality of large buildings together with connecting parts after installation.

FIGS. 2b to 2ad are flow charts showing the whole of the fire fighting equipment belonging to the inside of the fire pump center body for moving the pipe nozzle for achieving the early evolution of a large-sized fire by using such a passive approach. It is a method for supplying internal disaster prevention material in industrial safety control room and machine room using high pressure multi-stage multi-stage pump and communication equipment to be used. The carbon monoxide 174 and the halon gas 175 are mixed with the disaster prevention material in proper ratio with the natural loess soil or the powdered loess soil 158. The carbon dioxide 174 and the halon gas 175 and natural loess 158 are not shown to be necessary for explaining the constitution in the present invention. The above-mentioned natural loess (158) is a reality that is used today as a ship and helicopter relief equipment for pest control by dispersing and dispersing liquid by a helicopter. Such a control activity is a phenomenon that can not prevent the work from being stopped by a hummi Prevention of disasters is most desirable.

In addition, the power generated from the tube-level seawater-type feng-shui power generator of the non-disaster global marine power plant is supplied to the first stage in the primary disaster prevention fire prevention disaster prevention device.

The piping body of the firefighting nozzle installed at each location of the high and low mountains, valleys, roadsides and neighboring buildings was standardized with a total length of 2100mm to be separated into 7 segments with a distance of 300mm for the multi- Nozzle Nozzle Nozzle Cutting Hole Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzle Nozzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz With The height is adjusted according to the shape of the building and the forest, and the elevation of the hose and the pipe body of the double pipe structure is adjusted to the elevation of the transportation equipment adver- tune and the unmanned airship To disrupt many disaster disasters, and as a disaster prevention and control system, air and carbon dioxide After the installation of the liquid fire water, the solid ocher powder and the sand as the lighter oxygen and helium than the air or the air, the fire pump and the air compressor operated immediately after the detection sensor sensed the heat, and a lot of discharge jet was discharged outside the pipe nozzle. Unmanned camera or mobile service to reliably extinguish flame and pillar of fireworks, display of score on monitor by calculation of control server of multi-stage pump control system received from mobile phone terminal Firefighting with firefighting equipment The pipe nozzle of the sensor pump is fixed to the roof of each corner and the building roof of each spot, and the disaster prevention material mixed with the liquid and the gas solidly on the valley or the beach road is firstly fired In a period of 1 second, the incombustible gas (Oxygen) to prevent the combustion by preventing the combustion of air and oxygen (combustion) to reduce the temperature of the combustion to below the temperature of the cooling function and the hose as a cooling effect to put water with the early evolution of the life saving No-accident fire prevention sensor pump that guarantees life-saving structure and early evolution from seasonal fire and large-scale fire is surely installed Fire damage sensor The pump was powered.

The fire-fighting nozzle formed by the double pipe structure which supplies a lot of disaster prevention materials is installed in the water supply piping line of the water supply water pump of the water supply construction of the former water supply corporation and the neighborhood living residence with the low- In order to keep the line from being extended, and to go further, sleeping, sleeping, and sleeping so that the forest fire does not evolve, the air tubing is added together with the water piping line by combining it with the weather forecast. In order to use the correction tank equipment efficiently, it is necessary to connect the air compressor, the high performance submersible pump and the multi-stage pump electronic control unit and the portable wireless communication terminal to the wireless communication device, A system that allows for disaster It is about disaster prevention methods and disaster prevention means to prevent disaster loss that blows like snowballs more quickly and judge more quickly and to control disaster through internet further. Fire hose connection port before and after the fire without the personnel approaching. Connection of the male and female hose connections. Piping nozzle is connected to the hose connection node. Nozzle fire prevention sensor pipe which is longer than the previous evolution hose used. And is formed of an air tube type collecting tank having a double pipe structure which rapidly accelerates the life span and the initial evolution by the fire fighting and disaster control device.

In order to cope with the sudden occurrence of frequent occurrences without distinction of day and night, the large fire and large fire are not caused by the advance notice. It is positioned to be set as the hydraulic pump which can pump up to 50 times of the fall by using the water hammer action so that the fire fighting action can be made within one second by the membrane pump (diaphragm pump) of the disaster prevention countermeasure goods and the non-

The previous large-sized fire is delayed due to the delay of dispatch of the fire-fighting vehicle according to the circumstances of the residential living area. As a result, the small fire spreads and the fire pillar becomes large, resulting in a large fire. In such a large area of the neighboring living area, there is a considerable difficulty in entering the fire truck into the production plant and the market. In this case, the fire is generated at the bottom of the building, and the toxic gas- In order to solve this problem, it is a sad situation that gas leakage is caused due to gas choking caused by a fire caused by gas infiltration into the upper floor of a residential area through a one-way passage. It is possible to prevent a large-scale disaster of a large number of water films ejected through a plurality of nozzle gaps of

As described above, fire extinguishment in this way is the same as that in the fire-fighting house, because fire-fighting vehicles are usually dispatched after the previous fire, . The apparatus of the non-emergency pump extinguisher for the early evolution and lifesaving of the large-sized fire according to the present invention comprises a nozzle body (B) for use in accordance with the specifications of the fire hose name used in the standard firefighter window specification, ) Are precisely standardized on the joint nozzle so as to form a basic 1-type and a basic 2-type

The above-mentioned initial ignition sources were ignited by fireworks, fire and fire due to friction of light flags, ignition by fire and fireflies, A large fire is caused by the generation of flame material. At the same time, a large fire is a public building of a building in a commercial building, a wooden building, and a fire suppression within a range of a fire belonging to a kind of fire. In order to ensure the early evolution and to guarantee the life structure, it is necessary to precisely set the open / close position and the open / close position of the multiple open / close nozzles at each ignition site so that there is no damage to human life. Is set as follows

A fire such as the above-mentioned building A fire usually causes fire of general combustible materials such as wood (forest) and paper (fiber) to be high, low mountains, thorny bush of grassland, grass, The best way to prevent the fire is to fire the cable car arocarbons and ocher powder on the top of the machine room and on the mountain top of the large building. It mixes with the fire water in the field and surrounds the combustible with combustible gas within 1 second so as not to escape from the safe area of the fire. Painting section) The natural swamp composition was formed at the disaster prevention channel of the ridge line.

The sources of ignition are various and are omitted below.

In this way, the dislodged material and the ignition material are accurately set to the closing position so as to suppress the ignition of the ignition material, and to maintain the antagonistic relationship between the disaster material and the ignition material.

The large-sized fire is limited to occur in a vast and wide area of neighborhood life without prior notice, and due to the diversification of frequency of occurrence outside the closed space,

In the fire fighting and fire fighting equipment system, which is mobilized by the ignition source providing material and the substance for suppressing the ignition, as described above, various tube nozzle holes are installed in the building and the exterior to the inside with a large number of obstacles, A pipe nozzle was installed outside a double-walled water tank at a position where a plurality of pipe nozzle holes were formed by a paraffin stopper of a paraffin sensor type pipe nozzle serving as a detection sensor, both of which included a disaster prevention method and active disaster prevention means

In order to overcome the problems of the prior art, it is necessary to maintain the close relationship between the ignition material of the fire source and the disaster prevention material, so that the communication equipment of the Internet control system and the multi- Pump electronic control unit and high performance submersible pump or air compressor and air storage tank and fire rope in fire rope The equipment including the fire fighting anti-disaster fire fighting equipment formed in the cable car body is integrated with the gas, liquid or solid disaster prevention material It is a clearance nozzle in which piping nozzles are divided into a nozzle type gap of radiation type and a straight line gap type in which the piping nozzle is divided into a plurality of radiation type curtain wall blocks And a plurality of straight linear curtain water curtains Dissolved gas emitted from a fire after release or ejection Evolved within one second from large-scale fire and large-scale fire caused by a number of disasters so that there is no abnormality in the body and life from dioxin and flame material, Prepared for floods and droughts, thoroughly prepared for the prevention of landslides and roadway loss, and was able to immediately eliminate many disasters at that time and calmly overcome the crisis to prevent global disasters. Safety control device for manufacturing and installing facilities and equipment for lifesaving equipment Paraffin sensor installed in fire-fighting nozzles Nozzle stopper installed in the mountains and buildings for fire prevention Purpose to prevent disasters in case of other disasters Nozzle Nozzle Movable Type Firefighting Station In order to install the pump on the ocean, all the fire-fighting equipments for each type of fire are installed at the bottom of the barge main body (591) and the history (station) of the electric motor inside the tunnel pipe (598) Respectively.

The pipe-nozzle type fire-fighting sensor pump of the non-emergency fire fighting and disinfection countermeasure product for the marine power plant is provided with an electric motor body inside the fire-fighting sensor pump and a center portion circle of a shaft, which is a motor center shaft formed on the horizontal center line (MBCL) The impeller which is a rotating body to the surface portion, a piston attached to a guide vane pump on both sides of the impeller, and a prime mover pump which is assembled to be detachable from the turbine. The pump body is provided with an isolation valve and a check valve, Flow control that is controlled by oauto control. Sensor and pressure sensor. Gas, liquid and solid are connected to the sensor. Sensor switch that controls the flow in the pipe. Power switch to supply power energy. A Disaster prevention material suitable for fire. To store incombustible gases such as phosphorus, phosphorus, loess, fire retardant, carbon dioxide, carbon dioxide and halon gas. Consists of a high-pressure tank and the pipe nozzle movable in the water collection tank, a water bath tank in which the assembly pieces enabling each installation See the plastic bag or tent tent of the closed type and open flow type

The tube nozzle portable is the tube nozzle is movable and high mountain low mountain top coupled to fire cable car ah formed of a flange joint firefighters nozzle and the coupling joint firefighters nozzle separated by basic type 1 and basic type II according to the standard fire hose specifications It is divided into fixed firefighting nozzles fixed at a distance of 50m with the fixed angle of inclination of each corner ridge at the bottom of mountain range surface (GLL). It is divided into high and low mountain and mountain ridge, High and low building in the vicinity of the beach A fire tower is installed in each corner of the rooftop and the top of the mountain peaks in the vicinity of the beach. After assembling, the tower is fixed with an anchor bolt by a hand tool, and a plurality of wire rope Install a plow, and hit the top of the pylon to the top of the mountain. A firefighting nozzle connected to a fire hose connection node of a disaster prevention material transfer device mounted on the firefighting cable car, and a mobile firefighting nozzle having a plurality of pipe nozzle holes formed on the circumference of the firepipe nozzle pipe body, Or the power generator produced by the engine generator is connected to a power supply line of a transformer and a mains power supply line which are connected by a plurality of electric wires, and then the pump motor motor and each compressor motor motor are controlled by the sensor of each electromagnetic valve, And the flushing water is returned to the top of the high acid by using the impeller or the piston in the plunger pump or the like and the flushing water is returned to the top of the high acid by the non-operation pump without receiving the power supply from the generator or the engine generator of the power plant, (Muddy water) at a proper level without interruption. And firewood in firewood and fireworks in the wood, forest, and paper in a short time. It is a fire-fighting fire-fighting equipment nozzle that moves in a short time within 1 second, In a fire fighting system,

A plurality of pipe hoses formed of a collecting tank and a pressure tank in a plurality of fire-fighting and fire hydrants in the fire sensor pump body, and an electronic heat detecting sensor and a flow control valve installed in the fire-fighting piping line using an air compressor in a pipe nozzle The number of ejection nozzles and the number of curtain waters are surrounded by flammable gas and combustible materials by blocking the air supply and preventing the combustion by using the Lomano methane level hose and the fire detection nozzle, And the cooling action to lower the temperature of the combustible material to the temperature below the ignition point is carried out by the fire hose pipe processing The above cooling action which puts the mud which is ejected to the space between the holes is carried out by the relief refugee in the adver- To the escape route to the firefighting cable car area, To secure the safety of the pump body by dispersing the load of the body of the pump body and to set the installation position beyond the opening area for the life structure and early evolution from the large fire and large fire clearly, After setting the standard point on the triangle boundary point (standard point), we set the standard point on the delta boundary, and then the diameter of 2400km to the north, south, east and west of Samcheonri Kangsu Gangsan to the inside of the old ancestor's territory and territorial waters. And a fire-fighting nozzle and an anti-firepipe line are formed in an unmanned camera in the tank and the collecting tank. The nozzle-moving type fire-fighting sensor pump of the non-disaster fire- And is formed inside and outside the body 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. In the drawings, the same reference numerals are applied to the same formation as the conventional one, and the applicant emphasizes that the above-described pipe-nozzle-type fire-extinguishing sensor pump is not limited to fire prevention for each of A fire, B fire, and C fire types.

This fire sensor pump is made of vinyl coating on KSD 3507 general piping rolled steel material, and connection coupling to nozzle body is made of KSD 2331 aluminum alloy for die casting now and KSD 3699 hot rolled steel pipe with heat resistant plastic Stainless steel coil is used. The temperature sensor is replaced with a bimetal or bourdon tube to paraffin sensor type. It is used for diesel engine, fire pump, solenoid solenoid valve and other standardized general purpose hose pipes. The sizes of the pipe nozzles for supplying the liquid and the gas at the same time in the double pipe structure type are classified into seven types according to the type of connection of the fire hose in the order of "pipe nozzle type 1 diameter 200mm, 180mm, 150mm, 130mm, 100mm, 80mm, (200 × 180) mm, (180 × 150) mm, (150 × 130) mm, (130 × 100) mm, (100 × 80) mm, (80 × 50) mm, and 50 × 25) mm, etc. , And 14 nozzles of tube nozzles connected to hose nodes and a number of linear nozzles formed by tube nozzles of gap processing holes, and there is no difference between neighboring living areas. The fire and fire of general combustible materials such as wood, forest, paper and blanket such as building belonging to the category of each fire are evolved from the large fire of the neighborhood living area, And the airship will be rescued as fire-fighting and disaster prevention countermeasures, and one of the center lines of the triangular barriers of the Demilitarized Zone will be extinguished in order to extinguish many disaster disasters. In order to achieve the global disaster- In addition, it is guaranteed that the installation location will be established in a multi- It was formed to be worthy of such products Fire prevention measures for disaster prevention in the disaster-free world so that the world beyond the borders of accident-free installation location primarily.

As shown in FIG. 2B to FIG. 2AD, the pipe nozzle of the marine power plant body is provided with a hose 9, which is processed into a plurality of double pipe structures inside a fire sensor pump body (referred to as including a fire fighting and disaster prevention countermeasure) The clearance 15 of the injection nozzle 10 and the processing hole 20 of the nozzle 10 are formed into a body 14 by a bolt 24 and a nut 25 in a total of 7 segments, A plurality of eight nozzle openings are formed by a washer 26 and a plurality of processing holes 20 having a diameter of 5 mm or less are formed along the circumference of the pipe in the form of a cylinder in the form of a pipe body and the total total machining hole clearance is 498 The injection nozzle body B has a multi-stage flow-in type cylindrical shape. The two flanges 28 attached to the body of the injection nozzle body upper part (A) pipe 14 are provided with eight processing holes A flange 28 is provided on the upper end of the upper end portion A of the pipe body. A stopper plate 165 is provided on the upper end portion A of the flange 28, The carbon monoxide 174, the halon gas 175, the helium 176, the fuel 131, and the air are introduced into the oxygen and air at the upper end portion (A) flange and the lower end portion (A) flange of the injection nozzle 10, The main body of the coupling 29 to the center position of the stopper cap 165 to allow the fire water 7 to pass therethrough is inserted into the capping ring threaded body 30 and the capillary threaded body 31 through the pumping pipe 89 of the small fire hose A total length of 7 mm and a length of 2100 mm, which is detachably assembled into a through hole 20 formed with a wire rope 19 by a hand tool monkey spanner, The wire rope 19 formed of the water suction pipe 89 is bound to the inside of the fire hose 9

After the fuel piping line and the gas disposal material piping line are united together with the piping line of the liquid, the fire-fighting nozzle 10, which calls the nozzle formed of the pipe nozzle and the piping body in an orderly double- A spray nozzle body (B) detachably assembled to a nozzle body upper end portion (C) above a lower end portion of the body and a lower end portion (C) of the nozzle body; 2500 mm × 2500 mm × 2000 mm, which is made of a wire rope or a rope, is installed. Inside the basket 42, fuel supplied from the gas fuel supply pipe line is supplied to the ground or burner 173 ) Is adhered to the lower part of a vinyl tent (77) of an adverb (a cross-length × length × diameter: 10M × 10M × 10M, formed in a double structure in a circular shape), and a gas burner 173 for cooking used at this time is connected to an unmanned igniter 187 are installed and wrapped around the outer circumferential surface of the adobe with the wire rope 19 or the rope 131 and bound to the lower part of the adobe together with the rope 131 and then the unmanned camera 184 A radiosonde 134 as a meteorological observation device is mounted so as to observe a diurnal situation farther from a higher position at a higher position and a radiosonde 134 as a unit of the integral multi-stage pump control system 150 is installed below the injection nozzle body B A multi-stage multi-stage pump 8 as a device, a disaster prevention piping line 89, a disaster prevention water passage 17, a double tube structure collecting tank 34, a fire fighting chamber 40, a stack opening 45, A plurality of valves and air compressors 80 for interrupting flow of the computer system and communication equipment system and piping internal flow, a generator 124, an engine 144, an air cylinder 138 formed in the doctor ventilation, An air taurine winch 137, a combined lifesaving bed The iron structure 143 and the pump inner impeller 143 are connected to the nozzle 172, the hydrant 179, the grid drive 185, the air tube 188, the head tank 189 and the high pressure hose 190, The other area of the ignition material and the area where the flue 292, the flame 293 and the pillar 294 are generated in the flue gas 163 is referred to as a fire sensor pump body. (1) The entire body of fire-fighting and disaster prevention industrial equipment necessary for the entire life span and the initial evolution is included.

The fire-fighting nozzle 10 used as a plurality of pipe nozzles in the marine power plant body 1 is made of KSD 3507, KSD 2331 and KSD 3699, and is made to be 2 mm or more in height. In the case of the basic body 1 of the pipe body, In the case of vertically standing up, the nozzle joint portion is divided into 7 stages. The basic 1-type nozzle is labeled "Name 100" 234, "Nominal 90" 235 "Nominal 75" 236 and " A firefighter nozzle 10 is formed in which a firefighter nozzle 10 is divided and divided into a name 50 "238", a "name 40" 239 and a "name 25" 240 on the name 65 " The pipe nozzle (10) is attached to an elbow or a tee elbow (44) in each fire fighting disaster prevention pipe line (168). The pipe line (diameter: φ350 mm, vinyl coated flow pipe, Quot; 50 x 40 "245 " and" 40 x 25 " (24 x 25 "(246) " A plurality of eight-joint gap 15 machining holes 20 are formed at the uppermost position of the injection nozzle with the reed 35 formed in the above-mentioned dimension as the tube nozzle basic type 2, (28) A tee elbow (44) flange machining hole (20), which is a portion connected to a disaster prevention pipe connected to the lower end joint of the flange (28) when installed at a distance of 50 m for safety, The shackle 23 and the bolt 24 are temporarily bound to each other so as not to be detached temporarily by the nuts 25 and then rope is roped on the upper portion of the nozzle body 10 with the rope 131, The operator is wise enough to climb up to the height of the telephone pole so that the operator can wisely perform the safety work and use the winch 137 to move the samevar type guide 22 The injection nozzle 10 is installed The firefighter nozzle 10 is a device formed by connecting a plurality of firefighter nozzles 10 attached to a 15 m firefighting hose to a length of 1 km and a length of 2 km to 3 km.

2b to 2ad are flowcharts representing the neighborhood living area and the forest fire evolving method as a non-disaster global village, and are detailed flowcharts of a partial detailed side view for explaining the entire flowchart of the present invention as shown in the figure, A detection sensor 105 formed in a large number in the interior of the interior of the fire tank 159 and the high pressure stage multi-stage pump 8 in the loess soil 158, the head tank 189, the solenoid valve 76, the fire water 7, The power supply 46 and the high pressure stage multi-stage pump control box 2 as integral power supply devices of the pump control system 150 and the control board 53 inside the control box and the control server 51 are connected to the inverter A switch button 66 for pumping the wire rope 19 to the power supply unit 47 and the power supply unit 62 and a collecting tank 34 and a piping connecting and attaching subsidiary reducer 35 And a high-performance submersible pump 36 are provided with a basket 42, a wireless communication antenna 54, A breaker 61 is connected to the computer communication network input 68 of the ignition material local area communication terminal 82 and the elbow or tee elbow 44 connected to the disaster prevention pipe connection and the plastic bag 43 and the hooking lug 18 to the monitor 52, ) Are installed in the same way as before.

The shafts 198 of the motor body 192 having the spiral casing 141 and the impeller 143 mounted on the guide vanes 142 as protective covers for a plurality of dog pump 8 bodies in the marine power plant body 1 ) The type and characteristics of the pump to be attached to the center shaft, and the measures to cope with the main problems during pump driving, the conventional selection of the pump, the calculation of the pump according to the number of revolutions of the post impeller, And the handling of compressors to compress the gas. In order to prevent accidents, it is necessary to consider the following points as follows.

As described above, in the non-disaster global marine power plant body 1 of the present invention, a gap between the fire-fighting nozzle nozzle 10 formed by a plurality of fire-fighting and disaster prevention countermeasure hoses 9 and the pipe body 14 and a nozzle processing hole 20 are formed , A paraffin tape (177) for a fire detection sensor and a nozzle stopper (100) for connecting a paraffinic pipe joint nozzle are connected to the high and low mountains (395) and all the ridge lines below the mountain top and high and low building buildings ) Roof wire rope (19) Fire cable car (256) type No-fire fire prevention disaster prevention article pipe nozzle type Movable fire sensor After installing the pump, the wooden building (332) (266), fire engines such as helicopters and fire-fighting vehicles start to fire at the source of fire while the sirens are ringing. At this time, chapter Fire and helicopters in the water and mountains fire up in the moment when they go back and forth to carry the fire water. The fire that is turned off is revived again. For this reason, the digestion activity of the fire scene is contested for a moment, Of course, in order to solve the risk of losing life, the pipe-nozzle type fire-fighting sensor pump of the non-disaster fire prevention disaster prevention product that is initially evolved in the early stage immediately before the first fire outbreak or the helicopter dispatch is a fire fighting device which is extinguished within 1 second.

A number of the non-hazardous paraffin nozzle plugs 100 formed in the nozzle body 10 and the fire heat detecting sensor paraffin having the multiple pipe nozzle gap holes sealed with the paraffin tape 177 are matched Since the fire and the flame which are burning on the ignition object do not easily spread to the large fire due to the detection of the fire 166 and the low temperature of the candle and the human life is rescued and evolved at the early stage, The fire extinguisher of the pump fire extinguisher 124e is sucked into the acid alkaline fire extinguisher 124b and the foam fire extinguisher 124b which are adapted to surround the combustible material with the incombustible gas It has become a cooling action to reduce the combustion to the combustion point by cutting off the supply and to lower the temperature of the combustible to below the firing point. The pump nozzle fire extinguisher 124 of the non-disaster fire prevention and disinfection countermeasure goods which reliably guarantees the rescue structure and the early evolution from the large-scale fire and large-scale fire generated by the seasons is installed in the fire extinguisher 7 and the loess 158, The water pump 159 is introduced into the water collection tank 34 through a hopper 73 and is formed into a pump (membrane pump) 144 and a compressor of the intercooler 170 in the compressor 80.

The fire-fighting object 166 is burned and the fire-fighting water in the fire-fighting nozzle body is stored in the fire-fighting water together with the fire-fighting water, and the combustible gas 164 stored in the fire extinguishers is stored and discharged simultaneously to the outside of the fire extinguisher body The unmanned camera (not shown) installed at the height of the electric pole around the fire scene when the fire ejection water 38 and the curtain water film 39 are burned out at a moment when the fire bulb 294 is blown away by the gap 15 of the fire- 184 to the monitor 52 through the information sensing function of the pump control server 51 of the multi-stage multi-stage pump control system 150 to display the situation at the time of the fire ) Microcomputer control features include a digital control method and an inverter 47 including a speed control method and an algebraic control method.

The impeller 143 is disposed inside the spiral casing 310 of the plurality of can pump bodies inside the fire sensor pump body so that a predetermined amount of the disaster prevention material formed by the impeller 143 flows into the suction port. A plurality of fire-fighting and disinfection piping (not shown) of a predetermined amount of fire-fighting water 7, a plurality of fire-fighting and disinfection piping (not shown) of a predetermined amount of fire water 7, The flood prevention water passages 17 and the flood control water passages 17 are arranged at predetermined distances from each other at regular intervals of a predetermined angle of inclination 16 in a line 168, A collecting tank 499 which is a sensing sensor for detecting the level of the flushing water in the collecting tank 34 and a stopper 269 for stopping inflow of foreign substances into the collecting tank 34, A flange stopper wire net 28 for the filter, A plurality of solenoid valves 76 that are deployed at the time of turn-on and are fully closed when the switch button is turned off and a tee elbow 44 of the binding apparatus such that the disaster prevention material carbon dioxide 164 and the halon gas 175 are introduced into the rear of the head tank 189 A low-pressure shut-off valve 83 for shutting off the supply of water if it is led to the rear end of the disaster prevention pipe 14, a mixer (hopper, Pressure multiphase pump 8 constituted as a power motor control module 106 and a power motor control module 106. The flammable water is supplied to the tubular continuous tee elbow 44 and to the flange 28 to the reducer 35, A gap 15 is formed around a plurality of piping circumferences that pass through the pipe 14 and are connected to the nozzle hose 9 and a gap 15 between the plurality of flange 28 junctions.

In this way, the fire water 7 has the shape of the jet ejection 38 (380) of 490 circular dots or the shape of the curtain water film 39, and the eight water films at the higher and higher positions are flushed by the buoyancy of the adevolunes 77 and the airships 78 The life of the facility is extended by dispersing the body load of the cable car (256). After the safety is secured, the mixture of the loess is ejected to the pipe nozzle (10), causing disasters such as forest fires and large fires inside and outside the building The pump is a non-powered pump (393) that can be pumped up to about 50 times as much as the freefall pump due to the movement of the fluid, And a two-stage squeeze compressor (80) in which heat is dispersed by an oil cooler (157) without an intercooler (170) and an after-cooler (182) are integrally connected to a suction port (269) and a discharge port 270) Which is installed in the air tub 730 formed by the fire extinguisher 710 and the bed jacket 172 of the lifesaving structure, The check valve 6 is provided so that the fluid can be movably transferred to the pressure tank (high-pressure bowl tank 303) inside the non-powered pump 393 so that the fluid can be transferred to the control valve 50 times as much as the drop. And an isolation valve (5), and the function of a plurality of expansion and full functions is ensured in the interior of the marine power plant body It is formed as a system connection of the valve, which is classified as a flow control valve in the directional control valve.

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

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 intake manifold 3 flange 28 at the upper end of the ground surface at the lower end of the stage multi-stage pump 8 and the fire extinguishing water installed in the collecting tank 34 at the upper portion of the pump machine chamber, An air hose 109 installed inside the nozzle hose 9 and an air nipple 109 for a socket in a male and female relationship to be separated and joined by a heat element, And an engine generator 226 at the upper end of the engine compartment in such a manner that the airship 78 is mounted on the upper end of the upper surface of the ground surface. 46 is supplied to the air compressor 80 power motor control module 106 and then the air generated by the operation of the air compressors is stored in the air receiver high pressure storage tank 145 so that air of constant pressure is stored. Tank( 145, air pressure is constantly generated in the inside of the building, and the emergency valve (84) of the disaster prevention air piping line (181) is deployed when the disaster occurs and air is blown into the building and attached to the piping frame outside the building

Accordingly, the air balloon 130 having a plurality of container sizes is floated to the top of the upper surface of the surface of the outdoor building so that air is stored in the air tube 130 at the same time, It is installed in fire-fighters nozzles as a whole with equipment for manufacturing and installing facilities and lifesaving means. It is installed in mountains and buildings with a parapet sensor nozzle stopper (100). It is used for fire prevention purposes. In case of disasters other than that, it is extended to the fire fence (40) and fire hydrant (179) The air pipe line 181 is connected to each of the pumps and each valve, 56 are constructed such that the flame 293 and the pillar 294 are simply annihilated and removed in less than one second by using a pump extinguisher 124.

In the ensured function of the pump, which clearly defines the full-closed position and the extended position in the positive displacement pump formed by the preferred embodiment according to the detailed description of the type and characteristics of the pump described above, It is a method of sending fluid.

Therefore, a predetermined amount of liquid is sucked up by using a piston or a plunger of a reciprocating pump, and is sent out by pushing up.

First, it is possible to obtain a high pressure even in a small size, and it is effective for a small flow rate of a high viscosity

Secondly, the pumping action is intermittent, so there is pulsation. To reduce this, a fly wheel to keep the rotating speed constant, or an air chamber (402) Accumulator) and the like

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

Next, even if the number of revolutions is changed, the change of the discharge pressure is not as severe as that of the centrifugal pump. Therefore, there is always a suction / discharge valve to increase the number of parts, and the failure of the valve is fatal. In order to convert the rotational motion of the power into the reciprocating motion It is necessary to use a crank method or an exen method, which may complicate the components or cause vibration.

The following types of reciprocating pumps are available.

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 a very high pressure can be obtained.

The pump is connected to a speed reducer 251 motor 192 and a wire rope 19 of a tug winch 137 to various motors in a rooftop collection tank 34 inside a machine room roof of a large building It is operated by pushing the top and bottom of the building with the switch button. The disaster prevention water (7) of the line of the fire prevention disaster prevention pipeline (168) is integrated into the equipment inside the pump fire extinguisher body, ) And firefighter (159) to the diaphragm pump (144).

In this way, the diaphragm pump (membrane pump 144) can pump water containing a large amount of fluid, mud or sand, and the suction or discharge is performed by moving the rubber membrane or the Teflon membrane 538 up and down . The feature that the crank 248 and the link belt 249 are formed on the rubber film 538 on the upper surface of the pump 144 and is not easily worn or closed with a fluid containing slurry (particle) It is composed of prevention of evolution. 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.

And the wing pump (paddle pump) is a simple pump that moves the handle to the left and right to allow suction and discharge in two chambers. It can be easily mounted on the wall to transfer the oil from the drum, It is often used when you publish or publish.

In order to smoothly utilize the movement of the equipment installed in the past, a plurality of pumps are attached to the fire sensor pump body 1 mounted on the fire cable car 256, which is very similar to the elevator, The air tackle winch 137 that uses air by opening the air shutoff valve by receiving the air supplied from the air compressor 80 is used for the rooftop fire fighting cabin 394 and the high and low A motor speed and a speed change gear 398 are connected to the steel tower 116 of the mountain 395 so as to be able to engage with the drive wheel roller 135 and to provide a fastener cord 396 and a speed comb 397 to the winch control box 53, The disc brake 399 serving as a brake is formed while winding the gear and the wire rope of the hydraulic motor to form a hydraulic cylinder 406, a pneumatic cylinder 406 and an electric motor 192 together with the switch.

Rotary pump The rotary pump 357 is one of the positive displacement pumps. The fluid is pushed out between the main body (casing) and the rotor when the rotor in the pump body rotates. Do not confuse this rotary pump with a centrifugal pump using centrifugal force,

As its characteristics,

First, there is no suction / discharge valve such as a reciprocating pump, and continuous pulsation is small.

Second, high pressure discharge is possible,

Third, it 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 sensed that a safety valve is installed and centrifugal pump is good for liquid with no viscosity

In this way, the gear pump is a pump in which two kinds of gears are meshed and discharged when the gear is opened and closed when the gear is opened.

First, it is suitable for transfer of high viscous liquid

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

Third, the fact that the liquid does not agitate very much like a centrifugal pump

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

Fifth, the abrasion is promoted by the liquid containing the particles, so that it can not be used for liquids containing hard particles.

In addition, the spur gears are simple in structure, easy to process, costly, and widely used. However, they are subject to noise and vibration, bearings may be damaged, and durability is weak.

On the other hand, double helical gears for offsetting the torsional helical gears or helical thrusts (axial force) are difficult to machine and expensive, but have no noise or vibration.

Depending on the shape of the gear, it may be classified as an external gear pump (Internal Gear Pump) 326a and an internal gear pump (Internal Gear Pump) 326b.

On the other hand, notes on the sealing and cavitation of the gear pump 326 are explained as follows

The involute gears are in contact with each other when the gears are engaged with each other, so that the liquid between them does not go out and is heavily compressed to form a very high pressure. This is called a seal, which causes a large obstacle to the rotation of the pump, resulting in increased shaft power, damage to the bearings, noise, and vibration. 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. As the liquid penetrates and collapses, a large noise is generated, and bubbles are generated and vibration is caused to significantly decrease the durability of the pump. This is called cavitation.

To prevent them

First, finishing must be very precise, materials must be carefully selected, and the price is very expensive.

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

Third, depending on the material, if you do not pay special attention, cracks or cracks will occur.

Fourth, the mixing of foreign objects should be avoided.

Fifth - If you do not go through the angles, you will get stuck.

The sixth can not be clamped on the way, like gland packing, and must be reassembled once it has been replaced or wrapped.

Seventh, the pump's power is well connected and the vibration is not eliminated, shortening the life of the seal.

There are a lot of disadvantages, but for now it is the best seal method, so it is important to know the disadvantages and to avoid them.

First, the type of mechanical seal is an inside-out type according to the set type, a single-seal type according to the seal type, and an unbalance type and a balance type according to the double seal type surface pressure balance type.

First, the inside (inside) type is the one commonly used in the way that the fixed side is on the pump side.

Second, the outside (outside) type is the case where the rotation is on the pump side. When there is a problem of the corrosion resistance of the structural material and the spring material, when the viscosity is a high viscosity liquid exceeding 100 cp, It is usually used when the inside of the box is high vacuum.

Third, a single mechanical seal type is a general method in which the sliding surfaces are sealed together.

Fourth, double mechanical seal type is a type that has two sliding surfaces. It is used when it is a toxic liquid or a flammable liquid, when it needs to keep warm and cold, when it leaks, when it solidifies, when it is solid, when it is high vacuum, And is also effective for a liquid containing slurry which is a disadvantage of a high-temperature or low-temperature liquid or a mechanical seal.

Fifth, the unblanced type is generally used as a sealing method in which the pressure in the pump is directly applied to the sliding surface of the seal. Fluid pressure is less than 4kg / ㎠ (depending on the product, less than about 7kg / ㎠ for liquid with good lubricity and less than 2.5kg / ㎠ for liquid with bad lubricity).

Sixth, the blance type is a method that makes the pressure on the sliding surface of the seal not to be applied when the pressure in the pump is large. When the pressure is 4 to 5kg / ㎠ or more, It is used.

In the case of the ordinary mechanical seal, the spring is a spring that pushes the rotating ring of the sliding surface. When the liquid pressure is applied to the rotating ring, 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, a quadrangle 268 is formed above the shaft bar 390 and a flashing hole 361 is formed in the culver 367 in the cornering method 391 of the mechanical seal.

First, flushing is the most common method. In this method, liquid is injected and extracted from the outside of the high-pressure side liquid of the shaft end to maintain the temperature of the seal appropriately. Thus, vaporization of the sealing end face is prevented to improve lubrication, It also prevents accumulation on the shaft bar.

Secondly, quenching is a method of injecting volatile fluids or air in contact with cooling fluid at sealing end faces of seals in areas where there is no fluid at the high pressure side of the shaft end. If it is handled, the leaking fluid is washed away and diluted and recovered. In addition, it seals off the sealing section and air to prevent oxidation.

For example, in the case of handling (LPG) or the like, the cooling water is flowed outside the seal face so that it can be washed away.

Third, cooling is a method of cooling the outer periphery of the seal rather than the sealing section of the seal. The cooling effect is lower than that of quenching, however, there is no need to prevent leakage to the atmosphere, and there is no need to pay attention to the purity of the cooling water.

In the material of the mechanical seal, the material of the seal varies depending 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 stainless steel and kaibbon graphite It is a combination. Carabong graphite is self-lubricating, does not fuse with metals, has low friction, and is resistant to chemicals. In addition to stainless steel, stellite, ceramics, cemented carbide are added or heat-treated, which requires sufficient corrosion resistance and abrasion resistance.

Examples of combining materials of the mechanical seal 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.

Second, vibration caused by surging phenomenon: cavitation occurs when the discharge amount is large, while surging occurs not only when the discharge amount is small, but also the cycle has a long cycle of about 10 to 0.1 cycle.

Third, vibration caused by water hammer (water hammer).

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

The following is the result of mechanical vibration

First, vibration due to unbalance of 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 critical speed.

Third, vibration caused by solid friction occurs when a lubricating oil is lacking in the rotating shaft due to a kind of self-excited vibration, or when an active part such as a bearing, a bush, or a ring contacts.

Fourth, vibration caused by hydraulic pressure of bearing is vibration caused by oil pressure of bearing part when rotating at angular speed about twice as high as the dangerous speed. It is not so common in normal speed pump and it is prevented by increasing bearing pressure or reducing rotation Can

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.

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, commercial refers to the output (equivalent to ISO 8528 PRP) applied to the generator for mains replacement

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 by a cooling fan 195, a cylinder 126, And is assembled and attached to the V-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 the specification of the engine 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, the engine is operated for a short time only once a day for a short period of time.

However, when stopping for a long time, disassemble and clean, replace worn or damaged parts or lubricant with new ones, drain all coolant (drain) and do anti-corrosion measures.

Third, each axis is checked and adjusted every opportunity.

Fourth, valves, pressure gauges, regulators, filters, etc. are prevented from malfunctioning by regular inspections and daily inspections.

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 the toxic and flammability should be detected with a small amount of detector, and proper measures should be taken.

Seventh, oil is selected with the help of the manufacturer.

The eighth, if there is an abnormality, stop driving immediately, notify the manufacturer 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 whether the cooling water circulates.

Next, open the pressure gauge, pressure regulating valve, drain valve, etc. to check the pressure indication.

Next, the small compressor should be rotated by hand with no load. Check the connection of the electric motor by inserting the hand switch after checking the switch, and check whether the foreign substance is not caught in the cylinder.

The sixth suction valve is closed and the switch is opened with the bypass 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 at the same time, the suction valve is 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 increase or decrease in temperature or pressure, and never tighten or hammer the bolt during operation with leakage.

This is divided into the following.

First, regarding handling of reciprocating compressors

First, whether there is abnormality in the scale of the pressure gauge and the suction / discharge gas temperature at each end

Second, the change of bearing temperature and the abnormal rise

Third, keep a watch on the change of the cooling water temperature and adjust the quantity if necessary.

Fourth, watch the oiling situation of the cylinder lubricator, adjust the flow rate, and supply oil to the lubricator.

Fifth, the state of change of external flow or hydraulic pressure

Sixth, the piston rod packing leakage and temperature rise

The seventh is whether the color of the drain is rapidly blackened

Eighth, are there any differences in the sounds and vibrations of each part from normal?

Ninth Valves or flange joints such as safety valves, drain valves, etc. · Are there any gas leaks on other tight surfaces?

Next, is there any abnormality in power consumption?

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

The following is the handling of Turbo Compressor

First, the lubricating oil pressure of the bearing lubricant or 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

Third, whether 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 valve or flange joint of piping system or other tight surface

Next, is there any abnormality in power consumption?

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

In the note of 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 coolant valve to cut off the coolant and drain all water from the water jacket or cooling tube.

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 bolt alternates in the order of the opponent facing each other, gradually releasing it to the two relatively positioned positions (of course, confirming that there is no abnormality,

As mentioned above, each motor and compressor is connected to the motor by a motor and the selection of the model in the process of separation. It is a device for fire-fighting and disaster prevention measures. By fire type, As a consequence, the fire should be selected as the most appropriate pre-exposure level.

In this way, a fire-fighting disaster prevention pipe-free fire-fighting equipment which does not cause the transportation equipment which is the former fire fighting evacuation equipment to be dispatched inside the body of the marine power plant (1) is made small-sized emergency engine that uses nozzle holes of a plurality of pipe nozzles inside the body 226) is provided with pesticide rescue equipment in the mountains, natural loess (158) as a remedy material, and a rubber or teflon membrane such as a mixture of fire water (7) and arson (159) The pump control system 150 of the membrane pump 144, which is a diaphragm pump 144 operated by suction and discharge, is equipped with a conventional equipment of a conventional pipe to eliminate or reproduce the insects on the land with a pipe nozzle without a tape. But the engine 226 is replaced with the engine 226 because the inside of the engine 226 is complicated and cumbersome to explain. Lock box. A large hydraulic power source supplied to a nearby industrial site machine room or an operation device formed inside the water turbine generator body 213 is rotated by a rotating shaft (not shown) of the center of the water turbine generator 213 The rotating speed sensor SSG 214 for detecting the rotating speed of the rotating shaft 198 of the rotating shaft 198 is located above the exciter 215. On the lower surface of the exciter 215, A roller 218 is formed on a lower surface of the bearing 217 of the bearing 217 and a fan 211 is installed on the circumference of the rotating shaft to cool the heat generated when the generator 213 rotates. A power wire 71 is connected to the upper end of the fan 195 and connected to the inner surface of the stator core 221 to the stator coil 219 and the stator frame 220. A brake ring 223 A braking or jack 224 is connected to the jack 22 4) A lower guide guide bearing 225 and a lower BRG cooler 222 are installed at the lower part of the lower end of the rotary shaft 198 and a turbine 74 An aberration generator connected to the bearing 227 and the guide vane 142 around the vane 142 by a casing 141 and a runner 228 is shown in FIG. The water in the lower reservoir is pumped from the nuclear power plant to the upper reservoir by using the low power from the nuclear power plant at midnight or at the end of the weekend when the power demand is low or the method of the reservoir type power plant A hydroelectric power station (267) that pumps and stores the pumped power and uses pump aberration at peak load

In this method, a combined pumped-water power plant having a natural inflow from the river and pumping only the insufficient water from the lower reservoir in the upper reservoir, and a silo-type power plant 267, In this case, when the motor pump is pumped to generate electricity in the case of amphibious operation, the turbine aberration generates electricity to the motor generator attached to the rotating shaft. In this case, the valve next to the pump aberration must be opened. The nozzle hole 20 is formed inside the turbine 74. The reversible pump aberration shows a power generation efficiency of 70 percent at a positive power of 100 percent and at present a domestic pumping power plant is installed at the Cheongpyeong 40 (600,000 KW), Suyuan (700,000 KW) and Yangyang (1 million KW), which are all of the following: Unlike the above-described method, the drilled hole of the bottom hole becomes the injection nozzle itself, and the blade hole 20 of the nozzle hole 20 is formed so as to maintain the axial thrust balance The hydrostatic generator 213 generates the electric power according to the power generation by the Francis aberration 229 and the Pelton aberration 230, and the eco-friendly wind power generator 231 In order to supply electric power by the search lamp (232) and the motor motor, a tidal generator (a large-sized floodplane is connected to the bottom of the bottom of the sea floor and one side floats, 35), the power supply of the tidal generator (233) is connected to the search lamp (232) by the power cable so that the energy production due to the height difference can be made by combining the generator with the dam- The pump described above is attached to the lower portion of the generator and the valve is opened and closed on the lower side of the generator so that the power is generated and then sprayed in the form of a plurality of water films from the gap between the nozzle for preventing forest fire and forest protection and life saving The fire-fighting and disaster prevention equipment installed inside the body of the marine power plant (1) protects both water supply installation and waterproofing facility for power generation power generation facilities and water intake facilities that are totally inaccessible

In this way, the fire (160), in which the injection nozzle (10), which is a pipe nozzle completely closed by the paraffin tape (177) and the paraffin nozzle stopper (100), is deployed in the body (1) And a flame 161 are included in the flame 161) A paraffin nozzle cap attached together with a spark-proof ignition sense wire 41 serving as a thermal sensor and a flask (100) or a paraffin tape (177) is burned by a fire, and a fire hose (a fire hose of a standard firefighter window is divided into a basic 1 type and a basic 2 type in the pipe nozzle body) (The disaster prevention water or the control water number 7) which has the hose length of 15m, the usage pressure of 20kg / ㎠, the type of hose described, and the water pressure (less than 10kg per 1cm) Many fire extinguishers (acid, alkali fire extinguisher, foam It is generally used as a powder fire extinguisher in a pump fire extinguisher. The present invention refers to a fire extinguisher which is formed of loess 158 and a fire extinguisher 159; The same number of circular ejection nozzles 38 of about 490 and the number of ejection nozzles 38 of 8 positions are formed in the gap 15 of the ejection nozzle 10 while simultaneously being discharged to the outside of the body of the fire extinguisher 124 in which the non- A plurality of flames 293 and pyramids 294 are burned by the number of curtain water films 39 and the flames of the pyramid 294 , Oil fire and electric fire, 166), and a cooling action for lowering the temperature of the ignition object (combustible material 166) to a temperature lower than the ignition point, and the hose 9) is mainly a cooling action.

[0030] In order to achieve the initial evolution within 1 second, the fire extinguisher 292, which has been left behind at the moment when it is caught, includes both the cooling action and the smothering action. Unmanned camera (wired / wireless communication equipment and megapixel digital camera) VMD1011 includes passive type of analog video output, digital video output and outo function, which consists of progressive CMOS sensor with OSD control function up to 20x zoom The initial scene of evolution is transmitted to the pump control server 150 of the multi-stage multi-stage pump control system 150 to display the fire scene status on the monitor 52 through the information detection function of the pump control server 51 (Fish finder, 907) to identify the shape of an undersea object, After formed is made a power plant.

A plurality of pump-type multi-stage pumps 8 are provided inside the dual pipe nozzle body B and a pump aberration 37 and turbine aberrations 74 are provided in the high performance submerged pump 36, The turbine pump 140 and the diaphragm 144 and the plurality of compressors are integrally connected to the plunger pump 148 of the air compressors 80 and the plunger 253 by a guide vane The guide blades 142 are not attached to the volute pump and a predetermined amount of the mixed material formed by the impeller 143 in the pump main body of the casing 141 is introduced into the suction port 168 and the discharge port 169, The impeller 143 is attached to the shaft 198 which is the center axis of the power motor rotating body, which is the motor body 192. The pump shaft of the pump according to the respective pump names is constituted into the impeller 143 or the diaphragm pump 144 and the propeller pump 146 inside the body of the skew pump 147. The gland packing 155 And the mechanical seals 156 are formed from quenching and cooling and flushing to other functions such as cooling and lubrication functions.

At this time, the motor body 192 has a hood 193, and a body frame 196 made of a cast material for forming the fan 195 and the body 192 in the snap ring 194 has a body front racket 197 And the front bearing 200 is positioned forward of the center shaft of the shaft 198 and the stator assembly 201 is formed inside the body frame, A terminal box 203 and a lifting bolt 204 are coupled to an outer side surface of the casting frame 202 for protection so that an object such as an electric motor body 192 can be lifted to a center position of the upper body of the upper part of the frame 202, After the threaded tabs 167 having a certain size are formed in consideration of the weight of the object by the water, the lifting bolts 204 of O-ring shape are attached to the threaded tabs 167, After the tabs are installed at four places, the terminal box cover 205 is attached, A rotor 208 and a fan cover 209 for protecting the fan are provided in the rear bearing 206 and the rear racket 207 at the rear of the motor 198 and a rotor iron core 210 and a crank 248 (6 mm x 6 mm x 6 mm) in a fixed pinhole (20) at a front portion of the shaft in a link stand (249) connecting the crankshaft A pinhole (length × width × height × length: 3 mm × 3 mm × 3 mm × 80 mm, 20) having a length of 60 mm in the center hole 254 is inserted into the central machining hole of the feeder 250, After fixing the pin hole fixing pinhole in half by the fixing pin dimension, the fixing pin 254 is disassembled and assembled by the tool pin 254 by the fixing pin 254, And the stator winding 212 are attached to the inner surface of the body frame and are fixed to the fixing pin 254 of the impeller 143 without the plow 250, The pump attached to the cavity 20 is an electric motor pump and the reducer 251 and the belt 252 are mounted on the circumference of the piston 127 with a plurality of cylinders 126 separated by a compressor, (Dimension notation is omitted because the standard dimensions are changed according to horsepower.)

: 상기 형태, 129)로 뺑글뺑글 앞산 계곡으로부터 출발하여 360°로 회전시켜서 다시 앞산 계곡으로 설치되되, 단 산정상 산맥을 따라 지나는 소방방재배관라인(168)에는 상기 빗장걸이 장금장치(129) 형태의 방재수로(17)의 집수정탱크(34) 하부 위치에 레듀사(35)와 배관연결부속엘보 또는 티이엘보(44)로 방재배관라인(168)에 연결된다.In accordance with the operation of the impeller of the motor motor shaft 198, the booster pump control box 2 installed at the 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, 3) and the discharge joint pipe 4 made of a material capable of withstanding high pressure is referred to as a manifold or a head tank 189 and a predetermined amount of fire-fighting water conveying means (for example, High mountain top to low mountain as an agate methane type plastic vinyl coating material, 350mm diameter flow tube can be transported by manpower, light and long life after being selected. 14) is formed and the piping 14 is connected to the piping 14 and the disaster prevention system 14 by a predetermined standard (width × height × width × height = 1 × × 1M) The bolt locks on the door (17) at a constant angle of inclination (16) 1 ° ((

The fire-fighting piping line 168, which is installed along the mountain-top mountain range, is installed in the form of a bolt latching device 129 Is connected to the disaster prevention pipe line (168) by a reducer (35) and a piping connection attached elbow or tee elbow (44) at the lower position of the water collecting tank (34)

In addition, a suction port (269) of a collecting tank (length × width × height: 10M × 10M × 1M, limited to a tank concrete lid provided in a cement cone type) is directly connected to the disaster prevention water passage (17) A number of disaster prevention pipelines (168) connected to the lower part of the river (34) pull the overflowing valleys and immediately flood the floodplains thereof into the East Sea and the South Sea and the West Sea, (80) and the diaphragm pump (144) are simultaneously operated for the paddy field and reservoir inundation area, so that the valley water When the rainfall is 150mm or 300mm per hour despite the recovery, the double vinyl (43) for vinyl house is properly set as a disaster prevention area. (43) will be reinstalled in the form of disaster prevention piping to reduce landslide damage. However, even if the measures are taken, the banks will be lost and the bridge will be cut off. In this valley, In order to relieve the displaced refugees, a pylon (139) is installed in the valley. At this time, a pylon pipe (length × width, length: 3M × 50M wire rope (19) (Length × length: 49 kg, 60 mm × 1 M arsenic and loess is stored in the upper part of a small pipe installed after passing through a single pipe hole, 180) are installed on the upper part of the bag 180, and then the upper part of the bag 180 is laid over the middle pipe with a diameter of 200 mm and a length of 7 m or less. After the sand has been laid, the large-diameter pipe 300 is further formed with a length of 5 mm longer than the diameter of the large-sized pipe 300 on the upper half of the middle-sized pipe 300. The wire rope 19, After the lifting bolts 204 and the anchor bolts 133, which are o-ring bolts and the anchor bolts, are installed after covering the bolt 139, the knot is fixed and the bolt is installed so that it can not be floated on the torrent. (The fire prevention condition of the present invention recognizes that there is no disaster when there are a lot of pine trees in the mountain).

The ground level load (GLL), the ground level load on the upper (GLL), and the ground level load (GLL) Abbreviated as GLD).

On the right side of the valley, the ropes 19 and 131 are connected to the bottom of the valley (C) at the point A and B of the valley at the industrial site for the 5000 kg ceiling crane wire rope 19 or the rope 131, The ropes 19 and 131 are fastened to the hook hook 18 by the shackle 23 and the driving wheel roller 135 by the driving wheel roller 135. Thus, (137) is installed in a cable car type lifting basket (42) and the injection nozzle (10) are connected by a 15-m long fire hose section to store the fire water in a height of 100M. The length of the injection nozzle is determined by the length of each of the (A), (B), (C), and ), And (D) points,

An embodiment according to the configuration of the valve apparatus of the present invention will be described as follows

(Sluice valve), stop valve, glove valve, angle valve, check valve, and reduction valve are used to control the fluid and flow rate of steam or water. A reducing valve, a cock, etc. may be used depending on the purpose of use.

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

<Table 2-1> Configuration of valve

<Table 2-2> Classification of Valve

<Table 2-3> Valve KS specification list

The details of the slew-valve device will be described as follows

The valve is also referred to as a gate valve 296 by opening and closing the valve by a screw bar 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. Fluid is not 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 and the water pipe of the water supply pipe are large and it is not necessary to frequently open and close the valve, various accessories formed on the slow valve valve 403 are attached, The valve 403 is connected to the valve cover 405 and the slow valve 406 by the packing press 407 and the packing press nut 408 as shown in the figure, The valve seat 409, the handle 410, the handle nut 411 and the packing 412 are attached.

Slow valve valve specification

The kind of the slew valves includes a wedge gate valve, a parallel slide valve, a double disk gate valve, a wiping valve, and the like depending on the structure of the disk.

First, in the device configuration of the wedge gate valve 413,

The wedge gate valve 413 is divided into 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 °.

As shown in the figure, the flexible valve 415 is provided with a groove at its center, so that the flexible valve 415 absorbs the influence of heat on the valve seat in the high-temperature pipe or the like by using the flexible.

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

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

As shown in the figure, there is a gap between the valve body and the disk, so that there is less friction on the valve side and the valve is not affected by thermal expansion, thereby opening and closing the valve is easy.

The valve disc and the valve seat act as a slide, 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 be completely opened and closed 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 to press the valve seat against 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.

A detailed description of the device configuration of the stop valve 418 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 the angle valve is the angle of the inlet and the outlet. The connection method of pipe is screwed joint and flange joint method. The material is made of forged steel for bronze high temperature and high pressure when it is used for small medium pressure, and cast iron is used for large type. The opening / closing spherical surface of the valve has a flat sheet, a conical sheet, a spherical sheet, and a stud sheet, which have a large resistance loss against the flow of fluid and are prone to collect dust in the water bodies. This is the most widely used type of valve because it is easy to make valve and valve seat when the lift is small and the valve opening and closing is fast.

Valves and valve stems are connected by packing glands and valves and rods are in the form of cylinders.

The Y-shaped glow 419 is used for applications such as glow valves, and is designed such that the valve cylinder is inclined by 45 to 60 degrees with respect to the center line for the purpose of reducing the resistance.

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

These valves are 15 to 16 mm conical needle used for flow control. They are used to increase or decrease the flow rate at high pressure although the flow rate is extremely small. Refer to the specification sheet of the valve, The valve seat 425 and the valve pusher 426 to the handle 427 and the cover fitting ring 428 to the cover 422 and the lid attaching valve seat 424 are pressed against the body 421 A packing press bolt 433 is fitted to the screw fitting type 431 and the cover bolt 432 in the ring 429 and the packing press 430 and the cover bolt nut 435 and the handle nut 437 are attached to the pin 434 The detent screw 438 is a slow valve device to which a gasket 441 is attached to the washer 439 and the packing 440.

Valve specification sheet (flange type glow valve and angle valve)

The cock of the present invention is classified into a cock 1 type 443 and a cock 2 type 444 and a cock screw type main cock 445 and a cast iron flange type land type 446 A bronze threading gland cock 447 is formed and the cock 2 444 is formed as a handle cock 450 in a trunk 448 and a gas batt 449, Is turned by 1/4, the opening is fast because the passage is completely opened. There are many cast iron and bronze materials, and small diameter low pressure springs are used for drainage.

The cock may be a one-way stream of two-way cocks and a two-way stream of three-way cocks.

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).

The check valve 451 of the present invention is divided into a swing type check valve 452 and a lift type check valve 453 and is used when the fluid flow is reversed in one direction to automatically close the valve There are swing type and lift type.

Since the swing type check valve 452 is opened and closed by rotating the pin 457 as shown in the figure, 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 a structure of a valve seat such as a glow valve. As shown in the drawing, the valve is vertically lifted by the pressure of the fluid. The lift of the valve is about ¼ of the diameter and the friction resistance against the flow is large. A check valve 451 is formed and a disk 456 and a disk pin 457 and a plug 458 are attached to the body 454 and the cover 455. The check valve

A check list

In addition, the lift type check valve 453 has a Sumorenski type which 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. Bronze screw type of 10A or 15A or cast iron or cast steel flange type of 50A or 200A is used.

The control valve 459 of the present invention is divided into a pressure reducing valve 460, a temperature control valve 477 for the safety valve 472 and an air vent valve 481 for the OWT water dispenser 478, (460) is a valve that is provided between the high-pressure pipe and the low-pressure pipe, and brakes the lift of the valve by an appropriate device, and keeps the pressure on the low-pressure side almost constant regardless of the change in pressure on the high-

The actuation of the valve is usually done with a bellows, diaphragm 463 or 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 same figure.

The pilot valve 464 and the piston 127 are connected to the secondary sensing hole 462 and the diaphragm 463 and the main valve spring 464 is connected to the main valve 466 through the pyrotrope- And the ouput pressure regulating valve 469 is classified into a screw type (½ to 1½ inch) ouput pressure regulating valve 470a and a flange type (2 to 6 inch) pressure regulating valve 471b

The safety valve 472 is separated into a spring type safety valve 473 and a relief type safety valve 474 by a Pope spring safety valve 475 for steam and a Pope type safety valve 476.

The closing mechanism of the fluid is the same as the glow valve 419 and the glow valve 419 is opened or closed by an external force. However, the safety valve is closed by the force of the spring on the external force sensor or the weight of the valve stem and the weight of the lever Is opened and closed.

The safety valve is installed in a pressure vessel such as a boiler and other pipes handling high-pressure fluid. When the pressure in the pipe or vessel reaches the specified limit, the valve releases the internal energy to the outside to keep the pressure in 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.

On the other hand, the temperature control valve 477 has the same configuration as the OTO temperature control valve 477, and is opened / closed by the action of the bellows which is very sensitive to the temperature change for controlling the temperature of the liquid. It is an Oto control valve which is controlled by owet type. It is used for heat exchanger and heavy oil heater.

The Oto water dispenser 479 and the Oto water dispenser 479 are separately formed in the Oto water dispenser 479 so that the Oto water dispenser 479 and the water dispenser 480 can supply water The water level difference is always abundantly induced at one time, thereby preventing the danger caused by the shortage of the boiler water supply.

On the other hand, the air vent valve 481 belonging to the adjustment valve 459 is divided into an oto air exhaust valve thermal type (for steam 482), an oto air exhaust and a valve bucket type (hot water type) 483, (Width × height: 53 mm × 68 mm, 483) in the dimension of the width (width × length; 53 mm × 56 mm, 482) of the air intake valve, the air vent valve for the air has an open type or a thermal float type, A float expression is adopted. The fuselage is made of bronze bronze, bronze bronze, and brass.

The diaphragm type valve 488 is connected to the refrigerant stop valve 485 and the refrigerant stop valve 485 to the refrigerant pipe valve 484 according to the present invention. And the expansion valve 489 is formed with a diaphragm type expansion valve 490 and a bellows type expansion valve 491 and the solenoid valve 492 and the pressure regulating valve 494 and an oto water supply valve (not shown) integrally formed with the refrigerant pipe valve 484.

The push valve 486 belonging to the refrigerant stop valve 485 and the valve 485 integral with the valves 487 and 488 have a structure of a valve and a valve seat similar to those of the glow valve In order to prevent the leakage of refrigerant from the fuselage penetration part on the valve side, there is a diaphragm type which is packed with an asphalt packing or a ground packing type (ponet net type) and an axle sealed by a bellows or a diaphragm , Bellows, or diaphragm can not be manufactured. The Grand type has all shaft caps (bonnets, caps) and is now mostly packed type to prevent the exchange of bellows, packs or packing tightenings, and to prevent leakage when the valve is opened.

For the material, the bigger the body is, the bigger the pouring agent, or the cast iron, the smaller diameter is almost forger, the valve stellite, and the valve seat is nerunnel metal.

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

The expansion valve 489 is formed by separating the diaphragm-type expansion valve 490 and the bellows-type expansion valve 491

There are three types of expansion valve 489: a passive expansion valve and a thermo expansion valve.

The passive expansion valve is used to manually adjust the effective area of the refrigerant passage to increase or decrease the refrigerant flow rate, but today it is rarely used except for one part.

The static expansion bulb is used for a small capacity such as a domestic refrigerator and operates by keeping the pressure in the evaporator constant.

Thermodynamically expanding valves are more widely used today, with liquid refrigerant evaporating completely and operating as gasified, and used in direct inflatable evaporators.

The valve is made of stainless steel, valve seat is made of monel metal, and Bellows is made of phosphor bronze.

Also, when the rich valve 492 is configured

The float valve of the rich valve 492 is a valve used in the monolithic evaporator and is a low-pressure side rich valve that constantly controls the liquid level in the evaporator. The valve is opened and closed according to the amount of refrigerant in the evaporator, and the structure of the float and the arm is made of cast iron or steel plate in the surge chamber of the brass. These valves are made of stainless steel and the valve seat is made of brass. The float valve also has a high-pressure float valve for adjusting the amount of refrigerant on the high-pressure side.

In the configuration of the refrigerant pressure regulating valve 493,

The pressure regulating valve 493 is used to keep the temperature of the refrigerant evaporated in the evaporator constant regardless of the load in the evaporator, and this can be accomplished by having the pressure in the evaporator.

It is effective when several evaporators are used in one compressor and the evaporation temperature of each evaporator is different.

As described above, in the configuration of the solenoid valve 494

The solenoid valve 494 is a separate valve for operating the opening and closing of the valve by the action of the electromagnet.

This is because the electromagnetic coil is attached to the glow valve. When the current flows through the coil, the plunger with the needle valve is moved upward by the electromagnet to open the valve. When the current does not flow, the plunger falls down by gravity. It is installed in front of the expansion valve to prevent the refrigerant liquid from flowing into the evaporator when the compressor is stopped.

Finally, in the Oto water valve (495, not shown)

The Oto water valve is installed on the outlet side of the condenser of the freezer (on the outlet side of the cooling water). It is used to adjust the amount of water supplied to the condenser by the Oto type in response to the fluctuation of the load of the compressor, and a diaphragm or a bellows is installed on the upper part And is a mechanism for vertically moving the valve by the high-pressure gas pressure of the compressor.

A packing press 531 is attached to the body 529 of the nipple 496 and the packing box 530 and a handle 532 is attached to the nipple 532 in a general type faucet Corrosion resistant packing 536 and a packing 537 of an aging resistant material are disassembled and assembled into a disk 533, a disk 534 and a disk packing 535, respectively.

A device that opens and closes the flow of water and water by connecting directly to the end of a water supply hot water pipe is called a faucet.

The material of the faucet is generally made of bronze casting or brass casting, and usually nickel or chrome plating is used.

The structure and part name of the general faucet are as shown in the figure, and the faucet specifications are as follows.

Standard faucet specification sheet

The general type faucet (496) formed in the inside of the building is subjected to digestion by a fire extinguishing piping pump fire extinguisher to a plurality of connecting socket portions

The formation of the current before the exponent current is explained as follows

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. It is installed in a position where it can freely open and close in the middle of a high tank water vertical up tube, a shower vertical up tube and an upper vertical up tube. There are two types of joints with pipe: screw joint for steel pipe and soldering for connection pipe.

(497) is used to limit the flow of water to the entire water supply system by installing it in the subterranean water supply branch at the highway and the boundary of the site, unlike before the water supply.

Index exposures are usually protected by a pre-exponential box and do not open or close at will, except for special cases, such as water leakage.

As shown in the figure, the structure is configured such that when the plug is rotated by 90 degrees, the water flows, while when it is rotated by 90 degrees, the flow of water is stopped

At the next corporation stop, 498,

It is used to divide water supply pipe less than 40mm from the water supply pipe buried in the highway. The diameter of the water before the fraction is 13, 16, 20, 25mm. 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 monolithic perforator (a machine that punctures the water pipe without interrupting the water) without stopping the water in the water pipe.

In the bow tab 499 of the present invention,

It is a rich type valve used to supply water to the water tank. It has a ball made of copper or synthetic resin at the end of the lever,

When the water level reaches a certain level, the buoyancy of the ball causes the valve to close by the ozone type so that a certain amount of water is always stored in the water tank. These bow tabs are available for small diameter and large diameter.

The strainer 392 of the present invention is provided with a V-type strainer 503 on the Y-type strainer 501 and the U-strainer 502. The strainer is used for piping such as steam, water and oil. It is used for removing dirt. In general, 2 B or less is a bolt screw type and a cast iron flange type is used for 2½B or more.

The strainer 392 is Y-shaped, U-shaped, V-shaped, and the like depending on the shape.

In this way, the Y-type strainer 501

The 45 degree inclined cylindrical metal net is placed in the Y-shaped body. In order to reduce the resistance to the fluid, the fluid flows from the inside to the outside of the net, and a plug is installed at the bottom to remove the impurities.

The opening area of the metal net is about three times larger than the nominal diameter cross-sectional area and the net is easily exchanged.

On the other hand, in the U-type strainer 502

Inside the cast iron body, a round barrel with a filter net installed vertically, which flows outward from the inside of the net. Because the flow direction of the fluid is perpendicular to the structure, resistance to fluid is higher than Y-type strainer, but it is easy to repair and inspect, and there are many oil strainer.

In addition, when the V-type strainer 503 is installed

As shown in the figure, the V-type strainer 503 is formed by inserting a metal mesh into a V-shaped body in the cast iron body. Since the fluid flows through the mesh and the dirt is filtered, the structural fluid flows linearly through the strainer, Resistance to flow rate is less than that of mold or U type, and it is convenient to exchange and check the filter net.

A trap 511 of the piping accessories is provided with a bucket trap 524 on the angled thermal trap 522 and a straight thermal trap 523 and a top trap 526 and a float trap 524 on the bottom bucket trap 525, 527 to the impulse steam trap 528. The steam trap separates the condensed water and air generated in the radiator or the steam pipe from the steam and discharges the condensed water to the return pipe without passing the steam. 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), depending on operating pressure, emissions, and so on.

The thermal trap 523 can be divided into an angled type and a straight type depending on the type of the low pressure type and high pressure type, depending on the operating pressure.

The trap is also called a silpone trap, and the bellows is made of thin phosphor bronze plate and filled with a volatile liquid (ether) inside the radiator.

When steam comes around the bellows, the bellows expands and the valve closes because the ether evaporates and expands. When the drain (301) or air is heated, the temperature is lowered and the bellows contracts to open the valve. Since the pressure is low, a radiator with a capacity of less than 1 kg / ㎠ is used for the pipe end trap. Also, it is used for air piping of air renders or vacuum return pipes.

In the kind of the bucket kit,

The trap is constructed to open and close the valve by buoyancy of the bucket to exclude the intermittently condensed water. Buoyancy of the bucket is operated by the steam pressure, so there must be a pressure difference between the steam pipe and the return pipe. The pressure difference is 1 kg / Theoretically, the condensate can be pumped up vertically up to 10.33 m, but it is actually less than 8 m. In low pressure steam pipes where the pressure difference is insufficient, the discharge of condensed water is not completely achieved.

Bukit trap is suitable for high-pressure medium-pressure steam pipe. It can pipe the water pipe above the trap. There are bottom-up type and top-down type depending on the bucket position.

First, as the bottom-up bucket-trap 525,

This is also referred to as an open trap. When condensate enters the trap, it first flows out of the bucket (A) and the bucket (B) floats up with its buoyancy to close the valve (C). When the condensate flows slowly overflowing into the kits, the bucket becomes heavy and loses its buoyancy and sinks, opening the valve (C). When the valve is opened, the condensate is discharged by the pressure of the steam acting on the water surface in the bucket.

In the following type of top-down bucket trap 526,

In this form, the bucket is placed upside down from the bottom up, and when steam and condensate come in from below 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 condensed water. When the steam is discharged, the Bucket loses its buoyancy and descends to its own weight to open the valve and discharge the condensed water and air. At the end of the discharge, the bucket is again filled with steam, buoyant, and the valve closes.

In the form of the float trap 527,

The float trap 527 is also referred to as a large amount trap and opens and closes the valve using the buoyancy of the float. The working pressure is used when treating a large amount of condensate in a low pressure, medium pressure (about 4 kg / ㎠) air heater, heat exchanger, etc. It can not discharge air. Thereby inducing the air to be discharged.

Meanwhile, in the formation of the impulse steam trap 528,

The impulse steam trap 528 continuously opens and closes the valve according to the temperature change in the cylinder, and is very simple in structure and compact in comparison with the amount of the drain to be handled. It can discharge air and can be used for high pressure, medium pressure and low pressure, but the drawback is that the steam leaks somewhat.

The structure is composed of a disk-shaped valve rod and a disk sheet as shown in the figure.

In the drain trap (not shown) as described above,

The drain trap is a manual deodorizing mechanism that prevents gas generated in the sewage pipe from flowing backward from the drain port of the apparatus through the drain pipe, and the materials include cast iron, bronze brass, and ceramics.

The structure allows water to flow through a portion of the drainage system and freely pass water but blocks the flow of air or gas. The depth of the trap seal is 50 ~ 100mm. If it is lower than 50mm, gas or air may pass through. If it is deeper than 100mm, the self-cleaning force will weaken and trap the debris on the bottom of the trap.

Drainage traps can be broadly divided into structural pipe traps and box traps .

In such a vertical piping support metal,

If the vertical pipe penetrates the floor, put a sleeve on the floor to freely stretch and shrink the pipe, and install the supporting metal in the middle of the layer to prevent the transverse swing. The support interval will be described later in the construction method.

The tube fixing metal 504 of the stationary metal has a steel buckle support band 505 and a support band 506 and a roller support band 507 and a vertical tube for band 508, Band 510 or the like

The purpose of this pipe is to prevent the tube from moving against the expansion and contraction of the pipe. The shape of the fixed metal should be shaped to suit the fixing location.

Finally, the properties and applications of packing

The packing is used to prevent leaking from the joint and is generally referred to as a gasket. The gasket 32 is sandwiched between the two flanges so as to be compressed by the tightening force of the tightening nut to prevent the gasket 32 from coming into close contact with the flange. The gasket should be slightly elastic. The reason is that if the gasket 32 is not elastic when the bolt is increased for some reason, it will leak immediately.

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

First, the physical properties of the material in the tube should be taken into account, such as temperature, pressure, gas body and liquid distinction, density, and viscosity

The following should be taken into account of the chemical properties of the objects in the pipe and should be taken into account in their chemical composition and stability, corrosiveness, dissolvability, volatility, flammability and explosiveness

The following mechanical properties

After checking all of the above conditions, the most suitable gasket material should be selected. The types of gasket materials can be classified into the following six types.

The first is rubber and its products

The second is a plant fiber product.

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.

In the above-mentioned rubber flow and its processed product,

The rubber stream is widely used as a gasket material since it has high elasticity and is not eroded by chemicals. When strength is required, rubber or metal gaskets are used to mix the cloth (cloth, 75).

As such, in the selection of natural rubber,

The characteristic of the rubber is that it is very elastic and does not have absorbency and does not erode well to soft acid or alkali but has poor heat resistance and can not be used for piping handling a high temperature of 100 ° C or more. It is also cured at -55 ° C. 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, but it can not be used for oil, steam, hot water and refrigerant piping. (Not described below)

As described above, an unexplained portion of the pump fire extinguisher installed in the cable car 256 so that the initial evacuation and lifesaving structure of the present invention, which is arranged in the elevator machine room and the pneumatic pressure sensor, And the detailed configuration is proceeded.

Air solenoid valve (76) The precautions before use are explained as follows.

According to the above-mentioned signs

For a detailed description of the conditions of use of the fluid,

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

If it is difficult to manage the drain, it is convenient to use the filter with drain drain.

When there is a large amount of carbon tar in the compressor, a large amount of carbon tar can be attached to the inside of the valve, making it impossible to operate. Therefore, a compressor that generates less carbon tar is used, but an oil mist separator is used.

Regarding other conditions of the fluid to be used, the compressed air purification system of the pneumatic equipment manufacturer is taken into consideration.

The following is about lubrication

(ISO VG32) is used for lubrication if it is necessary to lubricate. However, if the lubrication is interrupted during use, it may cause malfunction due to loss of initial lubricant. Must be used contiguously

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, for low temperature use

Although the temperature can be used up to -10 ° C, care must be taken to solidify or freeze the moisture of the drain 301

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

Next,

When the double solenoid type is used by instantaneous energization, the energization time should be 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.

According to warning signs

In the detailed description when selecting and handling pneumatic equipment,

First, the proper selection and determination of pneumatic equipment should be done after determining the design or specification of a function with expert knowledge and experience

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.

If this condition is not used under normal conditions, or when controlling other harmful fluids other than compressed air or other gases, consult the manufacturer and consult with the manufacturer of the pneumatic equipment for safety reasons. Remove the hazard.

Therefore, before using a 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 cleaning, so as to prevent foreign matter and other dirt from entering the pipe

If Teflon tape is used, it should be rolled around 1.5 to 2 threads 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 time, contact the manufacturer to resolve the problem.

If piping is not tightened with excessive force or tightening with proper torque, it may damage the human body due to malfunction of the device during use. Therefore, the piping should be installed with the following proper torque.

For a more detailed description of the usage environment like this

Install in a place with corrosive gas, chemical solution, seawater, rainwater, water vapor, etc. Install it in a place where water, oil, etc. are temporarily installed. It should not be used in an explosive environment by attaching a silencer to the vent port of the valve. It should not be used in an explosive environment. It should block radiant heat in an environment where there is a heat source by avoiding direct sunlight. Avoid using it and install it considering the specifications.

As described above, since the solenoid valve 76 has many different models, the 5 port solenoid valve is connected to the valve body 557 and the cover 558 with the spool 559 and the spool packing 560 The coil 562 is attached to the pilot pilot (PILOT) 561 to the left side of the coil 562 in the two position single 569 and the two position double 570 is also attached to the left and right sides of the valve body 557 (567) and two-position double (570), which are attached to the left and right sides of the coil, and are formed as standard products. In addition to the above standard products, the products made by order are center- (S) 575, as shown in the drawing, and the center product 578 and the center exit 579 of the center product are connected to the center press 578, And Double (D, Double, 576) Center Exhaust 579 and Center Exhaust 579 are separated into the above-mentioned custom-made products by the symbols shown in Center Closed 577 and Center Pressure 578, In the event of a fire, it is connected to the air hose 109 in front of the cylinder 126 as a fire damper opening mechanism of the ventilation device of the ventilation vent of the doctor ventilation and the outlet, and is widely used in buildings or other industrial and marine vessels

On the other hand, the manifold type of the manifold system is of the form (DMQF 100-MOO-S) and (DMQF100-MOO-L) of the 5-port pilot type (M5, V8; .

Each solenoid valve specification

In the valve 76 described above, a mounting type of a direct piping type 581 and a base piping type (valve seat 582) are formed in the form of an attachment. (DC, DC 12V) and a DC (DC, 24V) are connected to the coil 562 as the input voltage, and are connected to the vertical type (L, 572) (Valve) when the solenoid valve body 557 is closed and closed when the solenoid valve body 557 is turned off (off). The screw tap and the machining hole dimension are described as follows in the intake port and the discharge port of the unit attached to the solenoid valve body 557 Distance dimension description is omitted)

The following threaded taps of each dimension are as follows: Air hose coupling union couplings 567 and union coupling (body coupling, 568) Female threads are machined holes 20.

In the pump multi-stage pump 8 and the collecting tank 34 inside the pump extinguisher body, a waterproof opening 169 of the fire prevention / disaster prevention line, a water supply opening 168 to the lower end of the waterproof opening 169, a water supply opening 168 The float 315 on the upper part of the manhole cover 152 and the float 315 on the lower part of the manhole cover 152 are installed at the middle part of the manhole 152 to fill the inside of the manhole 152 with the fire- The float 315 is attached to the float 315 so as to be formed by the float cover 550 and the float retainer switch 551 which are joined to and separated from the float 315 at four places around the processing hole 20 of the outer wall of the tank. The outer wall of the tank is coupled with the square flange 28 of the Uber-cover 550 body, the tank outer wall machining hole 20 is fitted, the nut 25 is fastened to four flange machining holes, and then the nut 25 is engaged and separated using a hand tool monkey wrench. Meanwhile, as shown in the figure, the upper portion of the bed frame 286 is fixed to the upper portion of the bed frame 286 above the upper surface of the bed frame 286 above the ground surface GLL, A pump 259 attached to the pump 308 with an upper tee elbow 44 is connected to the valve 114 via a flange 28 at the left side of the valve 114, A bass canceller alarm 543, a remote control alarm 544 and an alarm reset button 545 and a low level switch 546 at a low position inside the tank are connected to the switch 541 and the high level alarm 542, And is installed inside and outside the control board 53.

The body of the centrifugal pull pump 308 includes a shaft 198 as a center shaft 198 of the motor 192 is inserted into a casing 141 having a body of the pump 308 and a guide vane 142 And a balance hole 376 is formed on the circumferential surface of the shaft 198 located at the center line of the casing 141 and on the septum seal 156 of the shaft sealing device and the partition wall 372. [ The control method of the multi-stage pump control board 53 of the control box of the pump control board 53 is the same as that of the control method of the multi-stage pump control board 53, The flow rate check flow meter 105 and the overpressure prevention switch 108 are connected to a pipeline line sensor formed by a separate tee elbow 44 on the line pipe 168 of the stop valve 114 above the waterproof port 169 line pipe Is recognized and detected.

The pressure tank 189 and the collecting tank 34 and the control unit inverter 47 of the above described multi-stage multi-stage pump and control system concept are interconnected at this time, the associated line relationship between the control unit inverter 47 and the collecting tank 34 In the suction port 269, when the fire extinguishing water is sucked, the air shutoff prevention device 271 and the check valves of the respective pumps are formed so as to be able to control the full closing and expansion in the inverter 47, The pressure tank 189 and the control unit inverter 47 are connected to each other after the setting positions are clearly set in front of the pump 8 and the front valve 5 (Isolating Vavle, Ballo-2 Butterfly 5) The discharge pressure is controlled by the first pressure check sensor 86 as the discharge pressure check sensor and the overpressure prevention switch 108 as the integral part of the second pressure check sensor 87 on the line of the discharge confluent pipe 4, A plurality of fire nozzles (10), which are injection nozzles, are used to fire a fire The blast furnace 158 is injected into the mixer 73 so as to perform various actions and act of suffocation so that the cable car 256 can prevent the fire of the general fire and the fire in the neighborhood living area of the residence, (9) is a safety net (hose with net or wire net rope with a cross or a spigot type, 401) type, with a number of high and low mountain peaks and a number of different buildings with different height. The hose 9 of the first embodiment is a technical feature.

According to such a configuration of the control block diagram and the multi-stage pump operation mode of the VFM model, the control power source 273 is separately divided into the pump power source 272 and the control power source 273 is connected to the sequence circuit (M / C) of the pump power supply 272 after being contacted with the output circuit tip of the (M / C) drive signal contact output circuit 279 of the DC power supply supply circuit 275, The microcontrol unit 276 is connected to the microcontrol unit 276 by the decipower supply circuit 275 of the control power supply 273 and the diep switch setting circuit 277 The switch input circuit 58 is input to the unit 276 and outputs a signal to the LED display circuit 278 and the M / C drive signal contact output circuit 279, The input circuit 280 is connected between the unit 276 and the pump power supply 272, MCCB + THR) and (MCCB) circuit contacts 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, the microcontroller 276, And a discharge pressure transmitter (transmitter) 284 is connected to the pressure sensing circuit 282 and the circuit 282 is again set to be input to the unit 276, and then a suction / discharge pressure switch 285 Is input to the microcontrol unit 276 via the external state input circuit 283 and then inputted to the input circuit 283 again.

The configuration of the multi-stage pump 8 is as follows.

Multistage Pump Specification

Details of the control method of such a three-stage multi-stage pump system are as follows.

· Pressure control method (Figure 1)

The operating range of the system is formed from the operating point (Pon) of all the pumps to the operating stop point (Poff1) of the maximum load operation pump and the operation stop point (Poff2) of the law firm. After the operation stop point of Poff2 of the pressure control type system is reached, it stops completely after the minimum operation between 180 seconds to 210 seconds (CO-CR) and 0 to 120 seconds (CO-ER). 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 bar.

· 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 Pon and the pressure of the individual maximum operation pump is the stop point Poff before stopping.

Therefore, the frequency modulation method can maintain the narrow width of ΔP and control the rotation speed of the main pump with the frequency modulator, so that the system compensates the sudden pressure change occurring when the operation standby pump is in operation or when the operation pump is stopped do.

When the pressure of the system is lowered to the vicinity of the operating point, the main pump is slowly 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.

The details of the main functions of the three-stage multi-stage pump will be described as follows.

As described above, in the multi-stage pump of the present invention, the main function is described in detail inside the body of the pump-like gap type pump fire extinguisher, which is a urinal part, which is an urinal part, so that anyone can easily pumped without being close to the fire scene or near the pump machine when a fire occurs. (At the time of going to bed), as a result of the structure of the present invention, the fire fighting helicopter of the fire-fighting vehicle according to the life structure and the prevention is made into the initial evolution within one second before the arrival of the fire scene. The following is a detailed explanation of the energy conversion among the contents of the US scientific series of energy and power of modern science in the late 1960s.

TVA's Paradise Power Plant Steam Turbine Generator in the vicinity of Paradise, Kentucky, has a capacity of 1,150 MW. When it first started operation in February 1970, it was the largest power plant in the world. The turbine, which is produced by General Electric Company, first enters the high-pressure turbine under the right-angled pipe on the left, and 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, each with 704 MW, are visible at the rear.

<Efficiency of household stoves, steam turbines, automobile engines and bulbs helps to determine energy demand. What is primarily needed is a kind of energy source that does not increase the earth's heat load.>

Modern industrial societies can be seen as a complex machine that emits the energy necessary to create numerous goods and services, while at the same time, the high quality energy is reduced to waste heat. Last year, the United States achieved a gross national product of just over $ 1,000 trillion using 69 × 10 ¹⁵ Btu, of which fossil fuels accounted for 95.9 percent of the energy, 3.8 percent of water falls, and 0.3 percent of the U ²³⁵ split Respectively. The consumption of 340 million Btu per person is equivalent to the energy contained in about 13 tons of coal, or 2,700 grams of gasoline if followed recently by the most frequently used method. It can be estimated that in 1900-70, the efficiency of the spent fuel for all purposes was improved by a factor of four. Without this efficiency improvement, the US economy in 1971 would already be consuming as much energy as it would have expected in 2025 or at that time.

GNP could be increased at an annual rate of 3.25% while fuel consumption increased only 2.7% per year in 1890-1960, as the efficiency of converting energy into useful heat, light, and work continued to improve. However, it seems that this favorable phenomenon is no longer persistent. Since 1967, the annual increase in fuel consumption has been faster than GNP growth, making fuel economy more difficult to improve and new products and services requiring more energy input and costs than in the past. Given the expected increase in fuel use for power generation, it is clear that a significant portion of the fuel to be consumed in the 1980s and 1990s will be transformed into a useful form with a lower efficiency than today's fossil fuels. This is because current nuclear power plants convert only about 30% of the fuel's energy into electricity, compared to about 40% efficiency of the most efficient fossil fuel power plants.

It is understandable that engineers try to improve the efficiency of converting the energy of a fuel into another more useful form. Improving efficiency in industry means reduction of production cost, lowering price for consumers, and reducing pollution of air and water quality to all people. Electric utilities have long known that it can stimulate consumption by lowering the price of energy for many users. The recent campaign by the utility, <1W Save>, represents a significant reversal of corporate philosophy. The difficulty of selecting a suitable new power plant site not only indicates the need for efficiency of consumption, but also the saving of consumption. In addition, we can not but emphasize that even with this much improvement in efficiency, we can expect only a slight effect in extending the life of fossil fuels and fuel supplies. I would like to elaborate on this point from the back of this article.

<Figure 8-1> The transformation path connects many familiar forms of energy. The four black markings are important energy sources of today, and potentially important energy sources for solar energy. The dashed lines represent unusual, accidental, or theoretically useful transformations. The white line represents the fate of intermediate form energy. Most of the energy is converted into mechanical energy, except for the thermal energy used for heating. Mechanical energy is used for direct traffic (see Figure 8-2) or used for power generation. And electrical energy is used for lighting, heating and mechanical work. As a secondary form, chemical energy can be found in batteries and chargers. Most of the radiant energy produced by the bulb is lost as heat.>

Figure 8-2 shows the path to the final destination for the three major energy sources. The most direct and most efficient conversion is from falling water to mechanical energy, which is then converted back to electrical energy. Energy trapped in fossil fuels and nuclear fuel is first released in the form of heat energy, then converted to mechanical energy, and then converted to electrical energy if desired. Losses in conversion and transmission include the use of various non-energy sources of fossil fuels, such as the use of fossil fuels for the production of lubricants or the conversion of coal to coke. However, the greatest loss is due to power generation with an average efficiency of 32.5%.

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. All the rest are lost to the chimney. On the other hand, a well designed home stove can capture 75% of the energy of the fuel and use it for heating. The average efficiency of fossil fuel conversion for heating is now 50-55%, which is three times higher than that of today. In 1900, more than half of all the fuel consumed in the United States was spent on heating, but today less than one third of it is spent on it.

Sadi Carnot, 1796-1832)는 1824년 증기터빈이나 다른 열기관의 이론적 최대효율을 계산하는 방법을 발표하였다. 가능한 최대효율은 (T ₁-T ₂)/T ₁로써 표현되는데 여기서 T ₁은 열기관으로 들어가는 작용액체의 절대온도이며, T ₂는 기관 밖으로 나오는 액체의 온도이다. 이들의 온도는 보통 켈빈 도수(degrees Kelvin)로 표현되는데, 이 온도는 섭씨온도에 절대냉도와 섭씨 0°와의 차이인 273을 더한 것이다. 현대의 증기터빈에서 T ₁은 전형적인 811°K(=573.7℃)이며 T ₂는 311°K(=37.8℃)이다. 따라서 (까르노)의 식에 의하면 이 열기관의 이론적 최고효율은 약 60％이다. 그러나 수증기의 순환 자체가 가진 성질로 인하여 항상 이러한 상한 온도로 유지할 수 없기 때문에 이론적 최고효율은 60％가 아니라 53％일 가능성이 더 크다. 현대의 증기터빈은 이 값의 약 89％, 즉 순 47％ 정도를 달성하고 있다.The most significant improvement in fuel conversion efficiency for this century was achieved by the power generation business. In 1900, less than 5% of the fuel's energy had been converted to electricity. Today, the average efficiency is around 33%. This increase was mainly due to the increase in the temperature of the steam entering the turbine that drives the generator and the construction of larger-scale power plants. In 1910, the typical incident water vapor temperature was 260 ° C, but today the facility uses steam heated at a high temperature of 574 ° C (Nicolas Carnot; Nicolas

Sadi Carnot, 1796-1832) published a method to calculate the theoretical maximum efficiency of a steam turbine or other heat engine in 1824. The maximum possible efficiency is expressed as ( T ₁ - T ₂ ) / T ₁ where T ₁ is the absolute temperature of the working liquid entering the heat engine and T ₂ is the temperature of the liquid exiting the engine. Their temperature is usually expressed in degrees Kelvin, which is the difference between absolute cold and 0 ° C, plus 273 degrees Celsius. In modern steam turbines, T ₁ is typically 811 ° K (= 573.7 ° C) and T ₂ is 311 ° K (= 37.8 ° C). Therefore, according to (Carnot) equation, the theoretical maximum efficiency of the heat pump is about 60%. However, due to the nature of the water vapor circulation itself, it is not always possible to maintain this upper limit temperature, so the theoretical maximum efficiency is more likely to be 53% than 60%. Modern steam turbines achieve about 89% of this value, or about 47%.

To determine the overall efficiency of a steam turbine plant, this value should be multiplied by the efficiency of the other energy converters in the chain from fuel to power. Modern boilers convert about 88% of the chemical energy of the fuel into heat. The generator can convert up to 99% of the mechanical energy produced by the steam turbine into electricity. Thus, this overall efficiency is 88 × 47 (efficiency of the turbine) × 99, ie about 41%.

(See also Lord Kelvin, William Thomson, 1824-1907)

[Figure 8-3] Energy converter efficiency is from less than 5% of normal incandescent lamps to 99% of large generators. The efficiency shown here is an alternative maximum value that can be reached with current technology. A figure of 47% of the kit with liquid fuel was calculated for the liquefied hydrogen engine used in the Salton lunar spacecraft. The efficiency of fluorescent lamps and incandescent lamps is not a theoretical value of 220 lumens per V of fully flat white light, but is assumed to be about 400 lumens per W for the maximum efficiency that white light that can be tolerated can reach.

Nuclear power plants are less efficient because their current reactors can not be as hot as boilers burning fossil fuels. The temperature produced by the water boiling reactor is around 350 ° C, which means that T ₁ is 623 ° K in the Karno equation. In a complete cycle from fuel to power, the efficiency of a nuclear power plant is reduced to about 30%. This means that about 70% of the energy of the fuel used by the nuclear power plant is waste heat, which is discharged to the surrounding atmosphere when using adjacent water bodies or cooling towers. In fossil fuel power plants, this waste of heat amounts to about 60% of the energy of the fuel.

However, the actual waste heat load on water or air is much higher than the figure of 60% or 70%. For power plants with the same kilowatt output, nuclear power plants generate about 50% more waste heat than fossil fuel power plants. The reason is that a nuclear power plant must burn about one-third more fuel than a fossil fuel plant to produce 1 kW / h of power, and many more B.t.u. And 70% of the input is wasted.

Of course, there is no thermodynamic rule that heat emitted by nuclear power plants or fossil fuel power plants must be wasted. The problem is to find useful things that can be done by this much amount of low energy. Many applications have been proposed, but all of them are facing economic constraints. For example, low pressure water vapor emitted from a steam turbine can be used for heating. In some communities, especially in New York City, New York (Consolidated Edison, Inc.) supplies a lot of water vapor. Many chemical plants and refineries use low-pressure steam from turbines as water vapor for the treatment process.

[Figure 8-4] Three of the fastest growing energy consumption appliances are electrical appliances, automobiles, and aircraft. These three now consume about 40% of all energy consumed in the United States. By 1940, they were much smaller than now, accounting for 18% of total energy consumption. Fuel demand for aircraft has more than tripled in ten years.

There was also a suggestion that heated water released from the power plant would help promote fish and shellfish growth in some areas. But nationwide, waste heat from current fossil fuel power plants or waste heat from dozens of new nuclear power plants in the near future seems to have no attractive use. The problem is to limit the harmful effects of this waste heat on the environment.

In the discussion above, it can be seen that the use of electric power for home heating (which is still actively recommended by some electric companies) is an inefficient use of chemical fuels. Domestic luxury oil stoves and gas stoves typically exhibit at least twice the efficiency of power plants. In some regions, however, despite the low efficiency at the annual price of electric heating, it is likely to compete with direct heating by fossil fuels. In such anomalous cases, various factors are involved. The higher the temperature, the lower the consumption. Electric heating is usually installed in a new building with good thermal insulation. In some areas, finding natural gas is a bit difficult and expensive. The supply of oil is not always reliable. As chemical fuels become more prevalent, their value will be higher and nuclear power generation will increase. Unfortunately, despite the inefficient use of fuel, we can not help but expect that more of our fuel resources, especially nuclear fuel, will be used for power heating.

[Figure 8-5] The efficiency of fossil fuel power plants in the United States has improved nearly 10 times from 3.6% in 1900 to 32.5% in 1970. This improvement was made possible by increasing the operating temperature of the steam turbine and increasing the size of the power plant.

The most widespread of all prime movers is the piston engine. Many American household garages have two piston engines, even if they do not include power mowers, snow throwers, chain saws, and the like. The output of piston engines in more than 100 million cars in the United States is estimated to be more than 17 billion horsepower, or more than 95% of all prime movers (defined as engines that convert fuel into mechanical energy). Although this massive output is not used most of the time, it accounts for more than 16% of the fossil fuel consumed in the United States. All forms of transportation - consuming a million tons of coal from ships, accounting for 16% of the total energy demand in the country. According to estimates by the energy consultant John Hume, the railroad delivered 54% more traffic (measured as an index of transport performance) as 1/6 of B.t.u. than in 1920. This increase in efficiency has reduced the share of the nation's total energy budget from 16% to about 1%, with the role of the railway in the national economy declining. But the curves for total energy consumption in 1920-67 show little or no impact of this tremendous change.

<Figure 8 - 8> The efficiency of the lamp depends on the quality of the light which each thinks is good. For perfectly flat white light, the theoretical efficiency is 220 lumens per Watt. You can get up to about 400 lumens per W by slightly boosting the light in the middle of the spectrum. Current fluorescent lamps can be 36% efficiency or 20% efficiency.>

An important use for the least efficient use of power is probably to supply light. (General Electric Company) estimates that lighting consumes about 24% of total electricity generation, or 6% of total national energy budget. It is well known that filaments of ordinary 100W incandescent lamps produce much more heat than light. Actually, it appears as infrared rays of 95% or more of power input, and only 5% or less is emitted as visible light. Nevertheless, this is more than five times the light emitted by a 100W bulb in 1900. Modern fluorescent lamps convert about 20% of the power consumption to light.

[Figure 8 - 9] Power generators currently in use utilize energy from falling water, fossil fuels or nuclear fuel. A hydro turbine generator (1) converts the potential kinetic energy into electricity. In a fossil fuel steam turbine generator (2), the boiler produces water vapor, which circulates the turbine, which turns the generator. At the nuclear power plant (3), a split of U ²³⁵ releases energy and creates water vapor, which is then passed through the circuit as in a fossil fuel power plant. In the currently undergoing nuclear proliferation furnace (4), surplus neutrons are captured by a coating of U ²³⁸ or Th ²³² atoms that can not divide and converted to Pu ²³⁹ or U ²³⁸ , which these atoms can divide. The heat of this reactor is carried by liquid sodium.>

This value is not a complete white light, but is based on a practical upper limit of 400 lumens per watt, assuming acceptable white light. The maximum theoretical output is reduced to 220 lumens per watt if the spectrum is limited to fully flat white light. Theoretically, you can reach 680 lumens per watt if you can be satisfied with the light of the shortest wavelength (550 nm), which is most sensitive to human eyes.

General Electric currently owns about 70 percent of the nation's total lighting, while the remaining incandescent light bulbs and high-end electric propulsion systems, locomotives and aircraft - consume about 25 percent of the nation's energy budget.

[Figure 8-6] The efficiency of a locomotive can be expressed as the amount of energy required to represent the unit <transport performance> in the US railway. The dramatic improvement in the 1950s reflects the fact that steam locomotives were almost completely replaced by diesel locomotives.

Automotive engineers estimate that the average efficiency of automotive engines has improved by roughly 10% over the past 50 years, from 22% to 25%. But the distance that you can run with 1gal of fuel is actually smaller. From 1920 until World War II, passenger cars typically traveled about 21.6 kilometers per gram of fuel. Over the last 25 years this average has been gradually shortened to about 20.5 km per gallon. This decline is due to the fact that the car is heavier, has a much faster engine speed, and has a powerful engine. It takes about eight times more energy to run a vehicle at 96 kilometers per hour than at 48 kilometers per hour. An amount of energy equal to the energy needed to accelerate the car's weight to 96 km / h should be absorbed by the brakes, mainly as heat, when the vehicle is stopped. Thus, much of the engine efficiency improvement is lost due to the way humans use the machine. Air conditioning of passenger cars also caused a decrease in the number of kilometers per gallon. This number of kilometers will soon improve as consumers change their preference for compact cars. However, the efficiency of the basic piston engine can no longer be greatly improved.

[Figure 8-7] The efficiency of an automobile engine is not perfect due to its weight and speed increase, but it is reflected in the number of miles per gram of fuel. Car makers say that the engine's thermal efficiency in the 1920s was about 22 percent. Today this is about 25%.

Even if all the cars in 2000 were powered by a charger charged with power from a central powerhouse, there would be no change in the overall fuel demand in the United States. The initial conversion efficiency at the power plant would be 35% compared to 25% of the piston engine, but it would be lost to convert the power into electrical energy (within the charger) and convert it back to power to drive the wheels Because. Current chargers have little room to improve their overall efficiency from 70% to 75%. Anyone who believes that all passenger cars are beneficial to power operation by everyone should consider the problem of increasing national power generation by about 75% as a necessary measure to run 100 million vehicles.

It is difficult to trace the savings made by the difference in efficiency of energy conversion, even if the difference is large, after the rail has been converted from a steam locomotive (10% maximum thermal efficiency) to a diesel locomotive (35% thermal efficiency) I can see that this happened. In 1920, the railroad is estimated to be about 135 million yuan. The efficiency of such a challenge is comparable to that of fluorescent lamps, and sometimes it is more efficient. This distribution means that the average efficiency of converting power to light is about 13%. To calculate the overall efficiency of converting chemical (or nuclear) energy into visible light, this percentage should be multiplied by the average efficiency of the power generation (33%), so the net conversion efficiency is typically 4%. Nevertheless, due to the increase in use of fluorescent lamps and famous lamps, the consumption of lighting in the country during the 1960s and 1970s was only doubled, and the consumption of lighting could triple.

[Fig. 8 - 10] The propulsion machine converts the energy of the liquid fuel into mechanical energy or kinetic energy, which is used for work and traffic. In the piston engine 5, the compressed fuel and air are exploded by electric ignition. The inflated gas pushes the piston, which is transmitted to the crankshaft. In the diesel engine 6, compression alone is sufficient to ignite the mixture of fuel and air. In the airplane gas turbine (7), the hot gases from the combustion chamber continue to expand and rotate the multi-stage air compressor as it flows through the turbine. The hot gases from the turbine provide kinetic energy for propulsion. The liquid fuel rou- tine 8 has an oxidant in addition to the fuel and does not depend on the air supply. Locate exhaust provides kinetic energy>

<Figure 8-11> New energy converters are being designed to use various energy sources. The fuel cell 9 converts the energy of the hydrogen or liquid fuel directly into electricity. This combustion of the fuel takes place in the porous electrode. In the recently proposed solar power plant 10, the sunlight reaches the specially coated light receiving plate, raising the temperature of the liquid metal to 500 캜. The heat thus collected is transferred to water vapor by a heat exchanger, which rotates the turbine generator as in a conventional power plant. It stores enough heat in the salt heat reservoir so that it can continue to generate water vapor even when the sun is covered by night or clouds. The NHD <turbine> (11) converts the energy of the hot, electrically conductive gas into direct power. In order to improve the electrical conduction of this hot gas, a small amount of <seed> substance such as potassium carbonate should be injected into the flame. Electricity is generated when the charged particles of this gas pass through a magnetic field by external magnetic force. The long-term goal is a thermonuclear reactor (12) where the atom of a light element fuses into a heavy element and releases energy. It is possible to capture high-speed charged particles produced by thermal nuclear reactions to produce power directly.

By simply looking at changes in ideal energy conversion efficiency, you will have some insight into the expected effects of a new energy conversion system under development. Two devices that have received much attention are fuel cells and MHD (magnetohydrodynamic) generators. Fuel cells convert chemical energy directly into electricity and the latter has the potential to be used as a high-temperature topping device that works with steam turbines and generators in power generation. A fuel cell has been developed which can <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> combustion < The output of the hydrogen-oxygen fuel cell produced by the Pratt & Whitney division of United Aircraft, used in the Apollo space program, was 20.5 V DC, 2.3 kW.

MHD generators have been developed as energy converters for the future for 10 years. In this machine, the fuel is burned at a high temperature, and a fuel such as potassium carbonate is sprayed to make the combustion products of the gas have electrical conductivity. This electrically conductive gas passes through the magnetic field at high speed and causes a flow of DC in the process (see Figure 8-11). If this MHD engineering can be developed, it will be possible to design a fossil fuel power plant with an efficiency of 45-50%. Because MHD requires very high temperatures, it is not suitable for reactors that form working liquids that are much lower in temperature than the working liquid temperature that can be obtained with a combustion chamber using fossil fuels.

If an energy source is developed at the right time, it is nuclear. There are currently 22 nuclear power plants operating in the United States. In addition, there are 55 nuclear power plants under construction and more than 40 orders have been placed. This year, the United States will produce 1.4% of its total power by nuclear fission, which will reach 25% in 1980 and 50% in 2000.

[Figure 8-12] The diagonal curve (left) bends exponentially over time. This curve shows how many times a doubling interval is needed to achieve a certain amount of increase. That is, if power demand continues to be doubled every 10 years, the demand for electric power will increase 8 times after three triple times, in 2001. An exponential growth curve is plotted on the opposite scale (right). If we reduce power consumption by half in the period A and then keep it for 10 years and return to the previous growth rate, the time required to reach the constant size demand B is twice the doubling period, It will not extend outside.

A nuclear power plant with an output of 1,000 MW is 10% more expensive than a fossil fuel plant ($ 280 million versus $ 250 million), but nuclear fuel is already cheaper than fossil fuel. According to some estimates, the value of coal is likely to double from now to 1980. One reason is that the new tonnages of coal produced per capita per day have been reduced to less than 15 tons from 20 tons already reached in 1969 due to federal safety regulations.

The electrical industry is characterized by its basic load, intermediate load (which is roughly equivalent to the sum of all the work done by people at home and work from 7 am to midnight), and peak load (seasonal load only a few percent of total demand) Is a new era in which we must rethink the way we should pay for it. In the past, the electrical industry used the newest and most efficient facilities to cover basic loads, and older and smaller facilities were used to cover the daily needs of the day. 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.

Therefore, there is a need to build a new type of flexible power generation facility that links industrial gas turbines to generators that produce low-pressure steam that is required for the combination of steam turbines and power plants using waste heat from gas turbines. (General Electric and Westinghouse Electric Company) are currently recommending this type of combination. Gas turbine facilities can reach maximum loads in less than an hour, although they are slightly less efficient than the most efficient conventional large facilities, and can be constructed at a lower cost per kWh. To meet the short-term peak demand, the electrical industry is increasingly turning to gas turbines (gas turbines can be fully operational in minutes if there is no waste heat boiler) and pumped hydro power generation systems. In the latter case, the electricity produced when not in peak demand can raise water to a reservoir at a higher location and release it when needed to produce electricity.

(Westinghouse Inc.) recently estimated that in 1970-90 the US power industry would have to build a new facility three times more than the current facility output of 1,000 GW (10 ⁹ W), or about 300 GW. Of this new facility output, 500 GW, or half, will be used to cover the expected increase in base load, and 75% of this 500 GW will be due to nuclear power. More than 400 GW will be used to cover the ever-increasing intermediate load, and a significant portion of that will be supplied by the gas turbine. The new maximum demand of around 170 GW is believed to be supplied by the gas turbine and the pumped storage system at a 10: 7 ratio (Westinghouse Inc.).

[Figure 8-13] The exhaustion of a resource can be read in the curve on the left. That is, if 0.1% of the world's oil resources are currently used, if the doubling period is 10 years, all of the oil resources will be exhausted within 10 doubles, ie, less than 100 years. According to the table on the right side, although there is a big difference in the estimated amount of resources used so far, the ultimate exhaustion period does not change much.

This expectation can be thought of as wisdom. If so, what can innovative wisdom offer in the 1990s, or what might be the new effects that will affect power generation in 2000? First and foremost, there are optimists who believe that a prototype nuclear fusion plant will be built in the 1980s and a full scale will be built in the 1990s. In a sense, however, this is merely a view of the conventional wisdom as an accelerated time unit. Those who really want to try innovative approaches ask why we do not start to develop the technology to get energy from the sun, wind or tide.

Many are still recalling the 1930s (Passamquoddy) plan, which is being discussed again, and the new plan is the Bay of Fundy between Maine and Canadier, (Less than 1/3 of the turbine generator output) using an average of 5.4 m of tidal power. A 240MW tidal power plant, currently in operation, was recently launched by the French government on the estuary of the Languedoc River, with an average of 8 meters in tidal range. How many tidal energies would you get if you developed both of the appropriate bays and estuaries in the United States? All estimates should be accompanied by sufficient evidence, but by relatively modest estimates it is thought to be around 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.

The energy that the square feet of the American land receives from the sun will be the same amount of power output in the next 100 years, when power demand is doubled every decade.

[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.

What about the wind? A study by authors a few years ago (Occluder State University) found that wind in Orcler Homeric region is about 18.5 W per square foot of ground when it is in a direction perpendicular to the wind. This is roughly equivalent to the amount of solar energy per square foot of Ohl K. Homer's average of 24 hours a day under all weather conditions, all seasons. Turbines rotated by propellers can convert wind power into electric power with an efficiency of 60 to 80%. Like tidal energy and other forms of hydroelectricity, wind power has the 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 power plant with a constant output, you must acquire and save that energy when the wind is blowing. Unfortunately, no technology has been developed to produce practical energy storage media. The charger is not a problem either.

One of the promising plans is to decompose water into hydrogen and oxygen using the variable electrical output produced by the wind turbine. These gases are stored under high pressure and recombined at a constant rate in the fuel cell to produce power (see Figure 8-16). Instead, this hydrogen can be burned in a gas turbine to rotate conventional generators. (Rocketdyne Division, North American Rockwell, Northamerica Rockwell), a hydrogen-fueled rocket engine made by the company for the Saturn Moon spacecraft, Which can be used to generate the required hot gas ejection required to power the turbine. In the Rakiddainbu, water-cooled gas turbines can operate at higher temperatures than conventional fuel-burning gas turbines and predict that the overall efficiency of the plant can reach 55%. If the Rakidyne method is successful, you can use any source of hydrogen. Wind-driven hydrogen kits Gas turbine power plants will be innovative enough to please even the most exotic people.

<Figure 8-16> Winds as energy sources are attractive because they do not add extra heat to the environment, as is the case for fossil fuels or energy from nuclear fuel. Like capturing solar energy, wind is available anywhere, other than hydropower or tidal energy. Unfortunately, however, the wind is also too much change. To use this effectively, the energy captured when the wind is blowing must be stored and released somewhat continuously. One way is to break down water by electrolysis using the power produced by the wind. Then, the stored hydrogen and oxygen can be supplied to the electrolysis tank at a constant rate to produce DC. This direct current is converted into alternating current and supplied to the electric wire. The electricity produced outside the peak demand period elsewhere can be used for electrolysis by supplying it to the electrolysis tank whenever there is no wind.

On the other hand, most of the proposals using solar energy seem really monotonous. Recently, Arizona University has made considerable direct proposals to the Arizona Power Authority, the Elden Mayen and Marjorie Mayen of the Optical Science Center. They suggested that if they efficiently collected sunlight reaching 14% of the western desert region of the United States, it would translate it to 1,000 GW, that is, energy equivalent to an increase in energy demand, typically between 1990 and 1990. They believe that within the current technology range, they can design a mass storage system that stores solar energy as heat at 574 ° C, which can translate into a total efficiency of 30%.

The key to this plan is in recently developed surface coatings, which are highly absorbent to sunlight and emit little of the infrared portion of the spectrum. The heat collected during the day to resume energy release for 24 hours a day resists the molten salt at 574 ° C. The heat exchanger transfers this stored energy to steam at the same temperature. A thermal storage tank for a 1000 MW power plant will have a capacity of about 300,000 gal. (May 25th) suggests that the electricity industry and the government should immediately design and construct a demonstration plant with 100MW output near Arizona Humor (Yuma). The width of the light plate required for this level of power plant will be 3.6 million square meters (slightly larger than 1 square mile). After the necessary developments are made, it is estimated that it will be possible to build a solar power plant with an output of about $ 1.1 billion, which is about four times the cost of the current nuclear power plant and a power output of 1,000 MW. As they pointed out, "The solar power has an economic problem of purchasing by facility funds, not by operating expenses." Nonetheless, 40-year-old solar power plants cost an average of 1/2 cent per kW / h They are estimating that they can produce power.

[Fig. 8 - 17] Peter Glazer of Arthur D. Little proposed a solar collector on a rectified orbit. The space station, which is 29,000km above the equator, is fixed relative to the ground station. An 8 × 8 km light receiving plate will accept about 8.5 × 10 ⁷ kW of solar radiation. A solar cell with an efficiency of about 18% 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 a coal-fired power plant with the same output, or about 20 times as wide as required for a nuclear power plant.

A more exotic plan for exploiting solar power has been developed by Peter E. Glaser of Arthur D. Little, Inc. His idea is to put a lightweight solar panel on a synchronous orbit about 3,500 km from the Earth and keep it on for 24 hours a day. Solar cells (under development) collect radiant energy and convert it to power at 15-20% efficiency. This power is converted electronically into 85% of the microwave energy in orbit, which is still possible today. This microwave will be chosen as the wavelength that can pass through the cloud with little or no loss and will be collected by a suitable antenna on the ground. With current technology, microwave energy can be converted to power with an efficiency of about 70%, and it can reach 80 ~ 85% efficiency. (Glazer) estimates that a 10,000 MW (= 10 GW) output power plant in New York City would require an 8 km2 light receiving plate. The receiving antenna on the ground is slightly larger than 9.6km2. The microwave energy of this beam will be no harm because it is comparable to the intensity of sunlight. Glazer believes that this system will cost about $ 500 per kilowatt, or about twice the price of a nuclear power plant, assuming that round-trip space travel is possible for the construction of these satellites. The entire space station is 2,265 t, which is slightly lighter than the kit at launch time.

To meet the expected total electricity demand of 2,500 GW in 2000, 250 space stations of this size would be needed.

The great advantage of energy plans based on solar energy collected from the wind or the Earth's surface is that it may sound like an overpower today, but it does not add heat to the earth's ecosystems. They say it is an invariant energy 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 sun's light-receiving plate is in line with the sun and the center of the earth does not heat up the earth's heat. On the other hand, the receiving plates in outer space will emit much less waste heat to the environment than fossil fuel or nuclear power plants. All but 20% of the total energy of the microwave to the Earth is converted to useful power. Of course, when this power is consumed, it is released into heat.

Recognizing the macroscopic importance of invariant energy system development, one has to be aware of what a certain amount of exponential growth means. The doubling process is an awesome phenomenon. The amount of increase during any one doubling period - whether it is energy consumption, population, or land area occupied by freeways - is the same amount of increase over its past past. For example, the next boats will contain as much fossil fuel as all the fossil fuels that have been mined on the Earth so far. Over the next decade, the United States will produce the same amount of power that has been produced since the beginning of the era of electricity.

The curve of this exponential increase is usually indicated on the opposite scale to indicate the whole. By specifying an appropriate value for both axes of the opposite scale, we can obtain a curve representing the number of boats required to reach saturation, or depletion, from the position of any known or imaginary percentage (see Figure 8-13, left figure) ) As an example, let's assume that 0.1% of the total fossil-fuel reserves in the Earth have been mined so far, and that this amount has been doubled every 10 years. If this speed continues, you will be able to digest all of this fuel within a doubling period of ten times, in less than a hundred years. Of course, we do not know for sure how much of the total fossil fuel reserves have been mined so far. Let's assume that it is relatively small and 0.01% is mined, not 0.1% so far. According to this curve, in this case, all of them will be mined 100% within a period of 13.3 times, 133 years. In other words, even if there is a difference of 10, 1,000 or 100,000 times the amount of fuel mined to this moment, the timing of complete exhaustion does not differ much. Thus, even if only 1% (1%) of the total fossil fuel reserves of the Earth have been mined, even if the amount is doubled every 10 years, the total reserves will be exhausted in 266 years (Figure 8-13 See figure at right). It should be pointed out that the actual amount of mining depends on the type of fossil fuel, and that the 10-year period is only an example.

The key factor in estimating how many times the United States will tolerate a doubling of electricity demand every two decades (which is the actual rate of increase) is probably due to the fact that fuel supply - If so, it is almost infinite - not heat, but the effect of the environment on the conversion of fuel to electricity and ultimately to power. For the sake of discussion, let's consider only the heat content of the power actually consumed, ignoring the burden of waste heat from fossil fuel or nuclear power plants. By 2000, most of the power would be produced in a huge power plant for miles away from the coast, and it would be possible to imagine a game that would be able to release waste heat to the surrounding sea without damaging it (at least for some period of time).

In 1970, the United States consumed 1.55 billion kWh / h. If this were transformed into heat (and indeed it was) and evenly distributed throughout the land of the United States (which was not really the case), the energy released was 0.017 W per square foot. At the present rate of doubling, power consumption is increased ten times every 33 years. After the next 99 years, or ten times the number of doubles, the amount of heat released will be slightly less than 17 watts per square foot, or 18 to 19 watts per square foot, the average of the energy the United States receives from the sun, 24 hours a day. Before doing so, you will need to change your current energy consumption pattern or develop the necessary technologies for an invariant energy system.

Let's examine what would happen if we changed the increasing pattern of energy in a way that seemed to be quite pronounced. Consider an incremental curve with an extension of 20% for each doubling period (see Figure 8-14). In the exponential growth curve, the energy consumption is increased by a factor of 10 by a factor of 3.32 times, or 33 years. The same increase in the curve of the increase rate is 10 times, which takes five times, that is, 50 years. In other words, it is only 17 years. The extension of consumption to 100 times is only 79 years (ie the difference between 145 and 66 years).

Another way is to significantly reduce current consumption levels and keep them at a low level for a certain period of time so that they do not increase and then return to the current rate of increase. If you reduce power consumption by half immediately, keep it for 10 years, and then regain the same growth rate as before, the time it takes for a 100-fold increase in consumption is only 20 years, extending from 66 to 86 years (See Figure 8-12, right).

In order to expect a long-term effect, the amount of increase needs to be the same curve, that is, a curve that increases by the same amount every original doubling period. On these curves, it would take nearly 1,000 years, not 100 years, to be predicted as a doubling every ten years for power output to reach the same level as the radiation received from the sun. As long as the invariable energy system does not supply much of the electricity demand, it is almost certain that the current rate of doubling can not continue for another 100 years, but how this system will look is still a problem hidden in the future.

As described above, the present invention provides a method and means for installing the turbotoxic body including the omnidirectional omnidirectional vessel in the marine environment so as to satisfy the electric power demand with the invariable energy system, thereby providing an environment- The best efforts to do so must be made for the present generation to join in for their descendants

The present invention is based on the idea that even when the sea floor depth of the ocean is 10 meters, the raft or the marine vessel which is sunked by the typhoon and the waved wave, and the deep sea area where the sea floor depth is about 10 km, In the bottom layer, the marine power plant body, which is formed by grafting a dam hydro turbine generators to combine the power generation facilities of seawater auxiliaries or submerged submarine water depth gauges or turbine generators of other power plants of thermal power generators, An outer support tank provided along the outer circumferential surface of the inner support tank in an inner support tank for supporting the strut tank and a holding tank in the central portion, and a method for adjusting the water pressure inside the tank and the air pressure in the tank, And the upper deck of the barge body at the top of the holding tank Marine disaster prevention system installed in the global marine environment disaster prevention industry, which is part of the global non-disaster marine environment disaster prevention control system and marine development equipments, which are integrated into the marine power plant, are installed in the marine power plant body. In order to construct a disassembled offshore iron structure as a safe manufacturing method, the level foundation work for the bridge pier which is different from the deep sea wave is also installed on the bottom of the sea floor by a large number of construction machines.

More specifically, according to the present invention, the barge main body 591 at the upper end of the holding tank of the power plant body 1 and the barge main body 529 at the lower end of the holding tank are separated and joined, A large-sized marine power station floating dishwasher 594 and a large marine power station floating dishwasher 595 are attached to the reading 593 by a steel plate 597 of high tension which withstands the water pressure by the barge main body, the holding tank 590 of the double- And a block pipe 598. The inner block tank 596 has a pyramidal shape for supporting the holding tank 590, An outer block tank 599 installed at the outer wall of the inner block tank 596 and a T Lon'g steel bar 599 welded to the outer wall of the tank 596 and the outer block tank 599, 600) and an O-ring steel bar (601) And a scaffolding hole 602 for eliminating welding defects of the double pipe structure block is provided, a steel tower (not shown) used for separating the double pipe structure block pipe from the top of the floating deck deck 116 A bolt 603 thread, a nut 604 and a shaft 198 for fixing the lug shaft 198 to be fixed to the lug shaft 198 as an internal mounting part of the shaft 198 A pad 616 for a potter block and a pad 616 for a potter block and a flange connection unit for a block piping 598 unit or block tank unit by a hydraulic cylinder key pad 623 and a marine safety tool pad band guide 621 (Including non-disaster bridge bridges) and the control system of disaster prevention for the global disaster-free marine environment after the installation, and an ocean control system including an artificial disaster (including anti-war measures and territorial dispute settlement methods) (Sea, underwater, underwater) development Fengyuan power plant is equipped with all kinds of equipment for energy and power, and 1,000,000 Kw / h power generation capacity is produced in one ocean power plant at 92,500 locations.

A holding tank 590 provided at an upper portion of the center of the barge ship which is submerged in the bottom of the seabed bottom of the lower sea level SLD of the ocean; A bellows butterfly valve 622, a doctor ventilation 585, and a hydraulic cylinder door 684 serving as a regulating function for allowing the hull to submarine or sea level rise to a certain distance within the bottom of the lower underfloor flood- ), A stopper plate 625 for a foreign substance blocking filter, an air piping line 181, and an emergency engine 226 are integrally provided in the hull bottom, A pump 8; A multistage pump control system 150 of the high pressure type around the air tacking winch 137 of the mooring unit, an ingot basket 842 for collecting the manganese necrotic material 909, a submarine mineral resource An underground line disaster prevention nozzle for letting out a checker lamp 232 for a search device, a suction and re-extraction machine 911 of a limestone transportation system, a submarine mineral collection robot 912, a control material natural loam 158, Submarine Cleaning Nozzle Mechanism Energy is supplied to the compressor and the motor of the motor, both of which operate the control nozzle.

The above-mentioned energy is supplied to each corner portion of the outside of the hull bottom, and a plurality of anchors and anchor bolts 133 for replacing anchors are provided. The anchor bolts 133 are fixed to the bottom floor of the sea floor A mooring device; A hydraulically-adjustable safety control unit hatch cover 153 at a predetermined distance from the lower end of the hull bottom, a skeleton bed 616 for adjusting the level of a tank frame under- An excavator 845 for a central position holding tank at the upper end of the hull deck, where a plurality of hull anchoring bollards 638 are provided at a predetermined distance from the upper end of the hull deck (SDU) at the upper end of the hull bottom; A piping line for a connection carver for protecting the pipe rack 694 and a pipe line for destroying or preventing the generation of noxious gas after excavation in the underwater floor excavation, A plurality of electronically controlled valves of a safety control device in the tank, a fishing net 910 for securing water resources to the outer wall of the holding tank at a central position holding tank integrally provided with natural gas and crude oil drilling equipment, And a cathode ray tube 184 formed outside; remind

On the other hand, coal-fired power plants are constructed on coastal areas or coasts where there is usually a large demand for electric power, and due to the exhaust gas emitted from the stack, the order of the ecosystem is broken, and dusts such as soot, The natural disaster has reached a serious level due to the global warming phenomenon due to the increase of the discharge, etc. The countermeasure against this is that the inventor of the present invention installs a seesaw-type wind turbine hydropower generator of the nuclear- , Which is a means of solving human anxieties with endless production of environmentally friendly energy.

Therefore, according to the present invention, the invention patent No. 0546221 is registered in the registered multifunctional terraced manhole in a three-step tiered manner to prevent the road traffic flow caused by the passage of the vehicle and the risk of losing the worker's life, It is the same as the ground surface at the moment when it goes away from the installation position. It is another equipments to the lower end of the manhole cover after the level is uniformly set. The entrance hole of the manhole of the patent 10-0650936 is the manhole of the manhole. In order to solve this problem, the paraffin liquid was injected into the key inserting port for 3 minutes, and then the paraffin liquid was injected for 3 minutes from the paraffin liquid for 3 minutes Afterwards, the paraffin becomes solid and the key insert will not rust In addition, since it is a device that can not insert the key in the solid state, the key expert is not allowed to approach the inside of the manhole without knowing the principle,

At this time, it is not possible to identify the location where the ignition gas is fired, and the evacuation personnel can not evolve. In this case, The development of the initial evolutions by injecting carbon dioxide and halon gas into the underground lines along with the fire and flushing water to the front and back of the manhole gas exposure site to the underground with the expansion nozzle and the multi- Application No. 10-2009-0088090 filed in Korea due to precisely injecting disaster prevention material into the installation position of the pipe nozzle by a regulated manhole mold and manhole cover fluid space gap is a device for the firefighting of the pipe nozzle moving type fire pump sensor, Sensor and the low temperature detection efficiency match the detection speed of candle light When the right as quickly detected with reference to the 342 pages of the application no disclosure in significant differences from those of the former is to be helpful in understanding the techniques of the present invention expressed.

In addition, it is a device to block the disaster from the disaster place clearly so as not to be affected by the earthquake tsunami due to the flood drought and the drought of the yellow dust and the typhoon in the harmful red tide, the large wildfire in the inside, This is the distance crossing the South Pole and the North Pole at the latitude of this equatorial line. It should be formed as a tube nozzle body with 20 times of the above dimensions. This will eliminate the natural disasters of the world and ensure the happiness of peaceful world without war and terror. The above-mentioned tube nozzle hole is provided with the function of being able to be developed and completely closed in a pore-variable type.

Such prior art level means that the word 'control activity' is a level that is removed or excluded altogether. It removes disaster damage that blows like snowballs. It is a feature that is provided as a disaster prevention system with a remarkable difference from the conventional technology level. In order to achieve the purpose of the invention, the existing construction equipment and the middle construction machine, which is a middle construction machine, are formed in the present invention, and the economic recession of the world and the political, economic, cultural, scientific and environmental The Future-Oriented Nuclear Hydroelectric Power Plant Including Future Blueprint of the Field Including the production and installation of the flood control system, which is built inside the body, residents of Seoul area can drink water from Mt. Sorak or Jirisan if they use only tap water. If you live in the area, In order to allow the drinking of Jirisan water, and even before the day when peaceful reunification takes place, Pyongyang residents should drink water from Mt. Seorak or Mt. Jiri and South Koreans should drink water from Mt. Paektu and Myohyang Mountain. It is urgently necessary to create conditions that can improve the quality of life while giving recognition to each other so that drinking water can be supplied by receiving tap water from the place where it is being used.

In addition, the damage of typhoon is human, material, and astronomical values, and it has a great influence on the national economy. Therefore, it is necessary to exercise the national cooperative spirit promptly according to weather forecast of Meteorological Agency. When the Meteorological Agency's weather forecast is announced so that the damage is not caused by damage, the fruit of the orchard is harvested and stored in a frozen warehouse before the typhoon comes in with a national volunteer service. Therefore, measures to cope with such floods are urgently needed.

In addition, while controlling the flood flow in mountainous areas in mountainous areas in the inland mountainous regions of the globe, a number of mountainous mountains set up nationwide according to the installation location of rivers and coastal seaside areas are successively extended and rugged mountain ranges and ridges And is not restricted by natural disasters such as typhoons, forest fires, wildfires, floods, and droughts, which are caused by sanshin, which is a natural phenomenon, The main damper 264 of the pump aberration 264 is connected to several disaster prevention waterways and dams by the generational line of the flood control device capable of performing electric power generation, and it is formed into the spray nozzle, the non-dynamic pump and the cable car son, , And it is a solid disaster prevention water to heavy rain of 3000m / m of precipitation The dam is able to withstand river embankments, floods and floods that can not flow over the valleys into small rivers and streams. A large number of divergent faults are controlled by mountainous terrain. And the flood turbulence and vortexes are relieved by the flood control system quickly and efficiently, so that the river bank at the lower part of the mountain wall wall is not collapsed. At the same time, the roads and bridges are not lost and the dams with the same level as the circular water tank form landslides And prevent water infiltration damage caused by farmland, neighborhood area, livestock complex, and industrial complex in low-lying areas equivalent to river water, and maintain first grade water quality by preventing wastewater, livestock wastewater and industrial wastewater from flowing into rivers. In dams or storage tanks that can be used for about three years. To form a pipe line to continuously supply the domestic water, and agriculture and hydropower water and industrial water, prevention and inexpensive water of good quality first-class quality to allow abundance to supply water for emergency water to drinking water.

In addition, according to the weather forecast of the Korea Meteorological Administration, a mixture of loess mixture equivalent to the paint level is mixed so as to overcome the natural disasters of large-scale forest fires, sandstorms, The existing multifunctional dams and newly installed multi-purpose dams are equipped with a large number of collecting tanks and double pipe structure block tanks corresponding to seasonal changes in temperature, and a heating and heating device is installed to further prevent water from being frozen in the cage farm, , A separate storage tank serving as a cage farm for combined use of breakwaters is installed in the vicinity of the shore, and a mixture of loess prior to the occurrence of drought and river currents is sprayed, and the prevention activities before and after the harmful tide of the ocean are carried out. The pipeline is formed so as to maximize disaster prevention by continuously spraying.

In addition, by using the hydroelectric power plant which converts the potential energy of the water stored in the facility into kinetic energy by various dam water according to the mountainous mountainous region of the mountain range, it is possible to increase the production of cheap energy with low cost, , It is possible to solve environmental pollution problem by replacing water pollution problem with coal fuel and replacing it with existing dam river gates. By re-installation, marine organisms can move to rivers and improve stability of ecosystem by restoring natural ecosystem order and balance by improving the level of geological level of river bottom so that fishes and shellfish can scatter freely in rivers of valleys. Continuously develop the recording business along with the pipeline .

The use of the above water pressure difference to utilize the potential energy of the water to overcome the flood and drought efficiently in accordance with the weather forecast of the Korea Meteorological Administration. NUCLEAR RADIOSIS LEAKAGE CONTROL OF NUCLEAR FACILITIES A dual distributor block tank comprising:

A circular water tank or circular concrete dam 680 located at the top of the mountain; A water tank or concrete dam 680 including natural water or water control and disaster prevention water provided in the water tank or concrete dam 680; A plurality of valves connected to the water tank 292 and the concrete dam 680 and piping lines connected to the plurality of piping 14 or the fire hose 9; A fire nozzle located in the pipe (14) or a part of the fire hose (9); And the fire pump and the concrete dam 680 are formed into piping lines including the water gate 293 and the water channel 294;

There are several concrete dams (680) located in the 8th ridge valley below the mountain top, and hydrological gates (293) and waterways (294) are located in the 5th ridge and the 3rd ridge valley. So that the balance of the ecosystem can be restored so that the wastewater for agricultural use can be prevented from flowing into the wastewater for domestic use and the wastewater for industrial use and the fish and shellfish can be scattered, The tunnels 672 are located and connect to the area where the seawater is in contact with the river mouth to form the tunnels.

The truce line of Baekdudaegan according to the mountainous area of 65% of the country. Starting from the concrete dam (680) located at the top of Mt. Sorak in the Taebaek Mountains in South Korea, each dam is distributed to the north and south along the ridge of the mountain range. A plurality of disaster prevention waterways (17) piping lines arranged in a line; On the tip of the Nakdong vein ridge on the Taebaek mountain in Baekdudaegan and on the tip of the Kimbuk vein ridge on the northwestern Han Nam Kimbuk vein and Hannam vein on the northwest side of Mt. Taebaek mountain, A natural water or heavy rainfall rain water and a mixture of yellow soil are stored in the control water storage tank or the control dam of the south coast beach. When the harmful tidal bloom warning notice is issued by the meteorological office, the valve 409 ) In order to prevent the occurrence of harmful red tide and to prevent drought in the long term. In case the heavy rain occurs in one area on the east side and the west side of Taebaek mountain range in 65 mountains in Korea The eastern part of the mountain range and the western part of the mountain range Natural water is stored in the concrete dams 680 to open the floodgates 293 of the dam 680 to move natural water through the waterpaths 294 and to control the floods to prevent disasters caused by water, Stable water is discharged to the whole country nationwide, and domestic water, agricultural water and industrial water are buried in the ground by piping (14) or installed in a position where cars can pass to the upper part of the road, and water is supplied. The water supply (294) appropriately maintains the supply of water and, incidentally, produces electricity from hydroelectric generators located in various regional hydroelectric power plants. First, the power of the water intake that can pumped the water of the water intake dam (680) The electricity is supplied to the pump 304 to pour the water to the water intake dam 680 by the 5th water line and the water intake water to the water intake water by the 8th water line by the water intake dam 680 by the 5th water line, In the star intake dam The water stored in the mountain-top water intake dam 680 is discharged to the pipe or fire hose 9 (OPEN) while opening the valve 409 formed in the water intake dam, ) At the bottom of the mountain with 8 nozzles connected to the top of the mountain. In the 8th ridge, the top of the 5th ridge below the 8th ridge, the 5th ridge below the 5th ridge, and the 3 ridge along the 3 ridge. And a piping line for spraying all over the forest below the secondary ridge to prevent damage from wildfires and natural disasters in wildfires and dusts, and at the same time, a pump for generating a nonmotor power pump 393, The water of the intake dam located in each ridge line can be backwardly circulated or circulated to the top of the mountain to construct a pipeline connection structure of the first water quality improvement method.

Here, in the installation of the water channel 294 and the island tunnel in several concrete dams 680 and the water gate 293 located in the mountainous 65% national territory as described above,

The area of the stream formed below the bottom of the valley below the mountain can be used as a spawning ground for the marine creatures. After the pond or wetland is formed, people can pass through the pond or wetland to the water level of the dam and the reservoir area. Concrete dam construction (680) and waterway construction (293) are to be carried out on the upper part of the concrete tunnel after completion of the tunnel construction. A reflecting mirror 804 and an illumination facility 806 are formed so that sunlight can be supplied in the middle of the inside of the tunnel and the inside of the tunnel can be made brighter and a hoisting machine 137 is installed in the dam to open and close the water gate 293 Can be formed

Meanwhile, the Baekdudaegan has paved roads and unpaved roads for various purposes such as highways, national roads, provincial roads, forest roads, military roads, etc., cutting off the main mountain of Baekdudaegan and cutting off ecosystem. As the road penetrates at an average distance of 9km, major habitats of wildlife and plants are being damaged. As a countermeasure against this problem, a bridge (937) is opened on the cut road, and the bridge (937) An ecological passage can be additionally formed for restoring the disconnected ecosystem by installing the ash passage 17 therein.

In addition, the water gates (293) were opened in the Nakdong river estuary and Youngsan river estuary for the purpose of blocking the brine inhalation water inlet and blocking the inflow of agricultural land salt water, so that marine fish and shellfish can not spawn at the nest, In addition, the water quality of the rivers has dropped to 3 to 4 water levels. In addition, algae are generated to the water supply water intake area and the odor is smelled. Since the pollution of the river is increasing rapidly due to the densely populated areas, the polluted water is supplied to the drinking water of the water source by the contaminated water. Therefore, the cost of the water source is increased due to the high water purification facilities and the activated carbon of water purification materials. In the countermeasure method,

The Nakdong river estuary and Youngsan river estuary gate should be open all the time or the water gate (293) should be removed altogether and the groundwater in the aquifer bed and the aquifer on the metamorphic rock should be pumped up or discharged on the river surface. In other words, construction machines, which are various excavators, are installed on the barge so as to discharge a large amount of deep ocean water into the contaminated riverbed. Underground piercing work can be carried out, and a block pipe channel with double pipe structure is installed, The number of the spouted water serves as a breakwater, thereby blocking the inflow of the brine. Thus, pumps and nozzles can be further formed on the construction machine and the barge for the maintenance of the first water quality and the restoration of the ecosystem environment.

Also, it can be formed as a purification facility and a sewer construction so as to completely block the inflow of industrial wastewater in the middle and upstream areas of the middle stream area of the large river, and to completely purify purified water from the sewage end treatment plant outside the large river bank.

In addition, the mixture of the water-tank located at the shore or the mixture of the loess mixture stored in the control dam 680 is kneaded with a mixer 73 and then loaded on a barge and sprayed on the ocean to prevent harmful red tide reproduction The water tank and the control dam 680 may be additionally provided with a cooling device and a heating / heating device facility corresponding to the seasonal temperature change.

Before the construction of the dam 680 and the waterway 294, the design after the evaluation of the environmental impact evaluation based on the local setting positions of the dam 680 and the waterway 294 is performed after the concrete dam design 680 ), It is necessary to calculate the material of gravel and cement in the reinforcing bar and sand which is the material of the concrete dam (680), and to select the natural dam and the waterway construction using the stone and soil separate from the concrete dam (680) Logging machines in the construction machine and cable car (256) can be additionally formed near the dam site.

Further, in the landslide occurrence area and the landslide occurrence area, the geological survey can be completed, and the geological survey measuring instruments can be formed so as to realize the disaster prevention work of the axle reinforcement repair work according to the calculation of the material amount

In addition, the method may include a method of transferring the fish and shellfish to a barge to move the fish and shellfish to a farm having a cooling device facility so that the fish and shellfish are transferred to the barge so that the fish and shellfish can be avoided before the water temperature of the cage farm is raised due to the harmful tide.

In order to supply deeper water under the lower floor of the ocean to be replaced to the cooling apparatus, a pile driver 933 and a diesel pile hammer 883 are installed on the top deck of the deck deck, A steam hammer 884 and a crude oil drilling machine 908 are installed to excavate a number of deep water boreholes 936 to the downstream of the river and to the ocean and use the pump as a pipe and a hose by the pump of the pumping station as the borehole 936, To the aquarium tank of the farm with the purified seawater.

The water taken from the intake port of the intake water dam 680 by the ridge line located below the peak of the mountain is guided to the water tank located at the upper part through the water channel 294 to obtain a fall. This is then sent back to the Phelpton aberrations through the hydraulic aqueduct 191 and the Phelton aberrations, where the potential energy of the water is converted into mechanical energy and converted to hydroelectric power plants of the offshore hydrosphere power plant 943, And converting the kinetic energy of the water into mechanical energy using the flow rate of the water to generate electric energy with the hydrostatic generator.

The Phelton aberration 943b for the large hydroelectric power plant and the Francis turbine 943c for the large hydroelectric power plant are provided in the hydraulic aeration pump aberration 943a of the offshore isotopic hydroelectric power plant 943, The inlet pipe 191 serving as a water pressure pipe has a connection structure with the head tank 189 at a head tank 189 which is a pressure tank located at the top of the power plant and a suction port 269 at the front of the head tank 189, A plurality of introduction pipes 191 are connected to the pump aberration 264 of the turbine 267 at the lower portion of the respective generator bodies located inside the hydroelectric power plant by the discharge port 270 at the upper portion of the power generation plant 943 and at the discharge port 270 at the rear portion of the head tank 189, And the Francis aberration 229 and the intake port 269 in front of the Pelton aberration 230. In the ocean, the kinetic energy of the water is converted into mechanical energy using the flow velocity of the ocean current, ) To generate electricity At the same time as classifying what is formed by the method, in the internal equipment structure of the large hydroelectric generator main body 944,

In the hydropower generator 944 facility, the hydropower generator 944 may be configured such that,

A plurality of aberrons and turbines 267 for generating mechanical energy by generating hydraulic pressure within the hydrodynamic generator 944 to rotate the several turbines 267 to produce power, And an upper end of a shaft rotation shaft 944q which is a rotation shaft for connecting the turbine 267 and the generator 213 to the turbine 267 and the turbine 267, A shaft 944a is positioned below the detector shaft 944a and an exciter 944b for a dc generator that supplies current to the motor coil of the alternator is located below the detector shaft 944a, A downward guide bearing 944d is located below the drag ring pipe 944c in the drill ring pipe 944c which refers to a means for pushing the pipe feathers, A stator core 944e is located under the stator beer ring 944e and a stator core 944h is located in the stator coil 944f and the stator frame 944g, And the fan 195 is positioned below the stator core and the lower air cooler 944i of the low speed cooler is connected to the bottom of the lower air cooler 944i, The cooler 944i of the devise ring 944l is located and the jack 944k of the brakes 944j is connected to the lower bead ring 944l, Which is a rotating electromagnet formed along the peripheral surface of the shaft rotation shaft 944q which is located inside the vane 944m and the bearing 944p in the vane 944n and the casing 944o, An armature coil for a generator, which is a non-rotating coil provided along the circumferential surface of the rotor coil, The turbine 264 and the turbine 264 are connected to the turbine 264 and the turbine 264 by the hydrodynamic power generating unit including the turbine bearing 944p and the guide vane 944n of the vane pump and the runner 944m integrally connected to the casing 944o. Power connection structure A large number of inlet pipes 191 are connected to the upper portion of the small hydroelectric power plant 943 and the discharge port 270 of the head tank 189 at the ocean side to the lower portion of each generator body located inside the hydroelectric power plant. The hydrodynamic power generator 944 may be formed in the pump aberration 264 and the Francis aberration 229 of the Peltone aberration 267 and 267 in the form of a suction port 269 in front of the Pelton aberration 230 and a connection structure reduction yarn 35.

The electric motor body 192 serving as the power motor also includes a fan 195 mounted on the hood 193 and the retaining ring 194 and a rotor assembly 196 mounted on the body front racket 197 and the shaft 198 on the body frame 196 199 to the front bearing 200 and the terminal box 203 to the casting frame 202 for motor protection and the terminal box cover 205 to the lifting bolts 204 and the rear bearing 206 to the rear bearing 206, A gap 208 may be formed in the bracket 207 and a fan cover or a protective cover 209 may be formed in the rotor core 210 and a stator core 210 and a stator winding 212 may be connected to the rotor core 210.

The impeller 143 may be attached to the end of the shaft 192 of the motor body 192 and may be formed of a prime mover having a connection structure with the power pump 304

In addition, in the construction of the construction machine as described above, a plurality of column holding tanks 590 and a barge main body 591 at the upper end of the column holding tank 590 are provided in the water- A small marine power station floodgate 593 and a medium sized marine power station floodgate 594 which can disassemble the barge main body 592 at the lower end of the tank 590 are connected to a marine power feeder 595, And may be formed as a urinary site device that is fixed to the lower floor of the deep sea bed.

Controlling the flood flow in mountainous areas of mountainous areas in the inland regions of the globe, a number of mountainous mountains set up along the national roads according to the location of the rivers and coastal seashores are stretched one after another to form mountain ridges and ridges It is not restricted by natural disasters such as typhoons, forest fire, wildfires, floods and droughts due to pickling, which is a good shape of mountain line and mountain which is killed along with it. In addition, it converts water potential energy into kinetic energy of water, It is composed of several disaster prevention waterways, dams, pumps, valves, injector nozzles, non-power pumps and cable car son for each generation line of the flood control system that can produce electric power, so that the control and disaster prevention activities can be performed efficiently at one time. It is also possible to use a disaster prevention channel and dam And water can be stored in the disaster prevention waterway and dam along the ridge line of each corner of the elevation control according to the mountainous terrain so that the water floods and the valleys can not flow into the rivers. And vortices can be quickly and efficiently relieved, so that roads and bridges are not lost without collapsing the river bank at the bottom of the mountainous wallpapers, and water dams of the same level as the circular water tank form prevent landslides from occurring, Farmland, neighborhood area, and livestock complex industrial park are designed to eliminate the flood damage and to keep the wastewater, livestock wastewater and industrial wastewater from flowing into the rivers, maintaining the first quality of water and continuously flowing into the sea. Water that can be used in dams or storage tanks that can be used is used for drinking water, It is possible to continuously supply water resources of good quality and good first grade water quality to supply abundant water resources for exclusive water, industrial water, pollution control and disaster prevention water.

In addition, the present invention provides a method for preventing the occurrence of natural disasters such as large-scale forest fires, seasons, and other natural disasters such as floods, droughts, and severe harmful birds according to the long-term weather forecast of the Korea Meteorological Administration A multi-purpose dam and a newly installed multi-purpose dam were installed on the circumference surface of the existing multi-purpose dam and the dual tank structure block tank in accordance with the seasonal temperature change by mixing the yellow soil mixture, and a heating and warming device was newly installed so that water does not freeze in the cage farm. It is necessary to install additional storage tanks in the vicinity of the shoreline for use as a breakwater farm and to prevent the occurrence of droughts and rivers before the occurrence of harmful red tides. To continuously maximize the prevention of disasters by continuously spraying the mixture of yellow soil without (593,594,595) Nuclear power plants (1) Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Leakage control Nuclear reactors Leakage control Dual structure block Tank Reactor main body And a distribution input device.

In addition, the present invention increases the production of low-cost energy by using hydroelectric power plants which generate hydroelectric power by converting the potential energy of water stored in the facilities into kinetic energy by various dam water according to the mountainous terrain of the mountain range, It is possible to solve the environmental pollution problem by replacing the water pollution problem with expensive oil, coal fuel, etc. and replacing it with the dam water gate of the existing river river, By re-installing the tunnel device, the marine creatures move to the rivers, so that the fishes and shellfish can scatter freely in the rivers in the valleys. By improving the lipid level in the river bottom, restoring the natural ecosystem order and restoring the ecosystem restoration activities will be maximized. And can continue to develop forest forestation projects in parallel. (593,594,595) Nuclear power plants (1) Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Leakage control Nuclear reactors Nuclear waste disposal system Nuclear reactors And may be configured as a dispensing device of the main body.

Furthermore, the present invention will contribute greatly to the national economic development, the four-river restoration project, and the environment improvement project for saving the world's four major fisheries by eliminating unemployment and job creation for young people. In order to prevent the occurrence of typhoons from natural disasters, we will first explain how to prevent accidents in the early stages, In order to prevent the expansion of the typhoon in advance, the disaster prevention line is deployed around the edge of the typhoon and the typhoon is deployed in the space above the water spray nozzle. The number of ejectors and radial ejection nozzles The curtain water film shows the latent heat of vapor rising on the ascending current In this case, the number of falling jet and the radiation jetting jetted water curtain water fall downward airflow, and the number of falling jet of cumulonimbus and separation shuttle jetted out fall on the upper part of the sea surface with strong water vapor, The power of the typhoon is weakened and transformed into a warm wind, which disappears somewhere. In other words, the control means of the disaster prevention device, which extinguishes a violent typhoon, can be selected as the interior of the nuclear power plant.

On the other hand, in the unspecified region of the typhoon occurrence area or the expected occurrence area, the triangular spraying shape of the doctor ventilation type or the radial type jetting water spraying capillary water film It is characterized by the formation of a pipeline doctor line, such as the spraying nozzles for the prevention of high and low acid forest fires, such as the Andean Rocky Mountains on the land, and the water mountains as well as the Rocky Mountains and the Andes, (593,594,595) Nuclear power plants (1) Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Leakage control Nuclear reactors Leakage control Dual structure block tank Reactor main body And a distributing and dispensing apparatus of the present invention.

Here, the disaster prevention line which relieves the typhoon is composed of the jet nozzle, the inflatable rubber balloon, and the air supply unit in the water of the sea bed. In order to solve the global warming phenomenon, It is an artificial waterfall, which is replaced by a cave, a gong, a bell, and a drum in every corner of the sea, Replace the emission of water in the sky above or above the ground with thunderstorms, sound emission frequency, sound vibration and wavelength transmission, as well as sound emission from the trumpet canal to the sea above the sea surface. In the air above the cumulonimbus and stormy clouds, lightning rods are mounted on the adventurous and airships , The reei tower on the rooftop of the control tower of the mooring tower is characterized by being formed inside the nuclear hydroelectric power plant as a whole with the disaster preventive device installed in the earthquake- .

Preferably, the number of injected water jetted through the gap between the spray nozzles into the nuclear hydroelectric power plant body is a method for preventing natural disasters in accordance with the nozzle shape, but at the same time blocking harmful tidal conditions. Wherein the compressor is operated by an electronic control unit and the compressor is operated by a pressure reducing valve or a relief valve without an electronic control unit so that the first pressure check sensor and the second pressure A motor frame, a belt cover, an air suction filter and an afforter cooler are formed on a motor belt having a predetermined size, and the tank of the afforter cooler is provided with a cooling water inlet, And a high pressure hose attached to the rubber tube and the high pressure hose, This is a feature of the present invention in which the upflow and downward currents of a typhoon are controlled to be prevented and controlled at the upper and lower sides of the sea surface so as to be controlled together with dust particles by means of a coupling means coupling supply coupling means. The roar of the artificial waterfall is formed by changing the gap of spraying water at the dropping point of the falling spraying water and continuously forming it with the fountain that falls continuously in accordance with the artificial waterfall rumbling at the same level in the continuous type. This scene is converted to an analogical action, but the scenes are transferred to a floating observatory with an unmanned camera. In the Reidia weather observation center, an unmanned camera Meteorological observation equipment A radiosonde or meteorological observatory is mounted on the ground, The.

For this reason, according to the maritime sovereignty line, it is possible to connect Russia's Bladivostok, Lunddo and Dokdo to Pohang, transport energy resources, connect Yeosu and Jeju Island to marine tunnels, connect Pyeongtaek and Baekryeongdo to Shandong Peninsula, An illegal fishing line or a military vessel in another country that is connected to a maritime tunnel in Japan and transformed into a one-day living zone and that travels to the territory of the 5th degree (NLL) of the West Sea is allowed to pass by permission to enter the sovereignty area. It is a defense device. It is possible to limit the illegal fishing boat access because illegal fishing boats can not pull the net after throwing the net on the fishing ground, so that the people of the nuclear power plant You should be able to use it inside the body.

However, officially, according to international practice, it limits the range from the ground up to the 29 km range. As mentioned above, military surveillance sensors are installed on several flood docks located on the 38th parallel to the sea above and above sea level 5 and above the sea of the East Sea to further enhance the surveillance function to prevent the production of military equipment It makes the nuclear weapons manufacturing facilities of Pyeongando and Hamkyungdo helpless by constructing to be able to adopt the system so that when the nuclear missile is fired, it constitutes a defensive missile attached to the net at the top of the firing position, In order to make it possible to carry out an accident-free global village, a military defense sensor device composed of a large number of lifting docks and an annex netting disaster prevention device are installed in the ocean and airspace. A peaceful, non-disruptive global village with a permanent, Construction equipment that is built into the body as a safety connection structure to the inside of the body to prevent the occurrence of an artificial disaster while performing nuclear power plant operation Alternative nuclear power plant nuclear reactors Nuclear waste disposal reactor shielding equipment nuclear radiation leakage control Dual structure block Tank Reactor Dust Collector.

Preferably, the vertical structure of the typhoon, together with the number of outlets of the discharge line of the disaster prevention line, which submerges the typhoon in the main body of the marine nuclear hydroelectric power plant. Vertical structure of the typhoon In the high troposphere about 10 km above the sea level, The disaster prevention water is removed from the falling ash and the disaster prevention water is transferred from the top of the northern pole through the pipe line of the tube level type at the equatorial point so that the natural disaster like the artificial waterfall is made like a disaster prevention waterway without pumping at sea, The total amount of atomic bomb dropped in Hiroshima in the past year is estimated to be one million. The potential heat of the thermal energy of the atomic bomb is put to sleep on the sea surface of the Pacific Ocean and the Atlantic Ocean, so the humanity of the global village is cleaned up from the disaster calamity and soreness. As the global environment is being improved, High-pressure hose with double-structure upper 500m unit connected to high-pressure hose Coupled with several couplings with pipe length of 10km, pipe-level pipeline is constructed with several float- By changing the course of the typhoon in the air stream to reduce the damage of land-based typhoon and constructing the discharge of the loess mixture from several nozzles located in the pipeline line at the above-mentioned tube level, harmful red tide breeding as well as typhoon, Construction equipment that is constructed as a main body with safety connection structure inside. Preventing against natural disasters and operating nuclear power plants of nuclear hydroelectric plants. Nuclear radiation leakage control of reactor facilities of nuclear waste disposal shielding system. It is equipped with a distributor of the reactor dust collector.

In order to secure the safety of existing nuclear reactors, it is necessary to construct the main equipment of the distribution injector of the dual structure block tank nuclear reactor leakage control system of safety reactor body with double pipe (double core tube) Nuclear Radiation Leakage Control of the Body of the Invention Dual Structure Block Tank Distribution Apparatus of the Reactor Dust Collector Replacement of the Marine Ship to the Inside of the Ship Main Facilities of the Land and Ocean Constructed as a Connected Structure Nuclear Hydroelectric Power Plant Nuclear Radiation Leakage Control of Nuclear Waste Treatment Shielding Equipment Nuclear Radiation Leakage Control Dual Structure Block Tank Dispenser of Reactor Dust Collector It is filled with devices that constitute the body as an absolute safety connection structure that minimizes the explosion of the body. Made up of top-level greetings In comparing the great country with the stork, the weaker countries made up for themselves to cooperate and make a better environment for living, while at the same time, the storks should not fall down to imitate the struggle and to imitate the struggle, and imitate the stork In order to prevent the crotch from being damaged by the legs of both legs, the leaders of the international community are encouraged to use tanks, bombers, bombs, bullets, satellites, missiles, nuclear bombs and rocket bombs Is to use the electric power to overcome the punctured global economic crisis by establishing as the international society codes and norms to move the military materials to the place where the furnace of the steelworks is located so as not to perform manufacturing experiment on the land, We can save the world economy by fostering environmentally friendly pollution-free energy industry. We must do our best and operate nuclear power plants of nuclear hydroelectric power plants for peace of the world Nuclear radiation leakage control of reactor facilities of nuclear waste disposal shielding equipment It is desperately needed to construct distribution distributing equipment of dual structure block tank reactor, Please refer to the prior art of the present invention as follows.

(Prior art document)

(Patent Literature)

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(Non-patent document)

(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. , Which is part of the federal constitutional documents of the new federal states of Northeast Asia.

Northeast Asian New Korea Constitution

Part 1 ............................................... .................................................. ..........................One

CHAPTER 1 BASIC STANDARDS OF THE CONSTITUTIONAL SYSTEM ......................................... ...................................... 6

Chapter 2 Rights and Freedom of Individuals and Citizens ........................................ ..................................... 3

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 ......................................... ................................... 21

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 ........................................ ................. 38

CHAPTER 10 COMMITTEE SELECTION COMMITTEE ............................................... ........................................ 43

Chapter 11 Establishment of Northeast Asian Nations Organization ......................................... ................................. 49

Part 2 ............................................... .................................................. ........................ 50

Termination of Detailed Enforcement Rules and Transitional Transitional Rules ......................................... ......................... 52

Northeast Asian New Korea Constitution

[Enforcement Decree 4346 (November 21, 2013)] [Northeast Asian New Constitution No. 01, Revised All]

specialty

We formed hundreds of millions of people who are multi-ethnic nation of many nations formed in the territory of the Northeast Asian neo-Confucian Commonwealth of Peace. We are the descendants of God, the descendants of Dangun, and 85 million Koreans, On the basis of the mission of democracy and peaceful unification of the homeland, the Korean people deeply reflect on the problem of the liquidation of the past history of the world before and after the Second World War and the disgrace of the 6.25 East era of justice and brotherhood, It is necessary to strengthen the unity of peace and friendship with multi-ethnic groups, to refuse all social infirmities and injustices of military expansions created by the tensions between the parties to the territorial disputes, to verify individual rights and freedoms and peace and consent of the people of Northeast Asia, A new era of non-proliferation of disarmament, By preserving the national integrity, and by further consolidating the democratic basic order based on self-harmony and harmony, it is possible to create an opportunity to engage in all areas of society and culture in politics and economy, starting from the universal principles of equality of rights and self- To equitably and exert their abilities to the fullest, and to fulfill their responsibilities and obligations in accordance with their freedom and rights. In order to achieve equal improvement in their lives, By commemorating our ancestors who delivered our faith in peace and patronage to our love and respect for our homeland as much as heaven, pledging our two hands to secure the safety, freedom and happiness of us and our descendants forever, In order to assure collective security that society has transformed into a digital civilized society, Under the control of the International Peacekeeping Force, which guarantees the well-being and prosperity of the Northeast Asian neo-Confucian Northeast Asia formed by reasoning, we recognize that we are members of the world society with responsibility for our country before present and future generations. And the 10th revision of the Constitution was revised by a referendum at the same time as the resolution of a majority of the local government councils formed by the joint fate of peacekeeping forces. After the revision by the referendum, the highly developed Northeast Asian New Territories Adopt the Northeast Asian Peace and Coexistence Treaty Treaty Document and the Amended Constitution.

Part 1

CHAPTER 1 BASIC CHANGES IN THE CONSTITUTION SYSTEM

Article 1

Northeast Asia The new Korean Federation, the Republic of Korea, is a democratic federal law country in Northeast Asia with the form of a republic, and the names of the Republic of Korea and the Republic of Korea in Northeast Asia are the same.

The sovereignty of the Republic of Korea lies in the people, and all power comes from the people.

The people and the workers of all power institutions shall be confirmed and executed in the mainstream relationship.

Article 2

The requirement to become a citizen of the Republic of Korea, ie the Republic of Korea, in Northeast Asia shall be determined by law.

The State shall have the obligation to protect overseas Koreans as stipulated by law.

Individual rights and freedoms are of the highest value.

It is the duty of the state to recognize, adhere to, and defend the rights and freedoms of individuals and citizens.

Article 3

Northeast Asia The people of the new Korean Federation are the owners of the new Korean sovereignty and the only source of power.

Citizens exercise their power either directly or through power organizations and municipalities.

National referendums and free elections are the best direct power exercise by the people.

In the new Korean Federation, no one can steal state power without my consent, and the act of seizure or acquisition of power is subject to federal law.

The territory of the Korean Federation of Northeast Asia, ie the Republic of Korea, includes the territory of Samchully within the range of 2,400 KM, which is a radius of 1,200 km from the base point of Northeast Asia in the center of the iron triangle of the Korean East Sea, and the territorial sea, Within the radius of 1,200KM from the base point of Northeast Asia No. 1 Samch'ri-ri, who lives in the territory including the inner territory and the territorial sea and has died for 70 years and his descendants have 300 years right. Without the permission of the president, And local governments execute military border missions after obtaining permission and approval under the control of the International Peacekeeping Force in the area of Northeast Asia 3000, which has a radius of 1200 km from the base point of Northeast Asia.

Article 4

The sovereignty of the new Korean Federation extends to the entire territory within the Union.

The new Korean Constitution and federal laws are the highest law in the new Korean territory.

The new Korea Federation never guarantees the integrity and inviolability of its territory.

The new Constitution and federal laws of the Republic of Korea adopted the highly developed Northeast Asian Peace and Coexistence Treaty Treaty Convention and Amendment Constitution and implemented the amendments based on the translation of the Russian Constitution, .

The new Korean Federation will establish a peaceful new Korean state in a short period of time, and will establish and pursue a peaceful policy based on democratic basic order.

Article 5

The new Korean Federation strives to maintain international peace and denies invasive warfare.

The new Korean Confederacy will be replaced by an international peacekeeping force and its mission will be to fulfill the sacred duty of national security and national defense, and its political neutrality will be observed.

The new Korean Federation is formed by the republics, provinces, provinces, federal municipalities, autonomous provinces, and autonomous provinces, and they are the subjects of the federal government with equal rights.

The republic has its own constitution and laws. Local, state, federal, municipal, and autonomous regions have their own constitution and statutes.

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 within the federation.

In relation to the federal power organizations, all constituents of the New Korea Federation are mutually equal.

Article 6

Treaties promulgated by the Constitution of the New Republic of Korea and generally accepted international laws have the same effect as domestic law.

Foreigners of the new Korean Federation shall be guaranteed their status by international law and treaty.

Citizenship of the New Korea Federation is acquired or suspended pursuant to federal law and is single and equal regardless of the reasons for acquisition.

Every citizen of the New Republic of Korea shall enjoy, within the territory, all rights and freedoms set forth in the New Korean Constitution and shall have an equal obligation.

A citizen of the new Korean Federation shall not be deprived of his or her right to change citizenship or nationality.

Article 7

The new Korean government officials are volunteers for the people as a whole and are responsible to the people.

The status and political neutrality of the new Korean government officials is guaranteed by law.

The new Korea Federation is a democratic social state, and the policy of the new Korea Federation aims to create an environment that guarantees the development of a worthy life and freedom for the individual.

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, the maternity, the child, the disabled, the disabled and the elderly is guaranteed, the social service system is developed, And other social protection.

Article 8

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.

In the new Korean Federation, political parties should have a democratic organization and activities, and have the necessary organizations to participate in the political formation of the people.

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 set as a social group participating in the formation of political will of the people. do.

In the new Korean Federation, when 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 Constitutional Court.

In the new Korean Federation, the government of the people elected by the people, the terms other than the regime of the people are used, but the title of the individual is written in front of the term of the government and the regime.

In the new Korean Federation, freedom of movement, free competition of goods, services and capital goods, freedom of competition and freedom of economic activity are ensured.

In the new Korean Federation, private ownership, state ownership, ownership of the municipality and other forms of ownership are equally recognized and protected, but forest land, military settlements, Does not grant the property registration system and replaces it with the right to cultivate.

Article 9

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.

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.

In the new Korean Federation, land and other natural resources can be privately owned, state owned, owned by the municipality and other forms of ownership.

Article 10

In the new Korean Federation, all people have dignity and values 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.

The state power of the new Korean Federation is exercised based on the division of legislative, administrative and judicial powers. Legislative, executive, and judicial institutions are mutually independent.

The new Korean Federation of State Powers will be exercised by the President, the Federal Parliament (Federal Council and National Assembly), the New South Korean Federal Government, and the new Korean Federal Ministry of Justice.

In the subjects constituting the new Korean Federation, state power is exercised by the power organizations constituted 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.

All the people of the new Korean Federation and all social groups are equal before the law. No one shall be punished in all spheres of political, economic, social and cultural life by sex, religion or social status.

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

Every citizen of the new Korean Federation shall have the freedom of the body, and when he is at least 20 years of age, he or she shall be free to marry the spouse without any restriction. Restriction. Seizure. Shall not be searched or interrogated, and shall be subject to penalties, unless by law and appropriate procedures. No security disposition or forced labor.

Local autonomy is recognized and guaranteed in the new Korean Federation. Local autonomy is exercised independently within the powers of each entity. Local autonomous organizations are not included in the system of state power organizations.

Article 13

The diversity of ideologues is allowed in the new Korean Federation.

No ideology can be defined as a national ideology or a mandatory ideology.

Political diversity and plural political parties are allowed in the new Korean Federation.

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.

All citizens of the new Korean Federation shall not be subject to the right of suffrage or deprivation of property rights by retroactive legislation.

Every citizen of the new Korean Federation shall not be disadvantaged by his acts, not his own actions. However, in order to change the foundation of the new Korean Constitution or to create a social group that destroys the unity of the Union, to create an armed force for national security, to incite social, racial and regional antagonism Creation and activities of social organizations are prohibited, and blood relations that violate them can not be objected to the state even if the 3 nd 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.

Religious organizations are separate 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.

State power organizations, municipalities, civil servants, ordinary citizens and other organizations are obliged to comply with the new Korean constitution and laws.

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 are not effective unless they are publicly announced for public notice.

The universally recognized principles and norms in international law and the international treaties concluded by the New Korea Federation are part of the new Korean federal legal system. International treaties take precedence over new Korean federal laws.

Article 16

The contents of this chapter constituting the basic stan- dard of the new constitution of the Republic of Korea can not be amended except in accordance with the procedures prescribed in this Constitution.

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

In the new Korean Federation, universally recognized principles and norms of international law and this Constitution recognize and guarantee the rights and freedoms of individuals and citizens.

The fundamental rights and freedoms of an individual can not be deprived and are granted to all citizens from birth.

The exercise of rights and freedoms of individuals and citizens should 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

Everyone in the New Korea Federation is equal before the law and trial, everyone has freedom of conscience, the individual is not infringed by the freedom of the house, and when seizing or searching the house, the court shall issue a warrant issued by the judge do.

The State shall ensure that the fundamental rights and freedoms of individuals are not discriminated against by gender, race, language, origin, place of residence, religion, social affiliation, or any other grounds.

Men and women have equal rights and freedoms and equal opportunities to realize them.

Article 20

Everyone in the new Korean Federation shall have the right to life, freedom of residence, freedom of privacy and freedom of choice, freedom of choice, freedom of religion, freedom of religion, It is not recognized, and religion and politics are separate.

The death penalty may be instituted as an exceptional measure for serious crimes under federal law until the death penalty is repealed and the defendant is entitled to hear the case at trial in which the jury is present.

All citizens have freedom of speech and freedom of assembly and association.

No permission shall be granted for the publication of the press or for censorship or assembly.

Article 21

The dignity of the new Korean federal human being is protected by the state and nothing can undermine it.

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.

Matters necessary to ensure the facilities standards of the telecommunication broadcasting and the functions of newspapers shall be laid down by law.

Press publication shall not infringe the honor or rights of others, public morals or social ethics. If the press release infringes the honor or rights of another person, the victim may claim compensation for the damage.

Article 22

Everyone in the new Korean Federation has the right to freedom of speech and the arts, while the rights of authors, inventors, technicians and artists are protected by law and have the right to liberty and bodily inviolability.

Arrest, detention and detention are only allowed by the court's decision and must not be detained for more than 48 hours until a court decision is made.

Article 23

Everyone in the New Republic of Korea has the right to privacy, the confidentiality of his or her family, the right to protect his or her honor and reputation, and the property rights of individuals. Its content and limitations are determined by law.

All individuals shall have confidential rights to correspondence, telephone calls, mail, telegraph and other means of communication, and shall ensure that the exercise of property rights is in conformity with public welfare.

The acceptance of the right to use the property right by public necessity or the limitation of this right shall be permitted only by a decision of the court, and the compensation thereof shall be provided by law, but with due compensation.

Article 24

The collection, preservation, use and dissemination of information about the privacy of the new Korean federal individual is not permitted without my consent.

National and municipal organizations 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

Everyone in the New Republic of Korea shall have the right to vote and to hold office as prescribed by law.

Housing is inviolable. No one has the right to enter the home against the intent of the resident, except in accordance with federal law or the court's decision.

Article 26

Everyone of the new Korean Federation shall have the right to determine his national affiliation and shall not be required to make a decision on this matter.

Everyone has the right to freely choose the language of use for native language use, transmission, education, learning and creation.

The citizens of the Republic of Korea shall have the right, individually or collectively, to file a written complaint with the national authorities and the local autonomous authorities, as the Act requires, and the State shall be entitled to examine the complaint.

Article 27

Everyone in the new Korean Federation shall have the right to a trial under the laws of the Constitution and by law.

A citizen who is not a soldier or a civilian shall not be tried by a military court except in cases of serious military affairs in the territory of the Republic of Korea, .

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.

A criminal defendant is presumed innocent until convicted.

A criminal victim may make a statement in the judicial proceedings of the case under the conditions as prescribed by law.

A person who has been detained as a criminal suspect or a criminal defendant may be entitled to a legitimate compensation to the State as provided for by law when he or she has been dispossessed or has been found not guilty.

Article 28

Everyone who is legally resident in the new Korean federal territory has the right to freedom of movement and the right to choose a place of residence and residence.

All individuals are free to move beyond the borders of the new Korean federal territory, and the new Korean citizens have the right to return freely to the new Korean Federation.

All individuals are entitled to freedom of conscience, freedom of religion, the right to freedom of religion, the right to seal a religion that they personally desire, the right not to believe any religion, and other beliefs other than religion Is guaranteed.

Article 29

Freedom of thought and expression is guaranteed for all new South Korean individuals.

Propaganda or incitement to cause social, racial or religious antagonism is not permitted and no propaganda of social, racial, religious or linguistic superiority is allowed.

No one is constrained or constrained to express personal ideas and beliefs or discard them.

Every individual has the right to freely obtain, produce and disseminate information in a lawful manner. The list of information classified as a state's confidentiality is governed by federal law.

Freedom of the press is guaranteed within the new Korean territory and censorship is prohibited.

Article 30

Every individual has the right to association to protect his or her interests. Freedom of social activities is guaranteed.

No one is compelled to join or withdraw from a social organization.

A citizen who has suffered damages as a result of an illegal act in the performance 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.

In addition to the compensation provided by law, compensation for damages caused by illegal acts of public officials in the state or a public organization can not be claimed for damages received by a soldier civilian police officer or other law-related person in connection with execution of duties such as combat training.

A citizen who has suffered damage to the life body due to the criminal act of another person can receive the structure from the state as prescribed by Act.

Article 31

The new Korean people have the right to peacefully organize rallies, protests and pickets without having 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.

Every individual has the right to an equal education based on his / her abilities. It is obliged that the guardian child be trained at least in higher education and law.

Compulsory education is free.

Educational independence professionalism Political neutrality and university autonomy are guaranteed by law.

The State shall promote lifelong education.

Basic statutes concerning education system and its operation including school and lifelong education, education finances and the status of teachers are laid down by law.

Article 32

The new Korean people have the right to participate in the national affairs through representatives or directly.

The new Korean citizens have the right to vote and to be elected to national and municipal organizations and to participate in the referendum.

The new Korean citizens are not obliged to participate in the elections for the people whose freedom is limited or incompetent, according to the court 's judgment.

The new Korean people have equal rights to participate in official affairs.

The new Korean people have the right to participate in the trial.

Article 33

Workers in the new Korean Federation have the right to bargain collectively and collectively for the purpose of improving working conditions.

An employee who is a civil servant of the new Republic of Korea shall have the right to bargain collective bargaining and collective action only for those who are determined by law.

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.

The new Korean people have the right to work. The State shall endeavor to promote the employment of workers and guarantee the appropriate wages in a socioeconomic way and shall implement the minimum wage system as stipulated by law.

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.

The new Korean people are required to set the law to ensure the dignity of human beings.

The new Korean nationals receive special protection for women's work and are not subject to unfair discrimination in employment wages and working conditions.

The new Korean citizens receive special protection for their work.

The citizens of the Republic of Korea are given the opportunity to work first of all by virtue of national merit, as prescribed by law, for the bereaved families of the civilized and prefecture.

Article 34

The new Korean people have the right to live a human life.

The new Korean federal state has an obligation to strive for the promotion of social security social welfare.

The new Korean federal state should endeavor to improve the welfare and rights of women.

The new federal state has a duty to implement policies to improve the welfare of the elderly and youth.

Persons who are not capable of living due to reasons such as persons with physical disabilities, sickness or other illnesses in the new federal state are protected by the State as prescribed by law.

The new federal state shall endeavor to prevent disasters and protect the nation from the danger.

All individuals have the right to use their assets and capabilities for economic or business activities that are not prohibited by law.

No economic activity is allowed for unfair competition or monopoly on all individuals.

Article 35

Every individual 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.

The contents and events of the environmental rights of the new federal states shall be determined by law.

The state should endeavor to make all residents enjoy comfortable living through housing development policies.

Private property rights of the new federal state are guaranteed by law.

Everyone in the new federal state has the right to seize, treat and use the property, alone or in association with others.

No one of the new Korean federal states shall be confiscated 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.

The right to inherit property of the new federal state is guaranteed.

Article 36

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 fertility, and the State shall ensure this.

The new federal state shall endeavor to protect the motherhood.

All citizens of the new federal state receive national protection for health.

Individuals or groups of new Korean federal states have the right to privatize land.

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.

The conditions and procedures for the use of land in the new federal state are determined by federal law.

Article 37

In the new federal state, the freedom and rights of the people are not neglected for reasons not listed in the Constitution.

All freedoms and rights of the people may be restricted by law only if necessary for the maintenance of national security or public welfare, and even if restricted, they can not infringe the essential intrinsic freedom and rights.

Free labor is guaranteed. Everyone has the right to freely use his / her labor capacity and to freely choose his / her job and work.

Forced labor is prohibited.

Every individual has the right to receive wages that are not less than the minimum wage set by federal law without any discrimination and to be protected from unemployment.

Individual and collective disputes settled by federal law, including strikes, are permitted.

Everyone 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

In the new federal state, hats and families are protected by the state.

Protecting and nurturing the child is an equal right and obligation of the parents.

Workers who have reached the age of 18 must give parents who have no workforce.

Article 39

All individuals in the new federal state are entitled to social security as prescribed by law for the elderly, illness, disability, death of caregivers and child rearing.

National pensions and social allowances are set by law.

Voluntary social insurance or the creation of forms for supplementing charity or social security is encouraged.

Article 40

Every individual in the new federal state has the right to a residence. No one can unjustly deprive the right of housing.

Housing construction of national or municipal organs is recommended to guarantee housing rights.

For individuals with disabilities, underprivileged citizens and residents, housing may be provided free of charge from the state, municipalities, and other housing assets in accordance with the standards set by law.

Article 41

Everyone in the new federal state has the right to health care and 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.

In the new Korean Federation, measures are taken to promote national, municipal and private health systems. It is recommended that activities to protect individuals' health, develop physical culture, and prevent sports ecology epidemics are encouraged.

Responsibility for personal health and life-threatening acts and acts of concealment of such facts is governed by the method of opening.

Article 42

Everyone in the New Republic of Korea has the right to receive information about the environment, to have a right to live in a good environment, and to claim compensation for damage to property or health caused by environmental misconduct.

Article 43

Every individual in the new federal state has the right to education.

The state has the right of free access to pre-school education, primary education, and secondary vocational education in the general education institutions and enterprises of the municipalities.

Every individual has the right to receive higher education, free of charge, by the state, local governments and enterprises through competition-based selection.

Basic regular education is an obligation. A parent or guardian shall ensure that the child receives basic regular education.

The new Korean federal government sets the national education level and supports various forms of education.

Article 44

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.

Every individual has the right to participate in cultural life, to use cultural facilities and to access cultural heritage.

Every individual has a duty to protect historical and cultural heritage and to preserve historical and cultural monuments.

Article 45

Every individual in the new federal state guarantees the state's protection of individual rights and freedoms.

All citizens have the right to protect their rights and freedoms, unless the law restricts them.

Article 46

Every individual in the new federal state guarantees the judicial protection of individual rights and freedoms.

Decisions or actions of state agencies, Chiba self-governing bodies, civic groups, or public officials may be brought before the courts.

All individuals have the right to file an international case against the protection of individual rights and freedoms under the international treaties concluded by the Commonwealth of the Republic of Korea if there is no national protection against the individual's rights.

Article 47

No individual in the new federal state shall be deprived of his right to be tried by a court or judge.

A criminal suspect is entitled to trial in the jury's participation, if federal law stipulates.

Article 48

Every individual in the new federal state is entitled to the right to judicial assistance. If required by law, legal protection can be provided free of charge.

All persons arrested or detained shall have the right to seek counsel from the point of arrest or detention.

Article 49

Every individual in the new federal state is considered innocent until all the individuals indicted for the offense are found guilty by the court's decision.

The accused and defendant are not obligated to prove their innocence.

Uncertain consultations on suspects are interpreted in favor of suspects.

Article 50

No one shall be convicted of the same offense.

Evidence obtained in violation of federal law can not be used in court proceedings.

Everyone 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

Everyone in the new federal state has no obligation to testify against anyone, his or her spouse, or close relatives whose scope is governed by federal law.

Federal law may make exceptional provisions for exemptions 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 has the right to compensation from the state if all the individuals are harmed by the illegal acts of the state authorities or the public officials.

Article 54

Every individual in the new federal state has no retroactive effect on the law of ascertaining or strengthening responsibility.

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, relief or exemption from liability shall be subject to the new law.

Article 55

Every individual in the new federal state shall not be construed to diminish or deny the rights and freedoms of the general individual, whose basic rights and freedoms listed in the New Korean Constitution are different.

No law should be enacted to reduce or destroy individual rights and freedoms in the new Korean Federation.

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

Everyone 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 an emergency in order to protect the national security and the constitutional system.

The declaration of emergency for all territories and individual areas of the new Korean Federation shall be made in accordance with the procedures set forth by the Constitution of the Federal Republic of Korea.

The rights and freedoms set forth in Articles 20, 21, 22, 23, 24, 28, 34, 40, and 46 to 54 of the New Korean Constitution are limited Can not.

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 a duty to protect nature, the environment and natural resources.

Article 59

Everyone in the new federal state is the duty and duty of the new Korean people.

The new Korean citizens must fulfill military service obligations in accordance with Russian Federation law.

The new Korean nationals 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

All citizens of the new federal state shall not be deported outside the New Korean Federal Border or imprisoned in a foreign country.

The new Korean Federation guarantees the protection of its citizens even outside its boundaries.

Article 62

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.

Even if a new Korean citizen acquires a foreign nationality, his obligations and rights as a new Korean citizen are not alleviated or exempted unless special provisions are specified by federal law or an international treaty concluded by the new Korean federal government.

A foreign citizen or a stateless person is also obliged to enjoy the same rights and freedoms as a new Korean citizen, except as provided by federal law or an international treaty concluded by the New Korea Federation.

Article 63

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.

The new Korean Federation does not transfer to other countries a person who has been persecuted for his political creed by actions not recognized as criminal by the new Korean federal law. 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 the basic provisions concerning the legal status of an individual in the new Korean federal government and shall not be altered except in accordance with the procedure set forth in the present Constitution.

Chapter 3 Composition of the Commonwealth

Article 65

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 the People's Republic of Korea and the Democratic Republic of South Korea,

Part of Tanekushima, Kyushu, Fujishimahara, Shikoku, Hanedashima, Honshu, and Honpo regions of Japan,

In the People's Republic of China, Jiangsu Province, Anhui Province, Herman Province, Shandong Province, Xinghe Bei Province, Beijing Province, Lao Ling Province, Jilin Province, Heilongjiang Province,

It was made up of people from the Primorye region of the Russian Federation (coastal region). City, which has a conscious meaning,

The new constituent entities of the new federal state and the granting of status are governed by the new Korean federal constitutional regulations.

Article 66

The status of the Republic shall be prescribed by the new Korean Constitution and the Constitution of the Republic.

The status of provinces, provinces, federal municipalities, autonomous regions, and autonomous regions is defined by the new Korean Constitution and the charter of each entity.

Federal law on autonomous regions and autonomous territories may be adopted by the legislation of the self-governing provinces and autonomous districts and by the delegation of administrative agencies.

Autonomous districts and state affairs may be coordinated by agreements between federal law and local government bodies.

The status of the new federal constitutional entity may be changed by mutual agreement between the federal and constituent entities in accordance with federal constitutional procedures.

Article 67

The new Korean territory includes the Inland Sea, territorial sea and airspace.

The new Korean Federation exercises jurisdiction over the continental shelf and economic waters of the New Korea in accordance with the procedures laid down in federal and international law.

The boundaries between the new Korean federal constituencies can be changed by mutual agreement.

The territory of the Korean Federation of Northeast Asia, ie the Republic of Korea, includes the territory of Samchully within the range of 2,400 KM, which is a radius of 1,200 km from the base point of Northeast Asia in the center of the iron triangle of the Korean East Sea, and the territorial sea, Within the radius of 1,200KM from the base point of Northeast Asia No. 1 Samch'ri-ri, who lives in the territory including the inner territory and the territorial sea and has died for 70 years and his descendants have 300 years right. Without the permission of the president, And local governments execute military border missions after obtaining permission and approval under the control of the International Peacekeeping Force in the area of Northeast Asia 3000, which has a radius of 1200 km from the base point of Northeast Asia.

Article 68

The Korean language of the new Korean federation is mainly Hangeul, and is translated into Russian and Chinese to Japanese.

The Republic reserves the right to set its own language of use. The autonomous organization of the republic can use its own language with the Korean text.

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 virtue of universally recognized international law norms and international treaties concluded by the New Korea Federation.

Article 70.

The procedures for the official use of national flags, texts and nationalities of the new Republic of Korea are laid down by federal constitutional law.

The new capital of the Republic of Korea is the Iron Triad Counterpoint. The status of the capital is regulated by federal law.

The new capital of the Republic of Korea is called the new Seoul, and the federal government building is called Cheongdamdae.

Article 71

The new Korean federal government has jurisdiction over the following matters.

1. Supervision of adoption, amendment and compliance of the new Korean constitution and laws

2. Federal system and new territory of the Commonwealth of the Republic of Korea

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 organization and procedures

5. Federal Property Management

6. Establishing federal policies and programs in the fields of politics, economics, environment, society and culture and the development of the New Korea Federation

7. Establishing a legal basis for a single market: establishing a financial, conversational, credit, tariff policy, currency issue, and pricing policy:

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 communication: activities in space

10. Foreign Policy, International Relations of the New Korean Federation, International Convention of the New Korean Federation, War and Peace Issues

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. Federal Conflict Prevention Act

16. Weather studies, standards, metrology, metric, time calculations: Geodesy and cartography: Title: Official statistics and accounting

17. New Korea Federal Country Award and honorary title

18. Federal national affairs

Article 72.

The following are matters jointly governed by the constituents of the new and new federal states.

Ensure harmonization of the Constitution and laws of the Republic, the laws of the Federal Republic of Direct, autonomous and autonomous regions, and the Federal Constitution and laws

Protecting Individual Rights and Freedoms: Protecting the Rights of Minorities: Ensuring Legal Status and Security: Border Policy

Matters concerning the occupation, use and disposal of land, water and other resource resources

Setting the limits of state ownership

Natural use: Ensuring environmental protection and ecosystem stability: Special nature reserves: Protecting historical and cultural monuments

Education, Science, Culture, Physical Education, Sports

Prevention and elimination of disasters, natural disasters and infectious diseases

Coordination of matters concerning home and child protection

Establishing the principle of collection of tax levies in the new Korean Federation

Administrative, administrative litigation, labor, home, housing, land, water, forest law, land and natural resources, environmental protection law

Judicial and legal guardians Personnel: attorneys, notaries

Protecting the traditional lifestyle of minority communities

Establish 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

This provision applies equally to the republic, provincial, state, federal, municipal, and autonomous regions.

Article 73

The new Korean federal entity exercises jurisdiction over matters beyond the jurisdiction of the new federal jurisdiction in the jurisdiction of the new jurisdiction.

Article 74

In the new Korean federal territory, no means of interfering with the free trade of goods, services and capital goods, such as tariff setting, taxes and collection of fees, is permitted.

Where necessary for the protection of national security, citizen's nourishment and health protection, nature and cultural property, federal law may restrict restrictions on goods and services.

Article 75.

The currency of New Korea 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.

The guarantee and protection of the value of the original currency is the basic task of the new central bank. The central bank operates independently of other government agencies.

The general principles of taxation and tax collection related to the federal budget are laid down by federal law.

Treasuries are issued under federal law and are acquired by free will.

Article 76

For the new Korean federal jurisdiction, the federal constitutional law and the federal law, which are applied in the new territory of the Commonwealth of the Republic of Korea, are adopted.

The federal law and the laws of the new federal constitutional body adopted pursuant thereto are promulgated on the joint jurisdiction of the new and the new federal states.

Federal laws should not be contested by federal constitutional laws.

The Republic (provincial, state), federal, municipal, autonomous, and autonomous regions are subject to independent legislative control, including the adoption of relevant laws and regulations, in addition to the jurisdiction of the new federal government and the joint control of the new federal and new federal entities. do.

The laws and other normative acts adopted by the new Korean federal entities shall not be contrary to the federal law adopted by paragraphs 1 and 2 of this Article. Federal law shall prevail in case of confrontation between federal law and other normative acts in the new Korean Federation.

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

The national system 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.

The new administrative structure of the federal constituent and the federal administrative agency form a single administrative system for the tasks jointly controlled by the new federal jurisdiction of the Republic of Korea and the new federal constituent.

Article 78

The federal administrative agency may establish an agency in the province to carry out its duties and may appoint an official to be involved.

The federal administrative agency may, with the consent of the local administrative organ, delegate some of the powers of the authority to the local administrative organ to the extent not inconsistent with the new constitution and laws of the Republic of Korea.

The administrative body of the new federal constitutional entity may delegate part of its authority to the federal administrative body by agreement with the federal administrative body.

The President of the New Republic of Korea and the federal government guarantee the exercise of the power of the federal government under the new Korean Constitution in the entire territory of the new 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.

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.

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.

The new Korean President is the head of state and represents the new Korean Federation both at home and abroad.

Article 81

The new Korean federal president shall be elected by the new Korean national for a term of six years by secret ballot, based on the common equality and direct suffrage. Must be elected in accordance with the recommendation of each candidate of the Presidential Candidate Committee.

A new Korean citizen who has lived in the new Korean Federation for more than 10 years can be elected as the new Korean President.

In the new Korean Federation, the same person can not renew the new Korean federal presidency more than once.

The new Korean federal presidential election procedure is determined by federal law.

The people and the president are mutually aware that it is a mainstream relationship.

The new President of the Republic of Korea shall stand by the state representatives to wait for the people who belong to the leader 's office at all times.

The new President of the Republic of Korea must choose the holder of patriotic beliefs as a heavenly land as a heavenly nation as a public official from a regular position and exclude those who were born under a separate government official system.

The new President of the Republic of Korea resigns and resigns his successor to his successor in the event of insurrection plot, unrest, natural disaster prevention measures, and overcoming economic difficulties.

The new President of the Republic of Korea is an unpaid honorary profession that guarantees absolutely the state of honor and treatment during his term of office and equally honorary bureaucrats below the presidency, In order to promptly pay for foreign debts, it is necessary to freeze the wages of low-ranking and high-ranking officials to a certain amount, and to stay in a state where the national government can operate without collecting taxes from the people. , 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 elected candidate shall be elected as the winner. And the vice president shall be two persons, one of whom shall be the political officer and the other shall be the economic officer.

2. In the case of a new Korean federal presidential candidate, the vote can not be elected as president unless the vote count is one-third of the total number of voters, and the presidential candidate is required to submit a six-year national defense white paper, The person who submitted it is selected as the person who passed the qualification examination and can not be president by using the private money.

3. Any person who can be elected as the new President of the Republic of Korea shall have the right to be elected to the National Assembly and must reach the age of 38 on the date of election and the scorecard of the behavioral development situation of the youth age must be collected. The president can be elected 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 must report to the President of the Republic of Korea at any time during the presidential session of the presidential palace. The President shall preserve the treasures of the National Treasure No. 0 until the end of the history of the Republic of Korea, , The Supreme Court of the People 's Republic of China, who has organized the Shanghai Provisional Government for 35 years, followed by the Supervisor of State Administration Funding and the Supreme Court, A huge bar where about 100 people can discuss the administration of the state After the installation is performed after the presidential yard was renamed as the Federal Office cancer instead of Korea founder of the duties of the invitation for President.

5. If the term of office of the President expires, the successor shall be elected 70 to 40 days before the term expires.

6. At any time when the President is vacated or when the President-elect is killed, or if he or she is disqualified for ruling or other reasons, the election committee shall appoint a successor to the president in succession within 60 days.

Article 82

The new Korean federal president takes the following oath to the people 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.

The oath is celebrated in a majestic atmosphere attended by members of the new federal council of the Commonwealth of the Republic of Korea (Senate, 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 Federal Republic of Korea, the appointment and dismissal of the new Korean Federal Prosecutor General, the appointment of other federal judges,

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, the House and Senate) After 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. Submits an annual report on the basic direction of domestic politics and national and international policies to the Federal Conference.

Article 85

In the event that the new President of the Republic of Korea fails to resolve the confrontation between the new Korean federal agencies and the new Korean federal autonomous bodies or to resolve the confrontation between the new Korean federal autonomous bodies, To the relevant court.

The new President of the Republic of Korea shall, until the decision of the constituent self-governing bodies is violated by the new Korean Constitution, federal law, or international treaty concluded by the New Korea Federation, or violates individual rights and freedoms, Have 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 the credentials and subpoenas of multinational diplomatic representatives in the new Korean Federation.

Article 87

The new President of the Republic of Korea is the Supreme Commander of the new Korean Confederation.

In the event that the new Korean Confederation is invaded or the risk of direct invasion arises, the New Korea Federation of the Republic of Korea shall declare the status of the exhibition in the entire New Confederation of Korea or in some parts of it, and shall immediately inform the Federation meeting and the State Duma.

The terms of the exhibition shall be governed by the Constitution of the Federal Republic of Germany.

Article 88

The new President of the Republic of Korea shall declare an emergency condition in all or part of New Korea in accordance with the circumstances and procedures prescribed in the Constitution of the Federal Republic of Korea, and shall notify the Federation and the State Duma without delay.

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. Conduct slopes.

Article 90

The new Korean federal president promulgates Presidential Decree.

The new Korean Federation presidential decree applies throughout the Russian Federation.

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

The new President of the Republic of Korea will begin exercising his powers from the moment he takes the oath of office, and will cease exercising his powers from the time the successor takes the oath.

If the new Korean president resigns or is unable to exercise his authority for health reasons 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.

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 his behalf. The new President of the Republic of Korea does not have the right to marry a national duma, the right to hold a referendum, and the right to propose a constitutional amendment.

Article 93

The new President of the Republic of Korea is the only person who has been convicted by the Supreme Court of the Supreme Court of Korea after the State Duma has filed a criminal complaint against the Supreme Court of Korea, .

The impeachment is initiated by more than one-third of the national duma lawmakers, decided by the special committee in the national duma, and confirmed with a two-thirds majority of the federal council and two-thirds of the state duma lawmakers.

The decision of the Federal Conference on Impeachment should 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

The federal parliament consists of the federal meeting and the two duma of the state duma.

The federal meeting shall consist of one representative from each of the two newly elected representatives of the Republic of Korea, namely representatives and administrations.

The national duma consists of 450 members.

Article 96

The national duma is elected for a five-year term.

The federal legislative process and the national duma election procedure are determined by federal law.

Article 97

The national duma council is elected among the new Korean nationals who are 21 years of age or older and have the right to vote.

Members of the federal Congress and national duma may not be concurrent. A national duma may not serve as a delegate to other agencies or municipalities.

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

Members of the Federal Assembly and the State Duma have physical incarceration 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.

The question of deprivation of entry shall be decided by the council of the Bundestag in accordance with the proposal of the new Korean Attorney General.

Article 99

The federal parliament is a regularly active body.

The national duma will convene its first meeting on the thirtieth day after it is elected. The new Korean president can not convene a national dummy before this period.

The first meeting of the State Duma is presided by the oldest member of the House of Representatives.

Full-time national duma will cease to be authorized from the time when the new country duma begins its work.

Article 100

The Federal Conference and the State Duma hold separate meetings.

The federal and state duma meetings are open to the public, but may be held in private if provided for in the law

The two chambers can hold a joint meeting to hear the President of the Republic of Korea, the new Korean Confederation of the Constitutional Court, and the initiative of foreign leaders

Article 101

The federal council elects the chairman and vice chairman among the members. The national duma elects its chairmen and vice-chairmen from among its members

The chairman and vice-chairman of the federal meeting, the national duma chairman and the vice-chairman preside over the meeting and determine their internal rules.

The federal meeting and the national duma shall form a committee and subcommittee and shall hold a public hearing on the duties of the jurisdiction.

Each House adopts the rules of the Ordinance and establishes the internal regulations necessary for its own activities.

In order to audit the execution of the federal budget, the federal council and the district constitute an auditor, whose members and procedures are governed by federal law

Article 102

The following matters are under the jurisdiction of the Federal Conference.

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

The federal meeting shall adopt decisions on the conduct of affairs as provided for in the new Korean Constitution.

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

The jurisdiction of the national duma is 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 problems raised by the state government)

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

The State Duma adopts decisions on the jurisdictional affairs stipulated in the new Korean Constitution.

The decision of the State Duma shall be adopted with the affirmative vote of the majority of the members except as otherwise provided by the new Korean Constitution.

Article 104

Legislative (representative) bodies of the new federal president, the federal legislature, the federal legislature, the old duma council, the new federal government, and the federal entities of the new federal government 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.

The bill is submitted to the national duma.

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

Federal law is adopted by the state duma.

Federal law shall be adopted with the affirmative vote of a majority of the national duma councils except as otherwise provided by the new Korean constitution.

The federal law adopted by the State Duma will be referred to the Federal Conference hearing within five days.

Federal law is deemed to have passed a federal meeting if it is approved by a majority of the members of the Congress or if it is not considered within 14 days. If federal law is dismissed at a federal meeting, the two parties may form a conciliation committee to resolve the dispute, and the federal law shall be reviewed by the state duma.

If the national duma does not agree with the decisions of the federal meeting, the federal law shall be deemed to have been adopted if it is submitted again to a vote in the national 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 the federal meeting.

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

The federal law adopted shall be transmitted to the new federal president of the Republic of Korea within five days for signature and promulgation.

The new Korean president will sign and promulgate federal law within 14 days.

If the new President of the Republic of Korea refuses to do so within fourteen days from the date the federal law is sent, the National Assembly 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

The laws of the Federal Constitution shall be adopted as provided by the new Korean Constitution.

The constitutional law of the Federal Republic shall be deemed to have been adopted if it has been concluded by more than 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 federal president of the Republic of Korea within 14 days.

Article 109

The national duma may be dissolved by the new Korean Confederation under the provisions of Articles 111 and 117 of the new Korean Constitution.

If the national duma is dissolved, the new President of the Republic of Korea will 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.

The State Duma can not be dissolved within one year after its new constitution in accordance with Article 117 of the New Korean Constitution

The state duma will not be dissolved until the impeachment of the new Korean President is initiated and a resolution is adopted at the federal meeting.

The State Duma can not be dissolved in the event of an exhibition or emergency condition throughout the New South Korea and during the six-month period before the expiration of the term of the new President of the Republic of Korea.

Chapter 6 New Korean Cabinet

Article 110

The executive power of the new Korean Federation is exercised by the Cabinet of the new ROK Armed Forces.

The new Korean Cabinet consists of the new Prime Minister of Korea, the Deputy Prime Minister of New Korea, and the Cabinet of Ministers of the Commonwealth.

Article 111

The new prime minister of the Republic of Korea is appointed by the new Korean President with the consent of the state duma.

Proposals for a new Korean 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 Federal Cabinet, or within one week after the State Duma refuses to approve the candidate.

The Duma of the State shall examine the candidate of the new Korean Prime Minister nominated by the new President of the Republic of Korea within one week from the date of submission of the proposal.

If the national Duma rejects the three candidates for the new Korean prime minister nominated by the president, the president will appoint a new Korean prime minister, dissolve the parliament and announce a new election.

Article 112

The new Prime Minister of Korea 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.

The new Korean prime minister recommends the new Korean federal prime minister and a candidate for federal cabinet minister to the new Korean president.

Article 113

The new Prime Minister of the Republic of Korea shall establish and carry out the basic direction of the Cabinet of Ministers of the Republic of Korea in accordance with the new constitution of the Republic of Korea, the Federal Law and the new Korean Federal Presidential Decree.

Article 114

The new cabinet of the Republic of Korea shall organize the 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 national 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 within 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 individual 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.

The procedures of the new Cabinet of the Federal Republic of Korea are governed by the Constitution of the Federal Republic of Korea.

Article 115

The new Cabinet of Ministers of the Republic of Korea shall announce and promulgate various decrees of the Cabinet for the enforcement of the Cabinet on the basis of the new Korean Constitution, federal law and the new Korean Federal Presidential Decree.

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

The new Cabinet of Ministers of the Republic of Korea may resign, and the new President of the Republic of Korea may repair or deny it.

The new President of the Republic of Korea will be able to decide on the reopening of the new Korean Cabinet.

The state duma can decide to reject the new Cabinet of the Federal Republic of Korea. The decision on the new cabinet of the Federal Republic of Korea is adopted by a majority vote of the national duma councilors. If the national duma decides to refuse to the federal cabinet of Shinhan, the new president of the Republic of Korea has the right to announce the resignation of the new federal 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 announces his cabinet resignation or dissolves the state duma.

The new prime minister of the Republic of Korea will be able to 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.

In the case of resignation or revocation of the Cabinet, the new Cabinet of the Republic of Korea shall continue to function until the new Cabinet of the new Republic of Korea is constituted by the appointment of the new President of the Republic of Korea.

Chapter 7 Judiciary

Article 118

The trial in the new Korean Federation is conducted only by the court.

Judicial power is realized through constitutional, civil, administrative and criminal proceedings.

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

Judges are independent and subject only to the Russian Federation Constitution and federal law.

The court adopts the decision in accordance with the relevant laws when the incompatibility of national and other laws and regulations is confirmed in the case hearing.

Article 121

Judges do not get excluded.

The powers of a judge may be suspended or suspended only on the basis of procedures and grounds set forth in federal law.

Article 122

Judges are inviolable.

Judges can not be subject to criminal liability unless they are subject to federal law.

Article 123

The proceedings of all trials are open to the public. Private trials are permitted only when provided in federal law.

The default of a criminal case is not allowed except as provided by federal law.

The proceedings proceed on the basis of both the parties' rights and the equal rights of both parties.

If prescribed by federal law, the proceedings shall be conducted with jury participation.

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.

The new Constitutional Court of the Republic of Korea shall be composed of the new Korean Federal President, one fifth of the members of the Bundestag or the national duma, the new Korean Federal Cabinet, the new Korean Federal Supreme Court, the new Supreme Court of Arbitration for the Federal Republic of Korea, If requested by an administrative agency, the Commission shall judge whether the following matters are in conformity with the new Constitution of the Republic of Korea.

1. Federal Law, New Korean Federal President, Federal Conference, State Duma, New Korean Federal Cabinet Act

2. The Constitution of the Republic, the Constitution of the New Korean Federal Constituency, the Acts of the New Korea Federal Office and the Laws and other Acts promulgated on the matters under the common jurisdiction of the New Korean Federation and its 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

The new Korean Constitutional Court will 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

The new Constitutional Court of Korea shall hear the appeal of the infringement of individual rights and freedoms and the constitutionality of the law to be applied to the specific case by the court '

The new Korean Constitutional Court interprets the new Korean federal constitution at the request of the new federal president, the federal meeting, the state duma, the new federal cabinet, and the new federal constitutional legislative bodies.

Any laws or regulations that are recognized as unconstitutional shall be forfeited, and the new international treaties of the Commonwealth of the Republic of Korea shall not enter into force upon the new Korean Constitution.

The new Constitutional Court of Korea shall review whether the impeachment proceedings against the new Korean President have been complied with at the request of the Federal Conference.

Article 126

The Supreme Court of New Korea is the Supreme Court of Justice for civil, criminal, administrative and general court jurisdictions and shall supervise the activities of the lower courts in accordance with the procedures laid down in federal law, do.

Article 127

The new Supreme Court of Arbitration for the Federal Republic of Korea is the supreme judicial body for judging economic disputes and other legal acts subject to arbitration by the Court of Arbitration and shall supervise the activities of the lower arbitral courts in accordance with the procedures laid down in federal law, The convention will be described.

Article 128

The new Korean Constitutional Court, the new Supreme Court of Korea, and the new Korean Federal Arbitration Tribunal are appointed by the new Korean President.

The judges of other federal courts are appointed by the Federal Parliament on the recommendation of the new President of the Republic of Korea.

The powers, arrangements and procedures of the new Korean Federal Constitutional Court, the new Korean Federal Supreme Court, the new Korean Federal Supreme Court of Arbitration and other federal courts shall be governed by the Constitution of the Federal Republic of Korea.

Article 129

The prosecution agencies of the new Korean federation have the same system, and the subordinates are subject to the senior inspectors and the prosecutor general of the Republic of Korea.

The new Attorney General of the Federal Republic of Korea is appointed by the Federal Council on the recommendation of the new President of the Republic of Korea.

The prosecution of the new federal constitutional body shall be appointed by the new Korean Attorney General with the consent of the constituent body.

The other prosecutors are appointed by the new Korean Attorney General.

The powers, arrangements and procedures of the new Korean Procurement Offices are governed by federal law.

Chapter 8 Local Government

Article 130

The right to own, use and dispose of the property of self-governing property and the citizens' autonomous settlement of the problem of local significance in the new Korean Federation is guaranteed.

Local autonomy is carried out through direct expression of opinions such as referendums and elections, and through local autonomous bodies.

Article 131

Local autonomy is implemented in urban and rural settlements and other areas, taking into account the local history and traditions. The composition of local self-governing bodies is autonomous to the residents,

Changes in the boundaries of the municipalities are carried out in consideration of the opinions of the local residents.

Article 132

The municipal governments manage municipal property, organize, approve, enforce local budgets, collect local taxes, maintain social order, and resolve other local problems.

Local governments 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 transfered powers shall be carried out under the supervision of the State.

Article 133

Local governments of the New Republic of the Republic of Korea are guaranteed the right to judicial protection, the right to compensation for expenses incurred as a result of decisions adopted by the federal government, and the restriction of the local authority as provided for in the new Korean federal and federal statutes .

Chapter 9 Amendment and Review of the Constitution

Article 134

The amendment to the new Korean Constitutional provisions is subject to the amendment of the provisions of the Constitution of the Republic of Korea, including the new Korean Federal President, the Federal Conference, the State Duma, the New Korea Federation Cabinet, the legislative body of the new Korean federal constituency, It is raised by demand.

Article 135

The provisions of Chapter 1, Chapter 2 and Chapter 9 of the New Korean Constitution can not be reviewed by the Federal Conference.

The Federal Constitution and the New Korean Constitution over three-fifths of the national duma lawmakers. A request for a proposal for amendments to Chapters 1, 2 and 9 calls for a constitutional meeting under federal constitutional law.

The Constitutional Assembly shall confirm the new Constitution of the Republic of Korea or make a new draft constitution of the Korean Constitution, which shall be adopted by a two-thirds majority of the members of the Constitutional Council or submitted to the referendum. 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 are in the ballot and a majority of the voters agree.

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

The amendment of Article 65 of the New Korean Constitution, which regulates the composition of the new Republic of Korea, can be made in accordance with the Constitutional Act on the amendment of the Constitutional Act of the New Constitutional Act,

If the names of the Republic, provinces, provinces, federal municipalities, autonomous regions and autonomous regions are changed,

The new name of the constituent subject is described 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 shall be 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, The radius is 2400 KM. Including Samchully inner territory and territorial sea, it is confirmed as the unique territory of Northeast Asia New Korea Federation, and the radius is 1200KM from the reference point of Northeast Asia No. 1 Samchully Local territory and area including the territorial sea have been alive and died for 70 years. If the President of the Republic of Korea has the right of life, without the permission of the president, he will never produce any military goods or move, but will 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, the area of 3000 Northeast Asia with a radius of 1200 km is confirmed by wool, and each local government implements a military boundary mission to establish a new Korean federal state. Part of Nekushima, Kyushu, Fugujimahara Deshima, Shikoku, Hanedashima, Honshu, and Honpo regions, Jiangsu province of Anhui province of China, The province of Heilongjiang Province, Shandong Province, Shing Hebei Province, Beijing Province, Lao Ling Province, Jilin Province, Heilongjiang 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 in accordance with the new Korean Constitution (former Constitution) exercises the powers established by this Constitution from the date this Constitution enters into force until the expiration of its term of office.

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 conduct judicial proceedings in accordance with the powers enacted in this Constitution. The judges of all the courts in the new federal courts shall remain in power until the expiration of their term 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-year members of the Congress exercise their powers 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 appointed by the Supreme Court. The chairman shall be elected from among the members, and the part-time appointment shall be closed 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 Electoral Commission of Public Officials may, within the scope of the Act, enact rules for election management referendum management or office worker affairs, and may establish rules for internal discipline to the extent not inconsistent with the law.

16. Scope of organization and duties of election committee of each level and other necessary matters 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 headquarters of the United Nations in accordance with the domestic peace and coexistence of Northeast Asia with the domestic constitution and international laws, 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.

.................................................. .........................

August 2012 Refer to the Constitution document of the 9th amendment

Legislative power belongs to the National Assembly.

The National Assembly is composed of members of the National Assembly who are elected by the common equality direct secret election of the people, but the public officials to be elected by the election committee of public officials are elected as prospective candidates.

The number of members of the National Assembly shall be determined by law, but shall be not less than 200 persons.

Parliamentary elections, proportional representation, and other matters concerning elections shall be determined by Act.

The members of the National Assembly shall serve for four years while the members of the National Assembly shall be composed of full-time officials appointed by the National Assembly, the members of the National Assembly shall serve as the heads of the regular workers, the offices shall be established in the administrative offices, And all members of the Senate will pay the activity fee.

Members of Parliament can not be concurrently appointed by law.

Article 44

A member of the National Assembly shall not be arrested or detained without the consent of the National Assembly during the session, except in the case of a current criminal.

When a member of the National Assembly is arrested or detained before the session, if the National Assembly requests it, it shall be released during the session unless it is a current criminal.

Article 45

Members of the National Assembly shall not be held accountable to the National Assembly for any remarks or votes made in the National Assembly.

Article 46

Members of the National Assembly have an obligation of integrity.

Members of Parliament give priority to national interests and perform their duties in accordance with their conscience.

A member of the National Assembly shall not abuse its position and acquire a right or title of property right by contract or disposition with a national public body or business, or arrange for the acquisition of such rights for another person.

Article 47

The regular session of the National Assembly shall be convened once a year as stipulated by law, and the extraordinary session of the National Assembly shall be convened upon the request of the president or a member of the National Assembly.

A regular session may not exceed 100 days, and an extra session may not exceed 30 days.

When the President requests a meeting of an extraordinary session, he / she shall state the duration and reason for the request.

Article 48

The National Assembly elects one chairman and two vice-chairmen.

Article 49

The National Assembly shall be present by a majority of the members present and a majority of the members present, unless otherwise provided for in the Constitution or the law. In the case of an equal number of persons, it shall be regarded as unsuccessful.

Article 50

Meetings of the National Assembly are open. However, it may not be disclosed if there is a consent of a majority of the members present or if the chairman finds it necessary for the security of the country.

With regard to the publication of the contents of the meeting which has not been made public, it shall be as prescribed by the Act.

Article 51

Proposals submitted to the National Assembly or other proposals shall not be revoked for reasons that were not voted on during the session. However, this shall not apply when the term of the member of the National Assembly expires.

Article 52

Parliamentarians and governments can submit legislation, and according to the implementation of the legislation adopted, the committee for election of public officials shall award rewards to lawmakers and governments that have submitted the legislation.

Article 53

The bill passed by the National Assembly is sent to the government and the president promulgates it within 15 days.

If there is a controversy in the bill, the President may, within the time limit set forth in Paragraph (1), attach a protest and return it to the National Assembly for a request. It is also during the closing of the National Assembly.

The President can not ask for a part of the bill or ask for his remedy by amending the bill.

When there is a request by the National Assembly, the National Assembly shall put it on the discretion, and when the majority of the members of the House of Representatives and two-thirds of the members of the House of Representatives vote in the same way as before,

Even when the President has not made a request for fear or reconsideration within the period referred to in paragraph 1, the law shall be settled by law.

The President shall promulgate without delay the law determined by the provisions of paragraphs 4 and 5. If the President is not promulgated within five (5) days after the law has been established pursuant to paragraph 5 or the definite law under paragraph 4 has been transferred to the Government, the President of the National Assembly shall promulgate it.

Unless otherwise specified, the law shall come into force after twenty days from the date of promulgation.

Article 54

The National Assembly deliberates and confirms the national budget proposal.

The government shall formulate a budget bill for each fiscal year and submit it to the National Assembly no later than ninety (90) days before the beginning of the fiscal year, and the National Assembly shall decide it until thirty (30) days before the beginning of the fiscal year.

If the budget is not approved by the beginning of the new fiscal year, the government may enforce the expenses for the following purposes in accordance with the previous year's budget until the budget is approved by the National Assembly.

1. Maintenance and operation of institutions or facilities established under the Constitution or by law

2. Fulfillment of the obligation to pay by law

3. Continuation of business already approved as budget

Article 55

If there is a need to continue to spend beyond a fiscal year, the government should set a fixed term and obtain a resolution of the National Assembly as a continuation fee.

The reserve shall be paid by the National Assembly in aggregate. Spending of reserve funds should be approved by the next National Assembly.

Article 56

When the government needs to make changes to the budget, it may submit additional budget plans to the National Assembly.

Article 57

The National Assembly can not increase the amount of the expenditure budget submitted by the government without the consent of the government, or install new bills.

Article 58

The Government must obtain a vote of the National Assembly in advance when it tries to raise a government bond or to conclude a contract that will be a burden on the state besides the budget.

Article 59

Tax items and tax rates are determined by law.

Article 60

The National Assembly shall have the right to conclude a treaty or legislative treaty which places significant financial burdens on the State or the people, as well as treaties on mutual aid or security, treaties on important international organizations, treaties on friendly trade and navigation, treaties on the restriction of sovereignty, Have consent to ratification.

The National Assembly shall have the right to declaration of war, dispatch of the Armed Forces to foreign countries, or consent to the mainstream of foreign troops in the territory of the Republic of Korea.

Article 61

The National Assembly may audit the state or investigate specific matters of state affairs, and may request the submission of the necessary documents or the presence of witnesses and testimony or statements of opinions.

Procedures for the inspection and investigation of the state and other necessary matters shall be determined by Act.

Article 62

The Prime Minister, the State Councilor, or a member of the government, may attend the National Assembly or its committees to report on state affairs, state opinions and respond to questions.

When the National Assembly or its committee requests, the Prime Minister or the member of the State shall answer the attendance at the request of the Prime Minister or the President of the Republic of Korea.

Article 63

The National Assembly may propose to the President the dismissal of the Prime Minister or the State Commissioner.

Paragraph (1) shall be approved by a majority of the total members of the National Assembly by an initiative of one-third or more of the members of the National Assembly.

Article 64

The National Assembly may establish rules concerning doctors and internal regulations within the limits not inconsistent with the law.

The National Assembly may examine the eligibility of the members and discipline the members.

To remove a member of the Diet, a two-thirds majority of the members of the Diet must be present.

No proceedings shall be brought before the court for the disposition of paragraphs 2 and 3.

Article 65

President of the Prime Minister State Council Member of the executive branch President of the Constitutional Court Judge of the Constitutional Central Election Commissioner Auditor General of the Audit Committee When the public officials designated by the law violate the Constitution or the law in the execution of their duties, the National Assembly may decide to prosecute impeachment .

The impeachment proceedings set forth in paragraph (1) shall be initiated by one-third or more of the members of the National Assembly, and the vote shall be approved by a majority of the members of the National Assembly. However, the prosecution for impeachment against the President shall have a proposal of a majority of the members of the National Assembly and a two-thirds majority of the members of the National Assembly.

Any person who has a decision of impeachment will be suspended until the impeachment adjudication is made.

The impeachment decision comes at the expense of public office. However, this does not exclude civil liability or criminal responsibility.

Chapter 4 Establishment of Northeast Asia United Nations Organization

Section 1 President

Article 66

The president is the head of state and represents the state against foreign countries.

The President assumes responsibility for maintaining the continuity and the Constitution of the state 's conservative state.

The President has a sincere duty to peacefully unify the country.

The executive power belongs to the government with the president.

The people and the president are mutually aware that it is a mainstream relationship.

The President of the Public Officials Selection Committee, in consultation with the Office of Education, collects the score sheets of the behavioral development status of the youth and reports them annually to the public.

The president must keep the patriarchal beliefs of patriotism as much as the sky as a full-

The state should select the public official as a social figure and exclude those who are born under the system of separate civil servants.

The President resigns and resigns his successor to his successor in the event of insurrection plot, unrest, natural disaster prevention measures, lack of performance, and overcoming economic difficulties.

The president is an honorary professor who does not receive a salary, and the state guarantees all kinds of honor and treatment during his tenure as well as the high-ranking bureaucrats below the presidency. In order to settle the payment, the wages of low-ranking and high-ranking officials are frozen to a certain amount, and the state is converted into a state where the national administration can be operated without collecting taxes from the people.

Article 67

The President shall be elected by the ordinary equality direct secret election of the people, and shall be elected in accordance with the recommendation of each presidential candidate of the office of election of public officials.

In the election under Paragraph 1, if there are two or more persons with the highest number of votes, the person who has obtained the majority of votes at the public meeting where a majority of the total members of the National Assembly are present shall be elected as the elected candidate and the elected as the Vice President shall succeed the next President The Vice President shall be composed of two persons, one of whom shall be the political officer and the other shall be the economic officer.

In the case of a single presidential candidate, the vote can not be elected by the presidency unless it is more than one-third of the total number of voters. The presidential candidate is eligible for a five-year national defense white paper and a national economic development policy proposal It is selected as the person who passed the deliberation and can not be the president by using the rusty.

Those who can be elected as presidents must have the right to be elected by the National Assembly, reach the age of 40 as of the election day, and be open to the public as an informed holder of patriotic beliefs, .

The election of the President shall be determined by law, and those who have died for 70 years and whose descendants have the right for 300 years shall be called the President and those who have the right of 5 years term shall not use the title of president by absolute majority. The President of the Republic of Korea must always report to the President about the national fine arts and preserve the treasures of the National Treasure No. 0 until the end of the history of the Republic of Korea in the presidential palace of the President. In order to preserve the noble Earl of your father, grandfather, father and grandfather who has been operating the state for 35 years, about 100 people can discuss the administration of the state. After the Korean rock was installed in the Blue House, Perform the duties of the President of the Republic of Korea.

Article 68

When the term of office of the President expires, the successor is elected 70 to 40 days before the term expires.

Whenever the president is vacated, or the president elects to die, or for reasons of judgment or other reasons, the election committee appoints his successor to elect his successor within 60 days.

Article 69 The President shall take the following oath on the occasion of its inauguration.

"I am solemnly sworn before the people that I will observe the Constitution, defend the nation, peacefully reunify the nation, promote the freedom and welfare of the people, promote the national culture, and faithfully carry out my duties as president."

Article 70.

The term of office of the President shall be five years and shall not be exercised.

Article 71

If the President is vacant or unable to perform his duties due to an accident, he shall act in the order of the Prime Minister and the members of the State Council appointed by law.

Article 72.

If deemed necessary by the President, the President may attach to the referendum important policies concerning diplomatic national defense and other national security.

Article 73

The President signs and ratifies the treaty, accepts or dispatches diplomatic envoys, declares and reinforces propaganda.

Article 74

The President shall pass through the ROK Armed Forces under the Constitution and the Act, and shall discharge the war control right to the Minister of Defense in the event of war, and notify the Commander of the United Nations peacekeeping force through the communication media.

The organization and composition of the armed forces shall be determined by law.

Article 75.

The President may issue presidential decrees in respect of matters delegated and specifically enshrined in law, and matters necessary to enforce the law.

Article 76

The President shall, in urgent action to maintain the national security or public wellbeing in the event of a catastrophic natural disaster or major financial and economic crisis, and only when there is no room for the congress of the National Assembly to meet the minimum necessary financial disposition Or to issue an order with the effect of law.

The President may issue an order of forceful effect only when urgent action is necessary to defend the state in a state of serious engagement in relation to the national security and when assembly of the National Assembly is not possible.

The President shall, without delay, report to Parliament and obtain his approval when he makes a disposition or order under Paragraphs (1) and (2).

Failure to obtain the approval of paragraph (3), the disposition or order shall cease to be effective from then on. In this case, the law revised or abolished by the order shall, of course, be restored from the time the order is not approved.

The President shall promulgate without delay the grounds of paragraphs 3 and 4.

Article 77

The President may declare martial law in accordance with the provisions of the law when he or she needs to meet military needs as a force in the event of an exhibition or in a state of emergency similar to that of the public, or when it is necessary to maintain public good order.

The martial law shall be martial law and martial law.

When an emergency martial law is declared, special measures may be taken in accordance with the provisions of the Act as regards the warrant system, freedom of speech and press assembly, and the authority of the government or court.

When declaring martial law, the President shall inform the National Assembly without delay.

When the National Assembly requests the release of martial law in favor of a majority of eligible members, the President shall release it.

Article 78

The President shall designate a public official to be a person recommended by the committee for electing public officials at each level as required by the Constitution and the Act.

Article 79

The President may order a person who is nominated by the committee for electing public officials at various levels to order a reduction or a lottery, as required by law.

To order general amnesty, it is necessary to obtain the consent of the National Assembly for the person recommended by each committee for electing public officials.

Amendments to the amnesty and lottery regulations shall be made by law to those who are recommended by the committee for electing public officials at each level.

Article 80

The President shall award a person who is recommended by the committee for electing public officials at each level as prescribed by law.

Article 81

The President may attend the National Assembly and express his opinions in a speech or in a letter.

Article 82

The acts of the President under the law of the State shall be in writing, which shall be divided by the Prime Minister and the members of the State Council concerned. Military matters are also the same. In Northeast Asia, military rights are granted to the peacekeeping forces of the United Nations, and the military is assigned to the peacekeeping forces of the United Nations.

Article 83

The President shall not be concurrently appointed by the Prime Minister and other members of the Executive Bureau of the Prime Minister, or any other act prescribed by the Act.

Article 84

The President shall not be subject to criminal prosecution during his term of office except in the case of civil or foreign currency crimes.

Article 85

Regarding the status and honor of the former president, he shall be determined by law according to his achievement. If the current president does not answer the legitimate petition and inquiry of the people, he resigns immediately.

Section 2 Executive Branch

Prime Minister and the State Commissioner

Article 86

The Prime Minister is appointed by the President with the consent of the National Assembly for those nominated by the election commission.

The prime minister assists the president and receives the president '

A soldier can not be appointed prime minister unless he is out of active service.

Article 87

The President of the State Council is appointed by the President on the recommendation of the Prime Minister.

The State Council shall assist the President in matters of national affairs and shall deliberate the state as a member of the State Council.

The Prime Minister may suggest to the President the dismissal of the State Councilor.

A soldier can not be appointed as a member of the State Council unless he is exempted from active duty.

SECTION 2 OF THE SECRETARIAT

Article 88

The State Council deliberates on important policies belonging to the authority of the government.

The Cabinet of Ministers shall consist of the Prime Minister of the President and the State Council members of 15 or more and 30 or less.

The president becomes the chairman of the cabinet meeting, and the prime minister becomes the vice chairman.

Article 89

The following matters shall be examined by the State Council.

1. Basic plan of government and general policy of government

2. Strengthen propaganda Other important foreign policy

3. Amendment to the Constitution

4. Basic plan for the disposal of state-owned assets at the end of the budget bill.

5. President's Emergency Order Emergency financial economic disposition and order or martial law and its release

6. Military matters

7. Demand for extraordinary meeting of the National Assembly

8. Awards

9. Amnesty and Lottery

10. Delimitation of authority between the executive departments

11. Basic plan for delegation or assignment of authority of the government

12. Evaluation analysis of the state of state affairs

13. Establish and coordinate key policies of the executive branch

14. Petition for party dismissal

15. Screening of petitions related to government policies submitted or referred to government

16. Appointment of the Attorney General's Chief of Staff of the Attorney General's Office and the Chief of Staff of the Attorney-General

17. Other matters submitted by the Prime Minister or the State Council

Article 90

An advisory board of the National Assembly composed of national sources may be established to answer the President's advice on important matters of national affairs.

The Chairman of the National Council Advisory Council shall be the immediate past president. However, if there is no previous President, the President shall appoint him / her.

The scope of organization and other necessary matters of the National Council Advisory Council shall be determined by Act.

Article 91

Foreign Security Policy Related to National Security Prior to deliberation by the Cabinet on the establishment of military policies and domestic policies, the National Security Council shall be established to meet with the President 's advice.

The National Security Council is presided over by the President.

The scope of organization of the National Security Council and other necessary matters shall be determined by Act.

Article 92

It is possible to have the Advisory Council on Democratic and Peaceful Unification to meet with the President's advice on the establishment of a peaceful unification policy.

Scope of organization and other necessary matters of Democratic and Peaceful Unification Advisory Council shall be determined by Act.

Article 93

The National Economic Advisory Council may be established to meet the President's advice on the establishment of important policies for the development of the national economy.

The scope of the organization of the National Economic Advisory Council and other necessary matters shall be determined by the law, as recommended by the committee for electing public officials at each level.

Section 3 Executive Branch

Article 94

The President of the Executive Committee shall be appointed by the President from among the members of the State Council who are recommended by the Prime Minister on each committee.

Article 95. The Prime Minister or the heads of administrative departments may issue a Prime Ordinance or a decree on the office of the Prime Minister or the executive departments under the authority of the law, the Presidential Decree or the power of the President.

Article 96. The establishment of the departments and the scope of functions of the departments of administration shall be determined by the law by those who are recommended by the public officials election committees at each level.

Board of Audit 4

Article 97

The Board of Auditors shall be composed of those who are recommended by the committees of public officials elected at each level to audit the accounts of the national revenue and expenditure, the accounting inspection of the national and legal organizations, and the duties of administrative agencies and public officials.

Article 98

The Board of Audit and Inspection shall consist of five to eleven auditors, including the director.

The President shall appoint a person who is recommended by the Committee for the election of public officials of each level with the consent of the National Assembly. The term of office shall be 4 years and may be held only for the first term.

The members of the Audit Committee shall be appointed by the committee of the public officials elected at each level, and the term of office of the members shall be 4 years.

Article 99

The Board of Audit and Inspection shall inspect annual accounts of annual revenue appropriations annually and report the results to the President and the next year's National Assembly.

Article 100

Scope of Audit Committee Audit Committee Qualifications of Auditors Scope of Public Officials to be Audited Other necessary matters shall be determined by law from those who are recommended by the Public Officials Selection Committees at each level.

CHAPTER 5 COURT

Article 101

The jurisdiction is a judge and a court composed of those recommended by the committee for electing public officials at each level.

The courts are organized into the Supreme Court, which is the highest court, and the courts of all levels.

Qualifications of a judge shall be determined by law and shall be recommended by each committee for electing public officials.

Article 102

You can place a department in the Supreme Court.

We have a Supreme Court judge in the Supreme Court. However, a judge other than a judge may be appointed by law as prescribed by law.

The organization of the Supreme Court and the courts of each level shall be determined by law.

Article 103

Judges shall be judged independently by the Constitution and laws in accordance with their conscience.

Article 104

The Chief Justice of the Supreme Court shall, with the consent of the National Assembly, appoint a person who is recommended by the Committee for the Selection of Public Officials.

The Chief Justice shall be appointed by the President with the consent of the National Assembly upon the recommendation of the Chief Justice of the Supreme Court.

The judge, not the Chief Justice of the Chief Justice and the Supreme Court of Justice, with the consent of the Supreme Court of Justice appoints the persons nominated by each committee.

Article 105

The term of the Chief Justice shall be six years and shall not be exercised.

The term of office of the Supreme Court judge shall be six (6) years, and may be renewed as required by law.

The term of the judge, not the Chief Justice and the Supreme Court Justice, shall be ten years and may be reappointed as prescribed by law.

Retirement of a judge shall be determined by law.

Article 106

A judge shall not be dismissed unless he is convicted of impeachment or imprisonment for more than a period of time, and shall not be subject to punishment or other disadvantageous disposition except by disciplinary action.

If a judge is unable to perform his or her duties due to serious mental or physical disabilities, he may resign as provided for by law.

Article 107

If the law violates the Constitution becomes the premise of the trial, the court shall submit it to the Constitutional Court and judge it by its judgment.

The Supreme Court reserves the right to ultimately judge whether a rule of order or disposition is a violation of the Constitution or the law.

Administrative judgments can be made as whole procedure of trial. The procedure of administrative adjudication shall be prescribed by law, but the judicial procedure shall be applied mutatis mutandis.

Article 108

The Supreme Court may establish procedures for litigation, rules of the Court's internal discipline and administrative proceedings, to the extent not inconsistent with the law.

Article 109

The trial and judgment shall be made public. However, the hearings may not be made public by the court's decision when there is concern that the national security or well-being may be obstructed or the good customs may be violated.

Article 110

A military court may be appointed as a special court to oversee military tribunals.

The appeal of military courts is under the jurisdiction of the Supreme Court.

The organizational right of a military court and the status of a judge shall be determined by law.

Military tribunals under emergency martial law can be solely committed to the crime of soldiers' civil servants or the spies related to military service and to the prisoners of food poisoning food poisoning services at the police station. Provided, however, that this shall not apply if the death sentence is imposed.

Chapter 6 Constitutional Court

Article 111

The Constitutional Court oversees the following.

1. Judgment on the constitutionality of the law by the court's proposal

2. The dissolution of the political party shall be decided by the judgment of the judge,

Dissolution judgments proceed, and impeachment proceedings are carried out equally with the dissolution of the party.

3. Judgment on the dispute between national institutions, between national institutions and local governments, and between local governments

4. Judgment on the Constitutional Wording prescribed by law

The Constitutional Court shall be composed of nine judges who are qualified judges, and the judges shall be appointed by the Committee for the Selection of Public Officials.

Three of the judges of Paragraph 2 shall appoint those elected by the National Assembly, and three shall appoint those appointed by the Chief Justice of the Supreme Court.

The head of the Constitutional Court shall be appointed by the Committee for the Selection of Public Officials from among the judges with the consent of the National Assembly.

Article 112

The term of the judge of the Constitutional Court shall be six years, and may be renewed as prescribed by law.

A judge of the Constitutional Court can not join a political party or engage in politics.

A judge of the Constitutional Court shall not be dismissed except by impeachment or sentence of sentence higher than the treasury.

Article 113

When the Constitutional Court decides on the unconstitutionality of the law, the decision of impeachment, the decision of dissolution of the party or the decision on the constitutional appeal, there should be a consent of six or more judges.

The Constitutional Court may establish rules for judicial procedures, internal discipline and administrative procedures within the scope of the law.

The organization, operation and other necessary matters of the Constitutional Court shall be determined by law.

CHAPTER 7 COMMITTEE SELECTION COMMITTEE

Article 114

The former election management system is formed as a public official in the public office to abolish the election management of the gambler or the speculator and to manage the fair management of the referendum and the affairs of the president, the parliamentarian, the local minister, A public committee election committee of 899,999 persons shall be established and operated.

The Central Electoral Commission is composed of three members appointed by the President, three members elected by the National Assembly, and three members appointed by the Supreme Court. The chairman shall be elected from among the members, and the part-time appointment shall be closed.

The term of office of the committee shall be six years.

Members may not join political parties or engage in politics.

A commissioner shall not be dismissed except by impeachment or sentence of sentence higher than the treasurer.

The central election committee of public officials may establish rules for election management referendum management or public officer 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.

The scope of organizational duties and other necessary matters of the election committee of each grade shall be determined by law at each level public officials election committee.

Article 115

The election committee of each grade can make the necessary instructions 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 process, the candidates' And the final result of the election will be announced once.

The administration receiving the direction of paragraph 1 shall comply with it.

Article 116

The election campaign shall be conducted under the control of the election committee of all levels within the scope of the law, but the equal opportunity shall be guaranteed to each candidate who is clean and competent, and the party society of the conflict and factions shall be dissolved.

Expenses related to elections can not be paid to the candidates who are surprised by the proliferation of arms arising from the heightened tensions of the law.

The Committee for the Selection of Public Officials at all levels must consist of the elements within 10 years of the expiration of the term of office of public servants and carry out its duties with the mission of patriotic patriotic belief as heaven and earth.

The central election committee of the public officials is an organization that directs election committees of all levels, and as a main body, all national citizens and all power board workers are determined as main types, so that the budget for the next five years can be planned and coordinated and submitted to the National Assembly.

Chapter 8 Local Government

Article 117

Local governments are the subordinate organizations governed by election committees at each level and can handle the affairs of the residents' welfare, manage their property, and establish regulations on autonomy within the scope of laws and regulations.

The type of local government is decided by the law as a subordinate body led by the election committee of each level.

Article 118

The council shall be established as a subordinate body led by the election committee of each level in the local government.

The election of the members of the local council and the election of the heads of the local governments Other matters concerning the organization and administration of local governments shall be determined by law at each level of the election committee.

Chapter 9 Economy

Article 119

The economic order of the Republic of Korea is based on respect for the economic freedom and creativity of individuals and companies.

The State shall maintain the balance and stability of the national economy and the distribution of the appropriate income, prevent the abuse of market dominance and economic power, and regulate and coordinate economic regulations for the democratization of the economy through harmonization among economic agents. The selection committee may do so.

Article 120

Minerals and other important underground resources Fisheries resources The power and the natural resources available to the economy can be patented by public officials election committees of each grade for a certain period of development or use as stipulated by law.

The land and resources are protected by the State and the State establishes the necessary plans for its balanced development and use.

Article 121

The State shall endeavor to ensure that the principles of genetic inheritance are achieved with respect to agricultural land, and the system of farmland abolition is prohibited.

The lease of agricultural land and consignment management which occur for the purpose of raising agricultural productivity and rational use of agricultural land or inevitable circumstances are recognized by the law.

Article 122

The State may, as stipulated by the Act for the efficient and balanced development and conservation of the national land on which the production and living of all citizens are based, be subject to the necessary restrictions and obligations related to the election of public officials.

Article 123

The State shall establish and implement necessary plans for comprehensive development and support for farming and fishing villages in order to protect and nurture agriculture and fisheries.

The state has a duty to foster a regional economy for balanced development between regions.

The State shall protect and nurture SMEs.

The State shall protect the interests of farmers and fishermen by striving to improve the balance of supply and demand of agricultural and marine products and the distribution structure, thereby stabilizing prices.

The State shall foster self-help organizations for farmers and fishermen and SMEs, and ensure their autonomous activities and development.

Article 124

The State shall ensure the consumer protection movement to ensure sound consumer behavior and to improve the quality of products by the law.

Article 125

The state fosters foreign trade and can regulate it.

Article 126

Except as may be required by law, due to hardships in national defense or the national economy, it may not transfer or control or manage the business of a private enterprise.

Article 127

The State shall endeavor to develop the national economy through innovation of science and technology and development of information and manpower.

The State establishes a national standard system.

The President may have the necessary advisory bodies to achieve the purposes of paragraph 1.

Chapter 10 Amendment of the Constitution

Article 128

Amendments to the Constitution are proposed by a majority of the members of the National Assembly or by the initiative of the President.

The amendment of the Constitution for the extension or renewal of the term of office of the President shall have no effect with respect to the President at the time of the proposed amendment.

Article 129

The proposed amendment to the Constitution shall be published by the President for more than 20 days.

Article 130

The National Assembly shall decide within sixty (60) days from the date on which the Constitutional Amendment is announced, and the decision of the National Assembly shall be approved by a two-thirds majority of the members of the National Assembly.

The amendment to the Constitution shall be submitted to a referendum within 30 days of the vote of the National Assembly to obtain a vote of a majority of the voting members of the National Assembly and a majority of the voters.

When the amendment to the Constitution is approved in accordance with paragraph 2, the amendment to the Constitution shall be final and the President shall immediately promulgate it.

Supplementary Provision No. 10, 1987.10.29>

Article 1

This Constitution shall enter into force on February 25, 1988. However, the amendment of laws necessary for the enforcement of this Constitution, the election of President and parliamentary members under this Constitution, and other preparations for the enforcement of this Constitution can be made before the enactment of this Constitution.

Article 2

The first presidential election under this Constitution shall take place no later than 40 days before the date of the enactment of this Constitution.

The term of office of the first President under this Constitution shall commence on the effective date of this Constitution.

Article 3

The first parliamentary election under this Constitution shall take place within six months from the date of the promulgation of this Constitution, and the term of the first parliamentarian elected under this Constitution shall commence on the date of the first assembly of the National Assembly under this Constitution after the election of members.

The term of office of the members of the National Assembly at the time of the promulgation of this Constitution shall be until the day before the first assembly of the National Assembly under paragraph 1.

Article 4

Officials at the time of enactment of this Constitution and officers of businesses appointed by the Government shall be deemed to have been appointed by this Constitution. However, the public officer, the chief justice, and the chief executive officer who have been appointed by the Constitution or who have changed the appointing power shall perform their duties until the successor is elected by this Constitution. In such case, the term of office of the public servant who is the predecessor shall be until the day on which the successor is elected .

A judge who is not a Chief Justice and a Supreme Court judge at the time of the enforcement of this Constitution shall be deemed to have been appointed under this Constitution, notwithstanding the provisions of the preceding paragraph.

The provisions of the Constitution concerning the term or term of office of public officials shall apply from the time when the official is first elected or appointed by the Constitution.

Article 5

The laws and treaties at the time of the enforcement of this Constitution shall continue to be in force as long as they are not contrary to this Constitution.

Article 6

At the time of the enforcement of this Constitution, the institutions which are performing the duties of the authority to be newly established by this Constitution shall continue to perform their duties until the new institutions are established by this Constitution.

Article 7

The implementation of this Constitution is to form a partnership between the United Nations and the head of the United Nations based on the peaceful coexistence of Northeast Asia with the domestic constitution and international laws, forming mutually compatible partnership with peaceful coexistence, It will do its duty permanently until the day of peaceful reunification with the aim of contributing to world peace and human prosperity.

M E S SE G E

(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, N W

Washington, DC 20500 USA

President. BA RA K.O BA ME

: 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 a written form

Will you agree with me?

You will help me, For world peace

Only One There is with it's dt e n t e

(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, and I will tell you that

Sound Broadcasting, The Times Newspaper, Worldwide Press

We ask for co-operation to be publicly announced by internal broadcasters and newspapers.

(from in the Korea dual-time a 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 would like to invite U.N. 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: U N County in U N Cemetery, Daehyang-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.

His grandson Woo Sung (279 days from the presidential office)

Short term 4346 (AD 201. 10. 29. <pm. 20:00>

The 18th President of the Unification Republic of Korea

(Location: taken at the U N Cemetery, Daehyang-dong, Nam-gu, Busan, Republic of Korea)

As mentioned above, we plan to relocate the U N graveyard in Daehyun-dong, Nam-gu, Busan, to No. 1 in Northeast Asia.

.

As mentioned above, we plan to relocate the U N graveyard in Daehyun-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 local peace officials,

Like a man who lives a day and lives a thousand years, he does not lose his life in the water until he is born and dies, does not lose his life in the fire, all the sailors and passengers in the waves of the strong winds, By constructing a hatch cover and an emergency exit door on the left and right sides of the ship, we are able to build a ship of resolution that lives together and dies even if it dies and builds trust and trust among the people. The purpose is to prevent the accident of the Cheonan and the sinking accident of the passenger ship in order to protect the safety of the ship with the first equivalent and the first equivalent to protect the safety of hundreds of millions with ship replacement equipment. I declare the world to the world!

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 the peaceful coexistence of Northeast Asia. For the people of Northeast Asian countries and leaders of each country, As well as the fundamental facts of the World Peace Coexistence Action Program.

(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 the peaceful coexistence of Northeast Asia. For the people of Northeast Asian countries and leaders of each country, As well as the fundamental facts of the World Peace Coexistence Action Program.

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

President of the Republic of Korea, President of the People's Republic of China and Russia

The following signatories, headed by the State Representative and the Japanese National Cabinet Secretary, are responsible for ensuring that all the people and all governments guaranteeing the complete cessation of hostilities or all acts of violence and violence in the Republic of Korea until the final peaceful settlement is achieved, In order to establish a peaceful coexistence that guarantees complete suspension of hostilities and all acts of violence in Korea surrounded by Russian territory in China and Japan of Northeast Asia as part of the Pacific region, (N, 3820, Tokyo [E] 12716) in the Pyongkang and Cheorwon, the northernmost iron triangles, based on the gold coinage administrative office or the center of the cotton-growing office. From the microfilm taken from the original document preserved original document The National Archives of Records, the National Archives of the Republic of Korea, the National Archives of History, the National Archives of the Republic of Korea, and the National Archives of the Republic of Korea. (N) 38 20, Tokyo [E] 127 16) Central Military Demarcation Line already installed in this area One reference point (north latitude [N] 3820, and Tokyo [E] 12716), and from the base point, it was formed as a primary ethnic renewal reserve area with a radius of 18 km and a line of 155 mph. <N; 537033.53 E; 223315.60>) Coordinates Central Military Demarcation Line One point in the Central Military Demarcation Line (Military Demarcation Line) To And a 1,200 km long distance from the Korean Peninsula to the Korean territory of Samchully and within a 2,400 km radius of 1,200 km, the UNESCO International Cooperation To register with the Organization and to comply with the restrictions and restrictions of the Northeast Asian Peace Coexistence Conditions and Regulations set out in the Articles of Incorporation, either individually or in a consensual or mutually agreeable manner with China, Russia and Japan.

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, Hoping to permanently consolidate the peace mechanism of the United States,

In any Northeast Asian region of the Pacific Ocean,

The common hallmark of defending itself against external attacks from the outside is the public consciousness of not having any potential invaders

It also hopes to formally declare, and until a more comprehensive and effective regional security organization develops in the Northeast Asia region of the Pacific

In the hope of maintaining peace and security and consolidating efforts for collective defense, the States Parties occupying the former territory of the Republic of Korea shall pledge to the United Nations Organization for the payment of royalties to the territorial interests including the territorial sea, do.

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 And the compulsory integration of weak countries such as the Panmunjom Axis Incident in 1977 and the recent abduction of Cheonan in Yeonpyeong Island bombing incident in the case of Fujebulo abduction in the waters off the coast of Wonsan in March of the same year There is a need for more international disputes, including international peace and security And to refrain from threatening or exercising force by force in the manner of peaceful means of settlement in a way that does not jeopardize the right of the United Nations and the obligation of the Parties to bear the obligations of the United Nations in international relations, 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 National Archives and Records Administration published a document titled, "Records of National Archives of the National Archives Recorded from Microfilm Recorded from the Original Archives of Archives Recorded in National Archives <N (N) 38 20, Tokyo [E] 127 16), which is located in the southwestern part of the province, is located in the east of the Gangwon- (N, 38 [20], and 127 [E] 127 16) of the military demarcation lines already installed inside the city, <N; 537033.53 E; 223315.60> within the 33rd magazine 33 of the Pyongkang-myeon, Gyeonggi Province, Gangwon-do province, proving the record of the National Archives of Records> After securing a 1,000 km ² armistice equal to the Seoul metropolitan area, the ^two sides withdraw the central military demarcation line of 155 miles from east to west, Commanders of both armies that have installed these dangerous materials such as explosives, land mines, etc. in the demilitarized zone should leave the pictures of the evidence before and after the demolition of the dangerous materials, 1,000 km ² inner circle after the cease-fire or under its supervision in accordance with Commission instructions, remove it from inside the Demilitarized Zone The Northeast Asia International Peace Organization was established, and under the control of the Northeast Asia Peace Organization, a total of military supplies owned by the two Koreas were collected so that all the bullets, shells, nuclear missiles and nuclear bombs could be stored. Inside the DMZ, there are pistols that are not loaded with bullets, ammunition and tanks that are not loaded with shells, and missile launchers and satellite launchers that are not loaded with nuclear missiles and nuclear warheads are stored and used for educational and exhibition purposes. Demarcation line Within a range of 2,400 km, with a radius of 1,200 km at a fixed base point, each Northeast Asian country implements military disarmament to prevent the occurrence of incidents that could lead to hostile acts between each country and 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 and proved here (in 1916, The number 33 in the 33 provinces of Pyeonggang-gun, South Gyeongsang province, Gangwon-do, Republic of Korea, with the data <N; 537033.53 E; 223315.60> After securing 1,000 km ² militia on the same level as the Seoul metropolitan area, the Central Military Demarcation Line of 155 miles from east to west is demolished, Commanders of both armies that have installed these dangerous materials such as explosives, land mines, etc. in the demilitarized zone should leave the pictures of the evidence before and after the dismantling of the dangerous goods to the Military Armistice Commission After removing it from the DMZ under the direction or under the supervision of the DPRK, it will set up an armed zone within the 1,000 km ² armistice and establish a Northeast Asian International Peace Organization to establish all of the bullets, shells, nuclear missiles and nuclear bombs The 155-mile DMZ, other than the armistice, will collect guns from the North and the South for the purpose of storing and storing both pistols and pistols that have not been loaded with bullets, unarmed guns and tanks that have not been loaded with nuclear missiles and nuclear warheads. The missile launcher and the satellite launcher are stored and used for educational and exhibition purposes. Military Demarcation Line other than the DMZ Within a range of 2,400 km from a fixed reference point of 1,200 km radius, the territory is defined by a plurality of iron wire lines, which form roads within the iron wire line and a plurality of underwater tunnel communication devices do. (Attached to map 1 and attached to 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 launcher and the launcher, which are not loaded with nuclear missiles and nuclear warheads, are deployed in the direction of the military operation headquarters and the army headquarters, respectively. Since the two army commanders who violate it can not do the change, they will be dismissed immediately and the DM and DM Military demarcation line other than Z Within a range of 2,400 km from a fixed base point of 1,200 km, each Northeast Asian country implements a military disarmament to ensure that an incident that may lead to a recurrence of hostilities between each country and an inter- Never prevent the occurrence.

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 inspection of the Neutral Nations to pass the search and retrieval of the logistical goods between each country and each country and checkpoints to ensure the security of the International Peace Keeping Force to provide.

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, the inside and outside of the Korean War, the Korean War Veterans, the UN and Russian forces, the Chinese army, the warlords, the civilians, the war dead and the Shanghai temporary revolutionary government factors, It is made of glass, agate, amber, pearl, and almonds, and it is built to soothe dead ghosts 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 dispute between the Incheon International Airport and the Incheon International Airport, the declaration of abandonment of all claims and rights of Japan and China, including the disputed territory, the ruling power of the parties to the territorial disputes that violate it is brought to the International Court of Justice for no reason .

Article 4

1. The Republic of Korea grants to the ROK the right to distribute the Army, Navy and Air Force of the United States of America, the representative of the United Nations, to and within the territory of the Republic of Korea by mutual agreement of the Parties to the territorial disputes within the territory of Northeast Asia; When a nation refuses or abolishes the mutual agreement of the parties to the territorial disputes, it can form the land of the Great White Sea into the land of the land and carry out the global transformation of the land that can be formed into the Himalayas. (Northeast Asia) will continue to compete with each other for territorial disputes, and all territorial waters in Northeast Asia will be landed on the territorial sea. Variable versus variant can be executed, and the responsibility for handing over to each country's sovereignty We will pass on the territory of a territorial dispute nationals and the State Party rulers are buried can not claim ownership to 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 ratified equally 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. The Treaty of the Republic of Korea shall be transferred to the Northeast Asia region on February 02, 2013,

In Seoul, the Korean language department, English, Chinese door,

It is written in two pieces with the main door and the Russian door.

4. To the inside of Northeast Asia After a month from 4346 (February 02, 2013), the 18th President of the Republic of Korea shall be confirmed to be a member of the Uri Party. And this right shall have the effect of equal status, and the treaty of this Treaty shall be executed immediately after the short term 4346 (February 2013) as the first year of unification.

For the peaceful coexistence of Northeast Asia, the plenipotentiary of each country (signed by UN General Commander of the United States of America)

(Representative from the Republic of Korea, signed by Yi Woo Sung)

(Signature of the plenipotentiary of the People's Republic of China)

(Russian government representative, signed)

(Representative of the Japanese Cabinet, signing)

(Representative of Free China)

Representative

[Order of the 18th President of the Republic of Korea Uniform Emergency Action Order 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 the transfer 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 economy, culture and society order and to achieve the justice society, the government will do its utmost efforts quietly.

2013.04.09. 12:20 Korea's 18th President of the Unification

1577-1365 / 02-2100-5736 / 1577-0606

(Non-Patent Document 2) (Non-Patent Document 2) Introduction to Nuclear Safety Engineering Introduction Publications Koryo Dong; Reference.

(Non-Patent Document 3) (Non-Patent Document 3) Introduction to reactor engineering; Ulsan University Press;

(Non-Patent Document 4) (Non-Patent Document 4) Reactor;

(Non-Patent Document 5) (Non-Patent Document 5) A Study on the Nuclear Cooperation between the North and the South and the Northeast Asian Nuclear Cooperation;

(Non-Patent Document 6) (Non-Patent Document 6) Nuclear Power Plant Operation Status 2000.10.

(Non-Patent Document 7) (Non-Patent Document 7) See Environment Release Paper 2004, Registration No. 11-1480000-000586-10 by the Ministry of Environment.

(Non-Patent Document 8) (Non-Patent Document 8) Reference to the 1980 Typhoon Route of the Meteorological Agency under the Climate.

(Non-Patent Document 9) (Non-Patent Document 9) The harmful red tide microorganism issued by the Fisheries Research Institute is related to the harmful red tide.

(Non-Patent Document 10) (Non-Patent Document 10) Information on peaceful unification on the Korean peninsula is published in the National Unification Press, December 1970 and December 1971.

(Non-Patent Document 11) Technical Document on the Collection of Crude Oil and Gas Mineral Resources (S pecificationof S emi S ubmersible Drilling R ig P e e-348, Aug. 24, 24. D ete, A u g. ), The fire safety standard of firefighting and firefighting subcommittee under the firefighting agency, and English, German, Swedish, and Chinese material selection manual), and the AVBAC for dynamical testing of the above- (HVAC) system and the NWCD system of the present invention not registered in the prior art document.

(Non-Patent Document 12) Refer to the technical literature on the outline of domestic nuclear hydroelectric power plants.

In order to solve the above-mentioned problems, the present invention provides a nuclear fuel detonation control system, comprising: a cooling water tank 287 for storing nuclear fuel explosion-preventing control products; a storage tank for storing toothpaste- Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors And a pressurized water reactor structure. The power generation reactor is mainly used for light water reactors. The boiler water reactor is equipped with a pressurized water reactor and has a multi-purpose high-temperature gas furnace in a gas cooling furnace and a high- Each of the reactor facilities is equipped with several types of nuclear power plants Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Leakage control Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Storage tanks for storing coolant and toothpaste-level loess mixtures, which are nuclear fuel explosion-proof control products, and storage tanks for alternative nuclear waste disposal shielding systems are installed in the storage tanks of the nuclear waste disposal screen through rotary motion, Nuclear waste, which is an explosive substance of nuclear fuel, is prevented from environmental pollution caused by leakage of nuclear radiation outside nuclear power plant. and In order to control the production capacity of the main body constituted in the operation of the nuclear reactor constructed in the distribution injector of the double structure block tank reactor for nuclear radiation leakage control, the reactor which can not cope with the natural disaster can be freely controlled, The main body is sequentially injected so as not to be mixed with the various types of reactor facilities in which the operation is stopped so as to form a layer, and at the same time, nuclear power plants of the nuclear hydroelectric power plants are injected into the nuclear reactor facilities. It is possible for the consumer to control the power consumption of some of the main body according to his / her preference and to control the power consumption of the main body of the land and the ocean which is composed of the main body of the marine vessel alternative transportation equipment To improve The purpose of the present invention is to provide a dispensing apparatus for nuclear reactor radiation leakage control of a reactor structure of a nuclear reactor waste disposal system.

In order to solve the above problems, the present invention has been developed to solve the above problems. In order to solve the above problems, the reactor facility of the light water reactor nuclear power plant alternative nuclear waste disposal shielding device of the nuclear power hydroelectric power plant, In consideration of the safety, fluidity, and object life of the earthquake-prone main body, the size of the globe conforms to the standard rules set by the Ministry of Knowledge Economy and the Ministry of Knowledge Economy, The main body shall be installed at the position of 40M below the sea level (SLL) in order to ensure the safe operation of the main body from the strong wind wave while maintaining the standard size according to the notification that it corresponds to the new technology of nuclear power generation equipment, And a double structure block tang The length of the pipe bridge tunnel system is designed to be the sum of the length of the equatorial line and the distance crossing the South Pole and the North Pole. For the safety of the body, the bridge block tank piers are installed at a distance of 0.5km, (SLL) Upper bridge bridge Tunnel unit It divides power station and emergency shelter which are located at the upper part (SDU) of the fixed lifting type poison hull every intermediate middle, so it supplies power to the inside of the main body After the line was formed, the resumption of power supply to each country led to the dismantling of all the conventional war materials from nuclear bombs into the inside of the main body of the maritime steel structures as a whole with the consensus of the UN Security Council members. And the marine nuclear power generation Around the position, a number of countries with nuclear weapons have installed satellites and space rockets for the nuclear waste disposal device at the position of the main distribution unit and the space launch device of the main body in order to prevent war and terrorism. At the same time, , Forest fire, dust, and volcanic eruptions. Prevention of flood drought control Preventing the control of flood droughts Distribution of the tunnel equipment Installation of submarine line injection nozzle and submarine line Spray nozzle with submarine line wiring It provides the production power energy through the distribution device of the bridge tunnel device, and at the same time it supplies the production power of the wind power generators to the space science production equipment, the deep sea mineral resource and the natural gas energy resource and the oil energy excavation equipment to the global village Double structure block tank of marine vessel alternative traffic facility It is a connection structure of bridge tunnel device and it is installed on the circumference of the existing reactor 4th wall container body in preparation for shutdown of the reactor and before and after explosion of the reactor so as to eliminate reactor shutdown and maximize prevention of explosion of reactor In the marine nuclear power plant barge, it is necessary to set the installation position of the nuclear power plant at the upper 40m above sea level in order to prevent the natural conditions from being disturbed by natural disasters. In the anchor and anchor chains of the mooring equipment, The pump and valves of the ring machine and the buoyancy regulator are controlled by the dampers for diving control, so that they are not affected by earthquakes and tsunamis. They constitute various types of reactor explosion cadmium in nuclear power plants. To prevent environmental pollution and never to cause a reactor explosion in a nuclear fuel chamber. Nuclear Radiation Leakage Control Dual Structure Block Tank Nuclear Discharge Nuclear Power Plant Nuclear Power Plant Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Nuclear Reactor Wastes have a long half-life, so they have to be stored for thousands of years, so their half-lives are long. For the permanent disposal of waste, this mid-structure drum with nuclear waste is transported to the buried area with a ship, and space rockets and space rocket launchers are equipped The barrel deck deck has a dual tubular structure containing nuclear waste on the top of the deck deck. It is equipped with a space rocket to transport the space to the outer space. The nuclear waste is converted into another material by fission from the reactor. Heavy duty equipment, excavator equipped with nuclear A nuclear power plant consisting of buried wastes in polar glaciers and composed of connecting structures that make deep burrows in strata or oceans. LWRs composed of inside of the body Various types of nuclear and hydroelectric power plants on land and in the ocean, Nuclear Radiation Leakage Control of Nuclear Reactor Facilities of Alternative Nuclear Waste Treatment Shielding Units There is another purpose of providing a distribution injector unit of a dual structure block tank nuclear reactor main body.

The present invention has been developed in order to solve the above-mentioned problems. The present invention is to solve the above-mentioned problems by providing a construction process for nuclear explosion prevention measures suitable for reactor facilities of nuclear waste disposal shielding apparatus for nuclear power plants, The main body is 40m in height when it is the height of the passage of the heavy sea wave and general marine vessel and the marine iron structure sailing vessel, and it is the minimum height when the collision prevention and the bridge bridge and the pier and the body are refurbished. Even at 10km deep sea floor, the landing block tanks and the bottom hulls of the landing block tanks are connected with the pipe bridge to control the deep water pressure. KSD 3705 hot-rolled stainless steels, it is constructed to support the main distributor in addition to the lifetime of fixed and floating lifting poisons. To make the connection of various parts of the area to be connected, the double structure of alternate marine vessel traffic facility tank tank bridge distribution device of the tunnel device To be able to withstand the marine natural disaster composed of the main body in connection structure The width of the reactor, which has the exhaust gas outlet equivalent to the dust collector of the exhaust gas facility, Nuclear waste and nuclear radioactive contaminants are located inside double structure block tanks with block pipe lines. Nuclear waste locating passage is provided to regulate the movement of nuclear waste, When the temperature inside the nuclear reactor in which the reactor is operating is 700 to 800 degrees Celsius and the pressure reaches a dangerous level of high pressure, the temperature and pressure sensor sends an alarm message to the computer in the safety control room At the same time, a plurality of temperature and pressure sensor safety valves are opened, and the nuclear waste is passed through the inner block piping line of the pressure vessel at each location, and nuclear waste is stored at each block tank, Pressure sensor When the safety valve is opened, The phosphorus mixture, which is the control substance of the fuel explosion prevention stored in the inner block tank, constitutes conversion of the energy of the water into the kinetic energy of the water mixture of the cooling water and the toothpaste level so that the cooling water and the toothpaste The block piping line having a plurality of safety valve connection structures is constituted to constitute the main body as a radiation type connection structure and the nuclear radiation leakage control dual structure block tank reactor The distribution and input device of nuclear fuel explosion prevention control goods is equipped with a storage to provide the nuclear reactor outside the reactor to block the radioactive contaminants, Double structure block tank Nuclear Fuel Outside the Nuclear Reactor Prevention of Radioactive Leakage and Prevention of Nuclear Reactor Explosion Prevention of Nuclear Radiation Leakage and Nuclear Fuel Explosion Prevention Dual Structure Block Tank Control of Nuclear Waste Treatment in Nuclear Dust Collector and Construction of Secondary Submarine Ship Alternative Transportation Equipment Facility Dual-structure block tanks Nuclear reactors in the offshore and offshore nuclear power plants that control nuclear waste disposal to the outside of the reactor as well as improve the operation of nuclear reactors Nuclear reactors Nuclear reactors leak control Double structure block tank The distribution injector of the reactor dust collector is usually double pipe structure piping using position energy of water. It is equipped with a safety pressure sensor for temperature sensor and water pumps. It mixes cooling water and dispersion material such as soap with a mixer machine Automatic toothpaste-level loess mixture The use of a double tube structure of the soot and toothpaste mixture of ocher-level automatic input method In general, the dual-structure block tank reactor has a dual structure in which the main body is made up of connecting structures along the circumference of the outer wall of the reactor building in the form of eggs. Nuclear power of land and sea constituting manufacturing with remarkable difference from conventional reactor facility Nuclear reactor of nuclear power plant of nuclear power plant Alternative operation of nuclear reactor Nuclear reactor of nuclear waste treatment shielding device Radiation leakage control of dual structure block tank Reactor main body There is another purpose of providing a dispensing apparatus of the present invention.

The present invention as a technical idea for achieving the above object is to provide a nuclear power plant of a nuclear power plant of the world (593,594,595) of a maritime power plant of the land and the ocean, A nuclear reactor radiation leak control dual structure block tank of a facility,

(593,594,595) of the marine power plant Nuclear radiation leak control dual structure block tank constituting the nuclear power plant body (1) Double structure block of the reactor dust collector main body (794) Bridge pipe bridge (929) Tunnel device (937) The main body 794 of the reactor cleaner provided for manufacturing a connection structure capable of disassembling the shaft includes a main body manufacturing part for controlling the production of the nuclear reactor main body 794 as a connection structure capable of being disassembled and coupled at a marine vessel manufacturing factory, (1) A double structure block tank that provides transportation installation of the connecting shaft of the main body of the nuclear power hydroelectric power plant equipped with the main transportation installation part for providing transportation by the marine installation connection structure capable of disassembling in the manufacture of the field. The nuclear radioactivity leakage control dual structure block tank reactor main body 794 constituting the reactor main body 794 of the reactor main body 598 In the distribution device to be inserted through the depth of the player and aft both sides,

The distribution and injection device inserted through both the fore and aft sides of the nuclear reactor main body 794 of the nuclear radiation leakage control dual structure block tank main body 794 constituting the nuclear power plant main body 1 comprises a nuclear radiation leakage control dual structure block tank The forward and aft ends of the center portion of the plurality of inner block tanks 596 of the reactor main body 794 are moved through the reactor facility 811 of the light water reactor nuclear waste substitute nuclear waste screening apparatus to the position movement control apparatus construction machine crane 861, A plurality of types of reactor facility bodies 811 provided with a position shifting control by a carrier equipped with a crane boom hook ring 652 and a conveyer 633 in a crane boom stand 651 of a double structure block tank The various types of reactor facility bodies 811 inserted into the inner positions of the central portions of the inner block tanks 596 of the reactor main body 794 are connected to the boiling water reactor main body 802, The new conversion furnace reactor facility main body 806 and the fast breeder reactor facility main body 838 are separately installed in the pressurized reactor facility main body 803 in the gas cooling furnace reactor facility main body 804 and the multipurpose hot gas furnace reactor main body 805 The apparatus includes a carrier dispensing device to control the position of the reactor main body 794 of the main body 1 of the nuclear power plant 1 to the inside of the nuclear reactor main body 794. Various types of nuclear reactor main bodies 811 are inserted, A nuclear power plant main body 1 having nuclear reactors installed in the nuclear reactor main body 811 and inserted into both the forward and aft ends of the reactor core 794 of the nuclear reactor main body 1, 811) for preventing explosion of the nuclear fuel of the nuclear power hydroelectric power plant main body (1); and a nuclear radiation leakage agent The distribution injector having a control shaft for controlling the capacity of the nuclear fuel explosion-proof control article of the nuclear reactor main body 794 and the storage tanks of the nuclear-powered nuclear waste disposal shielding apparatus comprises a nuclear reactor main body 794 A reservoir tank inner block tank 596 and an outer block tank 599 for storing cooling water 287 and a toothpaste level loess mixture 927 are installed in the inside At the same time as the reservoir is provided for the toothpaste-level loess mixture 927, the clearance between the inner block tank 596 and the outer block tank 599 is provided as a reservoir of the nuclear waste 224 and the nuclear radiation leakage control double structure block tank 598 ) And nuclear reactor alternative nuclear waste treatment shielding device storage tank inner block tank 596 to the boiling water reactor main body 802 and the pressurized water reactor main body 803 to gas cooling The new conversion furnace reactor main body 806 and the fast propagating furnace reactor main body 838 are connected to the reactor main body 804 and the reactor main body 794 as a multi-purpose high temperature gas furnace reactor main body 805, (811) of nuclear reactors of different nuclear reactors, each of which is equipped with a positional control system. The nuclear reactor of the nuclear power plant is substituted by nuclear power plants. It is possible to prevent the nuclear power plant main body 1 from detonating the nuclear reactor while simultaneously preventing the cooling water 287 and the toothpaste-like loess mixture 927 ) And the nuclear waste 224 of the storage tanks of the nuclear reactor alternate nuclear waste treatment screening apparatus are reciprocating Nuclear waste (224), which is a nuclear fuel explosive, inside the storage tank of the nuclear waste disposal shielding system through nin rotation movement, will prevent the environmental pollution caused by leakage of nuclear radiation outside the nuclear power plant. (593,594,595) Nuclear Hydroelectric A nuclear fuel explosion prevention control device is provided inside the power plant main body 1 to constitute a marine vessel alternative transportation device facility connection structure to prevent explosion of the nuclear fuel of the nuclear power plant main body 1, (593,594,595) Nuclear hydroelectric power plant main body (1) configured to perform the nuclear power plant operation constituting the distribution injector of the nuclear reactor main body (794) Can be freely controlled, and a reactor that can not cope with natural disasters The reactor main body 794 of the reactor main body 794 is sequentially charged in order to prevent the nuclear reactor main bodies 811 of various types from detonating and stopping the operation of the nuclear power plants from mixing with each other to sequentially supply the nuclear reactor main body 794 with the reactor installation 688A, ) Of the arrangement and arrangement of the power plant building 688Z provided with the diesel generator building 688E in the control building 688C and the auxiliary building 688D and the waste building 688G in the nuclear fuel building 688F and the connecting structures 688C, Operation of Nuclear Power Plant (1) Nuclear Power Plant Separated by Engineering Design Standard The storage tank of the nuclear waste disposal shielding system is equipped with a control shaft to control the nuclear waste capacity, 593,594,595) Nuclear power plant main body (1) Various kinds of nuclear reactor facility main body (811) is absolutely safe and continuous Nuclear power plant operation (1) Nuclear fuel explosion prevention Configuration, and achieve;

(593,594,595) of the marine power plant, the control shaft for controlling the capacity of the nuclear power plant main body (1) and the control tank for controlling the capacity of the nuclear power plant as the storage tanks of the nuclear waste disposal system The double structure block tank bridge pier 928 and the dual structure block tank bridge bridge 937 tunnel unit 929 of the double structure block tank 598 to the strut block tank 590 of the reactor facility main body 811 of the kind A double structure barge hull (591) at the upper end of the holding tank of each control shaft; a nuclear reactor radiation leakage control unit for controlling the leakage of the nuclear radiation into the inner part of the hull deck center (SDM) A plurality of types of reactor facility bodies 811 on the both sides of the fore and aft sides of the central portion of the plurality of inner block tanks 596 of the dust collector main body 794 are provided with various kinds of nuclear waste disposal shielding devices The guide rail 618 is connected to the upper end of the hull deck upper portion (SDU) of the double structure barge hull 591 at the upper end of the strut tank to the left side of the deck deck (SDU) And a crane 861 having a capacity of 5,000 tons is formed on the guide rail 618 while moving the installation of various types of five-ply nuclear reactor main body 811 inside the barge hull, A sliding hatch cover 153 of a double structure is installed in a safe place where the crane 861 passes, and the position of each of the control shafts provided as a connecting structure provided at one end of each of the control shafts is adjusted A construction traffic transportation section for providing the transportation traffic information;

And a power transmitting portion for transmitting power to the distribution shaft having a connection structure capable of being disassembled and disassembled to the distribution shaft. At the same time, a cooling water 287 is provided inside the large-sized sliding hatch cover 153, And piping line automatic pneumatic valve transport device 916 with connection structure to the nuclear waste disposal shield and sliding hitch cover 153 immediately prior to the explosion of the nuclear reactors When the safety valve 472 is opened and the coolant of the connection structure and the mixture of the loess mixture 927 at the toothpaste level are filled with the automatic injection device for controlling the fuel explosion prevention control by the position movement control device, The main body (1) of the nuclear hydroelectric power plant of the ocean is provided with various kinds of nuclear reactor facility main body (811) as a connection structure, (1) to prevent explosion of nuclear nuclear fuel;

Nuclear power plants of land and ocean (1) Before operation of nuclear power plant Nuclear power plants of land and ocean with explosion prevention Prevention of Nuclear Reactors Nuclear reactors of nuclear waste disposal system (811) The nuclear reactor main body 811 is separated from the reactor main body 811 by the operation of the crane boom stand 651 and the conveyor 633 carrier of the position movement control apparatus construction machine crane 861, The boiling water reactor main body 802 and the pressurized water reactor main body 803 of the reactor main body 811 of various kinds inserted into the internal position of the central portion of the inner block tank 596 of the tank reactor main body 794 The new conversion furnace reactor facility main body 806 and the fast breeder reactor facility main body 838 are separately transported to the reactor furnace main body 804 and the reactor main body 805 with the multi- A plurality of kinds of reactor facility bodies 811 are installed in the main body 1 of the nuclear power plant of the land and the ocean by providing position-shifting insertion into the inside of the nuclear reactor main body 794 of the nuclear power hydroelectric power plant main body 1 by the distributing / ) As a connection structure so as to prevent explosion of nuclear fuel of the nuclear power plant main body (1) of the nuclear power plant;

At the same time, the barge ship propeller 591 at the upper end of the dual structure holding tank and the barge hull 592 at the lower end of the dual structure holding tank are connected to the holding tank 590 via the pin shaft 606 A screw shaft engaging and disengaging nut 604 and a screw shaft engaging bolt 603 and a screw adjusting part for adjusting the positions of the respective adjusting shafts 606 and 607, A dual structure block tank bridge pier 928 and a dual structure block tank pipe bridge 937 tunnel unit main body 929 of a dual structure block tank 598 are connected to a plurality of distribution shafts A double structural barge hull 591 at the upper end of the holding tank of each control shaft and a plurality of inner block tanks 596 of the nuclear reactor radiation leakage control double structure block tank reactor main body 794 into the inside of the hull deck central portion SDM connect (1) to control the nuclear radiation leakage of the nuclear power plant main body (1) before and after the operation of the nuclear reactor safety facility as a whole, and a double structure block tank reactor At the same time, the main body (794) can be installed, and at the same time, the reactor main body of the nuclear waste disposal system of the nuclear power plant can be injected into several nuclear reactor facilities, so that the consumer can control the power consumption of some bodies with ease (1) Nuclear Hydroelectric Power Plant Main Unit (1) consisting of a nuclear hydroelectric power plant main body (1) as a connection structure of alternative ships for marine vessel in the view of producers. (1) Nuclear power plant Nuclear radioactivity of reactor facilities of nuclear waste disposal system Control dual structure block tank The nuclear reactor main body 794 is connected to the distribution control system connection structure of the main body 794 to automatically check the power to each of the distribution shafts and to operate the nuclear reactors with the respective valves and pumps Safety control and management of the nuclear power plants of the nuclear power plant of the above type (1), which is equipped with the integrated electric power unit, before and after the operation of the nuclear power plant for safe operation of the nuclear power plant, the exhaust gas equivalent to the dust collector of the exhaust gas facility Nuclear waste and nuclear radioactive contaminants, which are the explosive materials of the entrance, are installed in double pipe block piping lines located inside the dual structure block tank reactor main body. The nuclear radioactive contaminants are sent to a plurality of temperature pressure detecting sensor safety valves 472, When the temperature of the reactor 103 during the operation of the nuclear reactor reaches 700 to 800 degrees and the pressure reaches a dangerous level of the high pressure state, the temperature sensor 103 transmits an alarm message to the computer of the safety control room, The explosion of the nuclear waste is passed through each of the pressure vessel internal block piping lines 74a of the respective locations while the nuclear waste is stored in each block tank, The temperature control sensor 472 connected to the lower inner block tank is opened, and at the same time, the outer block piping line 74b is connected to the inner block tank and the fuel injection control device A thermostat thermometer sensor switch 103 having a connection structure with a warning lamp 99, a pressure gauge 101, and a temperature sensor bimetal 102, (105) Pipeline line An automatic pneumatic valve transport device (916) has a connection structure with safety valves (472) and is connected to the upper part of the reactor building (688) A plurality of through holes are formed by a laser cutter and a construction machine drilling machine at a constant angle of 45 ° while a plurality of through holes are formed with a plurality of safety valves 472 A flange is connected to the bolt 24 and the nut 25 to the block piping line 74 by a gasket 32 and the flange is connected to the block piping line 74 along the outer wall surface of the reactor building 688 at twice the diameter of the reactor building 688 (598) to a nuclear waste disposal and storage outer box tank (599) in the form of a radiation-like connection structure, the nuclear waste disposal apparatus and the nuclear fuel explosion control apparatus as a dispensing apparatus, Equipment Inside reactor core 681 and outside reactor core 681 Nuclear fuel explosion prevention control articles immediately prior to reactor explosion Various types of nuclear reactor facility bodies 811 connected to the interior of the nuclear power hydroelectric plant 1 of land and sea (1) to prevent explosion of the nuclear fuel of the nuclear power plant;

A large double sliding hatch cover (153) at the top of the reactor core (681). Cooling water (287) and loess (158) stored inside the body. Before and after operation of the nuclear reactor, Piping line with connection structure to the hitch cover 153 body As the safety valve 472 of the automatic pneumatic valve transport device 916 is opened and simultaneously the outer block piping 74b of the block piping line 74 Cooling water and toothpaste-like loess mixture, which are the fuel explosion prevention control product stored in the inner block tank 596, are transferred to the inside of the pressure vessel 813 and the fourth protective walled container 808 by the feed pump 857, If the water potential energy of the cooling water and the toothpaste level is filled into the inside of the reactor core 681 and the outside of the core 681 with the mixture water 927 of the connection structure cooling water converted to the kinetic energy and the toothpaste level, (593,594,595) Nuclear Hydroelectric Power (Nuclear Power Plant) of Marine Offshore Power Plant (593,594,595) Nuclear Hydroelectric Power Plant (1) Nuclear Hydroelectric Power Plant (1) And to prevent sinking of the power plant main body 1 and to prevent explosion of nuclear fuel.

Alternatively, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear hydroelectric power plant main body (1) of the marine power generation plant, the nuclear reactor main body 794 and the double structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

The double structure block tank 598 has an inner block tank 596 positioned at a central position and an outer block tank 599 located at an outer position of the inner block tank 596, The double structure block tank pipe bridge device 929 is installed at one end of a double structure block tank 598 manufactured and manufactured by a steel plate steel plate 597 as a connecting structure distributing and inputting device in cutting and welding processes at an industrial site. And the first auxiliary steel 600 for the block tank and the second auxiliary steel 601 for the block tank are connected to each other by a splitting and inputting device as a connection structure between the cutting process and the welding process, The large flange (614) located as a connecting structure to the connecting shaft is connected to a large flange connection end of a large flange by a large flange (614) (625) of a certain size is provided as the main body of the manufacturing process while a manufacturing process is being carried out with a half-cutter and a cutter, so that the manufacture of the main body according to the manufacturing process according to the safe design of the main body, The structural block tank 598 is made of steel plate 597 made of high-strength stainless steels, and the double structure block tank 598 is inserted into the transportation process by the folding process, A high-strength stein-less steel is produced by a forming machine and a roll forming machine according to the original size of the steel plate 597 of the high-strength stainless steels while having a constant crane 861 and a cone- The steel plate (597) is folded in the form of a round bending type (c) at a right angle bending type (a) and a type V bending type (b) Suve The bending method of this type of bending machine and the rouller bending machine and the bending method of three bending wool bending machine are performed by the banding and bending machine of high tension stainless steel plate (597) At the same time, it is necessary to adjust the position of the welded joint to be able to weld to the banding joint of the steel plate 597 of the high tensile strength steel by a tunnel crane and a conveyor (633) (598) of the block tank (598) while being positioned at the connection position of the large flange (614) located at the stern connection position with the cutting machine being provided and the welding process proceeding to the banding joint portion of the steel plate (597) The flange 614 is provided as a main body connection structure of the manufacturing and processing shelving process and is positioned at a position outside the inner block tank 596 and the inner block tank 596 The outer block tank 599 is capable of adjusting the position of the body of the inner block tank 596 to the inner position of the outer block tank 599 by the crane crane 861 and the conveyor 633, And a double structure block tank 598 having a double structure cylindrical connection structure inside the main body after the welding process is completed is constructed to operate the nuclear power plant main body 1 with the manufacturing distribution input device of the main body;

A plurality of outer block tanks 599, a first auxiliary type steel 600 for a block tank and a vertical partition 605 of a second auxiliary steel plate 601 for a block tank are disposed outside the plurality of inner block tanks 596, The vertical partition wall 605 and the horizontal partition wall 609 are formed in the first auxiliary mold 600 for the block tank and the second auxiliary steel plate 601 for the block tank by steel beams 149 in the horizontal partition 609. [ The steel beam 149 and the partition wall manhole 610 in the snap hole 602 are cut by a computer laser cutter while being welded by the welder of the welding process so as to form the outer wall surface of the fourth protective walled container 808 And a nuclear reactor main body (794) for separating the nuclear reactor main body (1) into a double structure block tank (598);

The hydraulic cylinder door 624 and the emergency stairs and the springs 631 are formed by a welding process on the vertical partition wall 605 and the horizontal partition wall 609 in which the partition wall manhole 610 is formed and the reactor explosion- A reactor structure of the tank reactor main body 794, a reactor structure of the double structure block tank reactor main body 794, and a reactor connection structure at the inside and outside of the reactor,

The plurality of stopper plates 625 are formed by a bending method of a press braking type bending machine and a rouller bending machine and a bending method of a bending roll bending machine (597) of the high-strength stainless steels and folded with a folding machine to form a cylinder-shaped coupling structure, and a double structure formed of a double-structure block tank (598) A plurality of inner block tanks 596 of the block tank 598 and a plurality of outer block tanks 599 are welded to the upper and lower ends of the block tanks individually and a large flange bolting connecting device coupling structure in the form of an egg bolting coupling assembly And a large number of non-explosion-proof double structure block tanks (794) formed by a combined welding process assembly of a plug plate of a steel plate (625) without a large flange (811) nuclear waste disposal unit and a nuclear fuel explosion control unit in the main body (1) of the nuclear hydroelectric power plant, The nuclear reactor main body 794 is operated to operate the nuclear power plant;

The nuclear waste is stored in one place at the lower end between the plurality of inner block tanks and the vents of the plurality of outer block tanks in the event of the nuclear reactor explosion, so that the bottom of the GLD reactor of the double structure block tank is a reinforced concrete mat The nuclear fuel is injected into the third wall of the reactor body formed inside the inner block tank 596 having the single nuclear explosion-proof double structure block tank 598 fixed by the nuclear fuel 225 and the steel beam 149, The nuclear waste disposal unit of the nuclear reactor main body 794 of the double structure block tank of the explosion-proof double layer reactor tank and the distribution input unit of the nuclear fuel explosion control unit, 1) Distribution of the nuclear waste disposal unit of nuclear reactors (811) and the distribution of nuclear fuel explosion control unit The reactor structure is divided into the reactor unit and the injector unit, and the nuclear reactor main body (794) is operated to operate the nuclear reactor;

An enormous amount of radiation is generated within the nuclear reactor of the nuclear reactor facility so that the reactor can safely cover the first wall pellet and the second wall fuel rod with a covering tube 682 and a third wall reactor pressure vessel and a fourth wall vessel A double structure block tank reactor main body 794 having a five-layered protection wall formed by canceling a previous reactor building formed of a fifth wall reinforced concrete mat 225, The nuclear reactor main body 794 of the explosion-proof double structure block tank of the double structure block tank reactor 811 is installed in the nuclear reactor main body 1 of the nuclear power plant, To make the operation of the nuclear reactor nuclear plant operational;

The reactor 811 is connected to the dust collector main body 794 through a steam generator 810 and a steam dryer 786 installed outside the reactor pressure vessel 813, And a plurality of inner block tanks 596 and a plurality of outer block tanks 599 are connected to the distribution injector of the nuclear fuel explosion control apparatus at each of the double container block tank 808 corresponding to the fifth wall, The cooling water 287, which is a nuclear fuel explosion-proof control article, which is equipped with a loess (158) cement mixing equipment mixer machine 649 and which is injected into a pressure vessel 813 of the same level as a furnace immediately before a nuclear reactor explosion, The loess mixture is appropriately mixed with the loess mixture containing the soap bubble dispersing agent and the controlled article is injected into the pressure vessel (813) at once into the automatic injection device. After the earthquake, the inside of the reactor (811) is cleanly cleaned A plurality of fire-fighting nozzle nozzles 10 are formed inside the pressure vessel 813 and inside the compartment 808 to prevent the explosion of the reactor by automatically performing the internal cleaning process inside the reactor 811 without inputting human and robot A dual structure block tank reactor with a nuclear reactor fuel tank explosion control device and a fuel tank explosion prevention control device which are installed in a nuclear power plant main body (1) (811) of the nuclear reactor (794) before operation of the reactor facility safety nuclear power plant to operate the nuclear power plant;

The internal cleaning of the main body 794 of the nuclear reactor 811 forms a circulating water pump 858 connected to the piping line 352 of the cooling water 287 which is a distribution input device of the fuel explosion control apparatus, The dispersing material causing the soaking water in the cooling water 287 is appropriately mixed with the yellow loam mixture and put into the pressure vessel 813 at a time so that the inside of the reactor 811 is cleaned immediately after the earthquake stops, A nuclear reactor waste main body 794 having a double structure block tank reactor explosion preventive double tank block structure capable of continuously generating electricity without receiving a nuclear reactor explosion prevention device and maximizing safety operation of the nuclear reactor facility, (811) in the main body (1) of the nuclear hydroelectric power plant. Configuration be made movable in the nuclear unit into the reactor 811, the dust collector body 794 when after nuclear reactor plant safety and movable around;

And a plurality of double structure block tank reactor reservoir bodies 794 for storing radiation nuclear waste 224 connecting the reactor wall of the nuclear power plant and the outer wall surface of the double walled building block reactor of the fifth wall from the first wall of the reactor wall The nuclear power plant formed at the nuclear power plant at the nuclear power plant of the nuclear hydroelectric power plant formed in a coupling structure with various nuclear reactors (811) in the nuclear power plant main body (1) A steam turbine 267 for generating power by generating nuclear fission within the steam turbine 261 to generate steam and rotating the steam turbine 267 to generate power; a nuclear power generator 772 for converting the power generated from the steam turbine 267 A rotating shaft for a nuclear power generator installed along a circumferential surface of a shaft 198 which is a rotary shaft connecting the steam turbine 267 and the nuclear power generator 772, An electromagnet coil 774 for rotating the rotating electromagnet coil 774 for the nuclear power generator and a non-rotating armature coil 773 for the nuclear power generator installed along the circumferential surface of the rotating electromagnet coil 774 for the nuclear power generator, 772) and a frame (775) for integrally fixing the shaft (198) to the nuclear power plant;

A cooling water 287 piping line 352 having a connection structure with a condenser 790 at a lower portion of the body of the steam turbine 267 of the power generation facility and a coolant water line 352 at a pipeline line 169 at the front of the condenser 790, 287) a circulating water pump 858 connected to the piping line 352 is constructed so as to operate the nuclear power plant before and after the operation of the nuclear reactor safety nuclear power plant;

A feed pump 857 is formed outside the rear end of the condenser 790 and the reactor 811 and a purifier 809 is formed outside the reactor in front of the feed pump 857, A plurality of coolant pumps 859 are installed outside the reactor pressure vessel 813 containing uranium 812 fuel and a safety device control rod 798 is installed inside the reactor pressure vessel 813 The control rod (798) is inserted automatically at a time when the shaking occurs and the reactor is configured to make the operation safety of the nuclear reactor before and after operation of the nuclear reactor safety nuclear reactor with a long emergency stop;

The first wall pellet 683 and the cover tube 682 protecting the second wall frit rod 689 of the nuclear reactors 811 of the nuclear power plant are subjected to earthquakes stronger than the magnitude 5 by the third wall reactor pressure vessel The safety valves 472 formed with the plurality of temperature pressure sensors immediately before the explosion are opened in the first wall partition vessel 813 and the fourth wall partition vessel 808 are opened and the inside of the pressure vessel 813 upper block piping line 74 The blasted nuclear waste 224 passes through the block piping 74a and the outer block piping 74b is supplied with cooling water and toothpaste-like loess mixture, which are the fuel explosion prevention control product stored in the inner block tank 596, 857 to the inside of the pressure vessel 813 and the fourth protective walled container 808 and the nuclear waste 224 is transported and stored in the inner lower portion of each of the double structure block tanks 598, The temperature-sensing sensor safety valve 472 connected to the tank 596 At the same time, as the outer block piping 74b of the block piping line 74, the fuel explosion-preventing control article coolant stored in the inner block tank 596 and the mixture of loess mixtures at the toothpaste level are supplied to the pressure vessel 813 ) And the fourth protection wall storage container 808 to transfer nuclear fuel explosion prevention control articles prepared by converting the potential energy of the water into kinetic energy to cool the reactor water and the loess mixture 927 at the toothpaste level into the reactor block 596 ) And outer block tanks 599. If the inside of the reactor is filled with the separately stored coolant 287 and toothpaste-like loess mixture 927, the reactor explosion is terminated to prevent the reactor explosion. Establish nuclear power plants before and after operation of reactor safety nuclear power plants;

When the explosion of the nuclear reactor pressure vessel 813 is stopped by the remote control cutting or the robot 700 when the reactor decommissioning operation of the nuclear power plant operating the nuclear power plant is stopped, the plurality of temperature pressure detecting sensor safety valves 472 are closed, In operation, various types of reactors, which are normally formed by closing a plurality of temperature-sensing sensor safety valves 472 at all times, can be installed on the barge 591 of a marine vessel. (811) so as to be installed on a barge of an anti-sunken type of the ocean; In order to prevent the earthquake and tsunami from being affected by the weather conditions, the location of the nuclear power plant is installed at the upper 40m of the sea level by the docking and buoyancy control devices located on the submerged barge line, Military nuclear power plants that are not affected by MIE are constructed so that nuclear reactors can not be exploded so that nuclear reactors can not explode. At the same time, Nuclear Radiation Leakage Control Dual Structure Block Tank (794) Dispenser In order to establish safe and continuous operation at marine nuclear power plant, it is possible to build a marine power station lifting tanks (593,594,595) Ensuring the safety of nuclear reactors and ensuring reactor repairs with continuous operation In order to prevent the pollution of the environment due to the nuclear waste, a mooring device formed on the barge for the waste treatment, a diving buoyancy control device, a distribution input device of the nuclear waste treatment device and a fuel injection device of the fuel explosion control device, Nuclear Radiation Leakage Control without Internal and External Nuclear Reactor Control Dual Structure Block Tank Dispenser of Nuclear Reactor Main Body (794) Nuclear Waste Treatment Units of Nuclear Hydroelectric Power Plant (672) Nuclear Hydroelectric Power Plant (1) (593, 594, 595), diving buoyancy control devices, distribution and input devices for nuclear waste disposal systems, and operation of nuclear reactors before and after operation of nuclear reactor safety nuclear reactors.

Alternatively, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear hydroelectric power plant main body (1) of the marine power generation plant, the nuclear reactor main body 794 and the double structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

A small diameter electric resistance welded pipe 706, which is manufactured by the main body manufacturing department, which controls the production of a nuclear reactor hydroelectric power plant main body, which can be disassembled and coupled at the marine vessel manufacturing factory of the connection shaft of various kinds of reactor main body manufacturing process 705, The raw material 707 and the uncoil 708 can be cut into the ring leveling 709 and the side trimming 710 and the forming 712 can be performed by the rough connection 711. At the same time, The welding heat treatment 715 is performed while the ultrasound wave and eddy current test 714 are completed and the final forming process 718 is performed with the air cooling device 716 and the water cooling device 717, The calibration 722 process of the structure tube 721 is performed in the intermediate stack 723 and in the induction heating furnace 724 to the hot cut 726 to the SRM 725 standard, (728) to ultrasonic wave and eddy current test (729) to the weaving (727) and the weighing and length measuring instrument (730) A screw 732 for performing the dimensional inspection 731 is provided with a cooling plate 738 having a boiler tube 737 on the galvanizing pipe 735 and a galvanizing pipe 736 for the oil 733, the general pipe 734, A small diameter electrical resistance welded pipe 706 manufactured by the main body manufacturing section for controlling the production in the main body of the pipe;

Medium caliber shaped electric resistance welded pipe 739 is formed by connecting the coil mugged iron plate raw material 740 to the gasket forming device 742 connected to the side trimming device 741 and the oil pipe ultrasonic wave 743 and the test test 744 ) And at the same time regulating the extrusion molding (745), the production of medium-sized, square-shaped electrical resistance welded tubes (739) is made up of dispensing devices;

The large diameter steel pipe 747 of the oil pipeline for the petroleum industry 746 regulates the production to the edge milling machine 748 and the three-roll banding machine 749 with the post- In order to carry out the outer weld 754 at the same time while performing the back cut fin 753 weld cut to the inner weld 752 and the inner weld 752 to form the manufacture in the main body manufacturing part, (759) to the X-ray test (757) and the cold cross section (758) to the pipe section (756) and the pipe section (756) At the same time, the spiral welded steel pipe 760 for the uncoiled ring 761 and the non-coated pipe 763 of the steel pipe pile 762 are connected to the outer surface blast cleaning 764 by an inner surface blast cleaning 764 And the first coating 767 of the inner surface coating 766 and the coating and coating 768. At the same time, the coated long steel pipe 769 is irradiated with the ultrasonic waves and the X- (770) through the process, the production of the large-diameter steel pipe (747) of the steel pipe for petroleum industry (746) of the oil pipeline is constituted by the distributing and inputting apparatuses while the nuclear reactor interior and exterior nuclear reactors Leak control dual structure block tank distributing device of nuclear reactor main body 794 nuclear waste treatment apparatuses such as a mooring device formed in a marine power plant lifting tank 593,594,595 inside the main body 1 of a nuclear power plant 672, (705), which is composed of a connection structure capable of disassembly and coupling at the marine vessel manufacturing plant of the connection shaft of the reactor main body manufacturing process (705) before and after the safety operation of the nuclear reactor waste disposal apparatus and the nuclear reactor waste disposal apparatus, Radiation Leakage Control Dual Structure Block Tank Nuclear Waste Disposal Unit of Reactor Main Body 794 Nuclear Hydro Power Plant 672, Mooring system of hydroelectric power plant (1) Mooring device and diving buoyancy control device of marine power plant lifting type poison (593,594,595) and distribution and injection device of nuclear waste treatment device and reactor installation of nuclear reactor facility Safety nuclear power plant operation before and after operation As shown in FIG.

(593,594,595) of the marine power plant Nuclear radiation leak control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel device main body 937) Nuclear power of the connection shaft provided for the connection structure capable of disassembling the connection shaft The distribution side (705) of the reactor manufacturing process of the various kinds of the main body of the hydroelectric power plant,

An inner block tank 596 positioned at the center of the body of the double structure block tank 598 and an outer block tank 599 located at an outer position of the inner block tank 596, ) Is connected to the one end of double structural block tank (598) manufactured and distributed as a connection and disconnection structure to the cutting process and the welding process at the industrial site, and is connected to the distribution input device of the double structure block tank pipe bridge device, The first auxiliary steel plate 600 and the second auxiliary steel plate 601 are connected to each other through a connecting shaft to the connecting position of the forward and aft ends of the block tank 598, The large flange 614 is provided with a large flange 614 positioned as a connection structure at a connection position with a stopper plate 625 of a predetermined size as a main body of the manufacturing process, The double structure block tank 598 of the iron structure metal of the main body according to the present invention is supplied with the double structure block tank 598 into the transportation process by the cutting process of the high-strength steel plate (597) A crane crane 861 and a concrete conveyor 633 are provided, and at the same time, according to the original size of the iron plate 597 of the high tension stainless steel, (A) and a V-shaped bend (b) are cut in a rounded form in the form of a round-shaped bend (c), and at the same time, a press- The bending method of the big bending machine and the low bending machine and the bending method of the bending machine of the bending machine are used for the banding and bending of the steel plate, (633) to the steel plate of the high tension stainless steel (5 97) while adjusting the positional movement so that welding can be performed at the banding joint portion of the block tank 598. At the same time, the welding machine and the cutting tool are provided with a drill lathe and a cutter, A large flange 28 positioned at a connection position of a large flange 614 located at a fore and aft connecting position is provided as a main body connection structure of a manufacturing and processing shelving process so as to be connected to an inner block tank 596, The inner block tank 596 and the outer block tank 596 are positioned at a position outside the body of the inner block tank 596, A double structure block tank (5988) having a dual structure cylindrical connection structure inside the body by completing the welding process while controlling the position movement with a vieer (633) is referred to as a nuclear radiation leakage agent Dual structure block tank Distribution device of nuclear reactor main body (794) Nuclear waste treatment devices for the mooring device and diving buoyancy control device (593,594,595) built into the main body (1) of the nuclear power plant (672) And a connection structure capable of disassembly and disassembly at a marine shipbuilding factory of the connection shaft of the nuclear waste disposal unit and the reactor assembly main body manufacturing process (705) before and after the reactor facility safety operation of the reactor facility .

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) ) The distribution side (705) of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided in the connection structure capable of disassembling and coupling the connection shaft,

An inner block tank 596 positioned at the center of the body of the double structure block tank 598 and an outer block tank 599 located at an outer position of the inner block tank 596, ) Is connected to the one end of double structural block tank (598) manufactured and distributed as a connection and disconnection structure to the cutting process and the welding process at the industrial site, and is connected to the distribution input device of the double structure block tank pipe bridge device, The first auxiliary steel plate 600 and the second auxiliary steel plate 601 are connected to each other through a connecting shaft to the connecting position of the forward and aft ends of the block tank 598, The large flange 614 is provided with a large flange 614 positioned as a connection structure at a connection position with a stopper plate 625 of a predetermined size as a main body of the manufacturing process, The double structure block tank 598 of the iron structure metal of the main body according to the present invention is made of steel plate 597 made of high tensile stainless steel by a double cutting block tank 598 A crane crane 861 and a conveyer 633 to be fed to the conveying process are provided and at the same time, according to the original size of the steel plate 597 of the high tension stainless steel, (597) of the high tensile strength stainless steels were subjected to folding in the form of a round breaking (c) in the form of a right angle bending (a) and a type V bending (b) While simultaneously performing a bending method of a press braking type bending machine and a rouller bending machine in the form of a steel bending method and a bending method in a bending wooler bending machine in a bending method, The stationary crane (861) and the conveyor (633) Tension Stainless steel steel plate (597) is welded to the banding joint of the steel plate while adjusting the positional movement. At the same time, the welder and the cutting tool are equipped with a drill lathe and a cutter. The large flange 28 positioned at the position of the connection portion of the large flange 614 located at the stern connection position with the block tank 598 is inserted into the main body connection structure An outer block tank 596 and an outer block tank positioned at an outer position of the inner block tank 596 are installed in the outer block tank 599 at the same time that the body of the inner block tank 596 is positioned A double structure block having a double structure cylindrical connection structure inside the main body by completing the welding process while controlling the position movement by a ceiling crane 861 and a conveyor 633 The tank 5988 is connected to a nuclear power plant floating support system 593,594,595 into the main body 1 of the nuclear power plant 672 by the nuclear waste disposal apparatuses of the nuclear radiation leakage control dual structure block tank reactor main body 794 And the control of the docking buoyancy of the mooring device and the nuclear waste disposal device and the reactor installation of the nuclear waste disposal facility. And a connecting structure.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 can be disassembled and coupled to the connection shaft of the tunnel apparatus main body 937 The distribution side 705 of the reactor main body manufacturing process of the various types of nuclear power plant main body of the connection shaft provided for the structure manufacturing,

The distribution input device of the diving operation ready controllable control device located inside the main body of the nuclear power plant (593, 594, 595) of the marine power plant comprises:

The block tank hull breaking-disassembling portable lug 607, which is provided in a horizontal and vertical type coupling structure at each portion of the holding tank upper barge hull 591 and the holding tank lower barge hull 592, has a plurality of lug processing holes 615, Tank block unit Hull disassembly Horizontal block tank with long hole (616) for position control Hull disassembly Portable rug pin shaft (606) Vertical block tank with machining hole (615) The hole 606 of the pin shaft 606 is provided with an elongated hole 616 for the block tank block unit hull disassembly coupling and movement regulating device so as to be connected to the connecting portion of the pierce column holding tank 590 and the barge hull Which are engaged with a number of lug processing holes 615 among a plurality of shafts 606 bound to a plurality of processing holes 615 provided at respective portions in a vertical form of the barrel hull 592 at the lower end of the holding tank Block tank line The double structure holding block tank 598 is rotated by the shaft 606 provided with the single opening shaft 606 by removing the sieve disassembly portable rotary pin shaft 606, It is a connection structure that can be disassembled and connected by distributing input device. Completion of assembling of sea level is completed by connection of bottom part. Barge line Connected to each part of ship hull. Blocks of diving control devices. Tank block units. A hydraulic cylinder 426 for the block tank hull traffic control device and a stopper plate 625 for the blocking tank valve 622 and the ventilation port 585a of the doctor ventilation 585 of the diving control device are connected to the discharge port 585b. ), The double structure piping line automatic pneumatic valve conveying device 916 and the engine control power motor control module 106 are individually provided with preparations for submerging operation so that the horizontal holding block tank 590 can be vertically supported (594, 595, 596) to prevent submergence of marine power plants by distributing to the distribution input device of the anti-submergence resisting line (634), which is prepared to prepare for the submergence proceeding at the lower sea level (SLD) A main body 1 of a nuclear power plant positioned as a connection structure to a position having an internal connection structure of a nuclear reactor building 688 inside the main body 1 of the nuclear power plant;

The distributing and inputting apparatus for portable construction of the main body (1) of the floating power plant (593, 594, 595)

The block tank hull disassembly and engaging portable lug 607 formed at each of the joining portion barge lines at the upper and lower ends of the holding block tank 590 is provided with a shaft 606 and a screw thread 603a of a bolt for engaging the lug shaft, The thread 603b of the shaft coupling and disassembling nut 604 and the pin shaft 606 and the lug pin 608 for lug coupling are connected to the hydraulic rotary cylinder A plurality of lug processing holes 615 provided in the lug 607 and a plurality of lug processing unit holes 615 provided in the block tank block unit hull structure 624 are provided, A horizontal double structure block tank 598 having an elongated hole 616 for the disassembly position and movement regulating device is connected to the block tank hull disassembly double tube 617 provided in the semi-submerged operation line 637, which is an example of the tug line 636, Structural tank piers Construction auxiliary saddle type A block tank block unit of the same type as that of the frame 617, a band guide 621 for the hull disassembling and regulating unit, a diving position control mobile unit of the hull of the sinking resisting ship 634, The bottom block barge hull 592 of the holding block tank is connected to the lower end SLD of the sea bottom surface of the ship block tank 107. The bottom block barge hull 592 of the bottom tank barge 592, The fuel rod 689 is placed inside the nuclear reactor building 688 inside the nuclear reactor building 688 inside the nuclear power plant main body 688 in order to protect the preparation for diving, The primary power source 686 and the input power source 687 are connected to the production control unit 690 through the production control unit 690, of mine The marine tunnel crossing railway substation 696, which is located at the center of the connecting structure of the seven-stranded steel wire (692) and the subse- quent line (693) with the transmission line diameter (695) The production power supply of the voltage 684 of the intermediate substation 697 and the power supply 685 is started from the high voltage substation 690 provided with the shift regulating device transformer 96 to the primary substation 691 (698) and the middle unit factory (699). The second substation (700), which receives direct supply of production power from the first substation (691) ), Submarine cable (701) and solar home (702) are connected to the location where the submarine cable is connected to the connection structure. Submarine cable and cable (96) A production electric power supply regulating device located in a connection structure to a position having a connection structure for distributing and discharging a production electric power supply provided in the ring 703 with the cable high voltage electric wire balancing insulators 704 for balancing the electric wires, (GLD) A production electric power supply control device located at a connection structure to a location having a connection structure for distributing and discharging a production electric power supply provided by wirings through an underground line, so that the production power supply of the nuclear power plant main body (1) Distributing and dispensing devices to make production power supply to the home 702;

(593, 594, 595) of the marine power plant The distribution dispensing apparatus for controlling the diving buoyancy of the main body (1)

The shafts 606 are removed from several of the plurality of the shafts 606 bound to the plurality of the processing holes 615 provided at the respective parts of the lug 607 prepared for the diving progression to bind the plurality of the processing holes 615, The double structure support block tank 590 is connected to the lower end barge hull 592 of the landing block tank by assembling the sea surface by the shafts 606 which are connected to each other by the weight of the tie buoy 107 for diverting buoyancy control, The lower tank barge hull 592 of the holding tank is provided to protect the diving progress by the lower end SLD of the sea surface so that the assembly of the bottom tank barge hull 592 is completed to the submarine line injection nozzle of the submarine line injection nozzle connection port into the main body 1 of the nuclear power plant (1) Distribution power supply unit of the nuclear power plant (1) located in the structure connected to the connection structure with the submarine line wiring. It is composed of wired lines to operate the nuclear power plant;

(593, 594, 595) of the marine power plant The distribution dispensing apparatus for lifting a sinking vessel of the nuclear power plant main body (1)

After the bottom barge hull 592 of the single shackle shaft 606 is submerged in the holding block tanks, the horizontal stowage block tanks 590 are vertically aligned to form the strut tank upper barge hull 591, A plurality of shafts 606 bound to a plurality of processing holes 615 provided at respective portions of the landing block tank lugs 607 positioned in vertical positions of the rug and the sea level SLL of each portion are disassembled into a block tank hull disassembly To the hexagonal portion 603b of the hull disassembly engaging portable lug shaft disassembly coupling nut 604 and the hull disassembly engaging portable lug pin shaft 606 to the combined portable lug shaft bolt 603 and the bolt thread portion 603a The main body 1 of the nuclear power plant is provided to the marine vessel substitute traffic apparatus facility by the distribution input device of the sink preventive stay line 634 of the sinking ship while having the hull disassembly coupling with the hull disassembling portable lug pins 608 By doing so, (593,594,595) to protect all of the ship's barge ship hull with the submarine line spraying nozzle of the submarine line injection nozzle connecting the submarine line wiring to the inside of the nuclear power plant main body A double structure block tank 598 provided with a connection structure anti-sinking retention line 634 for providing a sinking vessel located in a connection structure and having a double structure cylindrical connection structure inside the main body 1 of the nuclear power plant, The nuclear radiation leakage control dual structure block tank distributing device of the nuclear reactor main body 794 nuclear waste processing devices are installed in the main body 1 of the nuclear power plant 672 and the mooring device formed in the marine power plant lifting tank 593,594,595 Buoyancy control device and nuclear waste disposal device distribution device and nuclear reactor facility safety facility operation FUJITSU nuclear reactor facility main body manufacturer It includes made to be composed of a connection structure which can be decomposed in a combined connection axis marine manufacturing plant 705.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) ) The distribution side 705 of the nuclear reactor main body manufacturing process of the various types of nuclear power plant main body 1 of the connection shaft provided in the connection structure capable of disassembling and coupling the connection shaft,

The distribution input apparatus of the main body (1) of the floating nuclear power plant (593, 594, 595)

(593,594,595) Distribution of the ocean connecting the land with the land providing the main body (1) of the nuclear power plant Double bottom structural block block tank tank pier (928) of sea level (SLL) (929) Tunnel unit main body (937) In order to control the distribution of the main body (1) of the nuclear power plant equipped with the connecting shaft, it is necessary to pass through both sides to the upper position of the pipe bridge support, The hollow space for the adjustment of the capacity of the nuclear power plant main body 1 to the internal position of the upper end of the pipe bridge 937 of the double structure strut block tank pipe bridge 928 is inserted into the double structure block tank An inner block tank 596 located at the center of the block tank 598 of the inner block tank 598 and an outer block tank 599 located outside the inner block tank 596 The pipe bridge 937 with the connection structure to the inside of the body and the double structure frame block pipe bridge pier 929 are provided with the construction equipment located inside the distribution input hull of the sink prevention rescue line 634 Submerged mooring device Piers Leveling foundation Submerged into the interior of the nuclear power plant main body (1), which is provided for fixing to the seabed with underlayers (851) Submarine line injection line Submarine line of the nozzle connection port Submarine line wiring to the injection nozzle (634) that provides a lifting vessel for the lifting of a sinking ship with a connecting structure having a connecting structure; the nuclear power plant main body (1) is constituted by the construction equipment located inside the hull;

The distribution input device of the block tank combined portable lug 607 of the main body 1 of the floating power plant 593, 594, 595 nuclear power plant of the above-

The floating type marine power plant lifting tanks 593, 594, 595 which are not formed on the upper surface of the pipe bridge 937 are connected to the block tank 590 and the block tank 590 formed separately from the holding tank upper barge hull 591 and the holding tank lower barge line 592, A plurality of hull disassembly-type portable lug pin shafts 606 engaged with a plurality of block tank hull disassembly-type portable lugs 607 provided at the respective parts and a combined portable lug 607 are connected to a block tank hull disassembling portable lug 607 The floating float washers 593, 594, 595, which are joined together by shaft bolts 603 and threaded bolts 603a and lug pins, are connected to the support block tanks 590) is divided into 500 cubic meters of double structure block tank at depth of sea level (SLL), small floating uptake tank (593) is connected to floating tank (594,595) 607, A plurality of (606) block tank hull disassembly-engaging portable rubber lug pin shafts 606 bound to a connecting joint joint portion machining hole 615 of a plurality of (607) block tank hull disassembly / A tubular bridge tunnel device (603a) having a connection structure to a hexagonal line (603b) of a block tank hull disassembly-type portable lug shaft bolt (603) and a block tank hull disassembly portable lug shaft disassembly coupling nut (604) And the double structure strut block tank pipe bridge pier 928 are provided with construction equipment located inside the distribution input hull of the sinking prevention retention line 634 of the sinking ship salvage line to provide a mooring crane replacement crank 846, (593, 594, 595) to the inside of the main body (1) of the nuclear power plant is connected to the submarine line injection nozzle of the submarine line injection nozzle connecting port by the submarine line wiring (593, 594, 595) in which the position adjusting device connecting structures having a connecting structure are located, the main body 1 of the nuclear power plant being constituted as a connecting structure;

(593, 594, 595) of the above-mentioned offshore power plant. (593, 594, 595) The distributing and inputting device for sinking the connection structure of the nuclear power plant main body (1)

Double structure block tank Tube bridge (937) Upper position 40 meters above the top of the bridge to prevent the collision with the height of the ship's safe passage of the ship with a strong storm surge and general marine vessel and marine steel structure, and repair the main body of the nuclear power plant (1) (593,594,595) of the main body (1) of the individual nuclear power plant that distributes and discharges the fixed lifting tanks (593,594,595) of the main body (1) of the nuclear power plant located as a connection structure to the submerging lifting tanks (593,594,595) silver,

Double structure block tank (598) Discharge control device of connection structure Dispensing device of main body (1) with connection distribution space The distribution system of the main body (1) In order to support the power plant main body 1 with the connection structure of the double structure block tank 598 of the plurality of floating lifting tanks 593, 594 and 595 with the connection distribution space of the throttle control device, (928) are provided with a connection structure of a pipe bridge pier (928) connection structure provided at a depth of 500 m in a double structure block tank volume at the depth of the sea surface (SLL) A nuclear power plant main body 1 is provided with a worm crank 844 for replacing a mooring car placed on the lower base 851 for leveling foundation for piers on the seabed, The main body 1 of the nuclear power plant is formed as a connection structure of the distribution side which is provided as a connection structure for securing a fixed seat and simultaneously provides a sinking ship to the inside of the nuclear power plant main body 1;

(593, 594, 595) of the marine power plant The connecting structure of the main body (1) of the nuclear power plant The distributing and inputting device on the distribution side for the floating type floating poison (593, 594,

(590) Upper lifting dock Upper barge Deck deck Lower 40m Sea level located at sea level Upper deck of barge and sea level Barge upper deck of sea level above deck Barge Deck deck Top of deck is a sailing ship from natural disaster At the same time, various kinds of nuclear power plants and wind power plants, which supply the environment-friendly pollution-free energy industry, will be equipped with hydroelectric power plants, and the seabed mineral resource collection hall is composed of the lower part of deck (SDL) (593,594,595) located at the upper position of the deck plate (116) located at the inner position of the deck plate (116) and the buoyant top barge deck deck Each of the emergency landing sites of the aircraft located at the upper position, (1) of the nuclear power plant (1) by providing a distributing and inputting device on the distributing side to supply the submarine line wiring to the submarine line injection nozzle of the submarine line injection nozzle connecting port. 593, 594, 595) Deck top Deck-top Deck-side distributing device installed to protect the aircraft emergency landing area with equipment of the power generation facility separately at the weather observation site Nuclear power plant As a connection structure of the distribution side into the main body (1) (1);

(593, 594, 595) of the above-mentioned marine power plant. The distribution dispenser for the construction machine is a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) Nuclear power plant main body (1) Submarine line injection nozzle Submarine line of the nozzle connection Submarine line wiring to the injection nozzle Connected to the structure structure Double structure block located in structure Block tank Bridge tunnel The double structure block tank 598 having the connection shaft of the pipe bridge 937 connected to the double structure block tank pipe bridge 937 inside the device body 929 is connected to a block The inside of the inner block tank 596 provided for the operation of the inner tunnel 771 for a marine tunnel device of 100 K M / h and the inner side of the inner block tank 596 provided inside the outer block tank 599 The guide rail 618 is positioned at the lower end of the guide rail 618 located at the lower end of the inner block tank 596, 2) and the inner block tank 596. In order to transport natural gas and crude oil, a natural gas (natural gas) is supplied to the inner block tank 599, And a crude oil pipeline line automatic pneumatic valve conveying device 916 are connected to the inside of the nuclear power plant main body 1 to the tugboat 636 and the anti-submergence operation line 637 and the sinking residence line (634) is provided with the construction machine equipments of the dispensing and inputting apparatus, so that the installation process is completed to a position where disassembly and assembly of the pipe bridge tunnel apparatus is possible and the land and the both sides of the book are connected to each other. (593, 594, 595) with a distribution shaft that exposes the upper surface of the sea surface to the sea surface, A double structure block tank pipe bridge 937 connected to the bottom of the main body 1 and connected to the submarine line injection nozzle of the submarine line injection nozzle connection line, And a connection structure having a construction machine equipment as a connection structure.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

The distributing and inputting apparatus located at the top of the holding tank of the main body 1 of the nuclear power plant of the marine power plant (593, 594, 595) nuclear power plant and the connecting structure for each connecting barge hull (591,

(593,594,595) Nuclear power plant main body (1) Submarine line injection nozzle of submarine power plant Submarine line of nozzle connection port Connected to submarine line wiring connection to submerged nozzle Structure of flood prevention marine power plant located in structure (593,594,595) Nuclear power plant main body (1) Stacking tank upper end barge hull (591) provided as connecting structure Central block Location The bottom block tank (590) and bottom tank bottom barge hull (592) A plurality of column block tanks 590 positioned as a connection structure at a position around the central portion of the barge ship hulls 591 and 592 are connected to the support block tanks 590 ) Connect the top and bottom of the barge to the distribution shaft position Barge hull located at the connection structure (591,592) Adjust the position of the distribution shaft to each connection position (607) body is provided with a plurality of processing holes (615) and a block tank block unit for hull disassembling and regulating the position of the lug hole (616a) for the position control actuator. The screw thread 603a of the shaft 606 for the block tank and the bolt 603 for the ratchet shaft provided in the connecting structure are provided with a nut screw thread 603b of the screw shaft engaging and disengaging nut 603, The block tank-engaging portable lug pins 608 to the hull decomposition-engaging portable lug 607 are connected to the hydraulic cylinder machine 619 for decomposition coupling of the lifting dock 593, 594, 595 nuclear power plant main body 1 of the submergence- (593,594,595) of a marine power plant to prevent sinking into a connecting structure, while at the same time having a main body (1) of a nuclear power plant and preventing the sinking of marine power plants (593,594,595) Double structure block tank bridge pipe (937) located at a position where the submarine line wiring is connected to the submarine line injection nozzle of the submarine line injection nozzle connection pipe to the inside of the nuclear power plant main body (1) (593,594,595) of a submerged offshore power plant (1), which is a connection structure to protect the main body (1) of nuclear power plant. Of nuclear reactor leakage control of nuclear reactor facility of dual structure block tank reactor;

The distribution input device of the block tank coupling lug 607 as the connection structure of the main body 1 of the floating power plant of the marine power plant 593, 594,

Floating tank (593,594,595) of marine power plant (593,594,595) Horizontal and vertical type connecting structure at each part of the holding tank top barge hull (591) and holding tank bottom barge hull (592) Hole hole 616a is provided in a horizontal pin shaft machining hole 615 having a plurality of machining holes 615 and a slot hole 616a and a pin shaft machining hole 615 perpendicular to the pin block shaft hole 615, 590) and a plurality of shafts 606 bonded to a plurality of processing holes 615 provided at respective portions in the vertical form of the upper barge hull 591 and the lower barge hull 592, 615 are removed and the double structure support block tank 590 is fixed to the sinking prevention stay line 634 of the sinking ship by the shaft 606 provided with the connection structure of the single open shaft 606. [ Can be disassembled and combined by pre-distribution A vertical block block tank (590) provided with an assembly of sea structure as a distributing input device for the distribution system is connected to excavation equipment and mooring units at the lower part of the tank, and connected to each part of the lower part of the barge ship. The landing block tank 590 is connected to the vertical landing block tank 590 and the landing block tank 590 is connected to the landing block 634 of the stay line 634, (593,594,595) of a marine power plant to prevent submergence of a nuclear power plant. (1) Various types of reactor facilities in the main body of a nuclear power plant as a connection structure for protecting the nuclear power plant main body (1) Equipment Nuclear Radiation Leakage Control Dual Structure Block Tank Dispenser of Reactor Dust Collector Main Unit Excavation equipment and mooring of immersed residence line (634) Configuration be made to the dependent type dock (593 594 595), a nuclear power plant body 1 nuclear reactor plant operation of the marine power plant provided with a sinking prevention teeth, and;

(593,594,595) Nuclear power plant main body (1) Distributing device of nuclear reactor nuclear power plant The rotary table lathe machine 908 of the drilling machine,

(593,594,595) Hull deck upper part (SDU) of a sinking prevention marine power plant located at the upper sea level (SLU) of the sea surface (SLL) A wire rope 19 is connected to a boom and a boom hook ring 652 of a crane boom stand of a ceiling crane 651 located at the upper end of the drill machine room, The pipe rack 854 in the ready waiting state for connecting the crude drill rod bound to the connection structure is positioned at the bow site of several pipe racks 854 provided as a connection structure to the sea level lower end SLD position of the sea level SLL The joint drill 917 provided as a connection structure is provided with an excavation hole 936 at an excavator and at the same time an excavator 917 excavator and a anchor replacement crank 846 ) To the hydraulic chamber (634) provided on the construction machine operation connection structure mounted on the upper barge line hull of each strut block tank provided as a connection structure to the lining machine (624) and the key bed (616) (593,594,595) Nuclear power plant main body (1) Connected to the inside of the floating structure of the marine power plant (1) Lifting deck hull equipped with subsea line wiring Deck top part (SDU) The drilling machine located at the bottom of the ceiling crane (211) located at the upper end of the lower end position. The rotary table lathe machine (908) of the drilling machine for crude oil, which is located in the connection structure inside the machine room, (908) Circular table lathe with rotating body of the body Several hydraulic cylinders for drilling located at the center position Connected to the center of the lathe by the key (623) A plurality of small keys 623 are connected to the center of the shelf to regulate the movement of the shelf, and a plurality of small keys 623 are connected to the center of the shelf, A plurality of pipe racks (854) connected to a crude oil borehole (936) positioned as a connection structure on the seabed at the bottom of the crude oil borehole equipped with a connecting structure, 936 Borehole drilling holes Drilling holes 917 are used to provide crude boreholes 936 while at the same time to provide a crude drill rod connection to the wire rope 65 of the tunnel crane 651, Connecting pipe racks (854) are drilling machines, rotary drilling machines, rotary drilling machines for crude oil in machine rooms (908) Circular table lathe with hydraulic rotary cylinder machine (619) for hull breaker coupling regulator Connections to center position Hydraulic cylinders for several drills located in the structure Rotary table racks for drilling rigs with crude oil (623) The rotary table lathe machine 908 operation of the crude oil drilling machine having the oil borehole 936 with the transport arrangement to the top of the machine 908 is performed to simultaneously complete the oil borehole 936 excavation while simultaneously opening the oil borehole 936 The boom boom of the tower crane 886 and the boom hook 652 of the tower crane 886. The boom boom of the tower crane 886 is connected to the boom boom of the tower crane 886, Ring (652) Deep-sea energy source in vertical rotation operation to prevent sinking to the top of deck deck (593,594,595) Nuclear power plant Operation of the nuclear power plant as a connection structure inside the power plant main body (1) Production power supply distribution input device Crude oil and natural gas crude oil and natural gas located at the same time while providing the submarine line wiring. (593,594,595) of the nuclear power plant main body (1) constituting the main body of the nuclear power plant (1) operation of the nuclear power plant by the safe seaworthiness in the ocean;

The distribution input device of the sinking prevention retention line (634) as a connection structure of the main body (1) of the floating power plant (593, 594, 595)

The hydraulic cylinder machine 39 is operated as a linking structure to the drill hole 936 and the drill hole 936 to insert the wrench crank 846 connected to the construction machine so as to push the wrench crank 846, The crank 846 provides a compression expansion within the excavation hole 936 to provide a fixed connection structure with several interlocking tool tip grinders 185 that are pointed at the bottom to form a fixed connection structure, (593,594,595) of the offshore power station. The barge ship is located at the top of the top of the holding tank. It is mounted on the hull of the barge. (846) Prevention of sinking by mooring system It is a connection structure to protect the lifting tanks (593,594,595) of marine power plants. It includes the configuration be made a nuclear power plant unit.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 can be disassembled and coupled to the connection shaft of the tunnel apparatus main body 937 (593, 594, 595) of a marine power plant to prevent sinking of a connecting shaft provided in the manufacture of a structure. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body,

(593, 594, 595) of the submerged offshore power plant is connected to the main structure of the main body of the nuclear power plant, the counter-

(593,594,595) Nuclear power plant main body (1) Connected to the inside of the submarine line spraying nozzle connection line Submarine line to the injection nozzle Connect the submarine line wiring to the nozzle Connected to the structure structure Large flange (SP) of the Earth (SP) and the North Pole (NP) of the Earth Equipments (EL) equipped with the connection structure of the distribution distribution input device (614) and the floating structure of the marine power plant (593,594,595) The block tanks 598 in units of 500m are distributed in the form of a double structure block tank barge by a connecting structure provided for constructing the double structure block tank 598 and the landing block tank 590 as a link structure (633), which is an input device, is installed in the line dividing line, and it is provided with lifting tanks (593, 594, 595) of the submergence preventing marine power plant, The ship input device is constructed as a connection structure sequentially on one side of the pipe bridge 928 of the pipe bridge 929 at an interval of 500m and at the same time a deep water submersible 188 is provided so that the marine water depth of the installation point of the pipe bridge 928 (628) is installed at the installation point of the bridge pier (928), while the direction indication and the depth of water depth are recognized, while the balloon rubber balloon 628), the waiar rope 915, the diving position adjusting mobile unit of the hull and the diaphragm buoyancy weight 949 are suspended to clarify the installation position of the pipe pier 928, The tanks 926 and 928 are towed to the tugboat 636 and transported to the same sink retention lines 634 as the lifting tanks 593 and 594 and 595 of the marine power plant, year A large flange (614) located at the connection structure to the position where the submarine line wiring (946) is connected to the injection nozzle of the sphere. Distributing input device Protecting the connection structure and lifting dock (593,594,595) of the marine power plant with mooring structure (593,594,595) of a marine power plant to be constructed to constitute the main body of a nuclear power plant;

(593, 594, 595) of the marine power plant is connected to the main body of the nuclear power plant,

After the sink prevention rescue line 634 is transported, if the depth of the installation point is 300 meters, the pile column is increased by 50 meters more than the water depth, and then attached to the small crane boom stand (942) of the tower crane for the position- The post file 898 is vertically erected and the rock drill 847 and drilling machine 876 are attached to the excavator 845 for the deep sea excavation equipment of the construction drill of the construction machine and the anti- The hydraulic hammer 884 and the hydraulic crane 885 and the tower crane 886 are connected to a separate construction machine 880 file driver 882 and diesel file hammer 883, 887 and a truck crane 888 and a tamping roller 891 on the tandem roller 890 and a tractor 893 and a trailer 894 on the tire roller 892, Each of the construction machines is provided with a cooling water cooler 897 and a helmet 899 on the ram 895 and the lid 896, The fuel pump 900 and the cam 901 and the fuel tank 902 are provided and at the same time the front end of the boom 904 of the starter 903 A bridge 905 and an adapter 906 are provided and the level balance of the pipe bridge 929 is checked and then ten pairs of double structure block tanks are provided at the positions of the pier installation portions of the respective points, It is equipped with a connecting structure to provide a mooring at a pier (928) exposed to sea level at the top of the sea surface, and at the same time, an actuator (848) is operated in a construction machine cab, (593,594,595) of the offshore power plant to protect the docking station (593,594,595) of the power plant to protect the mooring unit;

(593, 594, 595) of the marine power plant is connected to the main body of the nuclear power plant,

Since the weight of the pipe bridge 929 connected to the inside of the pipe pier 928 at intervals of 500 m reaches tens of thousands of tons, the holding block tank 590 is divided into the double structure block tank 500㎥ unit The pipe bridge that is equipped with the bulk connection structure is a connecting structure provided on the crane boom stand (942) of the tow crane replacement tower crane, and the anchor trolley (640) and the anchor chain (640) 958 and is provided with a connecting structure for releasing the anchor 639 and the wire rope chain 915 to the air tongue winch 958 and at the same time to the inside of the main body 1 as a connection structure to the injection nozzle of the injection nozzle connecting port Connect the submarine cable to the location with the connection structure Measures to connect the structure to the connection structure Connection structure of equipment to protect the connection structure and the floating type poison (593,594,595) of the submerged marine power plant with mooring equipment Be made configured the power plant and the body;

The distribution input device for connecting the entire block tank bridge to the connection structure of the nuclear power plant main body comprises:

The wire rope chain (640) is unwound by the air tongue winch (958) with the air tongue winch (958) as a connection structure inside the main body (1) 959) to assist in the operation of the tugboat (636), while the double structure block tank (598) on one side of the pipe bridge was provided with the connecting structure for the connection work at the sea level in units of 500m. The block tank connection operation is temporarily suspended at one location, and the temporary passage of the sailing vessel is opened to provide a connection structure. The whole block tank pipe bridge connection structure is connected to the block tank 598 at the connection position. The block tank connecting portion is disposed at a position spaced apart from the block tank by an even number of connecting portions 4 and an odd number of connecting portions 5, (593,594,595) of a nuclear power plant to protect the marine power plant's lifting tanks (593, 594, 595) with an integrated block tank bridge bridged connection structure mooring to the interior of the nuclear power plant;

(593, 594, 595) of the above marine power plant, the distribution pipe of the main body (1) of the nuclear power plant,

The crank pin 21 of the hinge 27 of the pawl rug 21 in contact with the pawl rug 21 provided in the detachable detachment hinge 27 to the outside position of the outer block tank 599, (27a) is provided with a shaft (27b) of a long axis and a block tank provided with a hinging for hinging is provided with a connection structure at the position of the block tank connection portion at a predetermined distance position, And the block tanks are connected to each other by the up-and-down rotation operation, and the block tanks are disassembled and coupled to each other by the interlocking device 185 and the guide block 22, At the same time, the block tank unit block unit hull disassembly lug hinge socket (613) block tank connection position floatation of marine power plant with individual connection (593,594,595) (937) connected to a position where the submarine line wiring (946) is connected to the connecting structure, and the lifting unit (593,594,595) of the marine power plant is provided with a mooring connection structure (593,594,595) of the offshore power station (593,594,595) Combined decomposition of the main body (1) of the nuclear power plant with the position of the block tank connection unit While the block tank (185) (593,594,595) of the nuclear power plant main body (1).

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 can be disassembled and coupled to the connection shaft of the tunnel apparatus main body 937 (593, 594, 595) of a marine power plant of a connecting shaft provided for the manufacture of a structure. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant body,

As a connection structure of the nuclear power plant main body 1, various kinds of generators for distributing and supplying power for the floating power generation of marine power plants (593, 594, 595)

(593,594,595) Nuclear power plant main body (1) Connected to structure Injection nozzle connection port Submarine railway ship (946) Connected to a position with a connection structure Pipe bridge located at a structure (929) Combined distribution input (593, 594, 595) Moving control arranging mooring control unit as a connecting structure Adjustable deck deck as a connecting structure of distributing and inputting apparatus Decks Decks of double structure block tank as connection structure inside each of the offshore power plants Nuclear explosion-proof double-structure block tank Inside the nuclear power plant 672 and the offshore wind turbine 592, 594, and 595 of the marine power plant of various kinds of power generation facilities of the reactor facility provided in the building of the nuclear reactor main body (794) A power plant 957 is provided with an environmentally friendly wind turbine generator 957a and a nuclear radiation leak control dual structure block 957a for deck deck inside the small hydro- The connection structure of the nuclear reactor (774) of the tank reactor main body (794) is provided with a fixed connection structure by a large hydroelectric generator and a connection is provided to each line distribution shaft to transmit power to each distribution shaft in the main body (946) to the submarine line injection nozzle to the inside of the main body (1) of the nuclear power plant with the power transmission part connected to the submarine line wiring structure (946) (593,594,595) Nuclear power plant main body (1) of the power plant, marine power plant, and the main unit (1) of the nuclear power plant. ;

A large hydroelectric power generator 230 connected to the main body 1 of the nuclear power plant of the marine power plant 593, 594, 595. The various types of power distributing /

The large hydraulic power generator body of the maritime hydropower generation plant 943 is connected to the head tank for the pressure tank located at the upper end of the barge line in the lifting tanks 593, 594, 595 of the marine power plants of various types of power generation apparatuses of the nuclear power plant main body 1, An inlet pipe 191 serving as a hydraulic pipe having a shape of a reed 35 is connected to a head tank 189 at the inlet of the inlet pipe 191 in front of the head tank 189, A pump aberration 943a of the turbine 267 and a Pelton aberration 943b of the turbine 267 are connected to a lower portion of each large hydroelectric generator body in which a plurality of introduction pipes 191 are located inside the hydroelectric power plant at an upper portion and a discharge port at the rear of the head tank 189, ) Of the Francis aberration 943c and a discharge port 270 at the rear of the Francis turbine 943c to generate hydropower generation power. At the same time, the kinetic energy of the water is converted into mechanical energy Dusa (35 ) Of a tower crane that performs a vertical rotation operation to a small hydroelectric generator main body 944 having an iso central shaft frame 673 at the time of mechanical energy conversion, A large hydropower generator distribution and charging device is provided inside the nuclear power plant main body 1 by means of devices for generating electric energy by providing a crane boom stand 942 so as to further operate the nuclear power plant;

The large hydrostatic generator main body 944 has a slave 944a and a slave 944a for the hydrostatic generator for the hydrostatic generator located at the top of the center of the shaft rotational shaft 944q, 944a for supplying a current to an electric motor coil of an alternator, a duster ring pipe 944c for pushing the ring pipe feathers into an exciter 944b for a dc generator, The stator core 944h of the stator frame 944g and the low-wavering cooler 944i of the low-speed cooler are connected to the drudguide ring 944e and the stator coil 944f, Guide rods 182 are positioned at the center upper end position of the rotary shaft 944q at the braking ring 944j and the jack 944k of the bracket and at the same time the connection structure with the rotary shaft 944q A casing 944c and a guide vane 944c are attached to a turbine 267 and a bearing 944c, And the runner 944 is used to convert the kinetic energy of the water into mechanical energy by using the flow rate of the current to the inside of the hydroelectric power generation chamber by the mechanical energy conversion of the introduction pipe 191, The crane boom frame 942 of the tower crane that performs the vertical rotation operation to the large hydroelectric generator seesaw facility main body 944 having the multi-stage ingot type man- (593, 594, 595) of a marine power plant having a connection structure of a power generation facility for generating power by further providing devices for generating electric energy, and a distribution input device is provided inside the main body (1) of the nuclear power plant, To make the operation more effective;

(593, 594, 595) of the marine power plant As the connection structure of the main body (1) of the nuclear power plant, various kinds of distributing /

(1) Internal structure of nuclear power plant Deck deck of marine nuclear power plant Double structure block tank for internal use Generate 1,000,000 w / h of production power at 10km power generation capacity when reactor main body (794) is in operation And is provided with a wind turbine 957a for eco-friendly wind power generator in the main body 944 of each large hydroelectric generator in the marine power plant, and the production power is supplied to the power transformers 96 of the large capacity substation (595, 595) to a plurality of offshore power plants, and a power plant (593, 594, 595) to a plurality of offshore power plants to provide a predetermined amount of generated power to the connection structure of the transmission line A predetermined amount of generated power is supplied to the process of connecting the large flange 28 of the pipe bridge disposed at the lower end position of the main body 1, Water, and at the same time, a power source is supplied to a position for performing the bolting work process with the hammer lancet of the hand tool, while the power source supply control is provided, and at the same time, a chain block 648 and turn blocks 850 are provided, (593,594,595) Nuclear power plant main body (1) Submarine line injection to the internal connection structure Connect the submarine line wiring (946) to the injection nozzle of the nozzle connection pipe Bridge connection Distribution Apparatus Power generators for various types of offshore power plants Connected to the equipment that sets up the generation power of the generator to the equipment for the operation of the lifting type docking station Distribution of the generated power is distributed as the structure Input of the marine power plant as a connection structure (593,594,595) Nuclear power plant main body (1) to make up the production power supply of the generator generator;

The distributing and inputting device for supplying the power supply line for power generation equipment as a connecting structure of the main body (1) of the floating power plant (593, 594, 595)

The partition wall manhole 610 and the manhole cover 152 are provided with a hatch cover 153 attached to the vertical partition wall 605 and the horizontal partition 609 inside the dual structure block tank as a connection structure, The hydraulic cylinder door 624 is attached as a connection structure and the double structure block tank 598 is horizontally connected by providing a chain block 648 and turn blocks 850 as a distributing and loading device connecting structure, (593, 594, 595) of each marine power plant, the height of the pipe bridge is increased to 1.5 times the width of the main pipe (1) to provide a connection with each block tank. Pipe bridge Combined distribution input device Power generators of various types of marine power plants Lifting power of generators Power supply of marine power plants to provide upkeep operation of power generators (593,594,595) Connection structure of nuclear power plant main body (1) Power comprises to achieve be configured to produce electric power supply of the power generator to a generator producing electric energy supplied to the distribution chute of a supply line to a connection structure with a distribution line input.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 can be disassembled and coupled to the connection shaft of the tunnel apparatus main body 937 (593, 594, 595) of a marine power plant of a connecting shaft provided for the manufacture of a structure. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant body,

As a connection structure of the nuclear power plant main body 1, various kinds of generators for distributing and supplying power for the floating power generation of marine power plants (593, 594, 595)

(593,594,595) Nuclear power plant main body (1) Connected to structure Injection nozzle connection port Submarine railway ship (946) Connected to a position with a connection structure Pipe bridge located at a structure (929) Combined distribution input (593, 594, 595) Moving control arranging mooring control unit as a connecting structure Adjustable deck deck as a connecting structure of distributing and inputting apparatus Decks Decks of double structure block tank as connection structure inside each of the offshore power plants Nuclear explosion-proof double-structure block tank Inside the nuclear power plant 672 and the offshore wind turbine 592, 594, and 595 of the marine power plant of various kinds of power generation facilities of the reactor facility provided in the building of the nuclear reactor main body (794) A power plant 957 is provided with an environmentally friendly wind turbine generator 957a and a nuclear radiation leak control dual structure block 957a for deck deck inside the small hydro- The connection structure of the nuclear reactor (774) of the tank reactor main body (794) is provided with a fixed connection structure by a large hydroelectric generator and a connection is provided to each line distribution shaft to transmit power to each distribution shaft in the main body (946) to the submarine line injection nozzle to the inside of the main body (1) of the nuclear power plant with the power transmission part connected to the submarine line wiring structure (946) (593,594,595) Nuclear power plant main body (1) of the power plant, marine power plant, and the main unit (1) of the nuclear power plant. ;

The large capacity hydroelectric generator 230 is connected to the main body 1 of the nuclear power plant of the marine power plant.

The large hydraulic power generator body of the maritime hydropower generation plant 943 is connected to the head tank for the pressure tank located at the upper end of the barge line in the lifting tanks 593, 594, 595 of the marine power plants of various types of power generation apparatuses of the nuclear power plant main body 1, An inlet pipe 191 serving as a hydraulic pipe having a shape of a reed 35 is connected to a head tank 189 at the inlet of the inlet pipe 191 in front of the head tank 189, A pump aberration 943a of the turbine 267 and a Pelton aberration 943b of the turbine 267 are connected to a lower portion of each large hydroelectric generator body in which a plurality of introduction pipes 191 are located inside the hydroelectric power plant at an upper portion and a discharge port at the rear of the head tank 189, ) Of the Francis aberration 943c and a discharge port 270 at the rear of the Francis turbine 943c to generate hydropower generation power. At the same time, the kinetic energy of the water is converted into mechanical energy Dusa (35 ) Of a tower crane that performs a vertical rotation operation to a small hydroelectric generator main body 944 having an iso central shaft frame 673 at the time of mechanical energy conversion, A large hydropower generator distribution and charging device is provided inside the nuclear power plant main body 1 by means of devices for generating electric energy by providing a crane boom stand 942 so as to further operate the nuclear power plant;

The large hydrostatic generator main body 944 has a slave 944a and a slave 944a for the hydrostatic generator for the hydrostatic generator located at the top of the center of the shaft rotational shaft 944q, 944a for supplying a current to an electric motor coil of an alternator, a duster ring pipe 944c for pushing the ring pipe feathers into an exciter 944b for a dc generator, The stator core 944h of the stator frame 944g and the low-wavering cooler 944i of the low-speed cooler are connected to the drudguide ring 944e and the stator coil 944f, Guide rods 182 are positioned at the center upper end position of the rotary shaft 944q at the braking ring 944j and the jack 944k of the bracket and at the same time the connection structure with the rotary shaft 944q A casing 944c and a guide vane 944c are attached to a turbine 267 and a bearing 944c, And the runner 944 is used to convert the kinetic energy of the water into mechanical energy by using the flow rate of the current to the inside of the hydroelectric power generation chamber by the mechanical energy conversion of the introduction pipe 191, Of the tower crane that performs the vertical rotation operation to the large hydroelectric generator silencer body 944 having the multi-stage inlet type manoment turn shape of the iso-center shaft frame 673, (593, 594, 595) of a marine power plant having a power plant connecting structure for generating power by further providing apparatuses for generating electric energy, and a distributing and inputting apparatus is provided inside the main body (1) of the nuclear power plant To make the operation more efficient;

(593, 594, 595) of the above marine power plant. As a connection structure of the main body (1) of the nuclear power plant, various kinds of distributing /

(1) Internal structure of nuclear power plant Deck deck of marine nuclear power plant Double structure block tank for internal use Generate 1,000,000 w / h of production power at 10km power generation capacity when reactor main body (794) is in operation And is provided with a wind turbine 957a for eco-friendly wind power generator in the main body 944 of each large hydroelectric generator in the marine power plant, and the production power is supplied to the power transformers 96 of the large capacity substation (595, 595) to a plurality of offshore power plants, and a power plant (593, 594, 595) to a plurality of offshore power plants to provide a predetermined amount of generated power to the connection structure of the transmission line A predetermined amount of generated power is supplied to the process of connecting the large flange 28 of the pipe bridge disposed at the lower end position of the main body 1, Water, and at the same time, performs a bolting work on the hammer machine of the hand tool. While the power is supplied to the lever block (123), the chain block (648) and the turn block (593, 594, 595) of a marine power plant having a plurality of block tanks (850) are provided to connect the submarine line wiring (946) to the injection nozzle of the submarine line injection nozzle connecting port Pipe bridge located as a structure Coupling distribution input device Power generation equipment of various types of marine power plants Connected production power of generator to equipments that provide lifting and poisoning operation Distribution of production power as a structure Input of marine power plant as connection structure Dock (593,594,595) Generating unit of nuclear power plant main body (1) It constitutes supply power supply of generators;

The distributing and inputting device for supplying the power supply line for power generation equipment as a connecting structure of the main body (1) of the floating power plant (593, 594, 595)

The partition wall manhole 610 and the manhole cover 152 are provided with a hatch cover 153 attached to the vertical partition wall 605 and the horizontal partition 609 inside the dual structure block tank as a connection structure, The hydraulic cylinder door 624 is attached as a connection structure so that the double structure block tank 598 is connected to the lever block 123 by the distributing and loading device connection structure and the chain block 648 and the turn blocks 850 are provided (593, 594, 595) of each marine power plant, the height of the pipe bridge is increased to 1.5 times the width of the main body to provide a coupling with each block tank 1) Connected to the inside of the pipe structure Bridges Bridges Distributing input devices Power generators for various types of offshore power plants Lifting dock for offshore power plants to provide upland power generation for generators (593,594,595) Nuclear power plants Main body (1) connect Includes made to be configured to produce electric power supply of the power generator to a generator producing electric energy supplied to the distribution chute of a power generator for electric energy supply line to the plaiting a connection structure with a distribution line input.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock of a marine power plant (593, 594, 595) of a connecting shaft provided with a connection structure capable of disassembling the connection shaft The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body,

(593, 594, 595) of the marine power plant as a connecting structure of the main body of the nuclear power plant, and a dis- tribution input device for the production facility device in the disaster prevention device and the lifting device,

(593,594,595) Nuclear power plant main body (1) Connecting structure to submarine line injection nozzle connecting port Subwoofer line (946) is connected to the holding tank at the upper part of the sea level upper part (SLU) The deck plate center upper end portion SDU at the upper end of the upper barge hull 591 is fitted into the machining hole 615 of the mold steel 839 to be fixed to the bolt 24 and the shoe 26 of the nut 25, The block unit block pylon 116 is connected to the block unit block pylon 116 by the respective connecting structures provided with the small crane boom stand 942 of the tower crane for replacing the dragon crane, The block tower block 116 is attached to the shackle 23 for the position adjusting and moving device and is simultaneously connected to the crane boom stand 942 of the tower crane Blocks of a block of plywood (116) The emergency stairs 631 are provided in the form of a stairway as a traffic device and the emergency stairs 631 in the block stanchion table 116 are installed at the position of a mooring station of the lower steam line 589 and the steam airship 589, The emergency stairs 631 are installed at the lower end of the lower end portion of the boat and positioned at the position of the cloth junk lane 651 and the elevation alley bed 632 as a connection structure of the traffic device and the deck deck 4 of the holding tank upper barge hull 591 (593,594,595) Nuclear power plant main body (593,594,595) equipped with a disconnection device and a lifting device connection structure to provide a boom stand of 500m unit and a boom stand of a crane equipped with several crane boom stands (942) 1) A pipe bridge located at a position with a connection structure of the submarine line wiring (946) to the inside. The connection structure is a connecting structure. Block tower (116) Emergency stairway to stairway (631) Lifting dock of marine power plant with distribution input to traffic system (593,594,595) Bridge to nuclear power plant main body (1) ;

The distributing and inputting device for the disaster control device provided on the block steel tower as a connection structure of the main body of the nuclear power plant of the marine power plant (593, 594, 595)

(644) Upper end upper block steel tower (116) Connection structure for delivering disaster prevention water to the normal position Disaster prevention device is a high pressure multi-stage multi-stage emergency prevention pump (591) 8) Push the 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) into the machine room by hand, Pressure multi-stage disaster prevention pump 8 that stops the operation of the pump when the user pushes the off-time main switch button 66 of the button 66 to the double structure disaster prevention hose 9, The fire extinguishing water discharge nozzle 7 discharges the disaster prevention water 7 with the fire prevention disposal double pipe nozzle 10 and the fire extinguishing water pipe 10 for the transportation equipment and the fire hose 9 are connected to each other The fire-fighting pipe nozzle (10) and the water pipe connection pipe Connected to the wire rope (19) of the fire-fighting emergency nozzle (10) and the connecting device shackle (23) by means of a connection flange connecting the weatherproof instrumentation equipment (77) and the airship (78) 134) a connecting structure formed by connecting the wire rope (19) for protection and the fire-prevention hose (9) of a gas transportation means lighter than air to the bottom of the basket (42) The disaster prevention system and the production facilities are provided with a high performance submersible pump 36 and air compressors 80 connected to the upper side of the floating deck deck so as to connect the submarine line wiring 946) connected to the connection structure Tubular bridges located in the structure Coupling dispensing device Lifting and disinfecting device and production facility Connection structure provided to protect the devices Block unit block to the equipment Stack (116) The upper stage (631) is equipped with a line distributor to connect the main structure of a nuclear power plant (593,594,595) of a marine power plant with a connecting structure to protect the flood-control type disaster prevention device and the production equipment. .

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

(593, 594, 595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant, and a disaster injection pump for the electronic control device of the fire fighting operation control room (150)

(593,594,595) Nuclear power plant main unit (1) Submarine line injection nozzle connection port Submarine line wiring (946) Connected to the floating structure of the deck of the deck located at the top of the deck The multi-stage pump control panel and the control box (2) are connected to each other by a control system (150) for operating the electronic control unit. A high-pressure shut-off valve 5 as an internal pump isolation valve and a pump (not shown) are connected to a suction merging pipe 3 and an exhaust merging pipe 4 for an electronic control device located inside the control box 2 for operating the electronic control equipment A multi-stage disaster prevention pump (8) is connected to a fire hose (9) and a fire disaster prevention pipe nozzle (10) in a nipple (110) for connecting an air hose to an internal check- The fixing frame 11 for fixing the position The power source power source 46 is connected to the detection sensor 12 for the electronic control device for sensing the ash, and the overcurrent breaker for the overcurrent breaker 61 and the power source unit 62, which are located inside the control box 2, An inverter 47 for the electronic control unit and an inverter switch 48 are connected to the control point 53 and the monitor 52 of the internal control server 51 in the Internet network 50 A connection structure including a short-range wireless communication antenna 54 and a rechargeable battery (37) having a connection structure with the wireless communication control module 55 of the short-range wireless communication device is provided to the mobile 81 and the portable terminal 82 A display screen 63 is provided on the display 56 and an electronic control unit ENAID 57 and an electronic control unit ENA 59 of the switch input circuit 58 and a DAIICHI 60 are connected to the display screen 63 ) And the digital input (65) of the electronic circuit (66) and the auxiliary switch button (67) for the switch input are connected to the computer network input (68) for the display input and a recognition nameplate for the pressure setting value, which is the set pressure value of the current pressure value 69 is a connection structure of the memory 70 and the power supply power supply line 71. The power supply 46 is connected to the electronic control unit of the firefighting and disaster prevention operation room to supply the power supply 46, Dock (593,594,595) Connected to the main body (1) of the nuclear power plant Connected to the structure Submarine track wiring (946) Connected to the pipe structure Bridges distributed as a structure Dispensing device Discharging device (593,594,595) of the marine power plant of the connection structure equipped with the electronic control unit of the machine room of the fire fighting and disinfection operation machine room, the main body of the nuclear power plant (1) Configure the nuclear reactors to be operated by the reactors;

(593, 594, 595) of the marine power plant as a connection structure of the main body of the nuclear power plant,

(593,594,595) of marine power plant (593,594,595) Piping (89) equipped with electronic control unit of fire fighting and disinfection machine room and connection and disconnection input unit to the inside of main body (1) of nuclear power plant is connected to safety valve (258) The bolts 24 and the nut 24 are connected to the low pressure shut-off valve 83 and the emergency valve 84 through the safety valves 258 of the pressure reducing valve 85 to the gap 15 of the pipe connecting flange 28 of the pipe 89, (26) and a rubber packing (32) of a gasket for connection of piping connection are connected to each other by means of the valves, and at the same time, a first pressure check sensor (86) The bypass piping line 89 for piping connection of the electronic control unit 88 and the collecting tank 34 to the piping connection pipe 35 and the piping connection elbow of the piping connection elbow 44 The disaster prevention water 7 of the fire fighting / disaster control product is stored in the inside of the pipe 89, (66) for disposing the main switch and an auxiliary switch button (67) for disaster prevention pump for disposing disaster prevention water to the inside of the main body (1) to the position having the submarine line wiring (946) Pipe bridge located at the structure, joint distribution and dispensing device, lifting and disinfecting device, and connection equipment to protect the production facility equipment Fire control and disaster prevention equipment Electronic control device of the machine room and line distribution input device, (593,594,595) The main body of nuclear power plant (1) consists of disaster prevention equipment and production facility equipment;

(593, 594, 595) of the marine power plant, the operation distribution dispenser of the fire fighting and disaster control equipment is a connecting structure of the nuclear power plant main body (1)

(8) Multi-stage disaster prevention pump for fire fighting and disaster prevention machine room (8) Connection structure with connection structure to the fore part connection pipe for piping connection of condensate tank (34) to piping connection with reuser (35) The disaster prevention water 7 of the fire fighting and disaster prevention control article is stored in the piping 89 in the connection structure having the connection structure to the elbow 44 and the emergency disaster prevention control device 8 of the multi- (66) of the main switch button (66) for the start-up switch of the high-pressure multi-stage emergency protection pump (7) Stage multi-stage disaster prevention pump 8, which stops the pump operation by pushing the push switch 66 of the main switch 66 by pressing the push button 66 of the main switch 66, Firefighter Nozzle Hose Connection Structure The equipment stand (33) is equipped with a high performance submersible pump (36) (13) of the helicopter (647) located at the body and a connection structure having a coupling structure with a hook structure (13) of the fire hose (9) The disaster prevention water 7 having an internal water pressure is supplied to the on-time main switch 66 of the start switch button 66 of the start switch of the high-pressure multi-stage emergency protection pump 8 after the operation of the multi- When the switch button 66 is depressed by hand, the pump operation is progressed, and at the same time, the connection structure provided on the body of the multi-stage disaster prevention pump 8 is connected to the suction merging pipe 3 for electronic control and the joining pipe 4 The disaster prevention water 7 having the water pressure is released from the solenoid valve 76 to the high pressure shut-off valve 5 as the isolation valve and the pump backward flow prevention check valve 6, So as to form a connection structure inside the main body 1 Pipe bridge located at a position equipped with line wiring 946 Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser (593,594,595) Nuclear power plant main body (1) consisting of disaster prevention equipment and production facility equipment of marine power plant as connecting structure;

(593, 594, 595) of the marine power plant The operation of the fire-fighting and disaster control equipment of the nuclear power plant main body (1)

The disaster prevention water 7 having the water pressure is moved through the piping to the position of the fire fighting disposal pipe nozzle 10 so that a plurality of processing clearances 15 for the position adjusting and moving device located at the body position of the fire fighting disposal pipe nozzle 10 And the disaster prevention water 7 having the water pressure outside the position of the processing hole 20 are discharged while the ejection number 38 of the fire and disaster prevention control article is discharged to the disaster prevention film The number of the water discharge curtains 39 (39) at the positions of the plurality of processing holes (20) and the number of the radial discharging nozzles (38) at the positions of the gaps (15) ), And a cooling action method for reducing the combustion to a temperature of the ignition point and a sucking action for preventing the combustion by blocking the supply of air by surrounding the combustible with the incombustible gas are injected into the main body (1) The structural submarine line wiring 946, (593,594,595) Nuclear power plant main body (593,594,595) equipped with electronic control unit of fire fighting and dismantling machine room equipped with equipment to protect flood disinfection device and production facility equipment 1) comprises a disaster prevention device and a production facility device;

(593, 594, 595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant,

In order to evolve in less than one second, the number of ejection nozzles (38) of the fire-fighting emergency control article immediately before the arrival of fire departments (40) The disaster prevention water 7 as a connection structure is arranged at a position of a plurality of the processing holes 20 and at a position of the gap between the straight circular discharge sprays 38 and the plurality of processing holes 20, 38) The water curtain (39) is sprayed in the form of falling spray, which surrounds the flue gas with incombustible gas to block the supply of air to prevent combustion and to cool down the combustible to the ignition point temperature. Fire-fighting hose Non-flammable gas (164) with internal pressure located inside the body as a connection structure. Disaster prevention water located in connection with storage air hose (109) and fire hose body is mixed with cooling water (287) The same number of toothpaste The portable wireless communication terminal 82 of the high pressure multi-stage disaster prevention pump control system 150 inside the safety control room and the main switch bar for controlling the operation of the disaster prevention pump Turning 66 and the disaster prevention water spraying arrangement, the power supply control box is distributed to the safety control room and the disaster prevention pump operating machine room on the upper side of the emergency switch auxiliary switch button 67, The ring 29 is provided with a coupling structure for coupling the female threaded body 31 to the coupling body 30 and a double structure fire hose to the fire fighting chamber 40 and the helicopter 647, (593,594,595) of the marine power plant by providing a connection structure with the fire control electronic control device to the top of the floating deck plate deck with the disaster prevention water (593,594,595) Nuclear power plant main body (1) A nozzle bridge 945 and a pipe bridge coupling distribution input device located in a connection structure with the submarine line wiring 946 as a connection structure to provide a connection for protecting the production equipment devices by the floating fire suppression electronic control device Block unit block to structural equipment Block tower (116) Emergency stairway (631) by stairs Stacking device of traffic device with connecting device to construct marine power plant lifting dock (593,594,595) Nuclear power plant main body (1) with disaster prevention device And equipment devices.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) The distribution side (705) of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided with the connection structure capable of disassembling and coupling the connection shaft,

(593, 594, 595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant,

(593,594,595) connected to the interior of the main body (1) of the marine power plant. The lifting deck deck located at the upper sea level (SLU) of the sea level surface (SLL) The block tower (116), which is located at the top center of the bridge, is connected to the left side of the top center of the deck deck. The safety control room and the nuclear power station, which are located in the connecting structure, It is equipped with satellite and space rocket for the nuclear waste disposal device at the position of the satellite launching platform and the space rocket launching platform, and at the same time, the damage of the volcanic ash generation before and after the spontaneous typhoon, earthquake, tsunami, In order to prevent the flood drought control, the equipment management room of the weather forecasting observation station (958) for the weather forecasting observation is provided, A satellite launch pad 643 and a space rocket 961, which are located at the left side of the safety control room, and which are located at the left side of the safety control room, A space launching table 643 and a space rocket launching platform 646 are provided as connection structures provided on the top of the deck plate around the satellite launching platform 643 and the space rocket 961 launching platform 646 And at the same time to the inside of the main body (1) to the position having the submarine line wiring (946) as the connecting structure, the floating yellow deck located at the top position of the floating deck deck (921) Fire prevention control with connecting structure provided at the top of the deck deck to prevent large breeding Floating loess natural loess (158) of powder equivalent to toothpaste level mixed with cooling water And the natural loess soil 158 is introduced into the basin basket 951 inside the basin basket 951 for the harmful redeye sucking and dust collector by the submerged bottom of the harmful tidal microorganism 921 generated at the seabed, , And the natural loess soil (158) is introduced into the bottom of the floating deck deck body bottom at the bottom of the floating deck deck plate deck, and the air tidal winch (137) The wire rope 19 and the wire rope chain 915 are connected to the driving wheel rollers 135 for the position adjusting moving device on the small-sized crane boom stand 942 of the replacement tower crane, ) At the same time, the air hose (109) equipped with the air conditioner (80) and the connection structure is supplied with oxygen and air by the net air hose (109) to protect the marine environment Firefighting control equipment (593,594,595) of the marine power plant by arranging the marine environment protection facility device to be connected to the inside of the nuclear power plant main body (1) with the submarine line wiring (964) (593,594,595) of the offshore power plant (1) as a connection and disbursement connection structure to protect surrounding marine environmental facilities;

(593,594,595) of the marine power plant The crude oil and natural gas crude oil drilling equipment crude oil drilling ship 934 distribution input device of the nuclear power plant main body (1)

* Lifting dock of marine power plant (593,594,595) Lifting docking hull with submarine track wiring (964) connected to the main body of nuclear power plant (1) Upper deck (SDU) 934 is a rotary drilling machine of a crude drilling machine located at the bottom of a drilling machine room located at the lower end of a ceiling crane 651 located at the upper end of the lower end portion of the block steel tower 116 as a connection structure, Table lathing machine (908) Circular table lathe with rotating body of body Several hydraulic cylinders 623 located at the center position for drilling are connected to the center of the lathe by a plurality of hydraulic keys 623, A connection structure that is connected to the center of the shelf by adjusting the position of the connecting structure. A plurality of pipe racks (854) provided at the point of the crude oil borehole (936) positioned as a connection structure on the bottom of the Fraq (854) continue to be connected to the seabed. The connection structure A crude oil drilling hole 936 for excavating a crude oil drilling hole 936 and a crude oil drilling hole 936 for excavating a crude oil drilling hole 936 to be connected to a wire rope 19 of a tunnel crane 651 (854) is a rotary table lathe with a hydraulic rotary cylinder (619) for rotary drum drilling machine (908) body drilling machine drilling machine drilling machine A plurality of drilling hydraulic cylinder keys 623 located in the connection structure are provided with a transfer arrangement to the top of the rotary table lathe machine 908 of the drilling machine, And the crude oil and natural gas discharged from the position of the crude oil borehole 936 are connected to both sides of the city crane boom stand 942 of the tower crane for the replacement of the crucible (942) of the tower crane for the replacement of the above-mentioned crane tower, and a vertical rotation operation of the crane boom (942) of the nuclear power plant main body (593,594,595) ) To the interior of the nuclear power plant (593,594,595) of the marine power plant as the connection structure of crude oil and natural gas crude oil borehole distribution and input device located at the connection structure with the submarine line wiring (946) ;

(593,594,595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant, the deep-sea energy resource and the distribution input device for collecting minerals,

(593,594,595) of a marine power plant is located in a location with a submarine line wiring (946) connected to the inside of the main body (1) of the nuclear power plant. In the deep seabed mineral resource collection site, a garden basket (909) 842), a pipeline line automatic pneumatic conveying device 916 for a position-and-control mobile device, a mining robot 912 of a suction-taking machine for submarine mineral resource collection to a suction-sampling machine 911 as a connection structure, (924) has a connecting structure that is located at both sides of the sea-son crane boom stand (942) of the tower crane for the lower sea level (SLD), and the tower crane Boom Stand (942) Vertical rotation operation lifts all deep-sea energy resources to the top of deck deck so that the salvaged resources can be lifted by the marine power plant (593,594,595) Transport equipment to supply material to the industrial site on the land as a connecting structure 500m unit Double structural block Connected to the tank position Lifting type of marine power plant with connecting structure located as a structure (593,594,595) Nuclear power plant main body (1) Inside The connecting structure is a transport equipment connection structure with a submarine track wiring (946). The inside of the top of each floating cargo deck deck and the one of the cargo deck deck bottom, (593,594,595) Nuclear power plant main body (1) consists of equipments of offshore power generation facility as a connection structure of deep energy minerals collecting energy input distribution device with connection structure located on the deck side. do.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) The distribution side (705) of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided with the connection structure capable of disassembling and coupling the connection shaft,

(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for the hull safety equipment, as a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) of nuclear power plant (593,594,595) Nuclear power plant main body (1) As a connecting structure, marine power generation facility Connected to the upper tank barge hull (591) and the holding tank lower barge hull (593) The hull safety equipment for distribution and input into the connection structure to the position provided with the submarine line wiring 946 has a structure in which the high strength bolt 603 and the high strength nut 604 are fastened to the large flange 614 through the processing hole 615, A large flange 615 located at the stern of the outer block tank 599 at the forefront portion of the outer block tank 599 as a connection structure provided with a plurality of column block tank tanks 590 to provide a tank connection A rubber packing (32) of a gasket for connection to a structure is connected to a large-sized flange (614) by connecting a high-strength bolt (603) and a high-strength nut (604) And a hydraulic structure of the hydraulic cylinder unit 619 for the position adjusting device of the dispensing and inputting device and the hydraulic cylinder machine 624 for the transportation device is connected to the auxiliary processing hole 615, The tank double pipe block tank 598 is constructed by disposing the tank pipe bridge 928 and the double structure block tank piping 937 quantity disassembly coupling disassembly into the distribution dispenser double structure block tank 598 connection structure, Connected to the connection structure The tee elbow (44) is welded to the large-diameter flange (614) at the same time while the welder is welded with the welder. The hydraulic rotary cylinder machine (619) (593,594,595) of a marine power plant provided with a hydraulic hammer lance connection structure in a hydraulic cylinder machine (624) for a traffic facility facility and a lifting dock of the center of a hull deck (SDM) hull (SDU) Upper deck (SDU) and lifting deckle lower deck (SDL) Upper deck upper deck (SDU) Upper strut tank Upper barge hull (591) and strut tank Lower barge hull (592) ) Maritime power generation facilities with connection structure Replacement towers for each tower Cranes for crane boats (942) Connected structures Mooring system and power generation equipment Connection structure for marine power plants (593,594,595) Nuclear power plant main body 1);

(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for the hull safety equipment, as a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) Nuclear power plant main body (1) Connected to the inner structure of the marine power plant Upper tier of the upper deck (SDU) of the floating deck center of the hull deck (SDM) Upper tie barge hull (591) The double structure block tank 598, which is located at a position where the submarine line wiring 946 is connected to the holding tank lower barge hull 592 of the lower deck portion SDL as a connecting structure, is connected to the outer position of the outer block tank 599 It is provided as a connection structure of power generation facility which distributes marine power generation power to the location of submarine mineral resource exploration equipment (843) for exploration of a number of deepwater exploration submarines. It is equipped with protection of device connection structure and at the same time it is provided to be able to repair the main body by connecting structure of damper control barge lines for harmful side control and disaster prevention device, The outer block tank 599 of the plurality of column block tanks 590 located outside the tank is provided with a lamp unit at a predetermined distance from the outer wall of the outer block tank 590 and is provided with a large flange 614 connecting joint portion joint hole 615, The pin shaft connecting structure is coupled to the hole 616 by the hydraulic cylinder key 623 and the hexagonal thread 603a of the bolt 603a of the block tank hull disassembling and dismounting portable lug shaft bolt 603 and the rasp- (604) and stillbirth (604b) are coupled to each other by a Hammer-Lancet hydraulic rotary cylinder machine (619). When the pin is coupled to the pin processing hole (615) (593,594,595) of a marine power plant by providing a sunken anti-sinking type poison (593,594,595) which is resistant to any wind and wave influences by preventing the nut departing from the shaft thread mountain (603a) (SDU) of the hull deck center (SDM) and the upper deck (SDL) of the lifting deckle hull deck (SDL) Upper deck (SDU) of the deck hull deck The deck upper deck (SDU) holding tank upper barge hull 591 and the holding tank lower barge hull 592) Marine power generation facility with submarine track wiring (946) Individual crane boom to connection structure Connected with mooring device Connected to power generation facility Device Lifting of marine power plant (593,594,595) Nuclear power plant main body (1) ;

(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for the hull safety equipment, as a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) Nuclear power plant main body (1) Connected to the inner structure of the marine power plant (SDU) Upper deck (SDU) of the hull deck center (SDM) Upper deck (SDU) of the deck of the deck Upper deck top (SDU) A connecting structure located at the top of the holding tank top barge hull (591) and the holding tank bottom barge hull (592) with a subsea line wire (946) connected to the structure. Top and bottom barge hull angles The block tank-combined portable lug 607 includes a block tank combined portable lug 607 provided as a horizontal and vertical type coupling structure at each portion of the strut tank upper barge hull 591 and the strut tank lower barge hull 592 Holes 615 are provided in a horizontal pin shaft processing hole 615 and a pin shaft processing hole 615 having a plurality of processing holes 615 and an elongated hole 616 in the body, Tank( 905) and a plurality of shafts 606 engaged in a plurality of processing holes 615 provided as connection structures at respective portions in the vertical form of the upper barge hull 591 and the lower barge hull 592, The shafts 606 bound to the machining holes 615 are removed and the shafts 606 provided with the single open shaft 606 are provided on the upper surface of the pipe bridge tunnel device with the fixed lifting dock barge hull 592, The diving position adjusting movement device of the hull and the lead weight (949) for controlling the diving buoyancy are mounted on one side of the balanced horizontal blockbag tank, and the diving is performed under the water. At the same time, By the shaft 606 provided with a single shaft 606 fastening of the block tank-engaging portable lug 607 structured in a horizontal state, the horizontal stowage block tank is constructed as a vertical type fastening structure, (593,594,595) Lug hinge sockets located in the form of concavo-convex structure at the position of the joint of the deck deck bottom end of the above-mentioned holding tank top barge hull (592) of the nuclear power plant main body (1) (615) of the tubular bridge tunnel device (613), the connection part lug hinge socket (613) of the fixed lifting type poison holding tank at the upper end of the pipe bridge tunnel device and the support block tanks (590) The lug hinge sockets 613 are provided on the upper surface of each deck plate to provide a concavo-convex connection structure, and the holding block tanks of the fixed lifting tanks (593, 594, 595) (593, 594, 595) as a connection structure, and at the same time, the upper end of the sea surface (SLU) of the sea surface (SLL) and the pipe bridge of the main body of the sea bottom A plurality of block tank combined portable lugs 607 are distributed to the fixed tank lifting tanks 593, 594, 595 coupled to the device body 929 and the floating lifting tanks 593, 594, 595 to the strut tank upper barge hull and the holding tank lower barge hull, And Block Tank Portable Lug Pin Shaft (606) Several column block tanks (590) tied to the body's machining hole (615) and pin shaft (606) The equipment is protected by the connection structure of the hull safety equipment, while the harmful tidal control and the barge lines for mounting the disaster prevention device are arranged as the connection structure of the main body modification, the barge lines for mounting the disaster prevention device, (593,594,595) Nuclear power plant Main unit (1) Connected to the inside of the structure Upper part of the sea surface (SLU) with submarine line wiring (946) Floating dock The marine power plant located at the top of the hull deck (SDU). The offshore power plant located at the top of the hull deck (SDU). Replacement towers for different towers. Cranes at the crane boom area (942). Connected structures are mooring units and power generation units. .

(593, 594, 595) of the above marine power plant nuclear reactor leakage control double structure block tank constituting the nuclear power plant main body (1) The nuclear reactor main body 794 and the double structure block tank pipe bridge 929 The tunnel device main body (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for safe operation of the hull, as a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) Nuclear power plant (1) Connected to the inside of a nuclear power plant (1) To the outside of the body at the bottom of the sea level (SLL) Connections to the marine biogeochemistry and barnacle The electrode plate anode 938 is installed at an outer position of the body of the pipe bridge tunnel apparatus main body 929 and the double structure block tank pipe bridge 928 at the lower end of the sea level SLL (907), which monitors the military equipment submarine, while providing docking detection, while simultaneously connecting the submarine cable (593,594,595) to the inside of the nuclear power plant main body (1) of the marine power plant 946). Upper part of the sea surface (SLU) located at the connection structure of the main body. Upper deck (SDU) of the floating deck hull. Marine power generation facility. The satellite crane boom (942) is connected to the mooring unit and the power generation equipment. The hull safety unit is connected to the hull safety distribution system. The satellite weather forecast information collecting machine (960) is equipped with a mutual military communication satellite (962) (593,594,595) nuclear power plant main body (1) of a marine power plant as a connection structure.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) The distribution side (705) of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided with the connection structure capable of disassembling and coupling the connection shaft,

(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for safe operation of the hull, as a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) Nuclear power plant main unit (1) Connected to the inside of the control tower of the mooring tower (644) Connected to the top of the roof top block of the tower (116) Meteorological observation equipment located as a structure (840) The lightning rod 500 is provided as a hull distributing and feeding device for hull safety operation while the hull safety preservation is provided from the lightning strike and the lightening at the top of the block pylon 116 and the submarine line wiring 946 is connected to the inside of the main body 1 as a connection structure (SLU) Floating upper deck (SDU) Offshore power plant Sea towers for replacement towers Crane boom stands (942) Connecting structures for mooring and power generation equipment Distribution and input devices for hull safety operation Connections (593,594,595) nuclear power plant main body (1) of a marine power plant as a structure to be constructed as a distribution input device for hull safety operation.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) The distribution side (705) of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided with the connection structure capable of disassembling and coupling the connection shaft,

(593, 594, 595) of the marine power plant as a connection structure of the nuclear power plant main body (1), the distribution input device for operating the power-

(593,594,595) Nuclear power plant (1) Connected to the inside of a marine power plant (593,594,595) As a structure, it supplies the power produced by a marine power plant of floating type poison to the manufacturing factory of the main body, The plant is equipped with a transmission line and a connection structure to supply a certain amount of power generation power from a power transmission tower to produce a pipe of a small diameter and a pipe of a large diameter, and a raw material high strength stainless steel plate 597 ) And the supply of electric power to the steel beam (149) and the steel mill (839) manufacturing plant, the pipe bridge apparatus is provided with a standard production and the double structure of the pipe bridge apparatus main body (929) The block tank pipe pier (928) has a diameter of 5M and a diameter of 1m at depth of 5m. (637) A block tank is connected to the upper part of the deck deck. (621) A connecting structure to provide a connection of a large flange (28) provided as a connecting structure. (593,594,595) of the power plant; (1) the main body of the nuclear power plant;

(593,594,595) of the marine power plant (593,594,595) Double-structure tank as bridge structure inside nuclear power plant (1) Traffic equipment equipments like bridge saddle mold (617) Block tank of distribution dispenser (621) Sinking line (634) Sinking line (634) Double-structure tank bridge bridge saddle frame (617) Adjustable position to the upper deck deck (SLU) with submarine line wiring (946) connected to the disaster prevention nozzle (945) by underground line Upper deck (SLU) Floating deck hull Deck upper part (SDU) Marine power generation facility Alternate towers Replacement towers (942) Connecting structure to mooring unit and power generation equipment unit Double structure block tank pipe bridge (928) as a structure Manufacture installation is a connecting structure to be supplied with power produced by marine power plant of floating dock Floating dock expression of both stations (593 594 595) be configured to achieve a nuclear power plant body (1) and;

(593, 594, 595) of the marine power plant as a connection structure of the nuclear power plant main body (1), the distribution input device for operating the power-

(593,594,595) of the marine power station (1) to the inside of the nuclear power plant (1) to the above-mentioned bridge saddle formwork connection position. Various types of jig (22) It is also possible to connect the pointed crevice tool grinders 185 to the shredding link so as to provide several grinding wheels 185 in the several grinding holes 22 and at the same time, And a piercing level foundation bottom base 851 are disassembled into several crankshaft crankshafts 846 provided on the side surfaces and the bottom surface of the saddle mold body, (593, 594, 595) nuclear power plant main body (1);

(593,594,595) of the marine power plant The upper part of the sea surface (SLU) with the submarine line wiring (946) connected to the inside of the main body of the nuclear power plant (1) Upper part of the deck (SDU) (942) connection structure to the mooring unit and the power generation facility unit. The double structure block tank pipe bridge (163) as a structure is manufactured and installed by the power supplied from the marine power plant of the floating type dock (593,594,595) of the offshore power plant as the connecting structure.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) The distribution side (705) of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided with the connection structure capable of disassembling and coupling the connection shaft,

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) of a marine power plant. An interlocking structure inside the nuclear power plant (1) is provided with anchorage crankshaft (846) for anchor replacement, Lifting deck deck Deck hull safety distribution to the upper position Hull safety equipment and construction machinery equipment for the crane Replacement towers Crane boom stand (942) Boom stand to distribute both sides to the boom frame (842) for reclaiming submarine mineral resources with a connection structure to the hook (18) and a connection structure for providing seabed mineral resources to Paret (844). (909) to the upper deck (SDU) of the floating deck hull and is supplied with the power generated by the marine power plant of the floating dock, (593,594,595) submarine mineral resources manganese block (909) of nuclear power plant main body (1) consists of lifting device construction machines to the upper part of floating deck hull deck (SDU);

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

Construction machinery equipment The tower crane replacement cranes (942) are connected to both sides of the boom (842) and the pareto (844) for the reuse of seabed mineral resources are located at the lower part of the sea level (SLL) ) Movement from the internal position of the submarine mineral resource collection area inside the lifting deck SSL to the SDU position of the lifting deck hull deck upper part of the sea level (SLU) (903) of the submarine mineral resource mangement (909) to the upper part of the deck (SDU) of the lifting deck, while at the same time controlling the displacement of the oceanic power plant (593,594,595) (1) Inside the submarine mineral resource collection site, a connection structure for distributing and inputting the suction collection machine (911) and the mineral extraction robot (912) of the mineral resource collection equipment, (593,594,595) Nuclear power plant (593,594,595) As a connection structure that receives power generated from a marine power plant of a floating type ship, Power plant main body (1) It is a connection structure of the suction collecting machine (911) and the mining robot (912) to construct a submarine mineral resource collection system for operation of a submarine mineral collection and construction machine;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) of the marine power plant. (593,594,595) Submarine mineral resource gathering site to the inside of the nuclear power plant main body (1) Connected to the upper end of the sea surface (SLU) with submarine line wiring (946) A marine power plant located as a structure The connection structure of the main body which receives power by each mooring device and the power generation equipment The supporting dock (593,594,595) is distributed to the sea floor by the diving control device, (593,594,595) of the construction equipment and the marine power plant (593,594,595) The connection structure of the connection structure of the main body of the nuclear power plant is provided to collect the seabed mineral resources, and at the same time, It is also possible to provide the position control of the deck top (SDU) as a connection structure, (593,594,595) of nuclear power plants (1) of the offshore power plant;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Connected structure to a submerged location including a submarine mineral resource harvesting equipment to a suction collecting machine and a mining extraction robot The manganese monolith (909 ) To the upper part of the floating deck of the deck (SDU) Positioning to the structure Connection structure to control the movement Construction machinery Equipment Construction machinery Equipments of each tower A connecting structure for connecting the manganese block 909 to the piping line automatic pneumatic conveying unit 916 of the connecting structure of the connecting magnet magnet 645 and the suction collecting machine provided in the tower crane 886 equipped with the elevator A connection structure provided at the position of the upper position of the lifting deck upper deck (SDU) of the lifting tank upper barge line 591 of the rebate 632 and the landing tank bottom basket 591 (842) and the connecting structure (844) can be moved to the connecting structure to the upper deck (SDU) position of the lifting deck hull, while at the same time, (942) and at the same time a connector structure (633) as a connection structure to the upper part of the deck of the floating deck hull deck at the internal location of the seabed mineral resources of the submarine mineral resource located inside the floating deck (SDL) (SDU) to locate the submarine mineral resources and locate the submarine mineral collecting process at the same time. Connect to the submarine mineral resource exploration equipment. Search structure (232) and submarine survey lens Underwater light for glass 843) is provided with a submarine line wiring 946 as a connection structure, and at the same time, an illuminating device is installed in the main body 1 as a connection structure, And the connection structure of the minerals collecting robot includes a submarine mineral resource collecting device as a connection structure, all of the collecting equipment including the collecting equipment according to the hydrothermal pressure of the deep sea floor and the flow rate of the deep sea floor, A wire rope chain (915) is connected to each lever block (123) to prevent the loss of all of the collecting equipment in the submarine excavation equipment. The positional movement control is performed at the inside position of the resource collecting field, and at the same time, the wound wire rope provided on the body of the lever block 123 is wound around the collecting equipment bound to the wire rope connecting structure of the lever block 123, Unmanned camera (184) that belongs to the submarine exploration equipment at the same time, Connected to the submarine mineral resource exploration equipment to the submarine mineral resource exploration equipment and the underwater illumination light (843) for the submarine survey lens glass to the connecting structure to search the submarine mineral collecting process state by water. (184) to the unmanned camera (184) by connecting the container box latching device (129) of the container box (132) corresponding to the submarine mineral carrier to the unmanned camera Submarine Mineral Collection Process Transmission of the submarine line (946) connected to the ship's safety facility control room location, located at the upper part of the sea surface (SLU) lifting deck seabed deck (SDU) ) Submarine mineral resource collection equipment as a connection structure Inhale collecting machine and minerals extraction robot Submarine line wiring (94 6 of the upper part of the sea surface Upper part of the upper part of the deck of the deck of the deck of hull deck SDU Hull safety control room Internet network 50 located in the control room Internal monitor server 52 of the internal control server 51 and inside of the control board 53 While receiving the undersea mining process state scene transmitted by the unmanned camera 184, at the same time, the marine power generation facilities are connected to each other as mooring devices and connection structures, and the mineral resource collection equipment is distributed. (593,594,595) Nuclear power plant main body (1) of marine power plant as a connection structure which is equipped with seats and at the same time, the mineral resource collecting equipment can withstand the water pressure of the deep sea bed and the flow rate of the deep sea bed.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main unit (1) Wing crank (846) Replacement wing crank (846) The floating type poison (593,594,595) provided as a connecting structure is distributed to the seabed as a connection structure, Shipboard safety deck for hull safety distribution and connection to upper deck deck deck Construction machinery and equipment for hull safety and connection structures (593,594,595)

And a connecting structure having a connection structure to boom hook hooks (18) by distributing both sides of a small boom stand (942) of a tower crane for replacing each quay crane with a connecting structure, (844) and a connection structure (844) as a connection structure, while at the same time collecting seabed mineral resources with a displacement control device connection structure to the upper part of the deck (SDU) (593,594,595) Nuclear power plant main body (1) Operation of marine power plant as a connection structure supplied with power generated from a marine power plant located as a connection structure to the upper part of deck (SDU) ;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

Construction Machinery Equipments Replacement towers for individual towers Cisterns for crane boom (942) Connection structures Both sides of the connection structure are used for reclaiming seabed mineral resources (842) and connecting structures (844) (SLD) at the bottom of the sea surface (SLD) at the bottom of the deck bottom (SDL) of the SLL. (909) of the submarine mineral resource manganese (909) is connected to the upper part of the deck (SDU) of the lifting deck, and at the same time the submarine mineral In the internal location of the resource collection site, the collection and submersible intake system of the mineral resource collection equipment and the mineral extraction robot are provided, (593,594,595) of the marine power plant, which is supplied with the power produced by the offshore power plant located at the upper part of the floating deck (SDU) with the position shift control to the upper part of the hull deck (SDU) Constituting the main body (1) of the nuclear power plant to be operated;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

Submarine mineral resource collection site Connected to internal structure Upper part of sea surface (SLU) with submarine line wiring (946) Floating docking hull Deck upper part (SDU) Location Marine power generation facility Alternate towers Replacement towers Crane cranes Boom Stand (942) Connection structure Mooring device and connection structure Floating type docking structure that is supplied with electricity by power generation facility Seated on the seabed and distributed Inputs to the floating deck deck Top position Floating dock Connecting structure Hull safety (SDU) as a connecting structure to the submarine mineral resource harvesting equipment with connection structure to the small crane boom stand (942) of the tower crane for the replacement of each quay crane. It is a connected structure that is supplied with power generated by a marine power plant of a floating type poison while having a position shift control. 95) constituting a nuclear power plant main body (1);

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Connected to the structure as a suction system Collecting minerals as a connection structure Minerals Collecting submarine mineral resources Collecting equipment As a connection structure Manganese monolith 909) as a connecting structure Lifting the poison hull to the top of the deck (SDU) Moving to the regulating device connection structure Construction machine equipment Displacement of each trunk Replacement of tower crane Dismantled crane Boom stand (942) Donated as connecting structure (905) as a connection structure, which is connected to an electric magnet magnet (645) and a connection structure, an automatic pneumatic valve conveying device (916) of a suction collecting machine, Reboat (632) As a connecting structure, the seabed mineral resources recreated at the position of the upper position of the lifting deck upper part (SDU) of the floating tank upper barge line (591) (842) and Pallet (844) are used for transporting to the upper deck (SDU) location of the floating deck hull. Construction machinery and equipment Marine power generation facilities Replacement tower crane And the crane boom stand (942). At the same time, the conveyor (633) is connected to the upper part of the lifting deck hull deck (SDU) in the submarine mineral resource collection site located inside the SDL And the submarine mineral resource search equipment search light 232 and the deep sea exploration underwater illumination light 843 are connected to the submarine mineral resource search equipment in a position having the submarine line wiring 946 in order to search the submarine mineral resource collecting process state, (593,594,595) of the marine power plant while simultaneously installing a submersible mineral resource collecting device in the main body (1) of the nuclear power plant of the marine power plant and the mining robot The collecting equipment includes the lever blocks 123 to prevent the loss of all of the collecting equipment in the submarine mineral resource collection site due to the loss of the collecting equipment caused by the water pressure of the deep sea bottom and the flow rate of the deep sea bed, The wire rope chain block is used to bind the elevation rebound alley 632 and the submarine excavation equipment to the wire rope of the lever block 123 to adjust the position of the submarine mineral resource collection site (123) The winding wire rope provided on the body of the lever block is rolled and loosened to adjust the position of the harvesting equipment to each of the harvesting equipments, and the power produced by the marine power plant of the floating type poison (593,594,595) (593,594,595) Nuclear power plant main body (1) of marine power plant;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

The unmanned camera 184 belonging to the submarine surveying equipment as a connection structure inside the main body 1 of the nuclear power plant (1) of the marine power plant (593,594,595) is provided with an undersea mineral resource search equipment search light 232 An undersea camera (184) located at a position where the underwater illumination lamp (843) is connected to a position where the illumination is emitted through the connection structure, is provided for transmitting the state of the submarine mineral collection process to the safety facility control room, The submarine line wiring line 946 is connected to the hull safety facility control room position where the container box latching device 129 is connected to the upper end of the sea surface (SLU) lifting deck upper part (SDU) (593,594,595) of the marine power plant connected to the inside of the main body (1) of the nuclear power plant Suction collecting machine and connection structure Mineral picking robot (SLU) with submarine track wiring (946) connected to the submarine mineral resource harvesting equipment. SDU Upper deck (SDU) Hull safety facility The connection structure located inside the control room, (50) Receiving a submarine mineral collection process state scene transmitted from the unmanned camera (184) into the monitor (52) of the internal control server (51) and the control board (53) (942) as a connecting structure for mooring equipment and mineral resource collection equipment. It is equipped with a construction machine connection structure and a connection structure for the seabed at the same time. (593,594,595) Nuclear power plant of floating power plant of marine power plant Includes made to be configured to body (1).

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) The distribution side (705) of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided with the connection structure capable of disassembling and coupling the connection shaft,

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Distribution of minerals collection equipment to internal connection structure Transfer of operation equipment distribution to construction machine connection structure to location with submarine track wiring (946) Diversity control equipment connected to the water collecting equipments to be able to withstand the water pressure of the deepwater basin and the deep sea bed Connective structure Bellows butterfly valve (305) and diving control connection structure Dr. Benchure And the ventilation duct 585a of the connection structure 585 and the doctor ventilation outlet 585b are provided with the piping type 581 and the base piping type 582 and the air conditioner of the prime mover 585, Pressure air generated in the micro-switch (80) while at the same time providing the mono-pos. Auto-pneumatic instrumentation provided in the micro-switch (580) Pressure air is injected into the air cylinder (138) provided as a connection structure to the air damper (583) automatically without setting the time indicator (541) in the scale display, so that the damper spindle (584) The connection structure is configured such that in the doctor ventilation (585), the pipe damper (583) is fully closed and deployed, A connection structure such as a push-type transport device 916 that provides a connection structure, such as a ballast butterfly valve 305 of a diving control device of a pipeline, to a floating structure of a marine power plant (593,594,595) A nuclear power plant main body (1) is constituted by a diving control device of a power plant main body (1);

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) of the marine power plant Solenoid valve of the individual solenoid valve (76) provided with the pressure air generated by the air compressor (80) of the prime mover as a connection structure of the nuclear power plant main body (1) When the switch 108 is manually depressed to the on-time main switch button 66 of the main switch button 66 for the solenoid valve start switch button, the fly valve 305 is opened and the main switch button 66 is depressed, The main switch button 66 for the start switch button, which is fully closed and stops operating when the manual valve switch 66 of the fly valve 305 is manually depressed, When the turn valve 66 is manually depressed, the connection structure of the fly valve 305 is opened to allow the pressure air generated in the air compressor 80 to pass through the pipeline connection structure, And Several hatch carver 153 is configured to be connected to the structure to provide a connection structure with a body made of floating dock formula (593 594 595), a nuclear power plant body (1) of the marine power plant, and;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593, 594, 595) of the marine power plant While the operation of rotating the hydraulic control rotary cylinder (35) for electronic control is performed as a connection structure of the nuclear power plant main body (1), a plurality of fire doors (154) (153) The connection structure is opened and the mineral resources provided in the submarine mineral collection site are connected to the inside of the body of the lower tank barge hull (592) of the holding tank. Vacuum pump (635) When the vacuum pump 635 is rotated by hand while pushing the on-time main switch button 66 of the main switch button 66 for the start switch button to the connecting structure of the barge hull 592 ) Mineral resources provided in the submarine mineral collection site located outside the body are the connecting structure that provides the position movement to the inside of the body of the barge hull (591) A power plant main body 1;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) of marine power plant (593,594,595) Connection structure of nuclear power plant main body (1) Diving position control of hull Sub-submarine mineral resource connection structure as connecting structure selected as diving buoyancy control lead- It is a submarine mineral resource for diving buoyancy control. It is equipped with the main body of the lifting docking hull as a connecting structure at the seabed and at the same time, the upper part of the sea surface (SLU) SDU) Connected to the upper position Offshore power plant located as a structure Alternate towers Replacement tower Cranes Cranes Boom stand (942) The connection structure is a power plant equipped with a mooring system and connection structure. (593,594,595) of the marine power plant (1);

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) of the marine power plant (593,594,595) The connection structure of the main body (1) of the marine power plant. Mineral resources are connected to the hull structure of the holding tank bottom barge hull (592) (949) for buoyancy control (949) Replacement of submarine mineral resources by connecting structures to control the diving position of the ship and submarine mineral resources for diving buoyancy control. Holding tank Lower barge hull (592) External bulkhead A plurality of fire doors and a plurality of hatch covers 153 are connected to the pipeline line automatic pneumatic conveying device 916 as a connecting structure, The butterfly valve 305 and the solenoid valve overpressure prevention switch 1 of the solenoid valve 76 as a connection structure 08) Solenoid valve Start switch Main switch for switch button (66) Connected to the power line (71) Connected structure Connected to the floating structure of the marine power plant (593,594,595) Nuclear power plant Main body (1) Inside (942) Connection structure Mineral resource collecting equipment distributing equipment The distribution system of the moving equipment is provided as a connection structure of the construction machine, and it is equipped with the connection structure provided with the seabed from the seabed, and at the same time, the upper part of the sea surface (SLU ) Floating docking deck Upper deck (SDU) Connected to the upper position Offshore generating facility located as a structure Alternate towers Replacement towers Crane boats (942) Connected structures Power generation facilities with connection structure (593,594,595) Nuclear power plant main body (1) of the marine power plant. It includes.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) The distribution side (705) of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided with the connection structure capable of disassembling and coupling the connection shaft,

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Connected to the structure Underwater minerals collecting equipment as a whole is installed in a block block tank (590). Upper barge hull (591) Block piping is connected to a large number of manganese nodules (909) at a depth of 5,000 meters in the sea floor, including the Pacific Ocean, in a number of hundred million tons, and is connected to a plurality of landing baskets (183) (849) to replace the towel crane with a tower crane. Small cranes Boom stand (942) Distributing both sides of the connecting structure to separate the tower crane from the city crane boom stand (942) Connections to Hook Hooks (18) Hooked baskets (842) and connection structures (844) for recycling submarine mineral resources The connecting structures are connected to the tower cranes The ingress basket 842 and the connecting structure 844 for reclaiming both sides of the in-boom zone 942 are connected to the seabed bottom SLL of the sea level SLL, (SDU) at the upper part of the sea surface (SLU) to the upper part of the floating deck (SDU) at the inner site of the mineral resource collection site, while transporting the submarine mineralized manganese block (909) (593,594,595) of the marine power plant at the same time while arranging the movement of the minerals collection equipment and the minerals collecting robot in the submarine mineral resource collection site inside the main body (1) of the nuclear power plant. (SLU) float located at a location with a connection to the submarine track (946) Maritime power plant located at the top of the deck (SDU) (942) Connection structure of mooring system The supporting cranes of tower cranes (942) Mooring structure connected to the power plant The supportive power (593,594,595) ) Nuclear power plant main body (1) Sea bottom crane boom (942) on the lower side of the sea surface installed on the bottom of the nuclear power plant Both sides of the crane boom band (942) are connected to the submarine mineral resources and seabed mineral collecting equipment. (593,594,595) consisting of a nuclear power plant main body (1);

(593, 594, 595) of the marine power plant The mineral resource and lifting device lifted by the lifting harvesting equipment as a connection structure of the nuclear power plant main body (1)

(593,594,595) of the marine power plant The hydraulic cylinder (39) operates as a connection structure inside the main body (1) of the nuclear power plant, and the annual production of manganese block (909) (591) A small-sized crane boom stand (942) of a tower crane substituting for the deck plate located at the upper deck position. While the hydraulic cylinder machine 624 has quick operation, the inside of the hydraulic cylinder machine 624, A seal ring 826 is attached to the bushing seal 824 and the seal ring 825 to the piston seal 822 and the piston seal 823 and an O ring 828 and a seal The backup seal 830 and the load seal & backup seal 831 are provided with a double seal seal 832 and a pin seal seal 833 on the downstream side seal 834 and the baffle 835 The piston ring 836 and the dog rings 837 are each provided with a hydraulic cylinder machine 624, The hose 190, the high-pressure pipe, and the solenoid valves 76, so that the piston is advanced and retreated within the hydraulic cylinder while the holding tank upper barge hull 591 is placed at the upper deck position for replacing the towel crane The crane boom girder 942 of the lower crane boom can be distributed and input into a submarine mineral resource collecting equipment that provides the lifting of the manganese block 217 with the hydraulic cylinder machine 624 having quick operation, (SDU) The upper part of the seabed mineral resource is provided for the repayment of the national foreign debt. At the same time, the upper part of the sea surface (SLU) with the submarine line wiring (946) (942) Connected to the mooring device of the connecting structure and the main body (1) Construction of the connecting structure for the power plant A plaiting dependent expression venom of the marine power plant (593 594 595) includes the configuration be made for a nuclear power plant body (1).

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) The distribution side (705) of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided with the connection structure capable of disassembling and coupling the connection shaft,

(593, 594, 595) of the marine power plant is connected to the main body (1) of the nuclear power plant. The furnace distributing and inputting apparatus for operating the mineral resource heat treatment,

(593,594,595) Nuclear power plant main body (1) Connected to the interior of the marine power plant Upper part of the sea surface (SLU) with submarine line wiring (946) Floating upper part of the deck (SDU) (942) Connecting structure to mooring device and connection structure Undersea minerals resource lifted by power generation facility unit Connected to structure Submarine line wiring (946) Trunk replacement tower crane with connection structure (942) to the inner boom hook hook (18) as a body connecting structure. The structure of the yacht basket (842) for reuse of seabed mineral resources and the connecting structure (844) (842) and the connecting structure (844) for reclaiming seabed mineral resources from both sides of the sea crane boom (942) of the tower crane are connected to the SLD float (SLD) The submarine mineral resource manganese block (909) is transported from the submarine mineral resource collection site inside the lower deck (SDL) of the hull deck to the upper SDU position of the levitated upper deck (SLU) (SLU) with a submarine track wiring (946) as a connecting structure while providing positional control to the upper part of the lifting deck (SDU) of the lifting deck. The upper part of the deck (SDU) Crane boats (942) Connected structure Mooring system and lifting dock of marine power plant (593,594,595) Nuclear power plant Main body (1) Connected structure Internal structure to construct power plant equipment. ;

(593, 594, 595) of the marine power plant is connected to the main body (1) of the nuclear power plant. The furnace distributing and inputting apparatus for operating the mineral resource heat treatment,

(593,594,595) of marine power plant (593,594,595) Inside of the nuclear power plant main body (1) Inside location of the seabed mineral resource collection site, the inhale collection machine of mineral resource collection equipment and the mineral picking robot are distributed and moved, And a blast furnace 948 provided with a carrier positioned at the upper end of the lifted deck top deck (SDU) and having blast furnace 948a of blast furnace 948. In addition, (908) is injected into the furnace (948) for the production of the steel plate (597) and the guide rail (618) of the high tensile strength stainless steel by melting the molten metal, And the guide rail 618 for the block tank hull transportation device is provided in the tubular bridge tunnel with the connecting shaft of the double structure block tank pipe bridge 937, A guide rail 618 provided as a connecting structure is installed at a lower position inside the inner block tank 596 of the double structure block tank 598 connected to the inner body train 771 for a marine tunnel apparatus of 100K / A train 771 located at an inner position of the inner block tank 596 having a running function and a connection structure for providing transportation of the guide rail 618 to the steel plate 597 of the high tension stainless steel, (593,594,595) of the nuclear power plant (1).

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) The distribution side (705) of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided with the connection structure capable of disassembling and coupling the connection shaft,

(593,594,595) of the marine power plant is connected to the main body (1) of the nuclear power plant, and the construction machine distributing and inputting device for operating the submarine energy and mineral collecting equipment,

(593,594,595) Nuclear power plant main unit (1) Connecting structure to the inside of the sea power plant (SLU) with submarine line wiring (946) Floating deck hull deck upper part (SDU) (842) and the connecting structure Pareto (844) for the submarine mineral resource reclamation to the boom girder (652) connecting structure of the crane boom boom of the city cranes boom of the tower crane (842) and a connecting structure (844) connecting structure for the sub-seabed mineral resource reuse of the connecting structure are provided at one side of both sides of the small crane boom stand (942) SLD) In the submarine mineral resource collection site inside the SDL, the position of the upper part of the SLU and the upper part of the floating deck of SDU are controlled, The manganese unit (909) was moved to the upper deck (SDU) of the lifting deck with the manganese unit (909), and the crane boom (942) (593,594,595) Submarine mineral resource collection inside the main body of the nuclear power plant (1) Construction site of the mooring equipment by the connection structure of the city cranes boom zone (942) Inside the excavator (845) And the antitacky antiserum 877 are used to grind the solidified manganese nodule 909 while grinding the pile driver 882 of the construction machine 880 and the steam hammer 884 to the diesel pile hammer 883, The suction and extraction machines 911 and 912 for collecting the seabed mineral resources by the hydraulic crane 885 and the tower crane 886 are connected to a construction machine excavator and a connection structure Of the marine power plant (59 3,594,595) The connection structure of the main body (1) of the nuclear power plant is constructed to collect submarine mineral resources by submersible submersible equipment for submarine energy and mining equipment operation;

(593,594,595) of the above marine power plant. The construction machinery distributing and inputting device for operating the submarine energy and mineral collecting equipment as the connecting structure of the crane boom stand (74) of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Connected to the inside of the structure Structure of the tower Cranes for replacing towers Crane Boom Boom Stand (942) Boom Boom Boom Boom Boom Girder (652) Both sides of the body A double structure high pressure hose 190 connected with a plurality of high pressure hoses 190 as a connection structure coupling fluid coupling hose 190 connected to a 500 m high pressure hose 190 connected to the heavy oil tank 795 in accordance with the water depth, And at the same time a plurality of drill rod pipe racks 854 as a connection structure of a rotary table lathe machine 908 of a drilling machine for crude oil drilling, ) And the natural gas borehole 936 are provided with a predetermined amount of piping pile and at the same time, yellow loess and cement are supplied to the pipe line of the drilling pipe rack 854 as the passage of the piping line, A double structure high pressure hose (190) connected with a plurality of high pressure hoses by a coupling ring (29) connected to a 500 m high pressure hose (190) in the piping file while filling the loess soil with cement. Crude oil and natural gas reserves of crude oil and natural gas are supplied to the submarine mineral resource (CBR) of tower crane boom boom boom and boom girder bridge (652) inside body boom hook hook (18) The reclaiming yard basket 842 and the pallet 844 are connected to each other so that the yard basket 842 and the pallet 844 for reclaiming both undersea mineral resources of the small crane boom stand 942 (SLD) of the sea surface (SLL) from the internal position of the submarine mineral resource collection site in the lower SDL (SLD) of the floating deoxygenated deck (SDL) to the upper SDU of the floating deck Proceed (909) of the submarine mineral resource manganese unit (909) is moved to the upper part of the deck (SDU) of the lifting deck and simultaneously moved to the inside of the main body (1) (SDU) located at the upper end of the sea-level surface (SLU), which is located at a location where the submarine energy harvesting equipment in the crude oil and natural gas is connected to the submarine line wiring (946) Of the crane boom stand (942) of the crane boom stand (652) of the crane boom stand of the crane boom stand (652) 593, 594, 595), and the main body 1 of the nuclear power plant.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

The nuclear reactor main body 794 includes a plurality of inner block tanks 596 and a plurality of outer block tanks 596 outside the plurality of inner block tanks 596. The nuclear reactor main body 794 includes a plurality of inner block tanks 596, The first auxiliary steel 600 for the block tanks and the second auxiliary steel plates 601 for the block tanks are provided with the vertical beam 605 and the horizontal beam 609 with the steel beams 149 in the outer block tank 599, The steel beams 149 and the snap holes 602 are formed in the first auxiliary steel 600 for the block tanks and the second auxiliary steel plates 601 for the block tanks and the vertical partition 605 and the horizontal partition 609, The fifth guard wall distributing and inputting device formed along the outer wall circumferential surface of the fourth protective wall container 808 and the fifth guard wall distributing and inputting device formed by the manhole 610 while being machined by the computer laser cutter 954, The explosion control device is divided into the distribution device and the reactor facility nuclear radiation leak control It made be configured to operate the nuclear reactor building block tank dust collector body 794 dependent expression venom of the marine power plant (593 594 595), a nuclear power plant body (1) in a nuclear reactor plant operations replace nuclear waste disposal, and the shield;

The vertical partition wall 605 and the horizontal partition wall 609 in which the partition wall manhole 610 is formed inside the main body 1 of the nuclear power plant of the marine power plant 593,594,595 are provided with the hydraulic system cylinder door 624 and emergency stairs 631) is formed by a welding process and is equipped as a transportation device to prevent the explosion of a reactor Reactor facility Nuclear radiation leakage control Double structure block tank Reactor main body (794) The shielding device is configured to operate the nuclear power plant;

The plurality of stopper steel plates 625 are connected to a plurality of inner block tanks 596 and a plurality of outer block tanks 599 of the cylindrical double structure block tank 598 at the upper and lower ends of the block tanks, (593,594,595) of a marine power plant equipped with an egg type main body (794) of a double structure block tank with flange bolting connection devices, nuclear waste of various kinds of nuclear reactors (811) into the main body (1) 224) Treatment of nuclear waste (224) of various types of reactors (811) by the main body (1) of the nuclear power plant (593,594,595) of the marine power plant by dividing it into the distribution input device of the treatment device and the distribution input device of the nuclear fuel explosion control device The device and the fuel explosion control device are configured to operate the nuclear power plant;

Nuclear waste is stored in one place at the lower part between the vacant spaces of the plurality of inner block tanks and the plurality of outer block tanks in the event of a large reactor explosion, and at the same time, the bottom of the road surface of the double structure block tank (GLD) A plurality of nuclear explosion preventive double structure block tanks 598 secured by a mat 225 and a steel beam 149 are disposed outside an inner block tank 596 having a reactor main body 794 and a barge hull 591 ) Nuclear power plant pellet (683) is injected into the third wall of the reactor body formed by introducing the reactor facilities of the alternative nuclear waste processing shielding apparatus, (593,594,595) of a marine power plant equipped with an explosion control device of the explosion control device. Type nuclear reactor 811 and the nuclear fuel explosion control apparatus to provide power generation to the nuclear reactor radiation leakage control double structure block tank reactor main body 794 ;

(593,594,595) of marine power plants (593,594,595) In the nuclear power plant main body (1), a large amount of radiation is generated so that the reactor can safely cover the first wall pellet and the second wall fuel rod, the third wall reactor pressure vessel A double structure block tank in which a conventional reactor building formed of a fifth wall reinforced concrete mat (225) is formed in a four-walled container by forming a five-layered protective wall, and a distribution injector and a nuclear fuel The nuclear power plant main body 1 is provided with a distributing and inputting device for the explosion control device and the barge hull 591 at the upper end of the holding tank is provided in the reactor structure 811 of nuclear power generation as a double structure block tank reactor building, The nuclear reactor operation of the power plant is constituted by a nuclear radiation leakage control dual structure block tank reactor dust collector main body 794;

A steam generator 810 and a steam dryer 786 installed outside the reactor pressure vessel 813 are connected to each other and a fluid container 808 corresponding to the fourth wall of the reactor 811 is connected to the steam generator 810, And a plurality of through holes are formed in the upper portion of the reactor building 688 corresponding to the fifth wall by a predetermined angle of 45 degrees into the cutter and the construction machines, A plurality of safety valves 472 are connected to the flange by the gasket 32 to the bolt 24 and the nut 25 on the block piping line 74 and the plurality of safety valves 472 are connected to the flange by the gasket 32, A double structure block tank 598 having a size twice as large as the reactor building 688 is connected to an outer block tank 599 for storing nuclear waste treatment in a radiation type connection structure, And the distribution input device of the fuel explosion control device. It made be composed of the operation of the nuclear power plant to nuclear radiation leakage control block double structure reactor tank dust collector body 794, and;

Dual Structure Block Tank The reactor building is provided with a plurality of internal block tanks 596 and a plurality of external block tanks 599 each having a loess (158) cement mixing equipment mixer machine 649 as a dispensing device of a nuclear fuel explosion control device Coolant (287), which is a control material for fuel explosion prevention, which is injected into a pressure vessel (813) at the same level as a blast furnace immediately before a reactor explosion, and a dispersion material that causes soap and foam in a toothpaste- The mixture is properly mixed with the mixture 927, and the control article is injected into the pressure vessel 813 at one time by the automatic injection device. Thereafter, several fire-fighting nozzle nozzles 10 are cleaned so as to clean the inside of the reactor 811 Is formed inside the pressure vessel (813) and inside the vessel (808), and the reactor (811) inside the reactor (811) Explosion-proof double structural block tank Tanks containing nuclear reactors Nuclear fuel explosion control devices equipped with nuclear fuel explosion control devices equipped with Nuclear power plant main body (1) Double reactor structure of various reactors (811) Block tank leakage of nuclear radiation Control dual structure block tank A nuclear waste disposal unit of a nuclear waste disposal system for internal and external refurbishment equipped with a reactor main body 794 is installed and operated to prevent the explosion of nuclear reactor facilities ;

The inside of the reactor 811 is internally cleaned by forming a circulating water pump 858 connected to the cooling water 287 piping line 352 which is a dispensing device of the nuclear fuel explosion control apparatus and cooling water 287 to prevent solidification of the loess mixture, And the dispersing material causing the foaming such as the washing material is appropriately mixed with the loess mixture with the loess cement mixing equipment mixer machine 649 and put into the pressure vessel 813 all at once, and immediately after the earthquake stops, (811) of the nuclear reactor main body (791) to perform continuous power generation without restriction from natural disasters and to prevent the explosion of the reactor that maximizes safety operation of the nuclear reactor facility. (1) of the nuclear power plant main body (1) as a distribution dispenser of the nuclear waste disposal apparatus and a distribution dispenser of the nuclear fuel explosion control apparatus Configuration be made to Nuclear Power-on After the various lines of the distribution chute around the reactor plant safety operation in the control apparatus for a fuel explosion reactor (811) and;

And a plurality of dual structure block tank reactor nuclear reactor (s) for storing the nuclear reactor effluent (224) connecting the outer wall surface of the reactor building wall from the first wall of the reactor to the double structure block tank reactor wall of the fifth wall The nuclear power generated at the nuclear power plant before and after the operation of the nuclear power plant formed in the nuclear power plant body (1), which is formed with a coupling structure with various kinds of nuclear power generation reactors (811), generates nuclear fission inside the reactor (811) A steam turbine 267 for generating steam from the steam to produce power by rotating the steam turbine 267; a nuclear power generator 772 for converting the power produced from the steam turbine 267; And a rotating rotor electromagnet coil 774 for a nuclear power generator installed along a circumferential surface of a shaft 198, which is a rotation shaft connecting the atomic power generator 772, A non-rotating armature coil 773 for a nuclear power generator installed along a circumferential surface of a rotating rotor electromagnet coil 774 for a magnetic power generator and a power generator 772 for driving the nuclear power generator 772 and the shaft 198 to the steam turbine 267 And a frame 775 integrally fixed to the main body 794 of the double structure block tank reactor main body 794 so as to operate as a nuclear power plant;

A cooling water 287 piping line 352 having a connection structure with a condenser 790 at a lower portion of the body of the steam turbine 267 of the power generation facility and a coolant water line 352 at a pipeline line 169 at the front of the condenser 790, A circulation water pump 858 connected to the pipeline line 352 is connected to the nuclear reactor radiation leakage control double structure block tank reactor main body 794 before the reactor facility safety operation;

A feed pump 857 is formed outside the rear end of the condenser 790 and the reactor 811 and a purifier 809 is formed outside the reactor in front of the feed pump 857, A plurality of coolant pumps 859 are installed outside the reactor pressure vessel 813 containing uranium 812 fuel and a safety device control rod 798 is installed inside the reactor pressure vessel 813 The control rod 798 is automatically inserted at a time so that the reactor can be operated as an emergency stop by the reactor main body 794 of the double structure block tank control reactor ;

Various kinds of reactor 811 first wall pellets 683 and a covering pipe 682 for protecting the second wall flaring rods 689 are disposed inside the third wall reactor pressure vessel 813 The safety valve 472 formed with the plurality of temperature pressure sensors immediately before the explosion is opened in the fourth wall container 808 or the like and the inner block pipe 74a of the upper block piping line 74 of the pressure vessel 813 at each location is opened, The explosive nuclear waste 224 passes through the inner block tank 596 and the outer block piping 74b is filled with coolant and toothpaste-like loess mixture, which is a fuel explosion prevention control product stored in the inner block tank 596, The nuclear waste 224 is transferred and stored in the inner bottom portion of each of the double structure block tanks 598 and the inner block tank 596 of the pressure vessel 813 is transferred to the inside of the pressure vessel 813 and the fourth protective walled container 808, And the temperature-sensing-sensor safety valve 472 connected to the temperature-sensing- Cooling water and toothpaste-like loess mixture, which are control items of the fuel explosion-proofing agent stored in the inner block tank 596, are supplied to the outer block pipe 74b of the block piping line 74 through a water pump 857, And the fourth block wall container 808 to convert the position energy of the water into the kinetic energy of the water mixture of cooling water and toothpaste to the reactor so that the inner block tank 596 and the outer block tank 599 are separately stored Reactor explosion is prevented by stopping the reactor explosion by filling up the mixture of cooling water and toothpaste-like loess mixture. Reactor facility safety operation before and after nuclear reactor radiation leakage control of dual structural block tank reactor structure of double structure block tank Reactor main body (794) To operate the nuclear power plant;

When the decommissioning of the reactor pressure vessel 813 is stopped with the remote control cutting or the robot 700 when the reactor decommissioning operation of the nuclear power plant is stopped, the plurality of the temperature pressure detection sensor safety valves 472 are closed, A plurality of types of reactors that are always closed by a plurality of temperature-sensing sensor safety valves 472 can be installed on a barge 591 of a nuclear power plant. The dust collector main body 794 is configured to operate the nuclear power plant;

Several types of reactors (811) are installed in the sinking prevention type barge of the ocean, and the nuclear radiation leakage control dual structure block tank reactor main body (794) is operated to operate the nuclear power plant;

In order to prevent the earthquake and tsunami from being restricted by the weather conditions, the location of the nuclear power installation at 40m above the sea level is adjusted by the mooring device formed in the submerged barge line and the diving and buoyancy adjusting devices, The nuclear reactor leakage control system is configured to operate the nuclear reactor main body (794) to control the nuclear radiation leakage control such that various kinds of nuclear reactors of unaffected nuclear power plants can not explode;

By constructing a dual structure block tank reactor building at a marine nuclear power plant so as to prevent the nuclear explosion of the nuclear fuel chamber to prevent environmental pollution due to nuclear waste, In order to ensure the safety of power generation facilities and to ensure the renovation of nuclear reactors by continuous operation, the mooring device formed on the barge for the treatment of nuclear waste, the control device of the diving buoyancy, the distribution input device of the nuclear waste treatment device and the distribution input device of the fuel explosion control device (2) Nuclear power plant (672) Main body (1) Reinforcing system (2) Nuclear power plant (2) Nuclear power plant Replacing a conventional reactor building formed of a concrete mat (225) A nuclear waste treatment apparatus having a nuclear reactor block tank reactor main body 794 and a distribution input apparatus of the nuclear fuel explosion control apparatus to safely operate the nuclear reactor facility before and after the nuclear reactor radiation leakage control dual structure block tank reactor main body 794 ) To be operated.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

Nuclear Radiation Leakage Control for Nuclear Power Plant Nuclear Radiation Leakage Control Dual Structure Block Tank Nuclear waste treatment device equipped with reactor main body 794 and nuclear reactor installation of nuclear fuel explosion control device Distribution injector Various kinds of nuclear reactors 811 are sunk in the ocean In order to prevent the construction of the barge of the prevention type and the weather condition of the earthquake and tsunami, it is necessary to set the installation position of the nuclear power plant at the top of 40m above the sea level to prevent the sinking of the barge line. In the operation of nuclear power plants for safe operation equipment of nuclear reactors forming equipment safety,

In order to avoid the restriction of the weather conditions, the height of the barge line installed at the nuclear power plant is adjusted to 40 m above the sea level. The elevator car (639) and the anchor car chain (640) (8) for the emergency pump and a vacuum pump (8) for the emergency pump in the vacuum pump (635) of the automatic pneumatic valve transport device (916) BELLUSTAR BARRING TANK ADJUSTING BLANK BUTTON AND TANK INSULATION FLUID ACCESS BLOCK MECHANISM Connecting jet pump (157) to wire netting (28) Bellows butterfly valve of diving control device of piping line with structure And a hydraulic ventilator door 624 for the block tank hull traffic control device is connected to the doctor ventilation inlet 585a and the doctor ventilation outlet 585b of the nuclear waste treatment storage tank and doctor ventilation 585, ) And a block tank (76) Solenoid valve (76) to be installed in hydraulic cylinder device for unit breaker control device. (76) Divert position control device of hull to each valve and lead weight for diving buoyancy control (949) Large-scale marine nuclear power plant float tanks (595) are buoyant due to buoyancy caused by buoyancy due to hull weight and sea level gravity, which causes large-scale marine nuclear power plant lifting tanks (595) to float slowly to the sea. A plurality of ballades 638 for hull anchoring of the sling for the apparatus and the hull of the vessel are detached from the upper tank barge hull 591 and the holding tank lower barge hull 592, 638 and the anchor 639 formed on the anchor chain 640 for the connection link of the mooring device anchor 639 are pushed to the lower floor of the submarine by a pinion winch 137, When the sea floor depth is deeper than the depth of the continental shelf while the mooring anchorage system is provided, the bottom floor of the submarine is excavated by a rotary table lathe machine (908) of drilling machine for crude oil, (Not shown) of the mooring device 185 with the hydraulic cylinder hydraulic pressure key 623 formed on the hydraulic cylinder hydraulic pressure key 623 of the mooring device, When the barge hull anchoring is released and the hydraulic cylinder operating key 623 is operated by the umbrella unpacking body of the feed dog 185, the barge hull anchoring is formed, The height of the barge ship anchor, which is a nuclear power plant, is used to control the operation of the nuclear power plant before and after the operation of the nuclear power plant;

(593,594,595) of a marine power plant For the diving control of a floating type poison ship inside a nuclear power plant main body (1), an air recycling tank (145) for an air storage tank and an air recycling tank A cooling fan 645 serving as an air liquefier cooling mechanism and a heater fan 642 for floating the rubber balloon 914 and the tube 188 in the air balloon 78 and the advertising balloon 77, (643), which will cause all parties involved in the belligerent countries, who are engaged in war, maritime piracy, and international diplomatic disputes, to be expelled from the atmosphere of the earth's atmosphere and to control the missile on the airship and nuclear bomb An air operated air turbine (not shown) supplied from the air compressor 80 to the aerodrome tower 644, a space rocket launch pad 646 equivalent to the satellite, and an air compressor air compressor 80, (137) to operate the nuclear power plant before and after operation of the nuclear power plant;

A hoist rope 19 included in the crane 861, a wire rope chain 915, and an air compressor (not shown) 80 and the air hose 109 connected to the front of the air-tying winch 137 in front of and behind the air receiver tank at the rear of the deck 80. An electric magnet magnet 645 and loess and cement A pipeline automatic pneumatic conveying device 916 for conveying by piping and high pressure hose and a mixing equipment mixer machine 73 located at the front of the pipeline automatic pneumatic conveying device 916 are provided After the lever blocks 123 are provided for each tonnage capacity so that they can be combined in units of the double structure block tanks 598, they are combined in units of the block tanks 598, and then the turning bodies 640 are re- And the bolt nut was used as the joint between the holding tank and the auxiliary holding tank After the steel plate bracket (165) is provided with a machining hole for male and female coupling, the steel tube bracket (165) is welded to the block tank and then subjected to continuous nuclear operation of the nuclear waste treatment reactor facility of the marine nuclear power plant so as to withstand the high pressure to the flange- To operate nuclear reactors before and after safe operation of reactor facilities;

After the rubber packing 32 of the gasket packing is sandwiched between the large flange 614 and the large flange 614 by the space between the large flange 614 and the double structure block tank 598 with high strength bolts and nuts, ) And a connecting double structure block tank flange (614) to another coupling with the double structure block tank flange (614) inside and outside the nuclear power plant body (1) The valve disk operation inside the ballast butterfly valve 622 submerged in the seafloor with the opening of the manhole 610 and the hatchback 153 is released while the fan 195 of the regulation valve is opened, And the bottom barge hull at the bottom of the double structure vertical holding tank is formed into a nuclear waste disposal storage tank generated from a reactor, a key bed (616) as a barge underneath the barge hanger and a vertical horizontal hinge joint The shaft 606, which is tightened to the long hole 616 of the long shaft, constitutes a continuous operation of the nuclear waste disposal reactor of the marine nuclear power plant before and after the safe operation of the reactor facility;

(618) for deck deck top equipment transfer, a helicopter stop (619) at the top of the floating deck deck, and a semi-submerged operation line (623), a double structure block tank for the marine safety work for the diving work line mounting for cutting and welding in the tank tank joint connection separation and tank frame connection type of double pipe structure type (598 ) Combined tooth tool The ballast butterfly valve (621), a hydraulic cylinder mounted on the semi-submerged working line (637) and controlled by the submerged barge line, The inner side of the motor body 192 of the power motor is connected to the hood 193 and the snap ring 194 by a fan A stator assembly 201 and a motor protection casting frame 202 (not shown) are attached to the rotor assembly 199 and the front bead ring 200 to the front bracket 197 and the shaft 198 on the body frame 195 and the body frame 196, A terminal box cover 203 is attached to the terminal box 203 and a terminal box cover 205 is attached to the lifting bolt 204. A rear bracket 207 is attached to the rear bead ring 206 and a protective cover 209 is provided to the gap 208 When the rotor core 211 is provided with a stator iron core 211 and stator winding wires 212, power is supplied to the rotating core, and at the same time, when the defective portion of the hull is damaged, it is prevented from sinking, (585), which is equipped with the equipment of this system, and a swich-on-air valve, which is a suction control device for mineral resource intake, A hydraulic cylinder door 624 in which the pushbutton-offshaft is closed, Lashing Tank Inlet Entrance Access Blocking Stopper Plate (625) formed of tie wire mesh (28) constitutes the continuous operation of the reactor of nuclear reactor waste disposal reactor before and after safe operation of the nuclear reactor of marine nuclear power plant;

The air piping line 181 for preventing sinking of the hull and the emergency engine 226 for extending the prevention of hull sinking prevention are provided. In order to prevent access to other vessels during the lifting of the floating tank in the block tank unit, The airbag inflatable flagpole 628 of the airbag 628 is connected to the tugboat and the floating dock by a rope 629 and a rope connecting knot claw 630 and the emergency staircase 631 ) For controlling the balancing of the mineral and the conveyer 633 for the machine equipment conveying facility and the barge hull 592 to the inside of the barge hull 591 to the elevator alley bed 636, (635) of the vacuum pump (635) and the air lifting line (634) of the air suction and discharge device for lifting the hull of the sinking ship, the parts are manufactured at the marine ship manufacturing factory and heavy industry field,(666), and the position of barge elevation control is equipped with the equipments to make continuous operation of the nuclear reactor of the nuclear waste disposal reactor facilities of the post-sea nuclear power plant before safe operation of the reactor facility ;

In order to prevent nuclear reactors of nuclear power plants from exploding and to prevent the environment from being contaminated by nuclear waste without being affected by earthquakes and tsunamis, The power plant is formed of a single number of double structure block tanks, which are reactor nuclear waste treatment storage tanks formed from the first wall to the fifth wall on the reactor surface, the double structure block tanks being formed of inner block tanks and outer block tanks, In order to ensure the safety of the nuclear power generation facility and ensure the repair of the nuclear reactor and the treatment of the nuclear waste, the nuclear explosion preventive double structure block tank reactor main body 794 The nuclear power plant, The nuclear waste 224 that has been exploded into the block piping line 74 is passed through the double structure block tank reactor in which the reactor does not explode and the nuclear waste 224 is stored in the block tank 598, The plurality of safety valves 472 are closed when the explosion of the reactor pressure vessel 813 is stopped and the safety valve 472 is closed and the plurality of safety valves 472) are closed to provide for continuous nuclear operation of the nuclear waste treatment reactor facility of the post-sea nuclear power plant before and after safe operation of the reactor facility with its equipment.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,

(593,594,595) of the marine power plant If the regenerated liquid of the ion exchange resin is liquid in the water leaking from the valve of the nuclear power plant (672) and the water in the building inside the nuclear power plant main body (1) Collected in a tank 216 and filtered with a filter 217. The radioactivity is measured by a radioactivity measuring device 218 to confirm that there is no harm and then flows into the sea together with the seawater for cooling and water other than the washing water is filtered through the filter 217 ), Filtered water and distilled water are provided for monitoring with the monitoring post 219 while preparing for use as a reactor coolant, so that it can be used as a floating nuclear power plant inside the main body 1 of the nuclear power plant (593,594,595) The radioactive contamination prevention is constituted by the nuclear waste 224 treatment apparatus.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,

If the ion exchange resin and the filter material are solid in the paper, cloth, work clothes, shoes, etc. inside the building of the nuclear power plant 672 inside the main body 1 of the nuclear power plant of the marine power plant 593,594,595, The resin solution used is stored in the storage tank 216 and is filled with the concrete in the drum 220. The paper or cloth is compressed to reduce the volume and attenuate the resin, The nuclear waste storage 224 and the nuclear waste storage building 332 and the monitoring monitoring post 219 are further provided for nuclear waste disposal by the forklift in the site, (593,594,595) Includes nuclear waste disposal (224) treatment system to prevent nuclear radiation contamination both inside and outside the nuclear power plant main body (1).

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,

Since nuclear waste 224 having a long half life period from the reprocessing process at the nuclear power plant 672 inside the nuclear power plant body 1 has a long half-life, it must be stored for several thousand years, so that the half- The apparatus of construction machine heavy equipment stock 877 and excavator 845 to constitute the nuclear waste 224 to be buried in the polar glacier with the nuclear waste 224 treatment device;

Fission in the reactor (811) to form a conversion into another material; and structuring the deep buried bed or the bottom of the ocean with a nuclear waste (224) treatment device;

A dual tubular drum (220) containing a nuclear waste and a vessel for transporting the buried region to a nuclear waste (224) treatment device;

A double tubular drum 220 containing nuclear waste is mounted on a space rocket 612 on the upper surface of a barge deck deck 591 equipped with a space rocket 612 and a space rocket launcher 646, (1) of the nuclear power plant (1) of the marine power plant, and (2) the nuclear waste (224) treatment device .

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

The nuclear waste disposal apparatus having the nuclear reactor main body 794 of the dual structure block tank control nuclear reactor radiation leakage control for the reactor plant of the nuclear power plant and the nuclear reactor of the nuclear fuel plant of the nuclear fuel plant of the nuclear fuel explosion control apparatus, And for forming a reactor maintenance guarantee, the apparatus comprising:

In case that the maintenance work of the nuclear power plant 672 in the inside of the reactor 811 of the nuclear power plant 671 takes longer than 3 months, it is necessary to install the reactor 811 in the main body 1 of the nuclear power plant 593,594,595, The boiler 783 of the thermal power generation is separately operated after the line is shut off by the safety valve 472 so that the connection structure is formed in the reactor power generation facility and the steam is supplied to the reactor 811 ) Maintenance of nuclear power plants by safe and continuous operation of nuclear power plant main body (1) of the marine power plant (593, 594, 595) (811), it is necessary to pay close attention to the workers in order to prevent radioactive contamination and ensure that the reactor can be repaired. It should.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,

When the air contained in the inside of the building and the water contained in the water inside the reactor 811 is gas, the activated membrane type gas hold-up device 213 which weakens the radioactivity when the seizure type reactor 811 is activated, The ventilation of the plant is discharged through a plurality of symmetrical filters 214 while discharging the air, and all of the ventilated air is discharged from the exhaust tower 215 to the inside of the main body 1 of the nuclear power plant 593,594,595 of the marine power plant. And a nuclear waste disposal apparatus 224 for preventing the contamination of the nuclear radiation from the outside.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

Around the launch pad of the satellite and the space rocket, a natural loess and a disaster prevention tool of 1 meter above the deck deck of the floating deck is laid on the deck deck with natural loess soil and disaster prevention material, When a circular ocher block is installed at a height of 15m at a height of 3m and at the same time a satellite and space rocket are fired at a satellite launch pad and a space rocket launch pad at the top of a deck deck, a huge amount of fuel is burned The high temperature and high-pressure combustion heat generated by high-temperature and simultaneous firing of satellites and space rockets is 60 m in diameter Circular ocher block The walls are equipped with a high-temperature and high-pressure combustion heat shield to protect the deck deck. At the same time, while installing the equipment, replace the towel crane with a small crane boom stand (942) 60 m in diameter Circular height 1 5m Block Tank Hull Disassembly Double Tube Construction Tank Bridge Construction Construction of a bridge saddle-type frame (617) with a position shifting, temporarily installed on the circumference surface of the launch pad and space rocket launching pad, The manganese block (909) is laid on a deck deck at 2 m depth and the satellite and space rocket are fired to remove the floating saddle-shaped frame (617) A hydraulic rotary cylinder machine 619 and a hydraulic cylinder machine 624 are mounted on a small crane boom stand 942 of a tower crane substituting for a dead boat that can be used in the deep sea, ), While a plurality of hydraulic cylinders are provided, and the hull is retracted at two positions in front of the hull, (593,594,595) of the marine power plant is equipped with an anchor and anchor chain so that it can be used as a ship shelter for the marine anchorage. .

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

A nuclear waste disposal system for a reactor plant of a nuclear power plant, a dual structure block tank, a nuclear waste disposal system comprising a nuclear reactor main body 794, and a non-aqueous reactor 802 comprising a distribution injector of a nuclear fuel explosion control apparatus The structure,

The non-aqueous reactor 802 boils water to form a steam to form a turbine rotary operation. Inside the non-aqueous reactor 802, fuel and water, a control rod 798 and a recirculating pump And a pressure control pool 856 for confining water to the lower portion of the pressure vessel 813. The steam pipe 779 is connected to the outside of the reactor by a turbine and a generator. The steam remaining in the condenser 790 is cooled by the water pump to transfer the hard water to the inside of the reactor 809 by the water pump and recirculate the water into the reactor 809. At the same time, the cooling water 287 is circulated in the condenser 790 through the circulating water pump 858, (287) is discharged to the outside waterproofing system of the condenser by the double piping line (74) of the double tube structure located inside the main body (1) of the nuclear power plant (593,594,595)The reactor is equipped with a number of temperature sensors to detect the presence of radioactive contaminants in the reactor. Temperature sensor of the safety valve When the temperature of the reactor reaches 700 to 800 degrees Celsius and the pressure reaches the danger level of high pressure As the temperature pressure sensing sensor transmits an alarm message to the computer of the safety control room, the safety valve of each temperature pressure sensing sensor is opened at the same time, and the explosion nuclear waste passes through each block of the pressure vessel inner block pipe line 74a, The nuclear waste is stored at each location of the tank, the temperature-sensing sensor safety valve 472 connected to the inner block tank of the pressure vessel is opened, and at the same time, the outer block piping line 74b is connected to the fuel- The fuel explosion-proof control device is connected to the automatic charging device flashing warning lamp (99), the pressure gauge (101) Temperature sensor Thermostatic thermometer with bimetal (102) and connection structure Sensor switch for sensing flow rate (103) Level pressure switch for operation check (104) Flow meter for flow check (105) Piping line Automatic pneumatic valve And the safety valves 472 of the conveying device 916 are connected to each other to form a plurality of through holes at a predetermined angle of 45 degrees on the upper portion of the reactor building 688. The through holes are formed by a laser cutting machine and a construction machine drilling machine, A plurality of safety valves 472 are connected to the block piping line 74 through the bolts 24 and the nuts 25 by the gasket 32 while forming the double piping line 74 in the through- And an outer block tank 599 for storing the nuclear waste treatment and an outer block tank 598 for storing the nuclear waste are installed in a double structure block tank 598 having a size twice the diameter of the reactor building 688 along the outer wall surface of the reactor building 688, Combined with the shape-link structure, (681) inside and outside the core (681) to prevent the explosion of nuclear fuel immediately before the explosion of the reactor. The nuclear and nuclear offshore nuclear reactors As nuclear fuel explosion-proof control articles are provided as connection structures of various types of reactor facility bodies 811 inside the power plant main body 1, it is possible to prevent explosion of the nuclear nuclear fuel in the nuclear power plant main body 1, And the safety operation is further performed.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

Structure of a pressurized water reactor 803 forming a nuclear waste disposal apparatus having a nuclear reactor main body 794 and a distribution injector of a nuclear fuel explosion control apparatus, Quot;

The pressurized water reactor 803 does not generate steam to generate steam, but rather creates hot water. The steam generator 803 exchanges water and steam in the steam generator to provide steam turbine rotation. The pressurized water reactor 803 is connected to the inside of the reactor pressure vessel A fuel pump, a water control rod, a steam generator, and a coolant pump to the outside of the generator, and a turbine and a generator at an intermediate portion between the pressure vessel and the generator. The coolant is injected into the condenser, (593, 594, 595) of the offshore power plant while simultaneously supplying water to the steam generator through the feed pump connected to the condenser and to the block piping lines (74) of the double pipe structure located inside the main body Nuclear waste disposal facilities are used to control the location of nuclear waste, Several temperature and pressure sensors Sensors of temperature and pressure of safety valves When the temperature of the reactor reaches 700 to 800 degrees Celsius and the pressure reaches a dangerous level of high pressure, While the message is being transferred, the plurality of pressure sensors of the temperature sensing sensor are opened at the same time, and the nuclear waste is passed through the pressure block internal piping line 74a at each location, and the nuclear waste is stored in each location of the block tank. The temperature control sensor 472 connected to the lower inner block tank is opened and at the same time the outer block piping line 74b is connected to the automatic block device warning lamp A thermocouple 99 having a connection structure with a pressure gauge 101 and a temperature sensing bimetal 102, Check the flow rate to the thermometer sensor switch (103) Level pressure switch for operation (104) Flow meter for flow check (105) Connect to the safety valves (472) of the pipeline automatic pneumatic valve transport device (916) A plurality of through holes are formed in the upper layer of the reactor building 688 at a predetermined angle of 45 degrees by a laser cutting machine and a construction machine drilling machine while machining the through holes at the same time, A plurality of safety valves 472 are connected to the block piping line 74 by bolts 24 and nuts 25 with gaskets 32 to connect the flanges to each other along the outer wall surface of the reactor building 688 A double structure block tank 598 having a size twice as large as the nuclear reactor building 688 is combined with the outer block tank 599 for storing nuclear waste treatment in a radiation type connection structure, And nuclear fuel explosion control field (681) inside and outside core (681) Nuclear fuel explosion prevention control device immediately before explosion Nuclear reactors to various kinds of nuclear reactors The main body (811) is a connection structure to prevent the explosion of nuclear fuel, so that the main body of the nuclear power plant (1) can prevent the explosion of the nuclear fuel by injecting it into the structure of the pressurized water reactor (803) .

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

Nuclear Radiation Leakage Control Dual Structure Block Tank for a Nuclear Power Plant Reactor Facility A multipurpose hot gas furnace reactor main body (794) for forming a nuclear waste disposal apparatus having a nuclear reactor main body (794) and a distribution injector of a nuclear fuel explosion control apparatus 805,

Using graphite as the moderator 819 and using helium gas as the coolant 816 while using enriched uranium and thorium as the fuel, the heat of the helium gas is transferred to the water and water and steam are separated from the steam drum where the steam is generated (593,594,595) of the marine power plant while simultaneously transferring the steam to the turbine through the pipeline while simultaneously generating the electric power within the generator by the rotation of the turbine. (74) to provide a nuclear waste location transfer passage to regulate the nuclear radioactivity contaminants into a plurality of temperature pressure sensing sensors. The temperature sensor of the safety valve detects the temperature of the inside of the reactor, When the level of 800 degrees and the pressure reaches the dangerous level of high pressure, the temperature and pressure sensor detects the alarm in the safety control room computer While the message is being transferred, the plurality of pressure sensors of the temperature sensing sensor are opened at the same time, and the nuclear waste is passed through the pressure block internal piping line 74a at each location, and the nuclear waste is stored in each location of the block tank. The temperature control sensor 472 connected to the lower inner block tank is opened and at the same time the outer block piping line 74b is connected to the automatic block device warning lamp A level pressure switch 104 for controlling flow rate check is connected to a thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 99 and a pressure gauge 101 and a bimetal sensor 102 for temperature sensing. 105) Pipeline line The safety valves 472 of the automatic pneumatic valve conveying device 916 are provided with a connection structure so that the upper part of the reactor building 688 has a constant A plurality of through holes are formed at an angle of 45 degrees by machining the through holes with a laser cutting machine and a construction machine drilling machine while a plurality of through holes are provided with a plurality of safety valves 472 A flange is connected to the bolt 24 and the nut 25 to the block piping line 74 by a gasket 32 and the flange is connected to the block piping line 74 along the outer wall surface of the reactor building 688 at twice the diameter of the reactor building 688 (598) to a nuclear waste disposal and storage outer box tank (599) in the form of a radiation-like connection structure, the nuclear waste disposal apparatus and the nuclear fuel explosion control apparatus as a dispensing apparatus, The nuclear reactor facility main body 811 is installed inside the reactor core 681 and outside the reactor core 681 to the interior of the main body 1 of the nuclear power plant on land and in the sea with nuclear fuel explosion- (1) Nuclear Power Plant Nuclear Fuel Explosion Prevention Nuclear Reactor Nuclear Power Plant Nuclear Reactor Nuclear Reactor Nuclear Reactor Leakage Control System (593,594,595) Nuclear power plant main body (1) Nuclear power plant operation Nuclear fuel explosion prevention is carried out by multipurpose hot gas to the structure of nuclear reactor main body (805) And the operation is further performed.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

Double Structure Block Tank for Nuclear Power Plant Reactor Facility The structure of the new reactor furnace facility main body 806, which includes a nuclear waste disposal apparatus having a nuclear reactor building and a dispensing apparatus for the fuel explosion control apparatus,

The reactor body 806, which is newly developed and attracts attention, is provided with a reactor which is capable of increasing the utilization of nuclear fuel much more than conventional nuclear reactors. As a coolant, As the water and steam are separated from the steam drum, the steam is transferred to the turbine through the piping. At the same time, the turbine revolves to produce electric power within the generator, while heavy water is used as the moderator. Neutral water does not absorb neutrons more than hard water Utilization efficiency of uranium has been increased so that natural uranium is mixed with plutonium as a fuel. Combined mixer machine is used to mix the fuel with rotating turbine, while the marine power plant's lifting plant (593,594,595) The double tubular block piping lines 74 located at Nuclear waste Location of channel Nuclear radioactive pollutants Multiple temperature pressure sensors Sensors of safety valves Temperature sensors of pressure sensors The temperature inside the reactor is 700 to 800 degrees Celsius and the pressure is at a high risk level Upon reaching, the temperature and pressure sensors transmit alarm messages to the computer in the safety control room, and at the same time, a plurality of safety sensors for temperature and pressure sensing sensors are opened, and explosive nuclear wastes pass through the pressure block internal piping line (74a) The nuclear waste is stored in each of the block tanks so that the temperature-sensing sensor safety valve 472 connected to the inner block tank at the lower part of the pressure vessel is opened and at the same time, the outer block piping line 74b is provided with the fuel- Control equipment Nuclear fuel explosion prevention control device is automatically inserted into the flashing warning light (99) A level pressure switch 104 for controlling flow rate check is connected to a thermostat thermometer sensor switch 103 having a connection structure between the system 101 and the temperature sensing sensor bimetal 102, And the safety valve 472 of the automatic pneumatic valve conveying device 916 is connected to the upper portion of the reactor building 688 to form a plurality of through holes at a predetermined angle of 45 degrees with a laser cutting machine and a construction machine drill machine, A plurality of safety valves 472 are connected to the bolt 24 and the nut 25 in the block piping line 74 while forming a double piping line 74 in the plurality of through holes, A double structure block tank 598 having a size twice as large as that of the reactor building 688 along the outer wall surface of the nuclear reactor building 688 is connected to the outer block tank for nuclear waste processing storage, (599) and radiation-type connection structure (681) inside and outside the reactor core (681) to prevent the explosion of the nuclear fuel immediately before the reactor explosion. The reactor main body 811 is connected to the inside of the main body 1 of the nuclear power plant so as to prevent the explosion of the nuclear fuel in the main body 1 of the nuclear power plant. Equipment Nuclear reactors Nuclear reactors of nuclear waste disposal shielding system Nuclear radiation leakage control Double structure block tank Reactor of the main body of the nuclear reactor (593,594,595) of the nuclear reactor main body (1) And is inserted into the structure of the facility main body 806 to further constitute the operation of the nuclear power plant.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

The structure of the fast breeder reactor facility body (F B R, 838), which comprises a nuclear reactor effluent leak control dual structure block tank nuclear reactor main body 794 for a nuclear waste treatment reactor installation,

(593,594,595) Nuclear power plant main body (1) Inside the center of the fuel rod, uranium enriched in uranium-235 to about 20% is mixed with natural uranium and plutonium, surrounded by natural uranium This fuel rod contains plutonium from uranium 238, which is used as the next fuel while at the same time the coolant uses liquid metal sodium and there is no need to decelerate the neutrons so that the moderator does not contain the intermediate heat exchanger, (593,594,595) of the marine power plant (1) inside the main body of the nuclear power plant while the turbine rotates by converting the water into steam by the heat of the liquid or sodium, while the heat exchanger has the transition from the intermediate heat exchanger to another liquid metal sodium The double tubular block piping lines 74 located at Nuclear waste location movement path by means of device Nuclear radioactive pollutants are detected by a number of temperature pressure sensors Temperature sensor of safety valve Sensors are located at the temperature of 700 to 800 degrees Celsius inside reactor and the pressure is high Level sensor, the temperature and pressure sensor transmits an alarm message to the computer in the safety control room, and at the same time, a plurality of safety sensors for temperature and pressure sensing sensors are opened, and the pressure block internal piping line (74a) The nuclear waste is stored in each of the block tanks, and the temperature-sensing sensor safety valve 472 connected to the inner block tank at the lower part of the pressure vessel is opened. At the same time, the outer block piping line 74b is filled with the fuel Explosion-proof Control Supplies Nuclear Fuel Explosion-Proof Control Products Auto-injector Flashing Warning Light (99) A level pressure switch 104 for controlling flow rate check to a thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 101 and a temperature sensing bimetal 102; And the safety valve 472 of the automatic pneumatic valve conveying device 916 is connected to the upper portion of the reactor building 688 to form a plurality of through holes at a predetermined angle of 45 degrees with a laser cutting machine and a construction machine drill machine, A plurality of safety valves 472 are connected to the bolt 24 and the nut 25 in the block piping line 74 while forming a double piping line 74 in the plurality of through holes, A double structure block tank 598 having a size twice as large as that of the reactor building 688 along the outer wall surface of the nuclear reactor building 688 is connected to the outer block tank for nuclear waste processing storage, (599) and the radiation- (681) and outside the reactor core (681) to the ground with nuclear fuel explosion-proof control equipment just before the reactor explosion. (1) of the nuclear power plant of the ocean as a connection structure of nuclear reactor main body (811) as a nuclear fuel explosion prevention control article to form nuclear power plant nuclear power plant main body (1) Nuclear reactors (Nuclear reactors) Nuclear reactors (Nuclear reactors) Nuclear reactors Leakage control Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors It is included in the structure of the reactor facility main body 838 to further constitute the operation of the nuclear power plant.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

(593,594,595) of the marine power plant The structure of the disaster prevention device on the distribution side (705) of the disaster prevention line that hides the typhoon of the disaster prevention device constituting the inside of the nuclear power plant main body (1)

The unmanned camera 184 is connected to the rope knot claw 630 and the marine cable car 256 to the injection nozzle and the diaphragm rubber balloon 628 and the rope rope 629 in the seabed, A weather forecasting information gathering machine of a dual structure nozzle hose and a double structure fire hose (9) in a fire prevention pump (8) and a satellite firefly pipe (130) and a weather forecasting observation (958) (960) and the alternative use sail (959), the electronic control unit of the disaster control pump control system and the control system (150), and the air supply unit. In order to solve the warming phenomenon of the planet as a result of the structure, the earthquake caused by the vibration frequency of the sound and the earthquake in the earth and the disaster area of the sea in which the storm dwells is the artificial waterfall which replaces the connection structure of the cranes boom band (942) A radial, dense and dispersed submarine mineral deposit with air clouds (130), a sail substitute sail (959) and a tower cradle replacement tower crane The crane boom band (942) replaces the emission of water over the sea and over the sea. Sound vibration frequency, sound vibration and wavelength transmission, as well as the emission of blown water into the trunk canals and piping crevices. At the same time, At the same time, while disrupting the occurrence of severe typhoons, lightning arresters (500) are mounted on the Abber Run (77) and Airship (78) in the area where the cumulonimbus and stormy clouds stay with the disaster prevention devices on the distribution side (705) (840) The control tower of the mooring tower (644) is a meteorological observation equipment on the roof of the control room. The control tower is used to maintain the hull from lightning and lightning, (593,594,595) Nuclear power plant main body (1) Structure of disaster prevention device on the distribution side (705) of the disaster prevention line that hides the typhoon of the disaster prevention device into the inside of the main body (1) And the operation of the nuclear power plant is further performed.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)

(593,594,595) of the marine power plant (593,594,595) The number of injected water jetted into the gap of the spray nozzle inside the main body (1) of the nuclear power plant is designed to simultaneously prevent natural harmful conditions To form a reciprocating pistonic air compressor 80 in order to reduce the power of the compressor 80. The compressor 80 is operated by an electronic control unit and is connected to a pressure reducing valve or a safety valve A motor pressure sensor, a belt conveyor, an air suction filter and an afforter cooler are provided on the motor belt of a predetermined size, which are provided together with the first pressure check sensor and the second pressure check sensor, The tank is provided with a cooling water inlet and attached to the upper end of the channel base of the bed frame to provide air with the injection nozzle to produce air, High pressure hose is connected to the high pressure hose. It is formed so that the rising air current and the descending air current of the typhoon can be controlled together with the fine dust of the sand by the supply coupling means with the top and bottom of the sea surface, It is formed so as not to lose restorative power freely from natural disaster of typhoon. In addition, while performing strictly the regulations of International Maritime Safety Association, at the same time changing the clearance of spraying water at the dropping point of falling spraying water, And it is an irrational action that forms a continuous jet of continuous dropping water while at the same time it is transforming into a hot, windy storm, with the number of drops dropping unceasingly like the artificial waterfall of the same level At the same time, these scenes are supported by an unmanned camera, (593,594,595) of the marine power plant to the main body (1) of the marine power plant in order to control the rising air current and the downward air current of the typhoon together with the dust dust, The unmanned camera 184 and the meteorological observation equipment radiosonde weather monitoring rail 840 are mounted inside the baskets 42 on which the pilelets are boarded and the disaster prevention nozzles 945 and the submarine line wirings 946 are connected to each other by an underground line, (948a) of the blast furnace to ensure continuous operation of the rubber tube (947) and the blast furnace (948) for air supply for internal use. Control double structure block tank The furnace dust collector body 794 is furnished with furnace bricks 948a of the blast furnace so as to supply power of the nuclear power generation power and adjust the diving position of the hull (949) for controlling the diving buoyancy, and a thermocouple thermometer switch (950) for the temperature sensor. The small-sized crane boom stand (942) The large hydrostatic generator 943 is connected to the Phelber aberration 943a of the large hydroelectric generator and the Phelton aberration 943b of the large hydrostatic generator to the pump aberration 943a of the large- (951) and a military equipment submarine (953) for the harmful redeye suction and dust collector, while supplying power to the production power by the water pump (952) of the non-powered pump for the energy- A computer laser cutting machine 954 was installed to monitor the facility maintenance of the main body 1 of the nuclear power plant 593,594,595 of the marine power plant, The contents of the Jipotto Sho (955), World War II, the Korean War, and the Cheonan crashed in the wake of the Yeonpyeong bombing and nuclear frenzy experiment, Photographs and imitation statues of people gathering figures and deeply reflecting on past history are placed in the center of the iron triangle within the range of 2,400 km in the radius of 1,200 km from the center of the Korean peninsula in accordance with the peaceful coexistence of Northeast Asia, The center of the peninsula is located in the center of the Korean Peninsula at 38 degrees 20 minutes 00 seconds, Donggyeong 127 degrees 17 minutes 00 seconds, Kangwon-gun Cheolwon-gun, Kangwon- A radius of 400 meters and a radius of 18 kilometers from the center of the peninsula is called the 45th Northeast Asia is a new concept The total area of the United Nations national capitals is set at 1000 ㎢, the range of 600 km from the center of the Korean peninsula is called 1500 Northeast Asia, and the range of 1200 km from the center of the peninsula is called Northeast Asia 3000 and occupies the territory of peaceful sovereignty of the ancient ancestors. (955) installed in the offshore wind power plant (957), the wind turbine (957a) of the offshore wind power plant (957), the underground line disaster prevention nozzle (945) and the submarine line wiring (946) (593,594,595) of the offshore power plant while installing the wake-up sail (959) and the satellite weather forecast information collecting machine (960) on the distribution side (705) inside the main body (1) of the nuclear power plant. And to ensure safe operation of nuclear power plants in non-emergency areas.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)

(593,594,595) of nuclear power plant (593,594,595) Nuclear power plant (1) In accordance with the marine sovereignty line, it connects Russia's Bladibostok and Ulleungdo, and Dokdo to Pohang to transport energy resources and Yeosu and Jeju Island to marine tunnel , Connecting Pyeongtaek and Baekryeongdo with the Shandong Peninsula, connecting Pohang and the Japanese subcontinent to the marine tunnels, transforming into a one-day living zone, and at the same time, illegal fishing lines and illegal fishing vessels of other countries visiting the territory of the NLL Is a measure that can be passed by permission of access to the sovereignty area. The rope knot hooks (630) formed on the netting of the flagpole rubber balloon and the wire rope (19) Because illegal fishing boats can not pull the net after throwing a net on the fishing ground, (593,594,595) of the marine power plant to the structure of the disaster prevention device of the distribution side (705) constituting the utilization selection body to construct the safe operation of the nuclear power plant in the non-disaster area more .

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)

(593,594,595) of the marine power plant (593,594,595) Inside the nuclear power plant main body (1), it limits the range from the ground to the upper reaches up to 29 Km. Several of the floating docks that were formed were equipped with military sensor sensors to enhance the monitoring function to prevent the production of military equipment. By constructing them, Pyongan Island and Hamkyeongdo nuclear weapons manufacturing facilities were helplessly used as nuclear missiles When the missile is fired, the missile is automatically deployed in the opposite area to induce its own explosion, giving up all military provocations, And immediately carry out the cadastral work, and at the same time, The peace-preserving message of the more powerful weapon, Pto Sho (958), was reinstated in each region within a radius of 1200km from the center of the Korean peninsula, fulfilling its duties in accordance with the rights and obligations of establishing a new federal state in Northeast Asia, It is located in the off-shore area. It is equipped with a military defense sensor detector and an anti-dust netting device, which are formed in a large number of floating docks, in the ocean and airspace. 1) into the structure of the disaster prevention device on the distribution side (705) so as to further ensure safe operation of the nuclear power plant in the non-disaster area.

Alternatively, the nuclear radiation leakage control dual structure block tank reactor main body 794 and the dual structure block tank pipe bridge 929 constituting the main body 1 of the floating nuclear power plant of the marine power plant (593, 594, 595) 937) lifting dock (603,594,595) of a marine power plant with a connecting shaft provided with a connection structure capable of disassembling the connection shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Vertical structure of typhoon with the number of straight discharge of disaster prevention line that hides typhoon inside 10 km from the upper part of the sea surface In the upper part of the troposphere, (SLD) In order to eliminate the cumulonimbus as it falls on the upper sea level, the disaster prevention water should be installed at the upper end of the northern pole and at the equatorial point of the dual structure disaster prevention equipment pipe level line (958) The crane boom zone (942) is provided to transport the rain clouds to the bottom of the sea 10 km below the sea level. By providing distribution input, natural disaster prevention like waterfalls without pumping will be carried out like artificial waterfall. At the same time, The amount of atomic bomb dropped on Hiroshima is estimated to be one million. (942) of tower crane replacement tower crane (942) as a connection structure with pipe-level piping line (958) for dual structure disaster prevention system, Pressure hydraulic hose 190 connected to the high-pressure hose 190 at a distance of 500 m from the top of the sea surface of the connection shaft provided in the manufacturing of the disaster control pump control system and the electronic control unit connection structure of the control system 150 at the same time, (29) are formed within a length of 10 km, and pipe-level piping lines are formed on the sides of several float-type dockside towers. The tower crane is replaced by a small-sized crane boom zone (942) It is possible to change the course so as to provide the downward flow 926 to the upward flow 925 to reduce the damage of the land surface typhoon, By using the image information of the loess mixture, which is discharged from several nozzles on pipe level piping line made of non-ferrous metal with better efficiency than iron, In addition to typhoons, harmful red tide breeding is carried out in the main body of the marine nuclear power plant (1) while at the same time providing the reactor with cooling water and toothpaste- A mixture of toothpaste-like loess mixtures (927) filled inside the reactor core (681) and outside the reactor core (681) will immediately prevent the reactor explosion, while at the same time fulfilling its mission according to the rights and obligations of establishing a new South- (1) of the nuclear power plants of land and ocean, (593,594,595) to prevent sinking of the nuclear power plant main body (1) and to prevent the explosion of nuclear fuel and to construct the disaster prevention device of the distribution side (705) And to include more safe operation of nuclear power plants.

Alternatively, the structure of the disaster prevention device of the distribution side 705 constituting the inside of the main body 1 of the floating power plant of the marine power plant (593, 594, 595)

(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side (705) of the nuclear reactor plant main body manufacturing process of the nuclear reactor plant of the connection shaft provided for the connection structure capable of disassembling the shaft is installed inside the main body (1) of the nuclear power plant of the marine power plant (593,594,595) In comparison of the strong countries formed by the leaders of each country with the storks, the weaker countries should cooperate with each other in their own efforts to make a better environment for living, and at the same time, the storks must not fall down to imitate the struggle, To imitate the stork's foot, and to prevent the legs from being damaged by the cracks on both sides of the stool. Tanks, bombers, bombs, bullets, satellites, missiles, nuclear bombs, and rocket bombs, all of which are munitions materials distributed on land, are used as landmasses, In order to save the world economy by fostering environmentally friendly pollution-free energy industry that uses electric power to overcome the global economic crisis, the weather conditions of any bad condition and the ships in the bombing state are sinking, The vessel shall be equipped with a vessel for lifesaving equipment according to the three dimensional image design of the ship so that the sinking accident of the vessel can not occur and while carrying out its duties in accordance with the rights and obligations of the establishment of a new federal state in Northeast Asia, (948), and the marine power plant's lifting dock (593,594,595) Nuclear power generation Small main body (1) In order to reproduce by heavy equipment of the construction machine, it is put into the structure of disaster prevention device of distribution side (705) so as to further secure safe operation of nuclear power plant in non-disaster area.

Storage tanks for storing coolant and toothpaste-level loess mixtures, each of which is a nuclear fuel explosion-proof control article according to the present invention, storage tanks of nuclear waste alternatives for nuclear waste disposal, and light water reactors for nuclear power plants, Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors The nuclear reactors are mainly used in nuclear power plants, which have boiling water reactors and pressurized water reactors. They are equipped with multipurpose hot gas lines in gas cooling furnaces, and new type conversion reactors and high-speed multiplication reactor facilities in nuclear power plants and nuclear power plants Nuclear reactor nuclear reactor Nuclear Radiation Leakage Control of the Nuclear Radiation Emission Control System of the Nuclear Reactor Facilities of the Shielding Device The main body of the distribution injector of the double structure block tank is separately provided so as not to be disturbed by the main body, thereby preventing explosion of the nuclear reactor, Storage tanks for storing the loess mixtures of the nuclear waste and the storage tanks of the nuclear waste disposal screening apparatus for nuclear power plant alternation do not move in a reciprocating motion but rotate the nuclear waste through the storage tank of the nuclear waste disposal screening apparatus itself to the outside of the nuclear power plant Nuclear Fuel Explosion Prevention Control System to Prevent Environmental Pollution from Leakage of Nuclear Radiation Leakage It is composed of main body made of connecting structure of marine vessel substitute traffic facility and each body is absolutely safe and continuous Nuclear Radiation Leakage Control Dual structure block Tank It is possible to freely control the amount of power generated by the main body of the nuclear reactor constructed in the distribution and dispensing apparatus of the nuclear reactor and to control various kinds of nuclear reactors that can not cope with the natural disaster, In addition, it is possible to inject the body of the reactor of the alternative nuclear waste treatment shielding device into the nuclear reactor of the nuclear power plant at the same time, , It is possible to control the power consumption with ease. In addition, from the standpoint of the producers, it is possible to construct various kinds of nuclear reactors of nuclear power plants that efficiently improve the operation of the main body of the land and ocean, Equipment Nuclear Power Station Nuclear Radiation Leakage Control of Nuclear Waste Treatment Shielding Device Nuclear Radiation Leakage Control Dual Structure Block Tank Main Body of Dispenser Main Body (1) Internal Connection Structure Various Types of Nuclear Reactor Facilities in the Global Nuclear Power Plant Operation Alternative Nuclear Waste Treatment Shielding Device The present invention provides a nuclear reactor radiation leakage control dual structure block tank reactor main body distribution dispensing apparatus for a nuclear reactor facility,

In addition, according to the features of the embodiments of the present invention, the reactor facility of the nuclear reactor waste disposal shielding apparatus of the nuclear power plant is operated in order to freely navigate the aircraft and the ship, , Considering the object's life span, comply with the standard rules set by the Ministry of Construction and Transportation of the Ministry of Economy, Trade and Industry, and the safety and power supply of nuclear power safety review committee The main body shall be installed at the position of 40M below the sea level (SLL) to ensure the safety operation of the main body from the strong wind wave while maintaining the standard size of the nuclear safety review committee according to the notice Block tank pipe bridge tunnel object It was designed as a total of the distance crossing the south pole and the north pole to the latitude of the equatorial line. For the safety of the body, the bridge block tank piers were installed at 0.5km interval, Since the power plant and the emergency shelter located at the upper part of the fixed lifting deck (deck) deck (SDU) are partitioned every intermediate part of the apparatus, the power supply line is formed into the main body of the system, As a result of the resumption of supply, the steel structure inside the main body was required to properly dispose of conventional war materials from nuclear bombs in a consensus of all UN Security Council members. In the vicinity of the marine nuclear power plant, Many nations have deployed a satellite launch pad and a space rocket launch pad in the body to prevent war and terrorism, while at the same time providing satellites and space rockets for nuclear waste disposal devices, Distribution of the pipe bridge device to prevent flood drought control to prevent the damage of volcanic ash before and after the volcanic eruption Distribution of pipe bridge device with submarine line injection nozzle connection and submarine line injection line to submarine line injection nozzle It is necessary to first provide the production electric energy through the input device, and then to supply the production power of the wind hydroelectric generator to the space science production equipment, the deep sea mineral resource and the natural gas energy resource, the oil energy excavation equipment, Dual structure of equipment Block tank Tube bridge Distribution device of tunnel device The structure is constructed on the circumference of the existing 4th walled container of the existing reactor in order to prevent the reactor shutdown and the explosion before and after the reactor explosion, so as to eliminate reactor shutdown and maximize the explosion prevention of the reactor. In order to avoid the restriction of the weather condition from the disaster, it is necessary to establish the installation position of the nuclear power plant at 40m above sea level, and to install the pump of the drilling machine and buoyancy control device And the valve is installed with dampers for controlling damping, so that it is not affected by earthquakes and tsunamis. It constitutes various types of reactor explosion cadmium of nuclear power generation of nuclear power plant. It prevents environmental pollution due to nuclear waste, Nuclear Radiation Leakage Control Dual Structures in which No Reactor Explosion Occurs Block tank Nuclear reactors in nuclear power plants Nuclear power plants Nuclear power plants Nuclear power plants Nuclear power plants Nuclear power plants Nuclear power plants Nuclear power plants Nuclear power plants Long-term half-life is required to be kept for a long time. Permanent disposal of waste involves transporting this mid-tubular drum containing nuclear waste to a buried area with a ship; A barrel with a space rocket and a space rocket launching deck. A double tubular drum containing nuclear waste on top of the deck plate was moved to space with a space rocket. The nuclear waste was fissioned from the reactor. The construction of the nuclear power plant consists of a nuclear power plant consisting of connecting structures that constitute deep burials in the ground or the ocean. (1) Various types of nuclear reactors in the global nuclear power plant constructed as an internal connection structure. (1) Nuclear reactors in reactor facilities for nuclear waste disposal system Dispensing device of dust collector main body It will be to see the effect of providing,

In addition, according to the features of the embodiments of the present invention, the construction design processes of the nuclear explosion-proof countermeasures corresponding to the reactor facilities of the nuclear waste disposal shielding apparatus of the nuclear power plants of the land and ocean nuclear power plants, Nuclear waste and nuclear radioactive pollutants, which are explosives of the reactor, which have the same exhaust gas outlet as the dust collectors of the facility, are installed in the double structure block tank nuclear reactor dust collector main body. Nuclear waste location Movement path Provide a number of nuclear radiation pollutants Temperature sensor Sensors Temperature sensor of safety valve Sensors are located in the reactor where the temperature of the reactor is 700 to 800 degrees Celsius and pressure is high Upon reaching, the temperature and pressure sensor will send an alarm message to the computer in the safety control room. The explosive nuclear waste is passed through the inner block piping of the pressure vessel at each location and the nuclear waste is stored in each block tank, And the outer block piping line is constituted by converting the position energy of the water into the kinetic energy of the cooling water and toothpaste-like mixture of the fuel explosion prevention control product stored in the inner block tank, The block piping line with a number of safety valve connection structures, consisting of explosion stopping when the inner pressure vessel and the fourth wall vessel are filled with coolant and toothpaste-level loess mixtures, The nuclear radioactivity of the main body Control dual structure block tank The distribution dispenser of the nuclear reactor dust collector is equipped with a control device to prevent explosion of nuclear fuel to provide storage to block the nuclear radioactive contaminants from outside the reactor, One at the same time while using two dual structure block tanks Nuclear reactors prevent leakage of nuclear fuel radiation and prevent reactor explosion Prevention of leakage and prevention of nuclear fuel explosion Primary dual structure block tank Control nuclear waste treatment inside nuclear reactor dust collector While simultaneously controlling the treatment of nuclear waste to the outside of the reactor dust collector, as well as improving the operation of the nuclear power plant of the offshore and offshore. Nuclear reactor nuclear reactor alternative nuclear Nuclear Radiation Leakage Control of Nuclear Reactor Facilities of Vessel Process Shielding Equipment Dual-structure block tank The distribution injector of reactor aspirator is equipped with double-pipe structure block pipes using the position energy of water and equipped with safety pressure sensor and water supply pumps, And a dispenser of a double structure block tank reactor, in which a dispersing material such as a soap is mixed with a mixer machine, while using an automatic input method of a mixture of toothpaste-like yellow loess mixture, in the form of eggs or capsules. (1) Since the main body is formed as a connection structure along the outer circumferential surface of the reactor building, it is possible to see the effect of providing the main body constituting the manufacturing with a remarkable difference from the existing reactor facilities. The Nuclear reactors for nuclear reactors for nuclear reactor disposal of nuclear waste disposal system for nuclear waste disposal system of nuclear power plants of different types of nuclear facilities of nuclear power plants of the world which are characterized by the present invention, Will also contribute to the breakthrough.

FIG. 1 is a schematic view of a shared landfill apparatus according to an embodiment of the present invention. FIG. 1 shows a shared landfill and a shared landfill within an area of 2,400 km in a radius of 1,200 km from the center of the Korean Peninsula. The 3000 form is divided into 360 sections from 1 ° to 360 ° to form individual parcels. The circle form is divided into a radius of 200m from the center of the Korean peninsula, One of the new concepts formed by the unified Korea chapter number map in Northeast Asia 3000, which is postal service after confirming the zip code to various places. United Nations United Nations Consolidated State Inside the body forming the Republic of Korea is a weapon of peaceful preservation more powerful than nuclear bomb The elemental characteristics of the Pto shovel (955) are shown in Fig. Nuclear power plants in light water reactors Operation of Nuclear Reactors Nuclear reactors in nuclear waste disposal shields Nuclear radiation leakage control Dual structure block tanks Distribution of injectors in nuclear reactors Discharging input device Components of the shovel (955) .
[Figure 1a], [Figure 1z], and the like, each of which is an example of a configuration according to an embodiment of the present invention.
FIG. 1A is a schematic diagram of a nuclear reactor of a nuclear power plant of a nuclear power plant in accordance with an embodiment of the present invention; FIG. Nuclear Power Plant Reactor Nuclear Power Plant Operation within a Range of 2,400 km in diameter with a radius of 1,200 km from the center of the Korean peninsula for landfill. An example of the structure of a thermal power plant on the deck deck of a sea barge line A component side view of the component shovel (955) illustrating partial side view.
[Fig. 1b] details the operational connection structure of nuclear power hydroelectric power plants with the light water reactors in detail, forming the United Nations Integrated National Government Administrative Capital of the United Nations, which is formed by the unified Korea map in Northeast Asia The circular shape for explanation is a cross-sectional view inside the range of 36 km in diameter with a radius of 1 meter and a distance of 18 km from the center of the Korean peninsula, starting from No. 1 Northeast Asia with a radius of 200 meters from the center of the Korean peninsula. A partial sash composition diagram partially illustrating the enlargement point of each unified Korea lot number by example.
[Fig. 1c] shows a partial connection structure of the light-water nuclear power plant of the nuclear hydroelectric power plant shared with a shared landfill formed inside the nuclear hydroelectric power plant before and after the water reclamation process, and a Tibetan plateau- 957 is a cross-sectional view for explaining in detail the embedment-treated water moving state of the embedment-treated water moving state according to an embodiment of the present invention.
[Fig. 1d] asserts the right to claim the division of territorial boundaries among the parties to the dispute in accordance with the first embodiment of operation of the nuclear power plant main body of the nuclear hydroelectric power plant, and establishes the United Nations integrated state as a document of the Northeast Asian Peace and Coexistence Treaty In the case of rejection of refuse or denial, the whole area excluding the Korean peninsula is changed to the sea and the sea is changed to the coastal landfill and shared reclaimed landfill. Sectional side view.
1E shows an embodiment formed at the time before and after the common water surface embedding process of the nuclear hydroelectric power plant body 1 with a radius of 600 km and an inner radius of 1,200 km, A Cross - sectional Side View of the Formation of a Perception of the Periphery of Northeast Asia.
Fig. 1F shows an example of the embodiment formed at the time before and after the operation of the nuclear water hydropower plant main body 1, Location map.
FIG. 1G illustrates an embodiment of the nuclear water hydroelectric power plant 672 formed in the main body 1 before and after the operation of the light water reactor nuclear power plant in the light water reactor, Detail enlarged side section position configuration diagram.
[Fig. 1h] is a cross-sectional view of the territorial boundary division between the countries of the disputant country to explain the shared landfill site and the shared sleeping landfill design plan formed before and after the operation of the light water reactor nuclear power plant of the nuclear hydroelectric power plant (1) A side view showing the territorial boundary dividing section cross-sectional enlarged cross-sectional position between the countries of the parties to the dispute illustrating the embodiment
[Fig. 1i] asserts the right to assert the territorial boundary division between the parties to the dispute in accordance with the first embodiment at the time of the operation of the nuclear power hydroelectric plant (1) before and after the operation of the light water reactor, In case of denying or rejecting the contents of the document of the Peace Coexistence Treaty and the amendment of the Constitution, all areas excluding the Korean Peninsula shall be classified into the following areas: land, sea, land, shared landfill and shared landfill. A perspective view of the global crustal deformation.
1J is a collecting tank in which an initial evolution occurs within one second upon occurrence of forest fires occurring at the time before and after a shared water surface filling process in a nuclear-powered shared landfill and a shared water surface landfill of a nuclear power hydroelectric power plant main body 1 according to the present invention, Alternate manometer turn level balancer Three-stage step pump Extinguisher Fire prevention method Nozzle installation method Construction diagram,
FIG. 1K shows the operation mode of an air balloon and an adve- lon formed at a nuclear-powered shared landfill site and a shared water surface landfill of a nuclear hydroelectric power plant main body 1 according to the present invention before and after a common water surface embedding process. The fire prevention facilities and disaster prevention system are classified into the types that can evolve within one second after installing the spray nozzles and bed nozzles inside and outside the building according to the weather forecast,
FIG. 11 is a graph showing the relationship between the distance from the center of the Korean peninsula at a distance of 1,200 km from the nuclear-powered shared landfill site of the nuclear hydroelectric power plant main body 1 according to the present invention to the shared water surface landfill, Of the landfill process of the landfill apparatus having various oil substitution construction machines 988 according to the respective states of the shared landfill and the shared landfill within the range of 2,400 km in diameter, Construction diagram of a construction machine for the operation of a nuclear power plant (1) of a nuclear power plant.
FIG. 1 m is a view showing an embodiment for explaining in detail a shared landfill site and a shared water surface landfill site design plan formed before and after the operation of a nuclear power hydroelectric power plant main body 1 according to the present invention, The type of the nuclear power plant construction machine of the nuclear power plant main body 1 showing the various construction machines formed at the time of the water surface embedding process of the landfill processing apparatus having the replacement construction machine 988, Diagram.
FIG. 1n is a view showing an embodiment for explaining in detail a shared landfill site and a shared water surface landfill design plan formed before and after the operation of a nuclear power hydroelectric power plant main body 1 according to the present invention, The type of the nuclear power plant construction machine of the nuclear power plant main body 1 showing the various construction machines formed at the time of the water surface embedding process of the landfill processing apparatus having the replacement construction machine 988, Diagram.
[0030] FIG. 1 is a view showing an embodiment for explaining in detail a shared landfill site and a shared water surface landfill site design plan formed before and after the nuclear water nuclear power plant main body 1 according to the present invention, The type of the nuclear power plant construction machine of the nuclear power plant main body 1 showing the various construction machines formed at the time of the water surface embedding process of the landfill processing apparatus having the replacement construction machine 988, Diagram.
[0030] FIG. 1 P is a view showing an embodiment for explaining in detail a shared landfill site and a shared water surface landfill design plan formed before and after the nuclear water nuclear power plant main body 1 according to the present invention, The type of the nuclear power plant construction machine of the nuclear power plant main body 1 showing the various construction machines formed at the time of the water surface embedding process of the landfill processing apparatus having the replacement construction machine 988, Diagram.
[0040] FIG. 1 (c) is a view showing an embodiment for explaining a shared landfill site and a shared water surface landfill design plan formed before and after the nuclear water nuclear power plant main body 1 according to the present invention, The type of the nuclear power plant construction machine of the nuclear power plant main body 1 showing the various construction machines formed at the time of the water surface embedding process of the landfill processing apparatus having the replacement construction machine 988, Diagram.
FIG. 1 (a) is a view showing an embodiment for explaining in detail a shared landfill site and a shared water surface landfill design plan formed at the time before and after the nuclear water nuclear power plant main body 1 according to the present invention, The type of the nuclear power plant construction machine of the nuclear power plant main body 1 showing the various construction machines formed at the time of the water surface embedding process of the landfill processing apparatus having the replacement construction machine 988, Diagram.
[0030] FIG. 1s is a view showing an embodiment for explaining in detail a shared landfill site and a shared water surface landfill design plan formed before and after the nuclear water nuclear power plant main body 1 according to the present invention, The type of the nuclear power plant construction machine of the nuclear power plant main body 1 showing the various construction machines formed at the time of the water surface embedding process of the landfill processing apparatus having the replacement construction machine 988, Diagram.
1 (a) is a schematic view of a nuclear power plant of the nuclear hydroelectric power plant according to the present invention, showing the operation of the nuclear power plant and the shared landfill of the nuclear power plant, Rope and spray nozzle and fire hose installation operation configuration diagram.
FIG. 1 (a) is a schematic view showing the operation of the nuclear power plant main body 1 of the nuclear power hydroelectric power plant 1 according to the present invention and the shared water surface landfill, A perspective view showing the geothermal power plant exterior, and a side view showing the operation manner of the operation of the geothermal power generation.
FIG. 1 (b) is a schematic view of the nuclear power plant of the nuclear hydroelectric power plant according to the present invention, A perspective view showing the outline of a wind power plant, and a side view showing an operation side view showing the operation of the non-powered water pump of the water hammer.
[Figure 1w] is a schematic view of a nuclear water hydroelectric power plant main body 1 according to the present invention, which is formed by a nuclear-powered shared landfill and a shared water surface landfill, A perspective view showing the appearance of the geothermal power plant, and a side view showing the operation mode of the geothermal power generation operation.
1x shows a wave formed by the operation of the nuclear power plant main body 1 shown in FIG. 1 before and after the shared water surface embedding process in the nuclear power shared shared landfill of the nuclear power hydroelectric power plant main body 1 according to the present invention, Fig. 2 is a schematic cross-sectional view showing the perspective view of the power generator structure of the power plant and the installation location of the power plant using the current and turbulence.
FIG. 1 (a) is a schematic view showing the structure of a nuclear power hydroelectric power plant main body 1 according to the present invention, A perspective view showing the outline of a wind power plant, and a side view showing an operation side view showing the operation of the non-powered water pump of the water hammer.
[Figure 1z] shows a nuclear power plant of the nuclear power hydroelectric power plant main body 1 according to the present invention and a marine nuclear power generation system A side view of the operation showing the structure and operation of the solar generator, and a perspective view showing a partial view of the solar house structure.
Fig. 2 is a schematic view showing a nuclear waste generated for the operation of a nuclear power plant main body 1 shown in a nuclear water hydropower plant main body 1 according to the present invention at a nuclear-powered shared landfill site and a shared water- Treatment reactor facility Facility side view showing the method of installing the reactor structure inside a single double structure block tank (598) and representative flow for operation of the nuclear power plant main body (1) of the nuclear waste treatment reactor (811) Diagram.
FIG. 2a is a nuclear waste disposal method showing the differences in the method of treating a nuclear waste in a single double structure block tank 598 according to the present invention and a nuclear waste explosion in a conventional nuclear reactor. FIG.
FIG. 2B is a perspective view, in section, of a double-structure block tank 598 structure of a single reactor periphery of a nuclear power plant according to the present invention.
FIG. 3 is a nuclear waste disposal reactor facility in which a nuclear explosion-proof double structure block tank according to the present invention is formed inside a nuclear power plant body 1. 8 is a flow chart showing a method of cutting by the remote control inside the nuclear reactor 811 or using the robot 700. FIG.
FIG. 4 is a nuclear waste treatment reactor facility having a nuclear-explosion-proof double structure block tank according to the present invention formed inside a nuclear power plant body 1. FIG. A flow chart showing a nuclear fuel moving process and a nuclear water reactor (811) refinement check scene showing the installation method.
FIG. 5 is a nuclear waste treatment reactor facility having a nuclear-explosion-proof dual structure block tank according to the present invention formed inside a nuclear power plant body 1. FIG. FIG. 3 is a flow chart of an assembling process showing a barge for mounting a nuclear power plant body (1) showing the installation method.
[Figure 5a] is a view of a method of manufacturing a barge hull, illustrating the front and side surfaces inside a double structure block tank, a steel plate bending method and a welding joint basic method for a block tank of a barge ship hull with a body of a marine power generation.
FIG. 5b is a partial partial detail view of a side view and a cross-sectional view of a double-block tank connecting portion of a barge hull in a marine power plant body in detail; How to configure the method.
5c is a block unit tank disassembly and coupling structure of a barge line showing the disassembly and disassembly of the barge ship hull of a marine power plant body by block unit tanks, A method of constructing a float - type dry assembling method showing the block unit tank coupling method at sea and seabed.
[Fig. 5B], [Fig. 5C], and the like are diagrams illustrating the configuration of an embodiment of the present invention.
5D is a schematic view of a marine safety equipment tool band guide 621 (see FIG. 5D) on the upper half of the sea diving operation line for welding connection to each of the double structure block tanks 598 for the tank of the lifting- ) Block Tank for Side Tie for Tank Shaping and Welding Preparations for Seawater Side Tie Block Tank Unit for Partial Tank for Partial Tank showing Partially Detailed Double Tank Block Tank 598 and Tie Base Block 621 for Tank Partial Side Detailed Connection Method.
5E is a perspective view of a double structure block tank 598 for a tank of a power plant according to the present invention and a bracket 165 attached to a pin shaft 606 and a potter bladder 607 for coupling and detaching means of the connecting node. (599) of the external block tank (599), the pin shaft (606) for the coupling and the porter block (599) vertical and horizontal connection site partially detailing the side surface detailing method of the connection block (607) and the lug (21).
5f is a perspective view of the bracket 165 attached to the pin shaft 606 and the potter bladder 607 of the double structure block tank 598 of the power plant body of the present invention, (599) of the external block tank (599), the pin shaft (606) for the coupling and the porter block (607), the lagging (21) method, and the drilling machine used for crude oil, and the anchor carvings, which are used to settle the floats by anchor bolting, (185), which is formed in a hydraulic cylinder to replace a car, and a barge hull anchor, which is a nuclear power plant, is constructed by adjusting the elevation of the barge line. A method of constructing an anchorage method of folding type.
[Figure 5d], [Figure 5e], and [Figure 5f] are diagrams showing the structure of a method illustrating an embodiment of the present invention.
Fig. 1 (1) is a schematic view of a nuclear power plant according to the present invention. Fig. 1 (a) is a schematic view of a nuclear power plant according to the present invention. And the wire rope was attached to the wheel roller. Then, the wire rope was attached to the elevator machine room tacho winch, and the cable car was equipped with the fire-prevention disaster prevention countermeasure product of the fire sensor pump. The nuclear power hydroelectric power plant A firefighting and disaster prevention line formed for the operation of the nuclear power plant of the main body (1) is a strait configuration in which fire fighting and disaster prevention lines are built around the summit valley of the mountain valley and the beach.

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. The same reference numerals denote the same components throughout the specification, and at the same time, the hollow spaces of the holding tank and the inner block tank outer block tank, which are provided in connection with the belleville bursting tank for controlling the submerged diving, In the outer part located outside the point, the pin shaft and the rug pin for lug fitting are provided in such a manner as to unfold the tabletop table leg, and the tabletop table is equivalent to the bargain hull and the tabletop table leg is connected to the bargain hull The table-top table can be easily maneuvered by the manpower so that anyone can easily and comfortably tilt the table-top table legs, as well as to move the tackle block tanks of the barge hull from the sea level easily Pants on top of sea level Ship hull barge Ship hull block tank Easy-to-roll and tack-free installation of a barge hull block tanks in the ocean Combined with a tie-rod block with a portable rug on one side of both sides of the sea Surface upper part (SLU) A ballast butterfly valve provided in connection with a belleville balancing tank for diving control of the barge hull, and a ballast control valve having a connection structure to the solenoid valve. The solenoid valve is connected to the main switch bar for the start switch button The main body of the turn-on main switch is provided so that the electrolytic water for diving control is filled in the barge hull while the barge hull is slowly submerged in the water while the buoyancy is lost, and at the same time, A single vertical of both sides The trough (21) is connected to the pin shaft for lug fitting by a single vertical machining hole portion on one side, and at the same time, the horizontally holding block tank pipe bridge pierces the barge hull, The vertical axis of the connecting shaft with its connecting structure on its side Horizontal state of the position of the bow The holding block of the tank The bottom of the holding tank The bottom barge hull is placed in the seabed And at the same time, each of the strut block tanks which are not connected to the hull of the barge is vertically adjusted to the vertical position on the upper side of the sea surface while at the same time the upper barge hull of the holding tank is connected to the barge hull Stacking block Tank connection Axis stern section Vertical position Movement adjusted Each of the supporting block tanks with vertical movement control at the top of the sea level of the sea is connected to the stern section of the shaft and the top of the holding tank at the upper barge hull connection axis position, while at the same time the barge and tugboat are connected to the submersible and semi- The installation and dismantling of the mooring equipment by putting the position shifting control device and the throttle control device for the marine crane and the construction machine of the anti-marine vessel and the anti-marine vessel, The automatic manufacturing process is designed to provide a connection structure, so that the base for the installation of anti-sinking detoxification poison is provided, and the position shifting device and the throttle control device for the dispensing and inputting device of the marine vessel substitute transportation equipment, Nuclear power plant Various types of nuclear reactor facilities Nuclear power plants Alternative nuclear waste treatment The nuclear reactor radiation leakage control dual structure block tank for the nuclear reactor installation of the shielding apparatus is constituted to constitute the dispensing apparatus of the reactor main body,

The main constituent of the present invention is firstly KSD 3705 hot rolled stainless steel as a fire-fighting material, and it is used as a spray nozzle device formed on the upper surface of the sea surface and the upper surface of the earth. KSD 3705 hot rolled stainless steel pipe (KS symbol: STS x HP, S) which forms the inner block tanks and outer block tanks supporting and supporting outer tank tanks, and the barge hulls TS nainless SS teel HH ot P-Plate), and various float type dock sizes include a small floating buoy block tank top barge hull; Width × length × height × iron plate tie (Tie), 600M × 800M × 40M × 18m, middle float type poin holding block tank top barge hull; Width × height × height × iron plate (T m), 2k m × 3.2k m × 40M × 22m m and a large float-type docking block tank top barge hull; The standard specification of the 40.000km double structure block tank pipe bridge device of the width, width, height × cross-section, 10k m x 12k m x 40M x 24m m, Vertical length × 4 corner edge diameter × iron plate × unit length, 15M × 15M × π 15M × 24m m × 1k m) and the pipe bridge angle of the pipe bridge is set to 5m in diameter, Reduced length of the bridge pier to 1m at 5m above the junction of the damper type double pipe structure with double diameter of the tube pipe pier and several construction equipment for the pier bridge construction and 300m Height position Positioning device Sink prevention Mounting of rescue ships Several band guides are built up with several construction machines and then the height is adjusted to the top of the sea level (SLL) and the bottom of the sea level 100M to prevent all marine vessels from sinking, Ships In case of a bad condition, even if the safe sailing vessel does not lose its resilience, sinking casualties of the crew and passengers are not generated as well as the load of the pipe bridge body of the barge ship is dispersed, Nuclear reactors of nuclear power plants of various kinds in the world Nuclear power plants Nuclear reactors Nuclear waste treatment Shielding nuclear reactors Nuclear radiation leakage control Double structure block tank Nuclear reactors Main body distribution and dispensing device Operation and marine environment Industrial economic development Including the offshore cranes of construction machines according to the present invention.

(First Embodiment)

A first embodiment of the present invention will be described.

FIGS. 1A to 1M are views showing various types of reactor facilities of a nuclear power plant of a global nuclear power plant according to an embodiment of the present invention. FIG. 1 is a perspective view of a nuclear power plant according to an embodiment of the present invention. It is a detailed block diagram of the assembly process showing the construction of lifting docked hull structure at the sea.

Nuclear reactors of nuclear power plants of various types in the normal world Nuclear reactors Nuclear reactors for reactors Nuclear reactors for reactor shields Nuclear radiation leakage control Dual structure block tanks In the distributor and injector of reactor main body,

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Nuclear reactors of nuclear power plants in the world Nuclear reactors Nuclear reactors Nuclear reactors Leakage control Nuclear reactors Leakage control Nuclear waste disposal system Nuclear reactors Leakage control Dual structure block tanks Reactor main body distributors and dispensers are generally equipped with cooling water, Of the loess mixture of the nuclear fuel and the control unit for supplying the control unit to the distribution unit and the fuel explosion prevention control article supplied from the supply unit to the reactor facility of the nuclear power plant alternative nuclear waste treatment shielding apparatus And an injection section for injecting the nuclear fuel explosion-proof control article distributed by the distributing section into the nuclear reactor facility of the individual NPP nuclear waste disposal shielding device.

The present invention relates to an apparatus for controlling nuclear radiation leakage in a nuclear reactor plant, such as the above nuclear power plant, nuclear reactor waste disposal system, The table top table is equivalent to the barge hull, and the tabletop table leg is connected to the barge hull by the method of spreading the main body of the global nuclear power plant to spread the table table legs apart. Because the table is equivalent to the holding block tanks, anyone can easily tilt and straighten table table legs by manpower, and anyone can easily tilt and unfold the holding block tanks of the barge hull at sea level. Barge hull at the top of sea level barge ship hull stowage block hull stowage block anyone can easily tilt and spread the installation operation barge hull bar tackle hull block tackage stowage block tank with portable lug tackle barge Hull's holding block tanks are tilted from the hull of the barge Hull's tilt control unit is integrated with the tilting table tilting block Tilting block tanks are vertically and horizontally arranged at a constant angle from 0 ° to 350 °. Nuclear power plant of the global zone Nuclear power plant of various kinds constituting the main body of the ocean Nuclear power plants Operation of nuclear reactors Alternative nuclear waste treatment Shielding equipment Nuclear radiation leakage control Dual structure block tank Discharging device of the main body of nuclear reactors Including natural disasters, Comprehensively cope with all Overhaul of the nuclear power plant of the sea-wind power hydro-nuclear power plant, which is constructed in order to overcome the anxiety of the people in order to overcome them in a sequential manner Nuclear Radiation Leakage Control for Nuclear Reactor Facilities for Nuclear Waste Treatment Shielding Device Distribution of Reactor Collector Body To a charging device.

Nuclear reactors of various types of nuclear power plants in the land and sea of the world Operation of Nuclear Power Plant Nuclear Radiation Leakage Control of Nuclear Reactor Facilities of Nuclear Waste Treatment Shielding Device In the distribution injector of nuclear reactor dust collector main body,

Nuclear reactors of various types of nuclear power plants in the land and sea of the world Operation of Nuclear Power Plant Nuclear Radiation Leakage Control of Nuclear Reactor Facilities of Nuclear Waste Treatment Shielding Device In the distribution injector of nuclear reactor dust collector main body,

A dual structural block tank bridge 929 of a nuclear reactor main body 794 of a nuclear radiation leakage control double structure block tank constituting the nuclear power plant main body 1; The reactor cleaner main body 794 is a connection structure capable of being disassembled and coupled in a marine vessel manufacturing factory,

Heavy industry Metal processing industry All industrial sites Docking facility in the manufacturing of docking area Marine installation with connection structure Main body transportation installation part for transporting and transporting Nuclear power plant main body (1) The nuclear radioactivity leakage control double structure block tank constituting the nuclear reactor main body 794 of the double structure block tank 598 for providing the transportation installation of the shaft is inserted through both the fore and aft sides of the central portion of the reactor main body 794 The dispensing device comprises:

The distribution and injection device inserted through both the forward and aft ends of the central portion of the nuclear reactor main body 794 of the nuclear radiation leakage control double structural block tank constituting the nuclear power plant main body 1 comprises a nuclear radiation leakage control dual structure block tank reactor The forward and aft ends of the central portion of the plurality of inner block tanks 596 of the main body 794 are passed through the nuclear reactor facility 811 of the nuclear reactor nuclear waste disposal shielding apparatus to make the crane boom of the locomotive control apparatus construction machine crane 861 A plurality of kinds of reactor facility bodies 811 provided with a position shifting control by a carrier having a crane boom hook ring 652 and a conveyer 633 operation on a stand 651 are separated from each other to form a double structure block tank reactor main body 794 are inserted into an inner position of the central portion of the inner block tank 596 of the boiling water reactor main body 802 and the pressurized water reactor A new conversion furnace reactor main body 806 and a fast propagating furnace reactor main body 838 are separately connected to a gas cooling furnace reactor main body 804 and a multipurpose hot gas furnace reactor main body 805 in a non- The apparatus is provided with an apparatus to control the position of the main body 794 of the reactor main body 79 of the nuclear power plant main body 1 by inserting various kinds of reactor main body 811. In the nuclear power plant of land and sea, A plurality of kinds of reactor facility bodies 811 are installed in the main body 1 of the nuclear power plant while the nuclear power plants are operated with the nuclear power plant 811. The nuclear power plant main body 811 includes a plurality of types of reactor facility bodies 811, (1) to prevent explosion of the nuclear fuel of the nuclear power plant.

A control shaft for controlling the capacity of the nuclear radiation explosion-proof control article of the nuclear reactor main body 794 of the nuclear radiation leakage control dual structural block tank 794 constituting the nuclear reactor main body 1 and the storage tanks of the nuclear reactor alternative nuclear waste treatment shielding apparatus, A reservoir tank internal tank tank 596 for storing cooling water 287 as a fuel explosion prevention control item and toothpaste mixture 927 at the toothpaste level is disposed inside the nuclear reactor main body 794, The outer block tank 599 is provided with a reservoir for the cooling water 287 and the toothpaste-level loess mixture 927 at the same time and the space between the inner block tank 596 and the outer block tank 599 is filled with the nuclear waste 224 (598) and a boiling water reactor (598) inside the block tank (596) inside the storage tank of the nuclear waste disposal system A high-temperature multiprocessor reactor main body 804 and a multi-purpose high-temperature gas furnace reactor main body 805 are connected to a main body 802 and a pressurized water reactor main body 803, (838) A carrier dispensing apparatus is installed to control the position of the nuclear reactor main body (794) by controlling the position of the nuclear reactor main body (794). The nuclear reactor main body 1 can prevent the explosion of the nuclear reactor and prevent the explosion of the respective nuclear fuel rods while preventing the nuclear reactor main body 1 from being detonated by preventing the nuclear reactor operation from interfering with each other by separately providing the distributor / A storage tank for storing cooling water 287 as a control item and a toothpaste level loess mixture 927 and a nuclear waste disposal shielding facility The nuclear waste 224 of the storage tank of the nuclear waste disposal unit 224 is not moved in a reciprocating motion but through the rotating movement of the nuclear waste disposal apparatus 224 inside the storage tank of the nuclear waste disposal shielding apparatus, (1) to prevent explosion of nuclear fuel in nuclear power plant main body (1) as a connection structure of an alternative vessel for marine vessel by providing a control device for preventing nuclear fuel explosion inside the nuclear power plant.

At the same time, it is possible to freely control the amount of electric power produced by the main body 1 of the nuclear power plant constituted in the operation of the nuclear reactor constituted by the distribution injector of the nuclear reactor main body 794, The reactor main body 794 of the nuclear reactor main body 794 is sequentially injected so that the reactor main bodies 811, which can not cope with natural disasters, A power plant 688A in the reactor building 688A and a turbine building 688B and a power plant 688C in the control building 688C and the auxiliary building 688D and a waste building 688G in the nuclear fuel building 688F, Nuclear power plant substitute nuclear power plant (1) that is divided into deep safety engineering design of arrangement and arrangement of building (688Z) A plurality of types of reactor facility bodies 811 are installed inside the various types of nuclear power plant main bodies 1 in such a manner that a control shaft for controlling the capacity of the nuclear waste is provided in the storage tanks of the water treatment shielding apparatus, (1) to prevent explosion of nuclear fuel in the nuclear power plant.

The control shaft for controlling the capacity of the nuclear power plant main body 1 to the storage tanks of the nuclear power plant alternate nuclear waste disposal shielding apparatus and the nuclear power plant main body 1 are connected to the holding blocks of various types of reactor facility bodies 811 The tank 590 distributes the double structured block tank pipe bridge 928 of the double structure block tank 598 to a connection structure capable of disassembling and coupling the connection shaft of the double structure block tank bridge pipe 937 and the tunnel device 929, A plurality of distribution axes;

The dual structural barge hull (591) at the upper end of the holding tank of each control shaft controls the nuclear radiation leakage inside the SDM of the hull deck (SDM) And various types of reactor facility bodies 811 on both sides of the stern are provided for each of the nuclear reactor facility main bodies 811 of various types of nuclear reactor nuclear waste disposal and shielding apparatuses for nuclear power plants, The guide rails 618 are installed to the left and right sides of the deck deck to the upper end SDU of the double structure barge hull 591 and the crane 861 of 5000 ton capacity is formed on the guide rails 618, Of the nuclear reactor facility main body 811 of the five-ply reactor, A construction transportation transportation unit for installing a double structure or a triple structure of a double structure large sliding hatch cover 153 and adjusting the position of each of the adjustment shafts provided as a connection structure at one end of each of the adjustment shafts;

And a power transmitting portion for transmitting power to the distribution shaft having a connection structure capable of being disassembled and disassembled to the distribution shaft. At the same time, a cooling water 287 is provided inside the large-sized sliding hatch cover 153, And piping line automatic pneumatic valve transport device 916 with connection structure to the nuclear waste disposal shield and sliding hitch cover 153 immediately prior to the explosion of the nuclear reactors When the safety valve 472 is opened and the coolant of the connection structure and the mixture of the loess mixture 927 at the toothpaste level are filled with the automatic injection device for controlling the fuel explosion prevention control by the position movement control device, The nuclear reactor main body 1 of the ocean is provided with various kinds of nuclear reactor facility main body 811 as a connection structure so that the main body 1 of the nuclear power plant of the land and the ocean Nuclear fuel shall be constructed to prevent explosion of nuclear fuel.

Nuclear power plant in mainland and offshore (1) Before operation of nuclear power plant Nuclear power plant in offshore and offshore nuclear power plants with explosion-proof prevention Nuclear reactors of nuclear waste disposal system (811) The reactor main body 811 is separated from the reactor main body 811 by the operation of the crane boom stand 651 and the conveyer 633 carrier of the construction machine crane 861, The boiling water reactor main body 802 and the pressurized water reactor main body 803 of the nuclear reactor main body 811 of various kinds inserted into the internal position of the central portion of the inner block tank 596 of the dust collector main body 794, The new conversion furnace reactor main body 806 and the fast propagating furnace reactor main body 838 are connected to the reactor main body 804 and the multi-purpose high-temperature gas furnace reactor main body 805, A position adjustment control insertion is provided inside the nuclear reactor main body 794 of the nuclear power plant main body 1 by the entrance values and various types of reactor facility main body 811 are connected to the inside of the nuclear power plant main body 1 of the land and ocean as a connection structure So as to prevent explosion of the nuclear fuel of the nuclear power plant main body 1.

At the same time, the barge ship propeller 591 at the upper end of the dual structure holding tank and the barge hull 592 at the lower end of the dual structure holding tank are connected to the holding tank 590 via the pin shaft 606 A screw shaft engaging and disengaging nut 604 and a screw shaft engaging bolt 603 and a screw adjusting part for adjusting the positions of the respective adjusting shafts 606 and 607, A dual structure block tank bridge pier 928 and a dual structure block tank pipe bridge 937 tunnel unit main body 929 of a dual structure block tank 598 are connected to a plurality of distribution shafts A double structural barge hull 591 at the upper end of the holding tank of each control shaft and a plurality of inner block tanks 596 of the nuclear reactor radiation leakage control double structure block tank reactor main body 794 into the inside of the hull deck central portion SDM connect (1), the nuclear reactor radiation leakage control of the nuclear power plant main body (1) before and after the operation of the nuclear reactor safety facility as a whole, and the dual structure block tank reactor main body (794), and at the same time, it is possible to inject the nuclear reactor main body of the nuclear waste disposal screening apparatus of the NPP of the nuclear power plant into several nuclear reactor facilities, so that the consumer can control the power consumption of some of the main body with ease (1) Nuclear power plants in mainland and offshore, consisting of the main structure of nuclear power plant (1) as a connecting structure of marine vessel alternative transportation equipment in terms of producers. (1) Nuclear power plant operation substitution that efficiently improves the operation of nuclear power plants. Nuclear Radiation Leakage Control of Nuclear Reactor Facilities of Nuclear Waste Treatment Shielding Device A control unit connected to the distribution control unit connection structure of the reactor block tank main body 794 to automatically check the power of each of the distribution shafts and to provide the operation of the nuclear power plants with the respective valves and pumps. (1) The exhaust gas outlet, which is equivalent to the dust collector of the exhaust gas facility which can withstand the natural disasters of the above-mentioned nuclear power plant main body (1) Nuclear waste and nuclear radiation pollutants, which are the explosives of the constructed nuclear reactors, are installed in the dual structure block tank pipes located inside the double reactor block tank reactor main body. A number of temperature sensors are connected to the sensor. When the internal temperature of the reactor reaches a danger level of 700 to 800 degrees and the pressure becomes a high pressure state, the temperature and pressure sensors transmit alarm messages to the computers of the safety control room while simultaneously opening the plurality of temperature and pressure sensor safety valves Nuclear waste is passed through the pressure vessel internal block piping line 74a at each location, and the nuclear waste is stored in each block tank through the passage of the explosive nuclear waste. The safety valve for the temperature pressure sensor connected to the inner block tank at the bottom of the pressure vessel is opened, The block piping line 74b is connected to the automatic injector flashing warning lamp 99, the pressure gauge 101, and the temperature sensing sensor bimetal 102, which are stored in the inner block tank, (104) for checking the amount of flow to the sensor switch (103) The check flow meter 105 is connected to the piping line automatic pneumatic valve conveying device 916 through the safety valves 472. The plurality of through holes are formed in the upper layer of the reactor building 688 at a predetermined angle of 45 degrees, A plurality of safety valves 472 are connected to the block piping line 74 through the bolts 24 and the block piping lines 74 while forming a double piping line 74 in the plurality of through holes, A flange is connected to the nut 25 by a gasket 32 and a double structure block tank 598 having a size twice the diameter of the reactor building 688 along the outer wall surface of the reactor building 688 (599) for nuclear waste disposal and storage, and the nuclear waste disposal unit and the nuclear fuel explosion control unit are installed in the nuclear reactor waste disposal unit, 681) outside A nuclear fuel explosion-proof control article may be provided as a connection structure of a nuclear reactor main body 811 of various kinds to the main body 1 of a nuclear power plant of the land and the sea, immediately before the explosion of the nuclear reactor, And the cooling water (287) and the loess (158) are stored inside the body of the large double sliding hitch cover (153) at the upper part of the reactor inner core (681) Pipe Line with Nuclear Waste Treatment Shielding Device and Linked Structure to Sliding Hectic Carrier Body Just before the Fuse Reactor Explosion The safety valve 472 of the automatic pneumatic valve transport device 916 is opened and at the same time, The outer block piping 74b of the line 74 is provided with cooling water and toothpaste-like loess mixture, which are stored in the inner block tank 596, (813) and the fourth protective walled container (808) to transfer cooling water and toothpaste-based yellow soil mixtures to the reactor through the connection structure cooling water and the toothpaste-level loess mixture 927 (681) inside the reactor core and outside the core (681), it is possible to immediately prevent the reactor explosion. At the same time, the nuclear power plant of the land and ocean nuclear power plant (1) And at the same time to prevent sinking of the main body 1 of the nuclear power plant of the ocean and to prevent explosion of nuclear fuel.

Preferably, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 tunnel unit main body 937 can be disassembled The distribution side 705 of the reactor main body manufacturing process of the various types of reactor main body of the nuclear power plant of the connecting shaft provided for manufacturing the connection structure is composed of the inner block tank 596 positioned at the central position, Internal block tank (596) External block tank (599) located outside the body High structural strength in double structure with steel plate (597) in stainless steel Connection to cutting process and welding process in industry The double structure block tank 598 is connected to one end of the produced double structure block tank 598 by the distribution input device of the double structure block tank pipe bridge tunnel device 929 to form the first auxiliary type steel 600 for the block tank and the second The large flange 614, which is connected to the fore and aft connecting position of the block tank 598 manufactured by the distributing and inputting device as a connection structure between the cutting process and the welding process, (625) of a certain size while performing a fabrication process by providing a large flange (614), which is connected to a connection position, with a drill and a cutter, ) Is provided as the main body of the manufacturing process, and according to the manufacturing process according to the safe design of the main body, the double structure block tank 598 of the iron structure metal of the main body of the main body is made of steel plate 597 of high tensile steel The double structure block tank 598 is connected to the crane crane 861 and the conveyer 633, which are fed into the conveying process, by the pre-marking process, (597) of the high-strength stainless steels, the steel plate (597) of the high-strength stainless steels was subjected to a foaming machine by a foaming machine and a roll foaming machine using a foaming machine (A) and a V-shaped bending (b), a bending process is performed in the form of a round bending (c), and at the same time, a bending process of a steel bending type press braking type With the bending method of the Loewer bending machine and the bending process of the bending machine with the bending process of the high tension stainless steel plate (597) with the banding and bending machine, (633) to adjust the positional movement so that welding can be performed to the banding joint portion of the steel plate (597) of the high-strength stainless steels, and a drill lathe and a cutter are provided in the welding machine and the cutting tool, Steel plate (597 The large flange 614 located at the connection position of the large flange 614 located at the stern connection position with the forward end of the block tank 598 is inserted into the stopper plate 625 Is provided as a main connecting structure of the manufacturing and processing shelving process and the outer block tank 596 and the outer block tank 599 positioned at the outer position of the inner block tank 596 are connected to the inner block tank 596) The welding process is completed while adjusting the position of the body to the inside of the outer block tank 599 by the crane crane 861 and the conveyor 633, and the double structure cylindrical connection structure And a dual structure block tank 598 equipped with a double structure block tank 598 is constructed to operate the nuclear power plant main body 1 with the manufacturing distribution input device of the main body.

A plurality of outer block tanks 599, a first auxiliary type steel 600 for a block tank and a vertical partition 605 of a second auxiliary steel plate 601 for a block tank are disposed outside the plurality of inner block tanks 596, The vertical partition wall 605 and the horizontal partition wall 609 are formed in the first auxiliary mold 600 for the block tank and the second auxiliary steel plate 601 for the block tank by steel beams 149 in the horizontal partition 609. [ The steel beam 149 and the partition wall manhole 610 in the snap hole 602 are cut by a computer laser cutter while being welded together by the welding process of the welding process to form the outer peripheral wall surface of the fourth protective walled container 808 And a nuclear reactor main body (794) for separating the nuclear reactor main body (1) into a double structure block tank (598), the partition wall manhole (610) The vertical partition wall 605 and the horizontal partition wall 609 formed therein are provided with a hydraulic system hydraulic cylinder door 624, The tap 631 is formed by a welding process and is provided as a traffic device of the reactor structural body 794 of the double structure block tank reactor explosion-proof double-structure block tank reactor reactor main body 794, The plurality of stopper plates 625 may be formed of a press braking type bending machine and a road wheel bending machine of a bending steel bending machine (597) of high tensile strength steel with a bending method and a bending method of three bending wollaston grooving machines, and a double structure block tank A plurality of inner block tanks 596 and a plurality of outer block tanks 599 of the double structure block tank 598 formed by the plug cover coupling assembly of the block tank 598, Welding process and large flange bolting connection unit at the lower part and lower part Combination structure Combination of bolting in an egg type Combination assembly and plugging of a stopper plate (625) without a large flange Multiple reactors formed by a welding process assembly Multiple explosion- Tank reactor main body 794 and is divided into a distributing and inputting device of a nuclear waste disposal apparatus of nuclear reactors 811 of various kinds into the nuclear power plant main body 1 and a distributing and inputting apparatus of a nuclear fuel explosion control apparatus And the nuclear reactor main body 794 of the double structure block tank nuclear explosion preventive reactor is constructed to operate the nuclear power plant.

The nuclear waste is stored in one place at the lower end between the plurality of inner block tanks and the vents of the plurality of outer block tanks in the event of the nuclear reactor explosion, so that the bottom of the GLD reactor of the double structure block tank is a reinforced concrete mat The nuclear fuel is injected into the third wall of the reactor body formed inside the inner block tank 596 having the single nuclear explosion-proof double structure block tank 598 fixed by the nuclear fuel 225 and the steel beam 149, The nuclear waste disposal unit of the nuclear reactor main body 794 of the double structure block tank of the reactor explosion preventive prevention tank and the distribution injector of the nuclear fuel explosion control apparatus are provided to form the nuclear power plant main body 1 (811) nuclear waste disposal unit and the fuel explosion control unit of the nuclear reactor Value separated by is configured to be made to the nuclear reactor facility movable double structure block tank reactor dust collector main body (794).

An enormous amount of radiation is generated within the nuclear reactor of the nuclear reactor facility so that the reactor can be safely covered with a covering tube 682 protecting the first wall pellet and the second wall fuel rod and a third wall reactor pressure vessel and a fourth wall vessel A double structure block tank reactor main body 794 having a five-layered protection wall formed by canceling a previous reactor building formed of a fifth wall reinforced concrete mat 225, (811) of the nuclear power plant into the nuclear power plant body (1) by the distribution injector of the nuclear fuel explosion control apparatus, and to the nuclear reactor main body 794 of the double structure block tank explosion preventive double structure block tank (811), a dust collector main body (794), and a steam outlet installed outside the body of the pressure vessel (813) of the reactor. The reactor 810 and the steam drier 786 are connected to each other and the double wall block reactor 808 corresponding to the fourth wall of the reactor 811 and the double wall block reactor corresponding to the fifth wall include a plurality Each of the inner block tanks 596 and the plurality of outer block tanks 599 is provided with a loam 158 cement mixer mixer machine 649 as a distribution injector of the fuel explosion control device, Cooling water 287, which is a nuclear fuel explosion-proof control article, is supplied to a pressure vessel 813 at the same level as a blast furnace. The mixture is appropriately mixed with a loess mixture containing a soap bubble- A plurality of fire-fighting nozzle nozzles 10 are connected to the inside of the pressure vessel 813 and the discharge vessel 808 so as to clean the inside of the reactor 811 after an earthquake occurs, ) inside (811) inside the reactor (811) without the need for personnel or robots, and a nuclear fuel explosion control device having nuclear reactor explosion control device with double structure block tank (811) in the main body (1) of the nuclear power plant (1) Double-structured block tank of the nuclear reactor (1) Inside and outside with the nuclear reactor building The inside of the main body 794 of the reactor 811 is internally cleaned by the cooling water 287 piping line 352 which is a dispensing device of the nuclear fuel explosion control apparatus, And the dispersing material which causes the soaking water in the cooling water 287 to be solidified so that the yellow loess mixture is not solidified, is formed of sulfur After the earthquake stops, the inside of the reactor 811 is cleaned immediately after the stoppage of the reactor 813 is stopped by stopping the internal pressure of the reactor 813. The reactor 811 can be continuously operated without restriction from natural disasters, Which is provided with a nuclear reactor waste disposal unit main body 794 having a nuclear reactor explosion preventive double structure block tank 794 which forms a nuclear reactor explosion preventing apparatus and maximizes the number of nuclear reactors, (811), and the main body (794) of the nuclear reactor (811) before the operation of the nuclear reactor safety nuclear reactor is operated.

And a plurality of double structure block tank reactor reservoir bodies 794 for storing radiation nuclear waste 224 connecting the reactor wall of the nuclear power plant and the outer wall surface of the double walled building block reactor of the fifth wall from the first wall of the reactor wall The nuclear power plant formed at the nuclear power plant before and after the operation of the nuclear power plant formed in a coupling structure with various kinds of nuclear reactors (811) inside the nuclear power plant body (1) A steam turbine 267 for generating nuclear fission within the steam turbine 267 to generate steam to generate steam by rotating the steam turbine 267, a nuclear power generator 772 for converting the power generated from the steam turbine 267, A rotating rotor electronics (not shown) for a nuclear power generator installed along a circumferential surface of a shaft 198, which is a rotating shaft connecting the steam turbine 267 and the nuclear power generator 772, A non-rotating armature coil 773 for a nuclear power generator installed along the circumferential surface of the rotating electromagnet coil 774 for rotating the nuclear power generator and a nuclear power generator 772 connected to the steam turbine 267, And a frame (775) for integrally fixing the shaft (198) to the power plant.

A cooling water 287 piping line 352 having a connection structure with a condenser 790 at a lower portion of the body of the steam turbine 267 of the power generation facility and a coolant water line 352 at a pipeline line 169 at the front of the condenser 790, 287) A circulating water pump 858 connected to the pipeline line 352 is configured to operate the nuclear power plant before and after the operation of the nuclear reactor safety nuclear power plant.

A feed pump 857 is formed outside the rear end of the condenser 790 and the reactor 811 and a purifier 809 is formed outside the reactor in front of the feed pump 857, A plurality of coolant pumps 859 are installed outside the reactor pressure vessel 813 containing uranium 812 fuel and a safety device control rod 798 is installed inside the reactor pressure vessel 813 The control rod 798 is automatically inserted into the reactor at a short time so that the reactor can be operated as a long emergency stop so that the safety of operation of the nuclear reactor before and after operation of the nuclear reactor safety nuclear power plant can be ensured. The first wall pellet 683 and the cover tube 682 protecting the second wall flare rod 689 and the like are disposed in the third wall reactor pressure vessel 813 and the fourth wall reactor vessel 813 by a stronger earthquake than the magnitude 5, (808) The safety valves 472 formed with the plurality of temperature pressure sensing sensors are opened and the explosion nuclear wastes 224 pass through the inner block piping 74a of the upper block piping line 74 of the pressure vessel 813 at each point Cooling water and toothpaste-like loess mixture, which are the control items for controlling the fuel explosion, stored in the inner block tank 596 are supplied to the outer block piping 746 through the water pump 857 inside the pressure vessel 813, And a temperature pressure sensing sensor safety valve 472 connected to the inner block tank 596 of the pressure vessel 813 is moved to the inside lower portion of the double structure block tank 598, At the same time as the outer block piping 74b of the block piping line 74 is opened the mixture of fuel explosion prevention control cooling water and toothpaste-like loess mixture stored in the inner block tank 596 is supplied to the pressure vessel 813 ) Inside and 4th The fuel is supplied to the hopper container 808 to convert the position energy of the water into the kinetic energy of the mixture of the coolant and the loess mixture 927 at the toothpaste level into the reactor. (599) If the inside of the reactor is filled with the cooling water (287) and the toothpaste mixture (927) which are stored separately, the reactor explosion is terminated and the reactor explosion is prevented. To constitute the operation of the nuclear power plants before and after;

When the explosion of the nuclear reactor pressure vessel 813 is stopped by the remote control cutting or the robot 700 when the reactor decommissioning operation of the nuclear power plant operating the nuclear power plant is stopped, the plurality of temperature pressure detecting sensor safety valves 472 are closed, In operation, various types of reactors, which are normally formed by closing a plurality of temperature-sensing sensor safety valves 472 at all times, can be installed on the barge 591 of a marine vessel. (811) so as to be installed on a barge of an anti-sunken type of the ocean; In order to prevent the earthquake and tsunami from being affected by the weather conditions, the location of the nuclear power plant is installed at the upper 40m of the sea level by the docking and buoyancy control devices located on the submerged barge line, Military nuclear power plants that are not affected by MIE are constructed so that nuclear reactors can not be exploded so that nuclear reactors can not explode. At the same time, Nuclear Radiation Leakage Control Dual Structure Block Tank (794) Dispenser In order to establish safe and continuous operation at marine nuclear power plant, it is possible to build a marine power station lifting tanks (593,594,595) Ensuring the safety of nuclear reactors and ensuring reactor repairs with continuous operation In order to prevent the pollution of the environment due to the nuclear waste, a mooring device formed on the barge for the waste treatment, a diving buoyancy control device, a distribution input device of the nuclear waste treatment device and a fuel injection device of the fuel explosion control device, Nuclear Radiation Leakage Control without Internal and External Nuclear Reactor Control Dual Structure Block Tank Distribution Apparatus of Nuclear Reactor Main Body (794) Nuclear Waste Treatment Units of Nuclear Power Plant (672) (593, 594, 595), diving buoyancy control devices, distribution and input devices of the nuclear waste disposal system, and nuclear reactors.

Preferably, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 tunnel unit main body 937 can be disassembled The distribution side 705 of the reactor main body manufacturing process of the various types of nuclear power plants of the connection shaft provided in the manufacturing of the connection structure,

A small-diameter electric resistance welded pipe 706 manufactured in a main body manufacturing section that controls the production of a connection structure capable of being disassembled and coupled at the marine vessel manufacturing factory of the connecting shaft of the nuclear power plant main body of the nuclear power plant main body 705 The raw material 707 and the uncoiled 708 can be cut into the ring leveling 709 and the side trimming 710 and molded 712 by the roughly connecting 711. At the same time, The weld heat treatment 715 is performed while the ultrasonic wave and eddy current test 714 are completed and the extrusion forming process 718 is performed with the air cooling device 716 and the water cooling device 717, (722) of the structure tube 721 to the intermediate stack 723 and the hot cut 726 in the induction heating furnace 724 to the SRM (725) And the ultrasonic wave and the eddy current test 729 are measured by a weight and a length measuring device 730 in order to visually check the position A screw 732 for performing a water test 731 is provided with a cooling plate 738 having a boiler tube 737 on a galvanized pipe 735 and a galvanized steel pipe 736 for a common pipe 734, A small diameter electric resistance welded pipe 739 is used to manufacture the coiled mage iron plate raw material 740 and a small diameter electric resistance welded pipe 706. The small diameter electric wire (742) connected to the side trimming (741), the ultrasound wave (743) and the tomography test (744) are completed, while the end molding (745) The large diameter steel pipe 747 of the oil pipeline 746 of the oil pipeline is connected to an edge milling machine 748 and three roll banding In the main body manufacturing section for controlling the production with the post-banding machine 750 dispensing apparatuses on the machine 749 To form the jaws, a dispensing input device conduit 755 and an outer conduit 754 are provided to perform the outer surface weld 754 while simultaneously performing a backing fuselage 753 weld cut to the inner and outer welds 751, The process of marking and shipment (759) to the X-ray test (757) and the cold expanse (758) to the pipe section (756) is performed simultaneously with the dispensing devices, The structural pipe of the uncoiling 761 with the steel pipe 760 and the non-coated pipe 763 of the steel pipe pile 762 are provided with an inner surface brush cleaning 765 and an inner surface coating 765 on the outer surface brass cleaning 764. [ The first coating 767 of the steel pipe 766 is painted and the coating 768 is performed while the coated steel pipe 769 is connected to the steel pipe 746 of the oil pipe through the process of the ultrasonic wave and the X- (747) as distribution and injection devices, while at the same time constructing nuclear reactors inside and outside the reactor Non-explosive Nuclear Radiation Leakage Control Dual Structure Block Tank Distribution Apparatus for Nuclear Reactor Main Body (794) Nuclear Waste Disposal Processes Moored to a Marine Power Plant (593,594,595) into the Nuclear Power Plant (672) Apparatus and submersible buoyancy control apparatus and nuclear waste disposal apparatus and nuclear reactor facility nuclear reactor facility safety operation pre- and post-nuclear reactor facility main body manufacturing process (705) As shown in FIG.

Preferably, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 tunnel unit main body 937 can be disassembled The distribution side 705 of the reactor main body manufacturing process of the various types of nuclear power plants of the connection shaft provided in the manufacturing of the connection structure,

An inner block tank 596 positioned at the center of the body of the double structure block tank 598 and an outer block tank 599 located at an outer position of the inner block tank 596, ) Is connected to the one end of double structural block tank (598) manufactured and distributed as a connection and disconnection structure to the cutting process and the welding process at the industrial site, and is connected to the distribution input device of the double structure block tank pipe bridge device, The first auxiliary steel plate 600 and the second auxiliary steel plate 601 are connected to each other through a connecting shaft to the connecting position of the forward and aft ends of the block tank 598, The large flange 614 is provided with a large flange 614 positioned as a connection structure at a connection position with a stopper plate 625 of a predetermined size as a main body of the manufacturing process, The double structure block tank 598 of the iron structure metal of the main body according to the present invention is supplied with the double structure block tank 598 into the transportation process by the cutting process of the high-strength steel plate (597) A crane crane 861 and a concrete conveyor 633 are provided, and at the same time, according to the original size of the iron plate 597 of the high tension stainless steel, (A) and a V-shaped bend (b) are cut in a rounded form in the form of a round-shaped bend (c), and at the same time, a press- The bending method of the big bending machine and the low bending machine and the bending method of the bending machine of the bending machine are used for the banding and bending of the steel plate, (633) to the steel plate of the high tensile strength stainless steel 597) while adjusting the positional movements so that the welding can be performed at the banding joints of the block tanks 598 and 597. At the same time, the welding machine and the cutting tool are equipped with a drill lathe and a cutter, A large flange 28 positioned at a connection position of a large flange 614 located at a fore and aft connecting position is provided as a main body connection structure of a manufacturing and processing shelving process to form an inner block tank 596, The inner block tank 596 and the outer block tank 596 are positioned at a position outside the body of the inner block tank 596, A double structure block tank 988 having a double structure cylindrical connection structure inside the main body while completing the welding process while controlling the position movement with a vieer 633 is referred to as a nuclear radiation leakage agent Dual structure block tank Distribution device of nuclear reactor main body (794) Nuclear waste treatment devices for the mooring device and diving buoyancy control device (593,594,595) formed in marine power plant lifting tank (593,594,595) inside main body (1) of nuclear power plant (672) And a connection structure capable of disassembly and disassembly at a shipbuilding factory of the connection shaft of the reactor main body manufacturing process (705) before and after the reactor facility safety operation of the nuclear waste disposal apparatus and the nuclear disposal apparatus Do.

Preferably, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 tunnel unit main body 937 can be disassembled The distribution side 705 of the reactor main body manufacturing process of the various types of nuclear power plants of the connection shaft provided in the manufacturing of the connection structure,

An inner block tank 596 positioned at the center of the body of the double structure block tank 598 and an outer block tank 599 located at an outer position of the inner block tank 596, ) Is connected to the one end of double structural block tank (598) manufactured and distributed as a connection and disconnection structure to the cutting process and the welding process at the industrial site, and is connected to the distribution input device of the double structure block tank pipe bridge device, The first auxiliary steel plate 600 and the second auxiliary steel plate 601 are connected to each other through a connecting shaft to the connecting position of the forward and aft ends of the block tank 598, The large flange 614 is provided with a large flange 614 positioned as a connection structure at a connection position with a stopper plate 625 of a predetermined size as a main body of the manufacturing process, (598) of the iron structure metal of the installation main body is made of steel plate (597) of a high tensile strength stainless steel by a double cutting block tank process 598 A crane crane 861 and a conveyer 633 to be fed to the conveying process are provided and at the same time, according to the original size of the steel plate 597 of the high tension stainless steel, (597) of the high tensile strength stainless steels were subjected to folding in the form of a round breaking (c) in the form of a right angle bending (a) and a type V bending (b) At the same time, the bending method of the press braking type bending machine and the roller bending machine of the mold steel bending type and the bending method of the bending roll bending machine of the roll bending type, The crane (861) and the conveyor (633) Tension Stainless steel steel plate (597) is welded to the banding joint of the steel plate while adjusting the positional movement. At the same time, the welder and the cutting tool are equipped with a drill lathe and a cutter. The large flange 28 positioned at the position of the connection portion of the large flange 614 located at the stern connection position with the block tank 598 is inserted into the main body connection structure An outer block tank 596 and an outer block tank positioned at an outer position of the inner block tank 596 are installed in the outer block tank 599 at the same time that the body of the inner block tank 596 is positioned A double structure block having a double structure cylindrical connection structure inside the main body by completing the welding process while controlling the position movement by a ceiling crane 861 and a conveyor 633 The tank 5988 is connected to a nuclear power plant floating support system 593,594,595 into the main body 1 of the nuclear power plant 672 by the nuclear waste disposal apparatuses of the nuclear radiation leakage control dual structure block tank reactor main body 794 And the control of the docking buoyancy of the mooring device and the nuclear waste disposal device and the reactor installation of the nuclear waste disposal facility. It is preferable to form a connection structure.

Preferably, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 tunnel unit main body 937 can be disassembled The distribution side 705 of the reactor main body manufacturing process of the various types of nuclear power plants of the connection shaft provided in the manufacturing of the connection structure,

The dispensing apparatus of the diving progression ready motion control apparatus, which is located inside the main body,

The block tank hull disassembly and engaging portable lug 607 provided in a horizontal and vertical type coupling structure at each portion of the holding tank upper barge hull 591 and the holding tank lower barge hull 592 has a plurality of lug processing holes 615 and Block tank Tank block unit Hull disassembly Horizontal block tank with long hole (616) for position control Hull disassembly Portable rug pin shaft (606) Vertical block tank with machining hole (615) Hole hole 616 for the block tank block unit hull disassembly and coupling position shifting control device is provided in the finishing hole 615 of the pin shaft 606 so as to be connected to the connection portion of the pierce column holding tank 590 and the barge A plurality of shafts 606 bonded to a plurality of processing holes 615 provided at respective portions in a vertical form of the hull 591 and the barge hull 592 at the lower end of the holding tank are bonded to several rug processing holes 615 Block tank The double structure holding block tank 598 is rotated by the shaft 606 provided with the single opening shaft 606 by removing the sieve disassembly portable rotary pin shaft 606, It is a connection structure that can be disassembled and connected by distributing input device. Completion of assembling of sea level is completed by connection of bottom part. Barge line Connected to each part of ship hull. Blocks of diving control devices. Tank block units. A hydraulic cylinder 426 for the block tank hull traffic control device and a stopper plate 625 for the blocking tank valve 622 and the ventilation port 585a of the doctor ventilation 585 of the diving control device are connected to the discharge port 585b. ), A double structure piping line automatic pneumatic valve conveying device 916 and an engine control power motor control module 106 are separately provided to prepare for the diving process, so that the horizontal holding block tank 590 can be vertically pivoted (594, 595, 596) to prevent submergence of marine power plants by distributing to the distribution input device of the anti-submergence resisting line (634), which is prepared to prepare for the submergence proceeding at the lower sea level (SLD) A main body 1 of a nuclear power plant positioned as a connection structure to a position having an internal connection structure of a nuclear reactor building 688 inside the main body 1 of the nuclear power plant;

The distributing and charging apparatus for portable construction of the nuclear power plant main body (1)

The block tank hull disassembly and engaging portable lug 607 formed at each of the joining portion barge lines at the upper and lower ends of the holding block tank 590 is provided with a shaft 606 and a screw thread 603a of a bolt for engaging the lug shaft, The thread 603b of the shaft coupling and disassembling nut 604 and the pin shaft 606 and the lug pin 608 for lug coupling are connected to the hydraulic rotary cylinder A plurality of lug processing holes 615 provided in the lug 607 and a plurality of lug processing unit holes 615 provided in the block tank block unit hull structure 624 are provided, A horizontal double structure block tank 598 having an elongated hole 616 for the disassembly position and movement regulating device is connected to the block tank hull disassembly double tube 617 provided in the semi-submerged operation line 637, which is an example of the tug line 636, Structural tank piers Construction auxiliary saddle type A block tank block unit of the same type as that of the frame 617, a band guide 621 for the hull disassembling and regulating unit, a diving position control mobile unit of the hull of the sinking resisting ship 634, The bottom block barge hull 592 of the holding block tank is connected to the lower end SLD of the sea bottom surface of the ship block tank 107. The bottom block barge hull 592 of the bottom tank barge 592, The fuel rod 689 is placed inside the nuclear reactor building 688 inside the nuclear reactor building 688 inside the nuclear power plant main body 688 in order to protect the preparation for diving, The primary power source 686 and the input power source 687 are connected to the production control unit 690 through the production control unit 690, of mine The marine tunnel crossing railway substation 696, which is located at the center of the connecting structure of the seven-stranded steel wire (692) and the subse- quent line (693) with the transmission line diameter (695) The production power supply of the voltage 684 of the intermediate substation 697 and the power supply 685 is started from the high voltage substation 690 provided with the shift regulating device transformer 96 to the primary substation 691 (698) and the middle unit factory (699). The second substation (700), which receives direct supply of production power from the first substation (691) ), Submarine cable (701) and solar home (702) are connected to the location where the submarine cable is connected to the connection structure. Submarine cable and cable (96) A production electric power supply regulating device located in a connection structure to a position having a connection structure for distributing and discharging a production electric power supply provided in the ring 703 with the cable high voltage electric wire balancing insulators 704 for balancing the electric wires, (GLD) A production electric power supply control device located at a connection structure to a location having a connection structure for distributing and discharging a production electric power supply provided by wirings through an underground line, so that the production power supply of the nuclear power plant main body (1) To the home 702 with distribution dispensers for dispensing and dispensing the product.

The distribution input device for controlling the diving buoyancy of the nuclear power plant main body 1 comprises a plurality of shafts 606 bound to a plurality of processing holes 615 provided at respective portions of the lug 607 prepared for preparation for diving, The shaft 606 is removed from the bundled processing hole 615 and the double structure support block tank 590 is connected to the bottom block barge hull 592 of the column block tank by the shaft 606, The bottom of the holding tank bottom barge hull 592 is provided to protect the progress of the diving with the SLD at the lower part of the sea level by the weight of the lead weights 107 for controlling the diverting buoyancy for distribution, Submarine line injection into the main body (1) Submarine line connection of the nozzle connection Submarine line wiring to the nozzle connected to the connection structure Distribution of the main body (1) of the nuclear power plant located as a structure Value producing electric power supply control apparatus and the land in the road surface at the bottom portion (G L D) is provided to the underground with the wiring configuration be made up the original operation and; sunken ship lift distribution input device for use in the nuclear power plant body 1 is,

After the bottom barge hull 592 of the single shackle shaft 606 is submerged in the holding block tanks, the horizontal stowage block tanks 590 are vertically aligned to form the strut tank upper barge hull 591, A plurality of shafts 606 bound to a plurality of processing holes 615 provided at respective portions of the landing block tank lugs 607 positioned in vertical positions of the rug and the sea level SLL of each portion are disassembled into a block tank hull disassembly To the hexagonal portion 603b of the hull disassembly engaging portable lug shaft disassembly coupling nut 604 and the hull disassembly engaging portable lug pin shaft 606 to the combined portable lug shaft bolt 603 and the bolt thread portion 603a The main body 1 of the nuclear power plant is provided to the marine vessel substitute traffic apparatus facility by the distribution input device of the sink preventive stay line 634 of the sinking ship while having the hull disassembly coupling with the hull disassembling portable lug pins 608 By doing so, (593,594,595) to protect all of the ship's barge ship hull with the submarine line spraying nozzle of the submarine line injection nozzle connecting the submarine line wiring to the inside of the nuclear power plant main body A double structure block tank 598 provided with a connection structure anti-sinking retention line 634 for providing a sinking vessel located in a connection structure and having a double structure cylindrical connection structure inside the main body 1 of the nuclear power plant, The nuclear radiation leakage control dual structure block tank distributing device of the nuclear reactor main body 794 nuclear waste processing devices are installed in the main body 1 of the nuclear power plant 672 and the mooring device formed in the marine power plant lifting tank 593,594,595 Buoyancy control device and nuclear waste disposal device distribution device and nuclear reactor facility safety facility operation FUJITSU nuclear reactor facility main body manufacturer In connection axis marine manufacturing plant 705. It is preferred that the configuration be made to the connection structure which can be decomposed bond.

Preferably, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 tunnel unit main body 937 can be disassembled The distribution side of the main body 1 of the nuclear power plant of the connecting shaft provided in the manufacturing of the connecting structure is different from the distribution side of the main body 1 of the nuclear power plant 1 (SLD) of sea level (SLL) of double vertical structure block block tank bridge pier (928) to the 40M position of double vertical structure block tank bridge (929) ) In order to control the dispersion of the main body 1 of the nuclear power plant with the connection shaft of the tunnel device main body 937, the main body 1 of the nuclear power plant is inserted through both sides to the upper position of the pipe bridge support, A hollow space for regulating the distribution of the capacity of the nuclear power plant main body 1 to the inner position of the upper end of the pipe bridge 937 of the structural strut block tank pipe bridge 928 is connected to the block tank 598 of the double structure block tank 598, An inner block tank 596 located at the center of the body and an outer block tank 599 positioned outside the inner block tank 596 are connected to a block tank 598 having a double structure, Bridge 937 Tunnel unit 929 and dual structural strut block tank pipe bridge pier provide construction equipment located within the hull of the distribution input unit 634 of the sink prevention rescue line 634, A submerged injection device to the inside of a nuclear power plant main body 1 provided for fixing the submarine 851 to the seabed. Submarine line submerged into a submerged line connection structure with submarine line wiring to the submerged injection nozzle nozzle With the construction equipment positioned inside the hull of the distribution chute sinking prevention stay line 634 to raise the lifting foil it is configured to be made a nuclear power plant body (1).

The floating type marine power plant lifting tanks 593, 594 and 595, which are not formed on the upper surface of the pipe bridge 937, are connected to the holding tank upper barge hull 591 Combined with a block tank 590 and a block tank combined portable lug 607 formed separately from the holding block tank 590 by the holding tank lower barge lines 592 and a plurality of block tank hull disassembly combined portable lugs 607 provided at respective portions A plurality of hull disassembly-type portable lug pin shafts 606 are disassembled and coupled by a block tank hull disassembly-type portable lugg- ing shaft bolt 603 and a bolt lattice joint 603a and lug pins () (593, 594, 595) are formed by dividing the landing block tank (590) at the depth of the sea surface (SLL) according to the sea depth into a double structure block tank unit (593) (607) block tank hull disassembly-type portable lug 607 provided at each portion of the block tank-engaging portable lug 607 and the coupling joint structure of the coupling tank 607. [ (606) block tank hull disassembly-type portable lug pin shaft 606 engaged with the block tank hull disassembly-type portable lug shaft bolt 603 and block tank hull disassembly portable The pipe bridge tunnel device having the connection structure in the thread 603b of the ratchet disassembly coupling nut 604 and the dual structure strut block tank pipe bridge 928 are connected to each other by the distribution of the sink prevention resisting line 634 of the sinking ship retention line The construction equipment provided inside the hull of the input device is provided with a fixation with a crane crank (846) for replacing the mooring device anchorage at the seabed so that the connection structure provided for protecting the anti-sinking type maintenance poison (593,594,595) (593,594,595) in which a submarine line connection line is connected to a submarine line injection nozzle of a submarine line injection nozzle connecting to a submarine line (1) (1).

(593, 594, 595) for the sinking of the connection structure of the nuclear power plant main body (1) is installed at a position of 40 meters above the upper surface of the double structural block tank pipe bridge (937) (593,594,595) of the main body (1) of the nuclear power plant located as a connecting structure to repair collision prevention and bridge bridge bridges and the nuclear power plant main body (1) (593,594,595) of the main body (1) of the individual nuclear power plant to be distributed to and discharged from the nuclear power plant main body (1) having the double-structure block tank (598) ) And a fixed type barge line with a control space for controlling the input device of the distributing equipments. The main body 1 of the nuclear power plant is provided with a plurality of Double structure block tank piers (598) of floating lifting tanks (593, 594, 595) Double structure block tank pipe piers (928) are connected to the sea level surface (SLL) (928), which is a double structure block tank with a volume of 500 cubic meters per cubic meter of water depth. It is necessary to provide construction equipments to provide fixation to the seabed at intervals of 500M, The main body 1 of the nuclear power plant is provided as a connecting structure for securing the main body 1 of the nuclear power plant with the wringer crank 846 for replacing the main body of the nuclear power plant located at the lower base 851 and at the same time, The main body 1 of the nuclear power plant is constructed as a connection structure on the distribution side.

The distributing and inputting device on the distributing side for the liquid type lifting dock (593, 594, 595) of the connection structure of the nuclear power plant main body (1) is composed of an upper lifting dock top barge of the strut block tank (590) Top of barge and upper sea of barge Bar above upper deck of barge on deck deck The upper deck of deck has several kinds of nuclear power plants and wind power plants that provide a shelter to protect sailing vessels from natural disasters while supplying environment friendly non- The hydroelectric power plant shall be provided with individual power generation facilities and the seabed mineral resource collection field shall be composed of the undersea mineral resource collection site located at the lower part of the floating deck SSL and the deck top deck of the floating type floating dock (593,594,595) The block pylon (116) located at the location is supported by a floating observation platform (1) The submarine line is injected into the main body of the nuclear power plant (1) by providing the distributing and inputting device of the distribution side located at each emergency equipment landing site located at the upper position of the barge deck deck. Connect the submarine line wiring to the nozzles. The top of the deck top of the float-type floating dock (593,594,595) located at the location with the distribution side structure. The aircraft emergency landing area is provided separately to the facilities Dispensing and Discharging Equipment The disposal of the nuclear power plant main body (1) is to form the main body (1) of the nuclear power plant as a connection structure on the distribution side.

As a connection structure of the nuclear power plant main body 1,

Submarine line injection nozzle into the main body of nuclear power plant (1) Submarine line of nozzle connection port Connect submarine line wiring to the nozzle connected to structure Double structure block located at the structure Structure of double pipe in tunnel body (929) The double structure block tank 598 having the connection shaft of the pipe bridge 937 connected to the block tank pipe bridge 937 body is connected to the guide rail 618 for the block tank hull transportation device provided at the lower end position of the inner block tank 596 The inner block tank 596 and the outer block tank 599, which are provided for the operation of the internal tunnel 771 for the marine tunnel device at the speed of 100K per hour, The guide rail 614 is positioned at the lower end of the guide rail 618 located at the lower end of the inner block tank 596 located at the outer end of the inner block tank 596, (599) located at the lower end of the outer block tank (599), which is located at the connection structure, to connect natural gas and crude oil to the natural gas and crude oil transportation pipeline 916) is installed in the main body 1 of the nuclear power plant and is connected to the semi-submerged operation line 637 in the tug line 636 and the submergence operation line 634 in the submerged ship maintenance line. A fixed lifting device with a distribution shaft for exposing the upper surface of the sea surface on the substrate of the nuclear power plant main body 1 which connects the land and the book side by completing the installation process to the position where the installation of the pipe bridge tunnel device is possible (593, 594, 595), the connection structure provided with the construction machine equipments of the dispensing apparatus is connected to the inside of the main body (1) of the nuclear power plant A double structure block tank pipe bridge located at a position where the submarine line wiring is connected to the submarine line injection nozzle of the submarine line injection nozzle connecting structure, and a connection structure of the bridge shaft 937 and the distribution shaft, It is preferable that the main body is formed of a connecting structure.

Preferably, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 tunnel unit main body 937 can be disassembled (593, 594, 595) of the offshore power plant of the connecting shaft provided for the connection structure manufacturing The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)

The distributing and inputting apparatus located at the top of the holding tank of the nuclear power plant main body 1 of the floating power plant of the marine power plant 593,594,595 and the connecting structure for the barge hulls 591 and 592 at the bottom of the nuclear power plant main body 1, (593,594,595) Nuclear power plant main body (1) Main holding tank provided with connecting structure Upper barge (1) Connected to submarine line spraying nozzle of line injection nozzle connecting nozzle A strut block tank 590 located at the lower end position of the center of the hull 591 and a strut block tank 590 located at the upper position of the central position of the strut tank lower barge hull 592 and a center portion of the strut hull 591, The plurality of column block tanks 590 located in the connection structure to the peripheral positions are connected to the column block tank 590 of the connecting shaft of the upper tank barge hull 591, (591,592) located at the connection structure to the connection portion distribution shaft position at the upper and lower ends, and a block tank-attached portable lug (607) body provided for adjusting the position of the distribution axis to each connection portion, A block tank unit shaft 606 provided as a connecting structure for regulating the position where the lug hole 616a is located for the hull breaker coupling unit of the block tank unit and the lug shaft coupling bolt The screw thread 603a of the block 603 and the nut screw thread 603b of the ratchet shaft engaging and disengaging nut 603 and the block tank engaging portable lug pin 608 to the block tank hull disassembly engaging portable lug 607 (593,594,595) Nuclear power plant main unit (1) Hydraulic cylinder machine (619) for decomposition coupling and a floating bed (616) for buoyant balustrade hull balancer on the mooring system, (593,594,595) of the marine power plant at the same time while installing the main body (1) of the marine power plant at the same time while the marine power plant is installed in the main body (1) of the nuclear power plant (593,594,595) Construction machine equipment having a connection shaft and a distribution shaft of a double structure block tank bridge (937) located at a location with a connection of the submarine line wiring to the line injection nozzle is constructed of a floating tank (593,594,595) Nuclear reactors (Nuclear power plants) Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors So as to be operated.

(593, 594, 595) of the marine power plant is connected to the main body 1 of the nuclear power plant. The distribution input device of the block tank coupling lug 607 is connected to the floating tank top of the holding tank 593,594,595 of the marine power plant 591 and the holding tank lower barge hull 592 are connected to each other by a horizontal and vertical coupling structure, and a plurality of processing holes 615 and a long hole 616a are formed in the block tank-combining portable lug 607 body. Hole holes 616a are formed in the horizontal pin shaft processing hole 615 and the vertical pin shaft processing hole 615 to connect the connecting portions of the column block tank 590 and the upper end barge hull 591 and the lower The shafts 606 bound to the several processing holes 615 of the plurality of shafts 606 bound to the plurality of processing holes 615 provided at the respective portions in the vertical form of the barge hull 592 are removed, (606) is provided with a coupling structure The double structure holding block tank 590 is connected to the sinking prevention stay line 634 of the sinking ship by a branch 606 so as to be disassembled and disassembled, The horizontal lower portion of the tank 590 is connected to the vertical holding block tank 590 by a vertical holding block tank 590 provided as a connecting structure at each connecting portion of the lower portion connecting barge hull, (634) is provided as a connection structure of the throttle control line of the retention line (634), and the anti-sink retention line (634) prepared for the submergence proceeding to the lower end SLD of the sea surface is pre- ) Nuclear power plant (1) is equipped with a connection structure to protect the nuclear power plant, various types of nuclear reactor facilities Nuclear reactor operation Alternative nuclear waste treatment shielding device reactor Nuclear Radiation Leakage Control Dual Structure Block Tank Reactor (593,594,595) Nuclear Power Plant (1) Main Unit (1) Distribution facility of main body of reactor dust collector Lifting dock of anti-sinking marine power plant equipped with excavation equipment and mooring equipment of anti- It is structured to operate nuclear reactors.

(593,594,595) Nuclear Power Plant Main Unit (1) Distribution Apparatus for Nuclear Reactor Operation The rotary table lathe machine 908 of the drilling machine is located at the upper end of the sea level (SLU) of the sea surface SLL (593, 594, 595) of a submerged marine power plant located in the upper part of the hull deck (SDU) of the drilling machine, the rotary table lathe machine 908 of the drilling machine for crude oil in the drill machine room is connected to a plurality of pipe racks 854 The crude drill rod is connected to the boom of the crane boom band of the crane boom 651 located at the upper end of the drill machine room and to the boom hook ring 652 of the crane boom 651, The pipe rack 854 in the waiting preparation ready state is positioned at a bow site of several pipe racks 854 provided as a connection structure to the sea level lower end SLD position of the sea level SLL, The crankshaft 917 is provided with an excavation hole 936 and an anchor replacement crank 846 at an excavation hole 936 provided with a joint drill 917 and a connection structure, (634) installed in the construction machine operation connection structure mounted on the upper barge line hull of each strut block tank provided as a connection structure to the submerged breakwater (624) and the small key bed (616) (593,594,595) Nuclear power plant Main unit (1) Upside of the deck upper part (SDU) connected to the inside of the deck upper part (SDU) (908), which is located at the lower end of the tunnel crane (908), is connected to the inside of the machine room. The rotary table machine with the rotating body of the body (908) body is provided with several hydraulic keys 623 located at the center of the table, The connection structure is connected to the center of the shelf to control the movement of the rack. The connection structure is connected to the center of the rack. A number of pipe racks (854) that arrive at the location of the crude oil borehole (936) that are located. Crude oil drilling rig equipped with connection structure. Crude oil borehole (936) The drill 917 is used to provide a crude borehole 936 while being connected to a wire rope 65 of a tunnel crane 651 to provide a crude drill rod connection Drilling rigs for drilling rigs (854) Drilling machines Drilling machines Drilling machines Drilling machines Rotary tables Lathes Rotary body Rotors Drilling blocks Tank blocks Unit Hulls Hydraulic rotary cylinders for dismounting joints A circular table lathe with machine 619 a transfer table to the top of a rotary table lathe machine 908 of a drilling machine for crude oil drilling by means of hydraulic cylinders 623 for several drills located in the connection structure to the center position The rotary table lathe machine 908 operation of the crude oil drilling machine that provides the crude oil borehole 936 completes the drilling of the crude oil bore hole 936 while simultaneously discharging the crude oil and natural gas And the boom hook of the tower crane 886 and the boom hook ring 652 of the tower crane 886, Gagori (652) Nuclear energy source in the deep sea by vertical rotation operation Prevention of sinking to prevent the sinking to the top of the deck deck (593,594,595) Nuclear power plant main body (1) Power supply distribution input device Crude oil and natural gas crude oil borehole distributing input device which is located at the same time while having submarine line wiring and is connected at the same time to the submerged dock (593,594,595) (1) Nuclear power plant operation (1) Operation of the nuclear power plant shall be made by the secure seaworthiness in the ocean.

The distributing and inputting device of the sinking restraining line 634 as a connection structure of the main body 1 of the nuclear power plant of the marine power plant 593, 594, 595 is provided with a crankshaft crank 846, The hydraulic cylinder machine 39 is actuated as a connecting structure to the drill 945 drilling hole 936 to push the wrench crank 846 so that the wrench crank 846 provides a compression expansion within the drilling hole 936 A barge with several bar-shaped hull drift prevention bars is fixed at the bottom of the deep sea by fixing the lower end of each holding tank by providing a fixing structure with a connecting structure, A barge ship located at the top of a holding tank top barge with a mooring device of a floating power plant (593,594,595) installed at the marine power plant. To replace the shredder crank 846, the mooring device for a connection structure provided to protect the floating dock formula (593 594 595), preventing sinking of the marine power plant it is preferred that the configuration be made for a nuclear power plant unit.

Preferably, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 tunnel unit main body 937 can be disassembled (593, 594, 595) for the prevention of sinking of the connecting shaft provided in the connection structure manufacturing the distribution side (705) of the various types of reactor facility main body manufacturing processes of the nuclear power plant main body, (593,594,595) of sinking prevention marine power plant (593,594,595) To the inside of the main body (1) of the nuclear power plant The submarine line of the submarine line injection nozzle connecting port Submarine line wiring to injection nozzle Connected to a position with a connection structure Large flange (614) located in a structure Connection structure of connection distribution input device (593,594,595) of the marine power station Mooring device of the main body of nuclear power plant (1) Distributing device In order to construct the equator (EL) on the Earth's south pole (SP) and north pole The block tanks 598 in units of 500m are connected to the sink preventive retention line 634, which is a distributing and loading device, in the form of a double structure block tank barge by a connecting structure provided to construct the block tank 598 and the holding block tank 590 as connection structures. The distribution dispenser for countermeasures for connecting the whole of the main body is provided with lifting tanks 593, 594, and 595 of the submergence preventing marine power plant, and is installed at a distance of 500 m from the center of the pipe bridge 928 of the pipe bridge 929 And the deep water submersible 188 is provided to precisely measure the marine water depth and the sea water pressure at the point where the pipe pier 928 is installed, At the same time, a flagpole rubber balloon (628) is installed at the same time, while a direction mark and a depth of water depth are indicated, and the bottom of the flagpole rubber balloon (628) The diaphragm buoyancy control pendulum weight 949 is suspended to clarify the installation position of the pipe bridge pier 928 and the towing pier 928 is towed to the tug line 636, Prevention float lines 634 that are the same as those of the submergence retention lines 633, 593, 594, and 595 to connect the submarine line wiring 946 to a position having a connection structure to the injection nozzle of the injection nozzle connecting port into the inside of the nuclear power plant main body 1 Large-scale flanges (614) located in the structure of the marine power plant (593, 594, 595) provided to protect the connection structure and lifting tanks of marine power plants (593, 594, 595) To be achieved consists of the nuclear power plant unit.

(593, 594, 595) of the marine power plant is connected to the main body of the nuclear power plant,

After the sink prevention rescue line 634 is transported, if the depth of the installation point is 300 meters, the pile column is increased by 50 meters more than the water depth, and then attached to the small crane boom stand (942) of the tower crane for the position- The post file 898 is vertically erected and the hammer 847 and the perforator 876 are attached to the excavator 845 for the deep sea excavation equipment of the construction machine drill 880 and the anti- A hydraulic hammer 884 and a hydraulic crane 885 and a tower crane 886 are connected to a separate construction machine 880 file driver 882 and a diesel pile hammer 883, And a tractor 893 and a trailer 894 are attached to a tamping roller 891 and a tire roller 892 on a machine drum 889 and a tandem roller 890 on a truck crane 888 and a truck crane 888, Each of the construction machines includes a cooling water cooler 897 and a helmet 899 in the ram 895 and the lid 896, Is provided with a fuel pump 900, a cam 901 and a fuel tank 902 and at the same time a pre-boom pin (not shown) of the starter 903 904, the cage work 905 and the adapter 906 are provided, and the level balance of the pipe bridge 929 is checked. Then, ten pairs of double structure block tanks are provided at the bridge bridge installation sections of the respective locations, (848) at the construction machine cabin, while the bridge is connected to the bridge pier (928) at the upper part of the sea surface of a few cattle with the connection structure of the construction machine distribution dispenser (593,594,595) of a marine power plant to protect the mooring unit of the marine power plant's floating type poison (593,594,595) from the marine power plant; 3,594,595) The distributing and inputting device of the whole construction machine for measures to connect and transport the whole to the connection structure of the nuclear power plant main body,

Since the weight of the pipe bridge 929 connected to the inside of the pipe pier 928 at intervals of 500 m reaches tens of thousands of tons, the holding block tank 590 is divided into the double structure block tank 500㎥ unit The pipe bridge that is equipped with the bulk connection structure is a connecting structure provided on the crane boom stand (942) of the tow crane replacement tower crane, and the anchor trolley (640) and the anchor chain (640) 958 and is provided with a connecting structure for releasing the anchor 639 and the wire rope chain 915 to the air tongue winch 958 and at the same time to the inside of the main body 1 as a connection structure to the injection nozzle of the injection nozzle connecting port Connect the submarine cable to the location with the connection structure Measures to connect the structure to the connection structure Connection structure of equipment to protect the connection structure and the floating type poison (593,594,595) of the submerged marine power plant with mooring equipment And a distributing and inputting device for connecting an entire block tank pipe bridge to a connecting structure of the main body of the nuclear power plant is constituted to constitute a main body of the nuclear power plant, and is wound around the main body 1 with an air tongue winch 958 as a connecting structure, The tie-off winch 958 is used to connect the wire rope chain 640 to the tie-line winch 958 to provide a double-sided tie-down sail 959 to assist in the operation of the tug 636, Block tank (598) In order to make a temporary passage of the sailing vessel while providing connection structure at the sea level in 500m unit, the block tanks are temporarily held at one point in 500m to open a temporary passage of the sailing vessel (598) connection position to the whole block tank pipe bridge connection structure to the outside position of the outer block tank (599) (4) and odd numbered connections (5), the block tanks are connected to each other at a certain distance from the block tanks, and the whole block tanks are connected to the inside of the main body (1) (593,594,595) nuclear power plants of marine power plants, which are designed to protect shipyards (593,594,595).

The distribution inlet of the lifting trough (593, 594, 595) nuclear power plant main body 1 of the marine power plant is connected to the outer block tank 599 through a hinge 27 for detachment from the outer block tank 599, The crank pin shaft 27a of the hinge 27 of the pawl rug 21 at the portion abutting against the pawl rug 21 provided at the front end The tanks are arranged at a fixed distance from each other, and the connection position of the block tank is provided as a connection structure, and the tie bar is fixed to the horizontal outer wall position. The tie bar 935 of the lock release device is welded, The block tank unit block hull disassembly lug hinge sockets (not shown) are provided at the same time as providing the joints, 613) Block tank connection location Marine lifting dock (593,594,595) of marine power plant with individual connection is connected to the injection nozzle of the injection nozzle connection with the connection structure of the submarine line wiring (946) Bridge (937) Fixed lifting dock (593,594,595) of marine power plant to protect joint distribution device and marine power plant lifting tanks (593,594,595) with mooring connection structure Main body (1) of nuclear power plant is connected to block tank connection location (593,594,595) of the offshore power plant while providing disassembly of the block tank with the shredding unit (185) and the block unit (22) As shown in FIG.

Preferably, the nuclear radiation leakage control dual structure block tank reactor main body 794 constituting the nuclear power plant main body 1 and the double structure block tank pipe bridge 929 tunnel unit main body 937 can be disassembled (593, 594, 595) of the marine power plant of the connecting shaft provided for manufacturing the connection structure The distribution side (705) of the nuclear power plant main body manufacturing process of the nuclear power plant main body is a connection structure of the nuclear power plant main body (1) (593,594,595) Power generators The distribution and input devices of various types of generators are connected to the inside of the main body (1) of the nuclear power plant (593,594,595) of the marine power plant. The injection nozzle connects the submarine line ship (946) (929) Combined distribution dispenser and floating dock (593,594,595) Positioning with mooring arrangements as a linkage structure A double structure block tank for preventing the explosion of the nuclear explosion inside the deck deck; a double structure block tank for connecting the inside of the nuclear reactor main body (794) of the buoyant deck plate deck (593,594,595) of marine power plants of various kinds of power generation facilities of the reactor facilities installed in the building are installed in the nuclear power plant (672) and the offshore wind power plant (957) Nuclear Radiation Leakage Control Dual Wind Turbine (957a) and Deck-Drage Internal Leakage Control Tank The nuclear reactor (772) of the nuclear reactor main body (794) and the large hydropower generator are connected in a fixed connection structure. And a power transmission portion for transmitting power to each distribution shaft in the main body 1 by providing a connection to the distribution shaft so that the submarine line injection nozzle The bridge is connected to the position where the submarine line wiring (946) is connected to the connection structure. The bridge connection distribution distribution input connection structure is a connection structure of various types of marine power generation plants and a distribution input / It is preferable that the power generation amount of the main body of the nuclear power plant is constituted by the distribution input device and the main body (1) of the power plant, marine power plant, lifting type poison (593,594,595)

The large capacity hydroelectric power generator 230 is connected to the main body 1 of the nuclear power plant of the marine power plant 593, 594, 595. The distribution power input device for the various types of power generation apparatuses includes various types of nuclear power plant main body 1 The large hydraulic power generator body of the maritime hydropower generation plant 943 is connected to the head tank 189 for the pressure tank located above the top of the barge and the head tank 189 An inlet pipe 191 serving as a hydraulic pipe having a shape of a reed 35 is connected to the head tank 189 at the inlet of the inlet water pipe 191 at the front of the hydroelectric power plant and at the rear of the head tank 189, A plurality of introduction pipes 191 are connected to the pump aberration 943a of the turbine 267 and the Pelton aberration 943b of the turbine 267 to the lower portion of each large- The suction port 269 and the suction port &lt; RTI ID = At the same time, the hydroelectric power generation is performed by the connection structure of the discharge port (270) of the room, and at the same time, the kinetic energy of the water is utilized as the mechanical energy of the water by using the flow rate of the ocean current and the introduction pipe (191) A large hydraulic power generator with an iso central shaft frame 673 at mechanical energy conversion and a small crane boom girder 942 of a tower crane that performs a vertical rotary operation to the small facility main body 944, And a large hydroelectric power distributing and loading device is provided inside the main body 1 of the nuclear power plant with the generated devices to further operate the nuclear power plant.

The large hydrostatic generator main body 944 has a slave 944a and a slave 944a for the hydrostatic generator for the hydrostatic generator located at the top of the center of the shaft rotational shaft 944q, 944a for supplying a current to an electric motor coil of an alternator, a duster ring pipe 944c for pushing the ring pipe feathers into an exciter 944b for a dc generator, The stator core 944h of the stator frame 944g and the low-wavering cooler 944i of the low-speed cooler are connected to the drudguide ring 944e and the stator coil 944f, Guide rods 182 are positioned at the center upper end position of the rotary shaft 944q at the braking ring 944j and the jack 944k of the bracket and at the same time the connection structure with the rotary shaft 944q A casing 944c and a guide vane 944c are attached to a turbine 267 and a bearing 944c, And the runner 944 is used to convert the kinetic energy of the water into mechanical energy by using the flow rate of the current to the inside of the hydroelectric power generation chamber by the mechanical energy conversion of the introduction pipe 191, Of the tower crane that performs the vertical rotation operation to the large hydroelectric generator silencer body 944 having the multi-stage inlet type manoment turn shape of the iso-center shaft frame 673, (593, 594, 595) of a marine power plant having a power plant connecting structure for generating power by further providing apparatuses for generating electric energy, and a distributing and inputting apparatus is provided inside the main body (1) of the nuclear power plant It is structured to further operate the nuclear power plant.

(593, 594, 595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant. The distribution input device for various kinds of power generation devices is connected to the inside of the nuclear power plant main body (1) Internal double structure block tank When the reactor main body 794 is operated, the power generation capacity is set to produce 1,000,000 w / h of production power at an interval of 10 km. Inside the marine power plant, (957a) for environment-friendly wind power generators in a power plant (944), the power production amount is controlled by the transformers (96) of the large-capacity substation and the transmission tower (116) is connected to the power transmission line (695) (593, 594, 595) to a plurality of marine power plants, and the bottom of the main body (1) of the nuclear power plant (28) of the pipe bridge located at the bottom of the pipe bridge, a certain amount of generated power is supplied to the distributing and loading device connection structure, and at the same time, The buoyant dock of the marine power plant which provides power to the distribution tank and adjusts the supply of power and at the same time the chain block 648 and the turnbuckle 850 are provided on the lever block 123, 593,594,595) Nuclear power plant main body (1) Submarine line injection line to the internal connection structure Submarine line wiring (946) is connected to the injection nozzle of the nozzle connection pipe bridge which is located as a structure Coupling distribution input device Generation of generators for various marine power plants Connected to the equipment that provides for the operation of the flood-stranded operation of the electric power. Distribution of the generated power as the structure is connected to the connected structure of the floating plant (593,594,595) (1) of the nuclear power plant.

The distributing and inputting device for supplying the power quantity line for power generation equipment as a connection structure of the main body 1 of the nuclear power plant 1 of the marine power plant has a vertical partition wall 605 in the double structure block tank and a partition wall 603 in the horizontal partition wall 609, The hatch cover 153 is attached to the manhole 610 and the manhole cover 152 as a connection structure and the hydraulic cylinder door 624 is attached to the hatch cover 153 as a connection structure, A connecting structure in which the tank 598 is connected to the distributing and loading device and the lever block 123 is provided with a chain block 648 and turning blocks 850 to provide a horizontal connection, (593,594,595), the height of the pipe bridge is increased to 1.5 times the width of the pipe to provide the joints to each block tank. (1) To the inside of the pipe connection structure to the pipe bridge. Power generation plant (593,594,595) of a marine power plant that provides for the operation of the diesel generators to operate the power generator of the diesel generators. It is a connection structure of the nuclear power plant main body (1) It is desirable to construct a connection structure with inputs to supply the production power of the power generator generator.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting attachment of a marine power plant with a connection shaft provided for the connection of a disassembly-connectable connection shaft (593,594,595) Nuclear power plant main body The distribution side (705) of the main body manufacturing process consists of the above- (593,594,595) Discharging device for the production facility equipment for disaster prevention device and lifting device, connected to the main body of the nuclear power plant (593,594,595), for the marine power plant (593,594,595) The upper portion of the strut tank upper barge hull 591 at the upper end of the sea level surface upper end portion SLU located at the connection structure having the connection structure of the jet nozzle connecting line submarine line wiring 946, The deck center upper end portion SDU at the upper end is inserted into the machining hole 615 of the mold steel 839 to position the bolt 24 and the nut 25 on the shoe 26. [ The block unit block steel towers 116 are connected to the crane boom girders 942 of the crane boom girders 942 by the crane boom girders 942, The block unit block tower 11 is connected to the crane 23 and is connected to the crane boom frame 942 of the tower crane at the same time, The emergency stairs 631 are provided in the form of a stairway 116 as a traffic device and the emergency stairs 631 on the block pylon 116 are installed on the floor of the mooring platform 589, (589) to the center of the lower part of the lower part of the raft, and the ceiling junk lane (651) The emergency stairs 631 are installed as a connection structure for the traffic device to the rebate 632 and the block unit boom stands of 500m units at four deck decks of the upper portion of the strut tank upper barge hull 591 (943) of a crane equipped with a crane is provided with a disconnection device and a lifting device connection structure to connect the submarine line wiring (946) to the inside of the main body (1) of the floating power plant of the marine power plant (593,594,595) (116) Stairway Emergency Stairway (631) Equipped with a distribution unit as a means of transporting, with a block unit block to the equipment provided as a connection structure to protect floating operation (593,594,595) of the offshore power plant The main body (1) of the nuclear power plant is connected to the pipe bridge joint distribution input device and is constructed so as to provide upland operation protection.

(593, 594, 595) of the marine power plant, the distribution dispenser for the disaster control device provided on the block steel tower as a connection structure of the main body of the nuclear power plant (593, 594, 595) ships the disaster prevention water to the normal position (591) Deck deck The high-pressure multi-stage multi-stage disaster prevention pump (8) The high-pressure multi-stage disaster prevention pump (8) Hand main switch button 66 of the turn main switch button 66 to proceed with the pump operation and move the main switch button 66 to the off main switch button 66 The multistage multi-stage disaster prevention pump 8, which stops the operation of the pump when it is pushed by hand, is a connection structure provided with a connection structure for delivering disaster prevention water 7 to the double structure disaster prevention hose 9, 10) to disaster prevention water (7) (10) installed between the fire fighting pipe nozzle (10) and the fire fighting hose (9) for mounting the transportation equipment and the fire fighting pipe nozzle (10) connected to the water pipe connecting the wire rope of the fixed fire fighting pipe nozzle (10) And a basket 42 on which a pile at the lower end of the lower portion of the radio sonde 134 is mounted on the weather balloon 77 and the airship 78, The disaster prevention apparatus and the production facility apparatus are connected to the high-performance underwater pump 36 by a connection structure formed by connecting the wire rope 19 for protection fire prevention nozzle 10 to the bottom, and the disaster prevention hose 9 of gas transportation means lighter than air. And the air conditioner 80 are connected to the top of the floating deck deck by a connection structure to connect the submarine line wiring 946 to the inside of the main body 1, Pipe bridge coupling Dispenser input unit Floating unit to protect flood control equipment and production facility equipment Block unit block with steel tower (116) Stairway emergency stairway (631) with equipments as line distribution unit to support marine power plant as connecting structure (593,594,595) It is desirable to construct the main body of the nuclear power plant as a connection structure to protect the lifting-type disaster prevention device and the production facility devices.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593,594,595) of a marine power plant with connection shaft provided for connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of various types of nuclear power plant main body (1) (593,594,595) As a connection structure of the nuclear power plant main body (1) Disaster control pump control system and control system (150) The distribution input device for the electronic control device of the fire fighting disaster prevention machine room is a floating plant of the marine power plant (593,594,595 ) Submarine line injection nozzle connection to the main body (1) of the nuclear power plant Floating-deck deck which is connected with the submarine line wiring (946) (8), a multi-stage pump control panel with a connection structure, and a control box (2), which are connected to the inside of the pump operation machine room, A high-pressure shut-off valve (not shown) as a pump internal isolation valve is connected to a suction merging pipe (3) and an exhaust merging pipe (4) for an electronic control device, which are located inside the control box (2) (10) is connected to a fire hose (9) and a fire prevention fire prevention pipe nozzle (10) in a nipple (110) for air hose connection and a mouth type multi-stage fire prevention pump (8) The power source power source 46 is connected to the inside of the control box 2 and connected to the fixing frame 11 for fixing the disaster prevention pump 8 and the detection sensor 12 for the electronic control device for detecting fire. The overcurrent breaker for the overcurrent breaker 61 and the power supply 62 A wireless LAN controller 50 is connected to the monitor 52 and the control board 53 of the internal control server 51 of the Internet network 50 and the wireless LAN controller 50 via the inverter 47 and the inverter 48, And a rechargeable battery (37) having a connection structure with the communication antenna 54 and the wireless communication control module 55 of the short-range wireless communication apparatus are provided in the mobile terminal 81 and the portable terminal 82, And the electronic control unit 59 of the switch input circuit 58 and the digital control unit 59 of the switch input circuit 58 and the display screen 63 of the digital control unit 60 are connected to the display 56, The main switch button 66 and the auxiliary switch button 67 for the startup switch button located in the electronic circuit connection structure of the analog input 64 and the digital input 65 are connected to the display input (68) and the recognition of the pressure setting value which is the set pressure value of the current pressure value. The power supply 46 is connected to the power supply power line 71 by means of a power supply 46 to the electronic control unit of the firefighting and disarming operation machine room and is connected to the lifting dock of the marine power plant 593, ) Nuclear power plant (1) Connected to the inside of the building (1) Submarine railway wiring (946) Connected to a pipe bridge located at the structure Connection distributing input device Lifting and dismantling equipment and equipment (593,594,595) Installed the main body of the nuclear power plant (1) with the fire fighting operation machine room and floating type poisonous disaster prevention device. do.

(593,594,595) of the marine power plant is connected to the main body of the nuclear power plant, and the distribution input device for the fire fighting and disaster control device is connected to the inside of the nuclear power plant main body (1) of the marine power plant (593,594,595) The piping 89 with the electronic control unit of the operating machine room and the line dispensing device is connected to the safety valve 258 by the low pressure shut-off valve 83 for the electronic control unit and the safety valve 258 to the bolt 24 and the nut 25 to the gap 15 of the pipe connection flange 28 of the pipe 89 and the rubber packing 32 of the gasket for connecting the pipe to the pipe 26 The first pressure check sensor 86 is connected to the second pressure check sensor 87 and the electronic control unit 88 and the collecting tank 34 are connected to the first pressure check sensor 86, The piping line 89 is connected to the reefer yarn 35 and the elbow of the elbow with piping connection structure The disaster prevention water 7 of the fire fighting / disinfecting control product is stored in the inside of the piping 89 as the connection structure and the main switch button 66 for the start switch button of the multi-stage disaster prevention pump 8 and the disaster prevention water spray (67) and connected to the inside of the main body (1) with the submarine line wiring (946) as a connection structure. (593,594,595) of the marine power plant (1) of the nuclear power plant with the disaster prevention device and the production line with the electronic control device of the fire fighting and disinfection operation machine room and the line distribution input device with the connection structure provided to protect the equipment devices Equipment devices;

(593, 594, 595) of the marine power plant, the operation distribution dispenser of the fire fighting and disaster control equipment is a connecting structure of the nuclear power plant main body (1)

(8) Connecting structure with connection structure to the fore part of the fire protection disaster prevention machine room, connect piping connection bypass line of the collection tank (34) to the red pipe (35) The disaster prevention water 7 of the fire fighting and disaster prevention control article is stored in the pipeline 89 with the connecting structure having the connection structure to the beam 44 and the disaster prevention water of the fire prevention disaster prevention control article of the multi stage disaster prevention pump 8 (66) of the main switch button (66) for the start switch button of the high pressure multistage emergency protection pump (7) and the high pressure multistage multistage emergency protection pump (8) Stage multi-stage disaster prevention pump 8 that stops the operation of the pump by pushing the switch 66 of the main switch 66 and the main switch 66 of the main switch 66, Nozzle Hose Connection Structure The equipment stand (33) is equipped with a high-performance submersible pump (36) (13) of the helicopter (647) located at the body and a connection structure having a coupling structure with a hook structure (13) of the fire hose (9) The disaster prevention water 7 having the internal water pressure is supplied to the on-time main switch 66 of the start switch button 66 of the start switch of the high-pressure multi-stage emergency protection pump 8 after the operation of the multi- When the switch button 66 is depressed by hand, the pump operation is progressed, and at the same time, the connection structure provided on the body of the multi-stage disaster prevention pump 8 is connected to the suction merging pipe 3 for electronic control and the joining pipe 4 The disaster prevention water 7 having the water pressure is released from the solenoid valve 76 to the high pressure shut-off valve 5 as the isolation valve and the pump backward flow prevention check valve 6, To the inside of the main body 1, Pipe bridge located at a position equipped with line wiring 946 Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser (593,594,595) Nuclear power plant main body (1) consisting of disaster prevention equipment and production facility equipment of marine power plant as connection structure;

(593, 594, 595) of the marine power plant The operation of the fire-fighting and disaster control equipment of the nuclear power plant main body (1)

The disaster prevention water 7 having the water pressure is moved through the piping to the position of the fire fighting disposal pipe nozzle 10 so that a plurality of processing clearances 15 for the position adjusting and moving device located at the body position of the fire fighting disposal pipe nozzle 10 And the disaster prevention water 7 having the water pressure outside the position of the processing hole 20 are discharged while the ejection number 38 of the fire and disaster prevention control article is discharged to the disaster prevention film The number of the water discharge curtains 39 (39) at the positions of the plurality of processing holes (20) and the number of the radial discharging nozzles (38) at the positions of the gaps (15) ), And a cooling action method for reducing the combustion to a temperature of the ignition point and a sucking action for preventing the combustion by blocking the supply of air by surrounding the combustible with the incombustible gas are injected into the main body (1) The structural submarine line wiring 946, (593,594,595) Nuclear power plant main body (593,594,595) equipped with electronic control unit of fire fighting and dismantling machine room equipped with equipment to protect flood disinfection device and production facility equipment 1) comprises a disaster prevention device and a production facility device;

(593, 594, 595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant,

In order to evolve in less than one second, the number of ejection nozzles (38) of the fire-fighting emergency control article immediately before the arrival of fire departments (40) The disaster prevention water 7 as a connection structure is arranged at a position of a plurality of the processing holes 20 and at a position of the gap between the straight circular discharge sprays 38 and the plurality of processing holes 20, 38) The water curtain (39) is sprayed in the form of falling spray, which surrounds the flue gas with incombustible gas to block the supply of air to prevent combustion and to cool down the combustible to the ignition point temperature. Fire-fighting hose Non-flammable gas (164) with internal pressure located inside the body as a connection structure. Disaster prevention water located in connection with storage air hose (109) and fire hose body is mixed with cooling water (287) The same number of toothpaste The portable wireless communication terminal 82 of the high pressure multi-stage disaster prevention pump control system 150 inside the safety control room and the main switch bar for controlling the operation of the disaster prevention pump Turning 66 and the disaster prevention water spraying arrangement, the power supply control box is distributed to the safety control room and the disaster prevention pump operating machine room on the upper side of the emergency switch auxiliary switch button 67, The coupling member 29 is provided with a coupling structure for coupling the male and female coupling bodies 31 to the coupling body 40 and the helicopter 407 and the helicopter 647 with a double structure fire hose, (593,594,595) of marine power plant by providing connection structure with fire control electronic control device to the top of floating deck top deck with equipped water A nozzle bridge 945 and a pipe bridge coupling distribution input device located in a connection structure with the submarine line wiring 946 as a connection structure to provide a connection for protecting the production equipment devices by the floating fire suppression electronic control device Block unit block to structural equipment Block tower (116) Emergency stairway (631) by stairs Stacking device of traffic device with connecting device to construct marine power plant lifting dock (593,594,595) Nuclear power plant main body (1) with disaster prevention device It is preferable to configure them as facility devices.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593, 594, 595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant,

(593,594,595) connected to the interior of the main body (1) of the marine power plant. The lifting deck deck located at the upper sea level (SLU) of the sea level surface (SLL) The block tower (116), which is located at the top center of the bridge, is connected to the left side of the top center of the deck deck. The safety control room and the nuclear power station, which are located in the connecting structure, It is equipped with satellite and space rocket for the nuclear waste disposal device at the position of the satellite launching platform and the space rocket launching platform, and at the same time, the damage of the volcanic ash generation before and after the spontaneous typhoon, earthquake, tsunami, In order to prevent the flood drought control, the equipment management room of the weather forecasting observation station (958) for the weather forecasting observation is provided, A satellite launch pad 643 and a space rocket 961, which are located at the left side of the safety control room, and which are located at the left side of the safety control room, A space launching table 643 and a space rocket launching platform 646 are provided as connection structures provided on the top of the deck plate around the satellite launching platform 643 and the space rocket 961 launching platform 646 And at the same time to the inside of the main body (1) to the position having the submarine line wiring (946) as the connecting structure, the floating yellow deck located at the top position of the floating deck deck (921) Fire prevention control with connecting structure provided at the top of the deck deck to prevent large breeding Floating loess natural loess (158) of powder equivalent to toothpaste level mixed with cooling water And the natural loess soil 158 is introduced into the basin basket 951 inside the basin basket 951 for the harmful redeye sucking and dust collector by the submerged bottom of the harmful tidal microorganism 921 generated at the seabed, , And the natural loess soil (158) is introduced into the bottom of the floating deck deck body bottom at the bottom of the floating deck deck plate deck, and the air tidal winch (137) The wire rope 19 and the wire rope chain 915 are connected to the driving wheel rollers 135 for the position adjusting moving device on the small-sized crane boom stand 942 of the replacement tower crane, ) At the same time, the air hose (109) equipped with the air conditioner (80) and the connection structure is supplied with oxygen and air by the net air hose (109) to protect the marine environment Firefighting control equipment (593,594,595) of the marine power plant by arranging the marine environment protection facility device to be connected to the inside of the nuclear power plant main body (1) with the submarine line wiring (964) (593,594,595) of the offshore power plant (1) as a connection and disbursement connection structure to protect surrounding marine environmental facilities;

(593,594,595) of the marine power plant The crude oil and natural gas crude oil drilling equipment crude oil drilling ship 934 distribution input device of the nuclear power plant main body (1)

(593,594,595) of the offshore power plant (593,594,595) Lifting docking hull with submarine track wiring (946) connected to the inside of the nuclear power plant main body (1) Connected to the upper central part of deck upper part (SDU) Crude oil drilling rig Is a drilling machine located at the lower end of a ceiling crane (651) located at the upper end of the lower end of the block pylon (116) A plurality of tool keys 623 are connected to the center of the lathe by a plurality of hydraulic cylinders 623 for drilling, which are positioned at the center of the circular table lathe with the rotary body of the lathe machine 908, The connection structure that is pushed to the central position of the shelf to adjust the movement of the position, A plurality of pipe racks (854) provided at the point of the crude oil borehole (936) positioned as a connection structure on the bottom of the Fraq (854) continue to be connected to the seabed. The connection structure A crude oil drilling hole 936 for excavating a crude oil drilling hole 936 and a crude oil drilling hole 936 for excavating a crude oil drilling hole 936 to be connected to a wire rope 19 of a tunnel crane 651 (854) is a rotary table lathe with a hydraulic rotary cylinder (619) for rotary drum drilling machine (908) body drilling machine drilling machine drilling machine The hydraulic borehole dispenser is equipped with a transfer arrangement to the top of the rotary table lathe machine 908 of the drilling machine with several hydraulic cylinder keys 623 located in the connection structure And the crude oil and natural gas discharged from the position of the crude oil borehole 936 are connected to both sides of the city crane boom stand 942 of the tower crane for the replacement of the crucible (942) of the tower crane for the replacement of the above-mentioned crane tower, and a vertical rotation operation of the crane boom (942) of the nuclear power plant main body (593,594,595) ) To the interior of the nuclear power plant (593,594,595) of the marine power plant as the connection structure of crude oil and natural gas crude oil borehole distribution and input device located at the connection structure with the submarine line wiring (946) ;

(593,594,595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant, the deep-sea energy resource and the distribution input device for collecting minerals,

(593,594,595) of a marine power plant is located in a location with a submarine line wiring (946) connected to the inside of the main body (1) of the nuclear power plant. In the deep seabed mineral resource collection site, a garden basket (909) 842), a pipeline line automatic pneumatic conveying device 916 for a position-and-control mobile device, a mining robot 912 of a suction-taking machine for submarine mineral resource collection to a suction-sampling machine 911 as a connection structure, (924) has a connecting structure that is located at both sides of the sea-son crane boom stand (942) of the tower crane for the lower sea level (SLD), and the tower crane Boom Stand (942) Vertical rotation operation lifts all deep-sea energy resources to the top of deck deck so that the salvaged resources can be lifted by the marine power plant (593,594,595) Transport equipment to supply material to the industrial site on the land as a connecting structure 500m unit Double structural block Connected to the tank position Lifting type of marine power plant with connecting structure located as a structure (593,594,595) Nuclear power plant main body (1) Inside The connecting structure is a transport equipment connection structure with a submarine track wiring (946). The inside of the top of each floating cargo deck deck and the one of the cargo deck deck bottom, (593,594,595) Nuclear power plant main body (1) is composed of equipment of offshore power plant as a connection structure of deep energy minerals collecting energy input distribution device with connection structure located on the deck side. desirable.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for the hull safety equipment, as a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) of nuclear power plant (593,594,595) Nuclear power plant main body (1) As a connecting structure, marine power generation facility Connected to the upper tank barge hull (591) and the holding tank lower barge hull (593) The hull safety equipment for distribution and input into the connection structure to the position provided with the submarine line wiring 946 has a structure in which the high strength bolt 603 and the high strength nut 604 are fastened to the large flange 614 through the processing hole 615, A large flange 615 located at the stern of the outer block tank 599 at the forefront portion of the outer block tank 599 as a connection structure provided with a plurality of column block tank tanks 590 to provide a tank connection A rubber packing (32) of a gasket for connection to a structure is connected to a large-sized flange (614) by connecting a high-strength bolt (603) and a high-strength nut (604) And a hydraulic structure of the hydraulic cylinder unit 619 for the position adjusting device of the dispensing and inputting device and the hydraulic cylinder machine 624 for the transportation device is connected to the auxiliary processing hole 615, The tank double pipe block tank 598 is constructed by disposing the tank pipe bridge 928 and the double structure block tank piping 937 quantity disassembly coupling disassembly into the distribution dispenser double structure block tank 598 connection structure, Connected to the connection structure The tee elbow (44) is welded to the large-diameter flange (614) at the same time while the welder is welded with the welder. The hydraulic rotary cylinder machine (619) (593,594,595) of a marine power plant provided with a hydraulic hammer lance connection structure in a hydraulic cylinder machine (624) for a traffic facility facility and a lifting dock of the center of a hull deck (SDM) hull (SDU) Upper deck (SDU) and lifting deckle lower deck (SDL) Upper deck upper deck (SDU) Upper strut tank Upper barge hull (591) and strut tank Lower barge hull (592) ) Maritime power generation facilities with connection structure Replacement towers for each tower Cranes for crane boats (942) Connected structures Mooring system and power generation equipment Connection structure for marine power plants (593,594,595) Nuclear power plant main body 1);

(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for the hull safety equipment, as a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) Nuclear power plant main body (1) Connected to the inner structure of the marine power plant Upper tier of the upper deck (SDU) of the floating deck center of the hull deck (SDM) Upper tie barge hull (591) The double structure block tank 598, which is located at a position where the submarine line wiring 946 is connected to the holding tank lower barge hull 592 of the lower deck portion SDL as a connecting structure, is connected to the outer position of the outer block tank 599 It is provided as a connection structure of power generation facility which distributes marine power generation power to the location of submarine mineral resource exploration equipment (843) for exploration of a number of deepwater exploration submarines. It is equipped with protection of device connection structure and at the same time it is provided to be able to repair the main body by connecting structure of damper control barge lines for harmful side control and disaster prevention device, The outer block tank 599 of the plurality of column block tanks 590 located outside the tank is provided with a lamp unit at a predetermined distance from the outer wall of the outer block tank 590 and is provided with a large flange 614 connecting joint portion joint hole 615, The pin shaft connecting structure is coupled to the hole 616 by the hydraulic cylinder key 623 and the hexagonal thread 603a of the bolt 603a of the block tank hull disassembling and dismounting portable lug shaft bolt 603 and the rasp- (604) and stillbirth (604b) are coupled to each other by a Hammer-Lancet hydraulic rotary cylinder machine (619). When the pin is coupled to the pin processing hole (615) (593,594,595) of a marine power plant by providing a sunken anti-sinking type poison (593,594,595) which is resistant to any wind and wave influences by preventing the nut departing from the shaft thread mountain (603a) (SDU) of the hull deck center (SDM) and the upper deck (SDL) of the lifting deckle hull deck (SDL) Upper deck (SDU) of the deck hull deck The deck upper deck (SDU) holding tank upper barge hull 591 and the holding tank lower barge hull 592) Marine power generation facility with submarine track wiring (946) Individual crane boom to connection structure Connected with mooring device Connected to power generation facility Device Lifting of marine power plant (593,594,595) Nuclear power plant main body (1) ;

(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for the hull safety equipment, as a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) Nuclear power plant main body (1) Connected to the inner structure of the marine power plant (SDU) Upper deck (SDU) of the hull deck center (SDM) Upper deck (SDU) of the deck of the deck Upper deck top (SDU) A connecting structure located at the top of the holding tank top barge hull (591) and the holding tank bottom barge hull (592) with a subsea line wire (946) connected to the structure. Top and bottom barge hull angles The block tank-combined portable lug 607 includes a block tank combined portable lug 607 provided as a horizontal and vertical type coupling structure at each portion of the strut tank upper barge hull 591 and the strut tank lower barge hull 592 Holes 615 are provided in a horizontal pin shaft processing hole 615 and a pin shaft processing hole 615 having a plurality of processing holes 615 and an elongated hole 616 in the body, Tank( 905) and a plurality of shafts 606 engaged in a plurality of processing holes 615 provided as connection structures at respective portions in the vertical form of the upper barge hull 591 and the lower barge hull 592, The shafts 606 bound to the machining holes 615 are removed and the shafts 606 provided with the single open shaft 606 are provided on the upper surface of the pipe bridge tunnel device with the fixed lifting dock barge hull 592, The diving position adjusting movement device of the hull and the lead weight (949) for controlling the diving buoyancy are mounted on one side of the balanced horizontal blockbag tank, and the diving is performed under the water. At the same time, By the shaft 606 provided with a single shaft 606 fastening of the block tank-engaging portable lug 607 structured in a horizontal state, the horizontal stowage block tank is constructed as a vertical type fastening structure, (593,594,595) Lug hinge sockets located in the form of concavo-convex structure at the position of the joint of the deck deck bottom end of the above-mentioned holding tank top barge hull (592) of the nuclear power plant main body (1) (615) of the tubular bridge tunnel device (613), the connection part lug hinge socket (613) of the fixed lifting type poison holding tank at the upper end of the pipe bridge tunnel device and the support block tanks (590) The lug hinge sockets 613 are provided on the upper surface of each deck plate to provide a concavo-convex connection structure, and the holding block tanks of the fixed lifting tanks (593, 594, 595) (593, 594, 595) as a connection structure, and at the same time, the upper end of the sea surface (SLU) of the sea surface (SLL) and the pipe bridge of the main body of the sea bottom A plurality of block tank combined portable lugs 607 are distributed to the fixed tank lifting tanks 593, 594, 595 coupled to the device body 929 and the floating lifting tanks 593, 594, 595 to the strut tank upper barge hull and the holding tank lower barge hull, And Block Tank Portable Lug Pin Shaft (606) Several column block tanks (590) tied to the body's machining hole (615) and pin shaft (606) The equipment is protected by the connection structure of the hull safety equipment, while the harmful tidal control and the barge lines for mounting the disaster prevention device are arranged as the connection structure of the main body modification, the barge lines for mounting the disaster prevention device, (593,594,595) Nuclear power plant Main unit (1) Connected to the inside of the structure Upper part of the sea surface (SLU) with submarine line wiring (946) Floating dock The marine power plant located at the top of the hull deck (SDU). The offshore power plant located at the top of the hull deck (SDU). Replacement towers for different towers. Cranes at the crane boom area (942). Connected structures are mooring units and power generation units. Is preferable.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for safe operation of the hull, as a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) Nuclear power plant (1) Connected to the inside of a nuclear power plant (1) To the outside of the body at the bottom of the sea level (SLL) Connections to the marine biogeochemistry and barnacle The electrode plate anode 938 is installed at an outer position of the body of the pipe bridge tunnel apparatus main body 929 and the double structure block tank pipe bridge 928 at the lower end of the sea level SLL (907), which monitors the military equipment submarine, while providing docking detection, while simultaneously connecting the submarine cable (593,594,595) to the inside of the nuclear power plant main body (1) of the marine power plant 946). Upper part of the sea surface (SLU) located at the connection structure of the main body. Upper deck (SDU) of the floating deck hull. Marine power generation facility. The satellite crane boom (942) is connected to the mooring unit and the power generation facility. The hull safety unit is connected to the hull safety system and the satellite weather forecast information collecting machine (960) It is desirable to construct the main structure (1) of a floating power plant (593,594,595) of a marine power plant as a connection structure.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for safe operation of the hull, as a connection structure of the main body 1 of the nuclear power plant,

(593,594,595) Nuclear power plant main unit (1) Connected to the inside of the control tower of the mooring tower (644) Connected to the top of the roof top block of the tower (116) Meteorological observation equipment located as a structure (840) The lightning rod 500 is provided as a hull distributing and feeding device for hull safety operation while the hull safety preservation is provided from the lightning strike and the lightening at the top of the block pylon 116 and the submarine line wiring 946 is connected to the inside of the main body 1 as a connection structure (SLU) Floating upper deck (SDU) Offshore power plant Sea towers for replacement towers Crane boom stands (942) Connecting structures Mooring and power generating facilities Distribution and input devices for hull safety operation Connections It is desirable to construct the main body (1) of the floating power plant (593,594,595) of the marine power plant as a structure as a distribution input device for hull safety operation.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593, 594, 595) of the marine power plant as a connection structure of the nuclear power plant main body (1), the distribution input device for operating the power-

(593,594,595) Nuclear power plant (1) Connected to the inside of a marine power plant (593,594,595) As a structure, it supplies the power produced by a marine power plant of floating type poison to the manufacturing factory of the main body, The plant is equipped with a transmission line and a connection structure to supply a certain amount of power generation power from a power transmission tower to produce a pipe of a small diameter and a pipe of a large diameter, and a raw material high strength stainless steel plate 597 ) And the supply of electric power to the steel beam (149) and the steel mill (839) manufacturing plant, the pipe bridge apparatus is provided with a standard production and the double structure of the pipe bridge apparatus main body (929) The block tank pipe pier (928) has a diameter of 5M and a diameter of 1m at depth of 5m. (637) A block tank is connected to the upper part of the deck deck. (621) A connecting structure to provide a connection of a large flange (28) provided as a connecting structure. (593,594,595) of the power plant; (1) the main body of the nuclear power plant;

(593,594,595) of the marine power plant (593,594,595) Double-structure tank as bridge structure inside nuclear power plant (1) Traffic equipment equipments like bridge saddle mold (617) Block tank of distribution dispenser (621) Sinking line (634) Sinking line (634) Double-structure tank bridge bridge saddle frame (617) Adjustable position to the upper deck deck (SLU) with submarine line wiring (946) connected to the disaster prevention nozzle (945) by underground line Upper deck (SLU) Floating deck hull Deck upper part (SDU) Marine power generation facility Alternate towers Replacement towers (942) Connecting structure to mooring unit and power generation equipment unit Double structure block tank pipe bridge (928) as a structure Manufacture installation is a connecting structure to be supplied with power produced by marine power plant of floating dock Floating dock expression of both stations (593 594 595) be configured to achieve a nuclear power plant body (1) and;

(593, 594, 595) of the marine power plant as a connection structure of the nuclear power plant main body (1), the distribution input device for operating the power-

(593,594,595) of the marine power station (1) to the inside of the nuclear power plant (1) to the above-mentioned bridge saddle formwork connection position. Various types of jig (22) It is also possible to connect the pointed crevice tool grinders 185 to the shredding link so as to provide several grinding wheels 185 in the several grinding holes 22 and at the same time, And a piercing level foundation bottom base 851 are disassembled into several crankshaft crankshafts 846 provided on the side surfaces and the bottom surface of the saddle mold body, (593, 594, 595) nuclear power plant main body (1);

(593,594,595) of the marine power plant The upper part of the sea surface (SLU) with the submarine line wiring (964) connected to the inside of the main body of the nuclear power plant (1) Upper part of the deck (SDU) (942) connection structure for mooring and power generation facility construction Double structure block tank pipe bridge construction (163) as a structure Construction of a pylon bridge pier It is desirable to construct the connection of the production power line of the main body of the nuclear power plant (593,594,595) of the marine power plant.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) of a marine power plant. An interlocking structure inside the nuclear power plant (1) is provided with anchorage crankshaft (846) for anchor replacement, Lifting deck deck Deck hull safety distribution to the upper position Hull safety equipment and construction machinery equipment for the crane Replacement towers Crane boom stand (942) Boom stand to distribute both sides to the boom frame (842) for reclaiming submarine mineral resources with a connection structure to the hook (18) and a connection structure for providing seabed mineral resources to Paret (844). (909) to the upper deck (SDU) of the floating deck hull and is supplied with the power generated by the marine power plant of the floating dock, (593,594,595) submarine mineral resources manganese block (909) of nuclear power plant main body (1) consists of lifting device construction machines to the upper part of floating deck hull deck (SDU);

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

Construction equipment equipments Cranes for crane replacement tower crane boom (942) Both sides of the connection structure are used for reclaiming seabed mineral resources (842) and Paret (844) at the bottom of sea level (SLL) ) Movement from the internal position of the submarine mineral resource collection area inside the lifting deck SSL to the SDU position of the lifting deck hull deck upper part of the sea level (SLU) (903) of the submarine mineral resource mangement (909) to the upper part of the deck (SDU) of the lifting deck, while at the same time controlling the displacement of the oceanic power plant (593,594,595) (1) Inside the submarine mineral resource collection site, a connection structure for distributing the minerals collection machine (911) and the mineral extraction robot (912) (593,594,595) Nuclear power plant (593,594,595) As a connection structure that receives power generated from a marine power plant of a floating type ship, Power plant main body (1) It is a connection structure of the suction collecting machine (911) and the mining robot (912) to construct a submarine mineral resource collection system for operation of a submarine mineral collection and construction machine;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) of the marine power plant. (593,594,595) Submarine mineral resource gathering site to the inside of the nuclear power plant main body (1) Connected to the upper end of the sea surface (SLU) with submarine line wiring (946) A marine power plant located as a structure The connection structure of the main body which receives power by each mooring device and the power generation equipment The supporting dock (593,594,595) is distributed to the sea floor by the diving control device, (593,594,595) of the construction equipment and the marine power plant (593,594,595) The connection structure of the connection structure of the main body of the nuclear power plant is provided to collect the seabed mineral resources, and at the same time, It is also possible to provide the position control of the deck top (SDU) as a connection structure, (593,594,595) of nuclear power plants (1) of the offshore power plant;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Connected structure to a submerged location including a submarine mineral resource harvesting equipment to a suction collecting machine and a mining extraction robot The manganese monolith (909 ) To the upper part of the floating deck of the deck (SDU) Positioning to the structure Connection structure to control the movement Construction machinery Equipment Construction machinery Equipments of each tower A connecting structure for connecting the manganese block 909 to the piping line automatic pneumatic conveying unit 916 of the connecting structure of the connecting magnet magnet 645 and the suction collecting machine provided in the tower crane 886 equipped with the elevator A connection structure provided at the position of the upper position of the lifting deck upper deck (SDU) of the lifting tank upper barge line 591 of the rebate 632 and the landing tank bottom basket 591 (842) and the connecting structure (844) can be moved to the connecting structure to the upper deck (SDU) position of the lifting deck hull, while at the same time, (942) and at the same time a connector structure (633) as a connection structure to the upper part of the deck of the floating deck hull deck at the internal location of the seabed mineral resources of the submarine mineral resource located inside the floating deck (SDL) (SDU) to locate the submarine mineral resources and locate the submarine mineral collecting process at the same time. Connect to the submarine mineral resource exploration equipment. Search structure (232) and submarine survey lens Underwater light for glass 843) is provided with a submarine line wiring 946 as a connection structure, and at the same time, an illuminating device is installed in the main body 1 as a connection structure, And the connection structure of the minerals collecting robot includes a submarine mineral resource collecting device as a connection structure, all of the collecting equipment including the collecting equipment according to the hydrothermal pressure of the deep sea floor and the flow rate of the deep sea floor, A wire rope chain (915) is connected to each lever block (123) to prevent the loss of all of the collecting equipment in the submarine excavation equipment. The positional movement control is performed at the inside position of the resource collecting field, and at the same time, the wound wire rope provided on the body of the lever block 123 is wound around the collecting equipment bound to the wire rope connecting structure of the lever block 123, Unmanned camera (184) that belongs to the submarine exploration equipment at the same time, Connected to the submarine mineral resource exploration equipment to the submarine mineral resource exploration equipment and the underwater illumination light (843) for the submarine survey lens glass to the connecting structure to search the submarine mineral collecting process state by water. (184) to the unmanned camera (184) by connecting the container box latching device (129) of the container box (132) corresponding to the submarine mineral carrier to the unmanned camera Submarine Mineral Collection Process Transmission of the submarine line (946) connected to the ship's safety facility control room location, located at the upper part of the sea surface (SLU) lifting deck seabed deck (SDU) ) Submarine mineral resource collection equipment as a connection structure Inhale collecting machine and minerals extraction robot Submarine line wiring (94 6 of the upper part of the sea surface Upper part of the upper part of the deck of the deck of the deck of hull deck SDU Hull safety control room Internet network 50 located in the control room Internal monitor server 52 of the internal control server 51 and inside of the control board 53 While receiving the undersea mining process state scene transmitted by the unmanned camera 184, at the same time, the marine power generation facilities are connected to each other as mooring devices and connection structures, and the mineral resource collection equipment is distributed. (593,594,595) Nuclear Power Plant (1) of a marine power plant as a connection structure which is equipped with a seawater and at the same time, the mineral resource collecting equipment can withstand the water pressure of the deep sea and the flow rate of the deep sea bed.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main unit (1) Wing crank (846) Replacement wing crank (846) The floating type poison (593,594,595) provided as a connecting structure is distributed to the seabed as a connection structure, Shipboard safety deck to the upper deck of the ship deck deck. Hull safety system for the operation and connection structure to the construction machinery equipment. Separate both sides of the boat crane boom stand (942) of each tow crane replacement tower crane (844) connecting structure to the boom hook hook (18) as a boom-to-boom connection structure. It is equipped with a connecting platform (844) Submarine mineral resource harvesting is carried out by the connecting structure of the regulating device and the displacement of the submarine mineral resources is provided to the upper part of the deck (SDU) U) connected to the main power plant (1) of the marine power plant (593,594,595) of the offshore power plant,

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

Construction Machinery Equipments Replacement towers for individual towers Cisterns for crane boom (942) Connection structures Both sides of the connection structure are used for reclaiming seabed mineral resources (842) and connecting structures (844) (SLD) at the bottom of the sea surface (SLD) at the bottom of the deck bottom (SDL) of the SLL. (909) of the submarine mineral resource manganese (909) is connected to the upper part of the deck (SDU) of the lifting deck, and at the same time the submarine mineral In the internal location of the resource collection site, the collection and submersible intake system of the mineral resource collection equipment and the mineral extraction robot are provided, (593,594,595) of the marine power plant, which is supplied with the power produced by the offshore power plant located at the upper part of the floating deck (SDU) with the position shift control to the upper part of the hull deck (SDU) Constituting the main body (1) of the nuclear power plant to be operated;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

Submarine mineral resource collection site Connected to internal structure Upper part of sea surface (SLU) with submarine line wiring (946) Floating docking hull Deck upper part (SDU) Location Marine power generation facility Alternate towers Replacement towers Crane cranes Boom Stand (942) Connection structure Mooring device and connection structure Floating type docking structure that is supplied with electricity by power generation facility Seated on the seabed and distributed Inputs to the floating deck deck Top position Floating dock Connecting structure Hull safety (SDU) as a connecting structure to the submarine mineral resource harvesting equipment with connection structure to the small crane boom stand (942) of the tower crane for the replacement of each quay crane. It is a connected structure that is supplied with power generated by a marine power plant of a floating type poison while having a position shift control. 95) constituting a nuclear power plant main body (1);

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Connected to the structure as a suction system Collecting minerals as a connection structure Minerals Collecting submarine mineral resources Collecting equipment As a connection structure Manganese monolith 909) as a connecting structure Lifting the poison hull to the top of the deck (SDU) Moving to the control unit connection structure Construction machinery Equipments Replacement towers for each tower Cranes for the crane Boom stand (942) As the connection structure, the magnet magnet 645 and the connection structure are connected to the pipe line conveying device 916 of the suction collecting machine, and the manganese block 909 is transported to the connecting structure elevator allybate 632 An ingot basket 842 for reclaiming subsurface mineral resources provided at the upper position of the upper portion of the floating tank upper barge line 591, (844) to move to the upper part of deck (SDU) of floating lifting deck. Construction machinery equipment Maritime power generation facility Connect to each other's crane boom stand (942) And at the same time the conveyor 633 is provided at the upper position of the upper part of the lifting deck (SDU) at the inner position of the seabed mineral resource collection site located in the lower part SDL of the lifting deck, In order to investigate the process condition, an illuminating device is located at a position having an undersea line resource search device search light 232 and a deep sea exploration underwater light light 843 connected to a submarine line wiring 946, Dock (593,594,595) Nuclear power plant main body (1) The collection site that includes all of the submarine mineral resource collecting equipment in the intake sampling machine and the mining robot in the inside Is used for collecting equipment according to the water pressure of the deep seabed and the flow rate of the deep seabed so as to prevent loss of all of the collection equipment in the submarine mineral resource collection site, (648) to an elevation rebound alley (632) for underwater diving elevation and to the location of an underwater excavation equipment, Each piece of equipment is moved to the lever block (123), and the wound wire rope on the body is rolled and loosened to adjust the position of the picking equipment, and the power supplied from the marine power plant of the floating type poison (593,594,595) (593,594,595) nuclear power plant main body (1) of a marine power plant as a connecting structure;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

The unmanned camera 184 belonging to the submarine surveying equipment as a connection structure inside the main body 1 of the nuclear power plant (1) of the marine power plant (593,594,595) is provided with an undersea mineral resource search equipment search light 232 An undersea camera (184) located at a position where the underwater illumination lamp (843) is connected to a position where the illumination is emitted through the connection structure, is provided for transmitting the state of the submarine mineral collection process to the safety facility control room, The submarine line wiring line 946 is connected to the hull safety facility control room position where the container box latching device 129 is connected to the upper end of the sea surface (SLU) lifting deck upper part (SDU) (593,594,595) of the marine power plant connected to the inside of the main body (1) of the nuclear power plant Suction collecting machine and connection structure Mineral picking robot (SLU) with submarine track wiring (946) connected to the submarine mineral resource harvesting equipment. SDU Upper deck (SDU) Hull safety facility The connection structure located inside the control room, (50) Receiving a submarine mineral collection process state scene transmitted from the unmanned camera (184) into the monitor (52) of the internal control server (51) and the control board (53) (942) as a connecting structure for mooring equipment and mineral resource collection equipment. It is equipped with a construction machine connection structure and a connection structure for the seabed at the same time. (593,594,595) Nuclear power plant of floating power plant of marine power plant This should be accomplished configure body (1) is preferred.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Distribution of minerals collection equipment to internal connection structure Transfer of operation equipment distribution to construction machine connection structure to location with submarine track wiring (946) Diversity control equipment connected to the water collecting equipments to be able to withstand the water pressure of the deepwater basin and the deep sea bed Connective structure Bellows butterfly valve (305) and diving control connection structure Dr. Benchure And the ventilation duct 585a of the connection structure 585 and the doctor ventilation outlet 585b are provided with the piping type 581 and the base piping type 582 and the air conditioner of the prime mover 585, Pressure air generated in the micro-switch (80) while at the same time providing the mono-pos. Auto-pneumatic instrumentation provided in the micro-switch (580) Pressure air is injected into the air cylinder (138) equipped as a connection structure to the air damper (583) automatically without setting the time indicator (541) The spindle 584 connection structure allows the vent damper 583 to be fully closed and deployed within the doctor ventilation 585 to control and shut off the pressurized air, (593, 594, 595) of a marine power plant as a connection structure providing a connection structure such as a ballast butterfly valve (305) of a diving control device of a pipeline to a connection structure such as a pneumatic conveying device (916) A diving control device of the main body (1) of the nuclear power plant is constituted to constitute the main body (1) of the nuclear power plant;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) of the marine power plant Solenoid valve of the individual solenoid valve (76) provided with the pressure air generated by the air compressor (80) of the prime mover as a connection structure of the nuclear power plant main body (1) When the switch 108 is manually depressed to the on-time main switch button 66 of the main switch button 66 for the solenoid valve start switch button, the fly valve 305 is opened and the main switch button 66 is depressed, The main switch button 66 for the start switch button, which is fully closed and stops operating when the manual valve switch 66 of the fly valve 305 is manually depressed, When the turn valve 66 is manually depressed, the connection structure of the fly valve 305 is opened to allow the pressure air generated in the air compressor 80 to pass through the pipeline connection structure, And Several hatch carver 153 is configured to be connected to the structure to provide a connection structure with a body made of floating dock formula (593 594 595), a nuclear power plant body (1) of the marine power plant, and;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593, 594, 595) of the marine power plant While the operation of rotating the hydraulic control rotary cylinder (35) for electronic control is performed as a connection structure of the nuclear power plant main body (1), a plurality of fire doors (154) (153) The connection structure is opened and the mineral resources provided in the submarine mineral collection site are connected to the inside of the body of the lower tank barge hull (592) of the holding tank. Vacuum pump (635) When the vacuum pump 635 is rotated by hand while pushing the on-time main switch button 66 of the main switch button 66 for the start switch button to the connecting structure of the barge hull 592 ) Mineral resources provided in the submarine mineral collection site located outside the body are the connecting structure that provides the position movement to the inside of the body of the barge hull (591) A power plant main body 1;

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) of marine power plant (593,594,595) Connection structure of nuclear power plant main body (1) Diving position control of hull Sub-submarine mineral resource connection structure as connecting structure selected as diving buoyancy control lead- It is a submarine mineral resource for diving buoyancy control. It is equipped with the main body of the lifting docking hull as a connecting structure at the seabed and at the same time, the upper part of the sea surface (SLU) SDU) Connected to the upper position Offshore power plant located as a structure Alternate towers Replacement tower Cranes Cranes Boom stand (942) The connection structure is a power plant equipped with a mooring system and connection structure. (593,594,595) of the marine power plant (1);

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) of the marine power plant (593,594,595) The connection structure of the main body (1) of the marine power plant. Mineral resources are connected to the hull structure of the holding tank bottom barge hull (592) (949) for buoyancy control (949) Replacement of submarine mineral resources by connecting structures to control the diving position of the ship and submarine mineral resources for diving buoyancy control. Holding tank Lower barge hull (592) External bulkhead A plurality of fire doors and a plurality of hatch covers 153 are connected to the pipeline line automatic pneumatic conveying device 916 as a connecting structure, The butterfly valve 305 and the solenoid valve overpressure prevention switch 1 of the solenoid valve 76 as a connection structure 08) Solenoid valve Start switch Main switch for switch button (66) Connected to the power line (71) Connected structure Connected to the floating structure of the marine power plant (593,594,595) Nuclear power plant Main body (1) Inside (942) Connection structure Mineral resource collecting equipment distributing equipment The distribution system of the moving equipment is provided as a connection structure of the construction machine, and it is equipped with the connection structure provided with the seabed at the sea floor, while the upper part of the sea surface (SLU ) Floating docking deck Upper deck (SDU) Connected to the upper position Offshore generating facility located as a structure Alternate towers Replacement towers Crane boats (942) Connected structures Power generation facilities with connection structure (593,594,595) Nuclear power plant main body (1) of the marine power plant. It is preferred.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Connected to the structure Underwater minerals collecting equipment as a whole is installed in a block block tank (590). Upper barge hull (591) Block piping is connected to a large number of manganese nodules (909) at a depth of 5,000 meters in the sea floor, including the Pacific Ocean, in a number of hundred million tons, and is connected to a plurality of landing baskets (183) (849) to replace the towel crane with a tower crane. Small cranes Boom stand (942) Distributing both sides of the connecting structure to separate the tower crane from the city crane boom stand (942) Connections to Hook Hooks (18) Hooked baskets (842) and connection structures (844) for recycling submarine mineral resources The connecting structures are connected to the tower cranes The ingress basket 842 and the connecting structure 844 for reclaiming both sides of the in-boom zone 942 are connected to the seabed bottom SLL of the sea level SLL, (SDU) at the upper part of the sea surface (SLU) to the upper part of the floating deck (SDU) at the inner site of the mineral resource collection site, while transporting the submarine mineralized manganese block (909) (593,594,595) of the marine power plant at the same time while arranging the movement of the minerals collection equipment and the minerals collecting robot in the submarine mineral resource collection site inside the main body (1) of the nuclear power plant. (SLU) float located at a location with a connection to the submarine track (946) Maritime power plant located at the top of the deck (SDU) (942) Connection structure of mooring system The supporting cranes of tower cranes (942) Mooring structure connected to the power plant The supportive power (593,594,595) ) Nuclear power plant main body (1) Sea bottom crane boom (942) on the lower side of the sea surface installed on the bottom of the nuclear power plant Both sides of the crane boom band (942) are connected to the submarine mineral resources and seabed mineral collecting equipment. (593,594,595) consisting of a nuclear power plant main body (1);

(593, 594, 595) of the marine power plant The mineral resource and lifting device lifted by the lifting harvesting equipment as a connection structure of the nuclear power plant main body (1)

(593,594,595) of the marine power plant The hydraulic cylinder (39) operates as a connection structure inside the main body (1) of the nuclear power plant, and the annual production of manganese block (909) (591) A small-sized crane boom stand (942) of a tower crane substituting for the deck plate located at the upper deck position. While the hydraulic cylinder machine 624 has quick operation, the inside of the hydraulic cylinder machine 624, A seal ring 826 is attached to the bushing seal 824 and the seal ring 825 to the piston seal 822 and the piston seal 823 and an O ring 828 and a seal The backup seal 830 and the load seal & backup seal 831 are provided with a double seal seal 832 and a pin seal seal 833 on the downstream side seal 834 and the baffle 835 The piston ring 836 and the dog rings 837 are each provided with a hydraulic cylinder machine 624, The hose 190, the high-pressure pipe, and the solenoid valves 76, so that the piston is advanced and retreated within the hydraulic cylinder while the holding tank upper barge hull 591 is placed at the upper deck position for replacing the towel crane The crane boom girder 942 of the lower crane boom can be distributed and input into a submarine mineral resource collecting equipment that provides the lifting of the manganese block 217 with the hydraulic cylinder machine 624 having quick operation, (SDU) The upper part of the seabed mineral resource is provided for the repayment of the national foreign debt. At the same time, the upper part of the sea surface (SLU) with the submarine line wiring (946) (942) Connected to the mooring device of the connecting structure and the main body (1) Construction of the connecting structure for the power plant Dependent expression venom of the marine power plant by plaiting (593 594 595), it is preferred that the configuration be made for a nuclear power plant body (1).

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593, 594, 595) of the marine power plant is connected to the main body (1) of the nuclear power plant. The furnace distributing and inputting apparatus for operating the mineral resource heat treatment,

(593,594,595) Nuclear power plant main body (1) Connected to the interior of the marine power plant Upper part of the sea surface (SLU) with submarine line wiring (946) Floating upper part of the deck (SDU) (942) Connecting structure to mooring device and connection structure Undersea minerals resource lifted by power generation facility unit Connected to structure Submarine line wiring (946) Trunk replacement tower crane with connection structure (942) to the inner boom hook hook (18) as a body connecting structure. The structure of the yacht basket (842) for reuse of seabed mineral resources and the connecting structure (844) (842) and the connecting structure (844) for reclaiming seabed mineral resources from both sides of the sea crane boom (942) of the tower crane are connected to the SLD float (SLD) The submarine mineral resource manganese block (909) is transported from the submarine mineral resource collection site inside the lower deck (SDL) of the hull deck to the upper SDU position of the levitated upper deck (SLU) (SLU) with a submarine track wiring (946) as a connecting structure while providing positional control to the upper part of the lifting deck (SDU) of the lifting deck. The upper part of the deck (SDU) Crane boats (942) Connected structure Mooring system and lifting dock of marine power plant (593,594,595) Nuclear power plant Main body (1) Connected structure Internal structure to construct power plant equipment. ;

(593, 594, 595) of the marine power plant is connected to the main body (1) of the nuclear power plant. The furnace distributing and inputting apparatus for operating the mineral resource heat treatment,

(593,594,595) of marine power plant (593,594,595) Inside of the nuclear power plant main body (1) Inside location of the seabed mineral resource collection site, the inhale collection machine of mineral resource collection equipment and the mineral picking robot are distributed and moved, And a blast furnace 948 provided with a carrier positioned at the upper end of the lifted deck top deck (SDU) and having blast furnace 948a of blast furnace 948. In addition, (908) is injected into the furnace (948) for the production of the steel plate (597) and the guide rail (618) of the high tensile strength stainless steel by melting the molten metal, And the guide rail 618 for the block tank hull transportation device is provided in the tubular bridge tunnel with the connecting shaft of the double structure block tank pipe bridge 937, A guide rail 618 provided as a connecting structure is installed at a lower position inside the inner block tank 596 of the double structure block tank 598 connected to the inner body train 771 for a marine tunnel apparatus of 100K / A train 771 located at an inner position of the inner block tank 596 having a running function and a connection structure for providing transportation of the guide rail 618 to the steel plate 597 of the high tension stainless steel, (593, 594, 595) nuclear power plant main body (1).

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) of the nuclear reactor main body of the nuclear reactor main body of the nuclear reactor plant of the connection shaft provided in the connection structure capable of disassembling the connection shaft,

(593,594,595) of the marine power plant is connected to the main body (1) of the nuclear power plant, and the construction machine distributing and inputting device for operating the submarine energy and mineral collecting equipment,

(593,594,595) Nuclear power plant main unit (1) Connecting structure to the inside of the sea power plant (SLU) with submarine line wiring (946) Floating deck hull deck upper part (SDU) (842) and the connecting structure Pareto (844) for the submarine mineral resource reclamation to the boom girder (652) connecting structure of the crane boom boom of the city cranes boom of the tower crane (842) and a connecting structure (844) connecting structure for the sub-seabed mineral resource reuse of the connecting structure are provided at one side of both sides of the small crane boom stand (942) SLD) In the submarine mineral resource collection site inside the SDL, the position of the upper part of the SLU and the upper part of the floating deck of SDU are controlled, The manganese block (909) is moved to the upper deck (SDU) of the lifting deck with the manganese block (909) (593,594,595) Submarine mineral resource collection inside the main body of the nuclear power plant (1) Construction site of the mooring equipment by the connection structure of the city cranes boom zone (942) Inside the excavator (845) And an anti-tarpon device 877 are provided for crushing the solidified manganese block 909 while grinding the pile driver 882 of the construction machine 880 and the steam hammer 884 A hydraulic pick-up machine 911 for collecting seabed mineral resources and a mining picking robot 912 are connected to a construction machine excavator and a connection structure to provide an operation position shift control with hydraulic crane 885 and tower crane 886, As a structure, lifting dock of marine power plant (5 93,594,595) The connection structure of the main body (1) of the nuclear power plant is constructed to collect submarine mineral resources by the submersible input device of submarine energy and mining equipment for operation of mining equipment;

(593,594,595) of the above marine power plant. The construction machinery distributing and inputting device for operating the submarine energy and mineral collecting equipment as the connecting structure of the crane boom stand (74) of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Connected to the inside of the structure Structure of the tower Cranes for replacing towers Crane Boom Boom Stand (942) Boom Boom Boom Boom Boom Girder (652) Both sides of the body A double structure high pressure hose 190 connected with a plurality of high pressure hoses 190 as a connection structure coupling fluid coupling hose 190 connected to a 500 m high pressure hose 190 connected to the heavy oil tank 795 in accordance with the water depth, And at the same time a plurality of drill rod pipe racks 854 as a connection structure of a rotary table lathe machine 908 of a drilling machine for crude oil drilling, ) And the natural gas borehole 936 are provided with a predetermined amount of piping pile and at the same time, yellow loess and cement are supplied to the pipe line of the drilling pipe rack 854 as the passage of the piping line, A double structure high pressure hose (190) connected with a plurality of high pressure hoses by a coupling ring (29) connected to a 500 m high pressure hose (190) in the piping file while filling the loess soil with cement. Crude oil and natural gas reserves of crude oil and natural gas are supplied to the submarine mineral resource (CBR) of tower crane boom boom boom and boom girder bridge (652) inside body boom hook hook (18) The reclaiming yard basket 842 and the pallet 844 are connected to each other so that the yard basket 842 and the pallet 844 for reclaiming both undersea mineral resources of the small crane boom stand 942 (SLD) of the sea surface (SLL) from the internal position of the submarine mineral resource collection site in the lower SDL (SLD) of the floating deoxygenated deck (SDL) to the upper SDU of the floating deck Proceed (909) of the submarine mineral resource manganese unit (909) is moved to the upper part of the deck (SDU) of the lifting deck and simultaneously moved to the inside of the main body (1) (SDU) located at the upper end of the sea-level surface (SLU), which is located at a location where the submarine energy harvesting equipment in the crude oil and natural gas is connected to the submarine line wiring (946) Of the crane boom stand (942) of the crane boom stand (652) of the crane boom stand of the crane boom stand (652) 593, 594, 595), and the main body 1 of the nuclear power plant.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

The nuclear reactor main body 794 includes a plurality of inner block tanks 596 and a plurality of outer block tanks 596 outside the plurality of inner block tanks 596. The nuclear reactor main body 794 includes a plurality of inner block tanks 596, The first auxiliary steel 600 for the block tanks and the second auxiliary steel plates 601 for the block tanks are provided with the vertical beam 605 and the horizontal beam 609 with the steel beams 149 in the outer block tank 599, The steel beams 149 and the snap holes 602 are formed in the first auxiliary steel 600 for the block tanks and the second auxiliary steel plates 601 for the block tanks and the vertical partition 605 and the horizontal partition 609, The fifth guard wall distributing and inputting device formed along the outer wall circumferential surface of the fourth protective wall container 808 and the fifth guard wall distributing and inputting device formed by the manhole 610 while being machined by the computer laser cutter 954, The explosion control device is divided into the distribution device and the reactor facility nuclear radiation leak control It made be configured to operate the nuclear reactor building block tank dust collector body 794 dependent expression venom of the marine power plant (593 594 595), a nuclear power plant body (1) in a nuclear reactor plant operations replace nuclear waste disposal, and the shield;

The vertical partition wall 605 and the horizontal partition wall 609 in which the partition wall manhole 610 is formed inside the main body 1 of the nuclear power plant of the marine power plant 593,594,595 are provided with the hydraulic system cylinder door 624 and emergency stairs 631) is formed by a welding process and is equipped as a transportation device to prevent the explosion of a reactor Reactor facility Nuclear radiation leakage control Double structure block tank Reactor main body (794) The shielding device is configured to operate the nuclear power plant;

The plurality of stopper steel plates 625 are connected to a plurality of inner block tanks 596 and a plurality of outer block tanks 599 of the cylindrical double structure block tank 598 at the upper and lower ends of the block tanks, (593,594,595) of a marine power plant equipped with an egg type main body (794) of a double structure block tank with flange bolting connection devices, nuclear waste of various kinds of nuclear reactors (811) into the main body (1) 224) Treatment of nuclear waste (224) of various types of reactors (811) by the main body (1) of the nuclear power plant (593,594,595) of the marine power plant by dividing it into the distribution input device of the treatment device and the distribution input device of the nuclear fuel explosion control device The device and the fuel explosion control device are configured to operate the nuclear power plant;

Nuclear waste is stored in one place at the lower part between the vacant spaces of the plurality of inner block tanks and the plurality of outer block tanks in the event of a large reactor explosion, and at the same time, the bottom of the road surface of the double structure block tank (GLD) A plurality of nuclear explosion preventive double structure block tanks 598 secured by a mat 225 and a steel beam 149 are disposed outside an inner block tank 596 having a reactor main body 794 and a barge hull 591 ) Nuclear power plant pellet (683) is injected into the third wall of the reactor body formed by introducing the reactor facilities of the alternative nuclear waste processing shielding apparatus, (593,594,595) of a marine power plant equipped with an explosion control device of the explosion control device. Type nuclear reactor 811 and the nuclear fuel explosion control apparatus to provide power generation to the nuclear reactor radiation leakage control double structure block tank reactor main body 794 ;

(593,594,595) of marine power plants (593,594,595) In the nuclear power plant main body (1), a large amount of radiation is generated so that the reactor can safely cover the first wall pellet and the second wall fuel rod, the third wall reactor pressure vessel A double structure block tank in which a conventional reactor building formed of a fifth wall reinforced concrete mat (225) is formed in a four-walled container by forming a five-layered protective wall, and a distribution injector and a nuclear fuel The nuclear power plant main body 1 is provided with a distributing and inputting device for the explosion control device and the barge hull 591 at the upper end of the holding tank is provided in the reactor structure 811 of nuclear power generation as a double structure block tank reactor building, The nuclear reactor operation of the power plant is constituted by a nuclear radiation leakage control dual structure block tank reactor dust collector main body 794;

A steam generator 810 and a steam dryer 786 installed outside the reactor pressure vessel 813 are connected to each other and a fluid container 808 corresponding to the fourth wall of the reactor 811 is connected to the steam generator 810, And a plurality of through holes are formed in the upper portion of the reactor building 688 corresponding to the fifth wall by a predetermined angle of 45 degrees into the cutter and the construction machines, A plurality of safety valves 472 are connected to the flange by the gasket 32 to the bolt 24 and the nut 25 on the block piping line 74 and the plurality of safety valves 472 are connected to the flange by the gasket 32, A double structure block tank 598 having a size twice as large as the reactor building 688 is connected to an outer block tank 599 for storing nuclear waste treatment in a radiation type connection structure, And the distribution input device of the fuel explosion control device. It made be composed of the operation of the nuclear power plant to nuclear radiation leakage control block double structure reactor tank dust collector body 794, and;

Dual Structure Block Tank The reactor building is provided with a plurality of internal block tanks 596 and a plurality of external block tanks 599 each having a loess (158) cement mixing equipment mixer machine 649 as a dispensing device of a nuclear fuel explosion control device Coolant (287), which is a control material for fuel explosion prevention, which is injected into a pressure vessel (813) at the same level as a blast furnace immediately before a reactor explosion, and a dispersion material that causes soap and foam in a toothpaste- The mixture is properly mixed with the mixture 927, and the control article is injected into the pressure vessel 813 at one time by the automatic injection device. Thereafter, several fire-fighting nozzle nozzles 10 are cleaned so as to clean the inside of the reactor 811 Is formed inside the pressure vessel (813) and inside the vessel (808), and the reactor (811) inside the reactor (811) Explosion-proof double structural block tank Tanks containing nuclear reactors Nuclear fuel explosion control devices equipped with nuclear fuel explosion control devices equipped with Nuclear power plant main body (1) Double reactor structure of various reactors (811) Block tank leakage of nuclear radiation Control dual structure block tank A nuclear waste disposal unit of a nuclear waste disposal system for internal and external refurbishment equipped with a reactor main body 794 is installed and operated to prevent the explosion of nuclear reactor facilities ;

The inside of the reactor 811 is internally cleaned by forming a circulating water pump 858 connected to the cooling water 287 piping line 352 which is a dispensing device of the nuclear fuel explosion control apparatus and cooling water 287 to prevent solidification of the loess mixture, And the dispersing material causing the foaming such as the washing material is appropriately mixed with the loess mixture with the loess cement mixing equipment mixer machine 649 and put into the pressure vessel 813 all at once, and immediately after the earthquake stops, (811) of the nuclear reactor main body (791) to perform continuous power generation without restriction from natural disasters and to prevent the explosion of the reactor that maximizes safety operation of the nuclear reactor facility. (1) of the nuclear power plant main body (1) as a distribution dispenser of the nuclear waste disposal apparatus and a distribution dispenser of the nuclear fuel explosion control apparatus Configuration be made to Nuclear Power-on After the various lines of the distribution chute around the reactor plant safety operation in the control apparatus for a fuel explosion reactor (811) and;

And a plurality of dual structure block tank reactor nuclear reactor (s) for storing the nuclear reactor effluent (224) connecting the outer wall surface of the reactor building wall from the first wall of the reactor to the double structure block tank reactor wall of the fifth wall The nuclear power generated at the nuclear power plant before and after the operation of the nuclear power plant formed in the nuclear power plant body (1), which is formed with a coupling structure with various kinds of nuclear power generation reactors (811), generates nuclear fission inside the reactor (811) A steam turbine 267 for generating steam from the steam to produce power by rotating the steam turbine 267; a nuclear power generator 772 for converting the power produced from the steam turbine 267; And a rotating rotor electromagnet coil 774 for a nuclear power generator installed along a circumferential surface of a shaft 198, which is a rotation shaft connecting the atomic power generator 772, A non-rotating armature coil 773 for a nuclear power generator installed along a circumferential surface of a rotating rotor electromagnet coil 774 for a magnetic power generator and a power generator 772 for driving the nuclear power generator 772 and the shaft 198 to the steam turbine 267 And a frame 775 integrally fixed to the main body 794 of the double structure block tank reactor main body 794 so as to operate as a nuclear power plant;

A cooling water 287 piping line 352 having a connection structure with a condenser 790 at a lower portion of the body of the steam turbine 267 of the power generation facility and a coolant water line 352 at a pipeline line 169 at the front of the condenser 790, A circulation water pump 858 connected to the pipeline line 352 is connected to the nuclear reactor radiation leakage control double structure block tank reactor main body 794 before the reactor facility safety operation;

A feed pump 857 is formed outside the rear end of the condenser 790 and the reactor 811 and a purifier 809 is formed outside the reactor in front of the feed pump 857, A plurality of coolant pumps 859 are installed outside the reactor pressure vessel 813 containing uranium 812 fuel and a safety device control rod 798 is installed inside the reactor pressure vessel 813 The control rod 798 is automatically inserted at a time so that the reactor can be operated as an emergency stop by the reactor main body 794 of the double structure block tank control reactor ;

Various kinds of reactor 811 first wall pellets 683 and a covering pipe 682 for protecting the second wall flaring rods 689 are disposed inside the third wall reactor pressure vessel 813 The safety valve 472 formed with the plurality of temperature pressure sensors immediately before the explosion is opened in the fourth wall container 808 or the like and the inner block pipe 74a of the upper block piping line 74 of the pressure vessel 813 at each location is opened, The explosive nuclear waste 224 passes through the inner block tank 596 and the outer block piping 74b is filled with coolant and toothpaste-like loess mixture, which is a fuel explosion prevention control product stored in the inner block tank 596, The nuclear waste 224 is transferred and stored in the inner bottom portion of each of the double structure block tanks 598 and the inner block tank 596 of the pressure vessel 813 is transferred to the inside of the pressure vessel 813 and the fourth protective walled container 808, And the temperature-sensing-sensor safety valve 472 connected to the temperature-sensing- Cooling water and toothpaste-like loess mixture, which are control items of the fuel explosion-proofing agent stored in the inner block tank 596, are supplied to the outer block pipe 74b of the block piping line 74 through a water pump 857, And the fourth block wall container 808 to convert the position energy of the water into the kinetic energy of the water mixture of cooling water and toothpaste to the reactor so that the inner block tank 596 and the outer block tank 599 are separately stored Reactor explosion is prevented by stopping the reactor explosion by filling up the mixture of cooling water and toothpaste-like loess mixture. Reactor facility safety operation before and after nuclear reactor radiation leakage control of dual structural block tank reactor structure of double structure block tank Reactor main body (794) To operate the nuclear power plant;

When the decommissioning of the reactor pressure vessel 813 is stopped with the remote control cutting or the robot 700 when the reactor decommissioning operation of the nuclear power plant is stopped, the plurality of the temperature pressure detection sensor safety valves 472 are closed, A plurality of types of reactors that are always closed by a plurality of temperature-sensing sensor safety valves 472 can be installed on a barge 591 of a nuclear power plant. The dust collector main body 794 is configured to operate the nuclear power plant;

Several types of reactors (811) are installed in the sinking prevention type barge of the ocean, and the nuclear radiation leakage control dual structure block tank reactor main body (794) is operated to operate the nuclear power plant;

In order to prevent the earthquake and tsunami from being restricted by the weather conditions, the location of the nuclear power installation at 40m above the sea level is adjusted by the mooring device formed in the submerged barge line and the diving and buoyancy adjusting devices, The nuclear reactor leakage control system is configured to operate the nuclear reactor main body (794) to control the nuclear radiation leakage control such that various kinds of nuclear reactors of unaffected nuclear power plants can not explode;

By constructing a dual structure block tank reactor building at a marine nuclear power plant so as to prevent the nuclear explosion of the nuclear fuel chamber to prevent environmental pollution due to nuclear waste, In order to ensure the safety of power generation facilities and to ensure the renovation of nuclear reactors by continuous operation, the mooring device formed on the barge for the treatment of nuclear waste, the control device of the diving buoyancy, the distribution input device of the nuclear waste treatment device and the distribution input device of the fuel explosion control device (2) Nuclear power plant (672) Main body (1) Reinforcing system (2) Nuclear power plant (2) Nuclear power plant Replacing a conventional reactor building formed of a concrete mat (225) A nuclear waste treatment apparatus having a nuclear reactor block tank reactor main body 794 and a distribution input apparatus of the nuclear fuel explosion control apparatus to safely operate the nuclear reactor facility before and after the nuclear reactor radiation leakage control dual structure block tank reactor main body 794 ) To operate the nuclear power plant.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

Nuclear Radiation Leakage Control for Nuclear Power Plant Nuclear Radiation Leakage Control Dual Structure Block Tank Nuclear waste treatment device equipped with reactor main body 794 and nuclear reactor installation of nuclear fuel explosion control device Distribution injector Various kinds of nuclear reactors 811 are sunk in the ocean In order to prevent the construction of the barge of the prevention type and the weather condition of the earthquake and tsunami, it is necessary to set the installation position of the nuclear power plant at the top of 40m above the sea level to prevent the sinking of the barge line. In the operation of nuclear power plants for safe operation equipment of nuclear reactors forming equipment safety,

In order to avoid the restriction of the weather conditions, the height of the barge line installed at the nuclear power plant is adjusted to 40 m above the sea level. The elevator car (639) and the anchor car chain (640) (8) for the emergency pump and a vacuum pump (8) for the emergency pump in the vacuum pump (635) of the automatic pneumatic valve transport device (916) BELLUSTAR BARRING TANK ADJUSTING BLANK BUTTON AND TANK INSULATION FLUID ACCESS BLOCK MECHANISM Connecting jet pump (157) to wire netting (28) Bellows butterfly valve of diving control device of piping line with structure And a hydraulic ventilator door 624 for a block tank hull traffic control device is connected to the doctor ventilation inlet 585a and the doctor ventilation outlet 585b of the nuclear waste treatment storage tank and doctor ventilation 585, ) And a block tank (76) Solenoid valve (76) to be installed in the hydraulic cylinder device of the rock hull disassembling and regulating device (76) Diving position control device of the hull to each valve and the moving weight device for controlling the diving buoyancy (949) (595) of the large-scale marine nuclear power plant is buoyant due to the buoyancy generated by the weight of the hull and the sea surface gravity, so that the large-scale marine nuclear power plant lifting tongue (595) A plurality of balls 638 for hull mooring for the mooring device and the mooring of the ship mooring deck are provided on the top of the strut tank upper barge hull 591 and the bottom of the strut tank bottom barge hull 592, (639) formed on the anchor chain (640) for connecting link of the mooring device anchor (638) and the mooring device anchor (639) When the sea floor depth is deeper than the depth of the continental shelf while the mooring anchorage system is provided, the bottom floor of the submarine is excavated by a rotary table lathe machine (908) of drilling machine for crude oil, (Not shown) of the mooring device 185 with the hydraulic cylinder hydraulic pressure key 623 formed on the hydraulic cylinder hydraulic pressure key 623 of the mooring device, When the barge hull anchoring is released and the hydraulic cylinder operating key 623 is operated by the umbrella unpacking body of the feed dog 185, the barge hull anchoring is formed, The height of the barge ship anchor, which is a nuclear power plant, is used to control the operation of the nuclear power plant before and after the operation of the nuclear power plant;

(593,594,595) of a marine power plant For the diving control of a floating type poison ship inside a nuclear power plant main body (1), an air recycling tank (145) for an air storage tank and an air recycling tank A cooling fan 645 serving as an air liquefier cooling mechanism and a heater fan 642 for floating the rubber balloon 914 and the tube 188 in the air balloon 78 and the advertising balloon 77, (643), which will cause all parties involved in the belligerent countries, who are engaged in war, maritime piracy, and international diplomatic disputes, to be expelled from the atmosphere of the earth's atmosphere and to control the missile on the airship and nuclear bomb An air operated air turbine (not shown) supplied from the air compressor 80 to the aerodrome tower 644, a space rocket launch pad 646 equivalent to the satellite, and an air compressor air compressor 80, (137) to operate the nuclear power plant before and after operation of the nuclear power plant;

A hoist rope 19 included in the crane 861, a wire rope chain 915, and an air compressor (not shown) 80 and the air hose 109 connected to the front of the air-tying winch 137 in front of and behind the air receiver tank at the rear of the deck 80. An electric magnet magnet 645 and loess and cement A pipeline automatic pneumatic conveying device 916 for conveying by piping and high pressure hose and a mixing equipment mixer machine 73 located at the front of the pipeline automatic pneumatic conveying device 916 are provided After the lever blocks 123 are provided for each tonnage capacity so that they can be combined in units of the double structure block tanks 598, they are combined in units of the block tanks 598, and then the turning bodies 640 are re- And the bolt nut was used as the joint between the holding tank and the auxiliary holding tank After the steel plate bracket (165) is provided with a machining hole for male and female coupling, the steel tube bracket (165) is welded to the block tank and then subjected to continuous nuclear operation of the nuclear waste treatment reactor facility of the marine nuclear power plant so as to withstand the high pressure to the flange- To operate nuclear reactors before and after safe operation of reactor facilities;

After the rubber packing 32 of the gasket packing is sandwiched between the large flange 614 and the large flange 614 by the space between the large flange 614 and the double structure block tank 598 with high strength bolts and nuts, ) And a connecting double structure block tank flange (614) to another coupling with the double structure block tank flange (614) inside and outside the nuclear power plant body (1) The valve disk operation inside the ballast butterfly valve 622 submerged in the seafloor with the opening of the manhole 610 and the hatchback 153 is released while the fan 195 of the regulation valve is opened, And the bottom barge hull at the bottom of the double structure vertical holding tank is formed into a nuclear waste disposal storage tank generated from a reactor, a key bed (616) as a barge underneath the barge hanger and a vertical horizontal hinge joint The shaft 606, which is tightened to the long hole 616 of the long shaft, constitutes a continuous operation of the nuclear waste disposal reactor of the marine nuclear power plant before and after the safe operation of the reactor facility;

(618) for deck deck top equipment transfer, a helicopter stop (619) at the top of the floating deck deck, and a semi-submerged operation line (623), a double structure block tank for the marine safety work for the diving work line mounting for cutting and welding in the tank tank joint connection separation and tank frame connection type of double pipe structure type (598 ) Combined tooth tool The ballast butterfly valve (621), a hydraulic cylinder mounted on the semi-submerged working line (637) and controlled by the submerged barge line, The inner side of the motor body 192 of the power motor is connected to the hood 193 and the snap ring 194 by a fan A stator assembly 201 and a motor protection casting frame 202 (not shown) are attached to the rotor assembly 199 and the front bead ring 200 to the front bracket 197 and the shaft 198 on the body frame 195 and the body frame 196, A terminal box cover 203 is attached to the terminal box 203 and a terminal box cover 205 is attached to the lifting bolt 204. A rear bracket 207 is attached to the rear bead ring 206 and a protective cover 209 is provided to the gap 208 When the rotor core 211 is provided with a stator iron core 211 and stator winding wires 212, power is supplied to the rotating core, and at the same time, when the defective portion of the hull is damaged, it is prevented from sinking, (585), which is equipped with the equipment of this system, and a swich-on-air valve, which is a suction control device for mineral resource intake, A hydraulic cylinder door 624 in which the pushbutton-offshaft is closed, Lashing Tank Inlet Entrance Access Blocking Stopper Plate (625) formed of tie wire mesh (28) constitutes the continuous operation of the reactor of nuclear reactor waste disposal reactor before and after safe operation of the nuclear reactor of marine nuclear power plant;

The air piping line 181 for preventing sinking of the hull and the emergency engine 226 for extending the prevention of hull sinking prevention are provided. In order to prevent access to other vessels during the lifting of the floating tank in the block tank unit, The airbag inflatable flagpole 628 of the airbag 628 is connected to the tugboat and the floating dock by a rope 629 and a rope connecting knot claw 630 and the emergency staircase 631 ) For controlling the balancing of the mineral and the conveyer 633 for the machine equipment conveying facility and the barge hull 592 to the inside of the barge hull 591 to the elevator alley bed 636, (635) of the vacuum pump (635) and the air lifting line (634) of the air suction and discharge device for lifting the hull of the sinking ship, the parts are manufactured at the marine ship manufacturing factory and heavy industry field,(666), and the position of barge elevation control is equipped with the equipments to make continuous operation of the nuclear reactor of the nuclear waste disposal reactor facilities of the post-sea nuclear power plant before safe operation of the reactor facility ;

In order to prevent nuclear reactors of nuclear power plants from exploding and to prevent the environment from being contaminated by nuclear waste without being affected by earthquakes and tsunamis, The power plant is formed of a single number of double structure block tanks, which are reactor nuclear waste treatment storage tanks formed from the first wall to the fifth wall on the reactor surface, the double structure block tanks being formed of inner block tanks and outer block tanks, In order to ensure the safety of the nuclear power generation facility and ensure the repair of the nuclear reactor and the treatment of the nuclear waste, the nuclear explosion preventive double structure block tank reactor main body 794 The nuclear power plant, The nuclear waste 224 that has been exploded into the block piping line 74 is passed through the double structure block tank reactor in which the reactor does not explode and the nuclear waste 224 is stored in the block tank 598, The plurality of safety valves 472 are closed when the explosion of the reactor pressure vessel 813 is stopped and the safety valve 472 is closed and the plurality of safety valves 472) are closed, it is desirable to configure the equipment to provide continuous nuclear operation of the nuclear waste treatment reactor facilities of the post-sea nuclear power plant before and after safe operation of the reactor facility.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,

(593,594,595) of the marine power plant If the regenerated liquid of the ion exchange resin is liquid in the water leaking from the valve of the nuclear power plant (672) and the water in the building inside the nuclear power plant main body (1) Collected in a tank 216 and filtered with a filter 217. The radioactivity is measured by a radioactivity measuring device 218 to confirm that there is no harm and then flows into the sea together with the seawater for cooling and water other than the washing water is filtered through the filter 217 ), Filtered water and distilled water are provided for monitoring with the monitoring post 219 while preparing for use as a reactor coolant, so that it can be used as a floating nuclear power plant inside the main body 1 of the nuclear power plant (593,594,595) It is preferable to configure the nuclear waste 224 treatment device to prevent radioactive contamination.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,

If the ion exchange resin and the filter material are solid in the paper, cloth, work clothes, shoes, etc. inside the building of the nuclear power plant 672 inside the main body 1 of the nuclear power plant of the marine power plant 593,594,595, The resin solution used is stored in the storage tank 216 and is filled with the concrete in the drum 220. The paper or cloth is compressed to reduce the volume and attenuate the resin, The nuclear waste storage 224 and the nuclear waste storage building 332 and the monitoring monitoring post 219 are further provided for nuclear waste disposal by the forklift in the site, (593,594,595) It is desirable to construct nuclear waste disposal apparatus (224) to prevent nuclear radiation contamination both inside and outside the nuclear power plant main body (1).

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a double structure block tank nuclear reactor radiation leakage control reactor for nuclear power plants of the nuclear power plant and a nuclear fuel cycle apparatus of a nuclear waste fuel industry produced from a nuclear power plant of a nuclear fuel waste disposal control apparatus Nuclear waste 224 In its processing apparatus,

The spent fuel 683 used in the nuclear power plant 672 and the uranium 812 left in the nuclear power plant main body 1 of the floating power plant 593,594,595 of the marine power plant are processed in the reprocessing plant 228, Processing plant 229 converts uranium fluoride 812 into uranium dioxide 812 and transfers uranium fuel 812 to uranium dioxide 820 at conversion plant 229 to transfer pellets 683 to uranium dioxide 820, The fuel rod 689 is fabricated and the plutonium 801 processed in the reprocessing plant is produced in the conversion and processing plant 231 so that the reprocessed fuel rods 689 are returned to the nuclear power plant 672 The nuclear fuel 683 moves to the nuclear power plant 672 and the conversion and processing plants 231 to the concentrating plant 230 and the conversion factory 229 in the reprocessing plant 228 are located at the upper 40 m Sinking type barge deck top of the nuclear fuel industry Nuclear power plant main body (1) Nuclear power plant main body (1) Nuclear waste (224) is treated as nuclear fuel cycle of the nuclear fuel industry to prevent nuclear radiation contamination. Is preferable.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,

Since nuclear waste 224 having a long half life period from the reprocessing process at the nuclear power plant 672 inside the nuclear power plant body 1 has a long half-life, it must be stored for several thousand years, so that the half- The apparatus of construction machine heavy equipment stock 877 and excavator 845 to constitute the nuclear waste 224 to be buried in the polar glacier with the nuclear waste 224 treatment device;

Fission in the reactor (811) to form a conversion into another material; and structuring the deep buried bed or the bottom of the ocean with a nuclear waste (224) treatment device;

A dual tubular drum (220) containing a nuclear waste and a vessel for transporting the buried region to a nuclear waste (224) treatment device;

A double tubular drum 220 containing nuclear waste is mounted on a space rocket 612 on the upper surface of a barge deck deck 591 equipped with a space rocket 612 and a space rocket launcher 646, (224) of the nuclear power plant (1) of the nuclear power plant of the marine power plant (593,594,595), and the nuclear waste disposal (224) .

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

The nuclear waste disposal apparatus having the nuclear reactor main body 794 of the dual structure block tank control nuclear reactor radiation leakage control for the reactor plant of the nuclear power plant and the nuclear reactor of the nuclear fuel plant of the nuclear fuel plant of the nuclear fuel explosion control apparatus, And for forming a reactor maintenance guarantee, the apparatus comprising:

In case that the maintenance work of the nuclear power plant 672 in the inside of the reactor 811 of the nuclear power plant 671 takes longer than 3 months, it is necessary to install the reactor 811 in the main body 1 of the nuclear power plant 593,594,595, The boiler 783 of the thermal power generation is separately operated after the line is shut off by the safety valve 472 so that the connection structure is formed in the reactor power generation facility to supply the steam of high temperature and high pressure to further operate the emergency power generation, ) Maintenance of nuclear power plants by safe and continuous operation of nuclear power plant main body (1) of the marine power plant (593, 594, 595) (811), it is necessary to pay close attention to the worker to prevent radioactive contamination and ensure that the reactor can be repaired. Is recommended.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,

When the air contained in the inside of the building and the water contained in the water inside the reactor 811 is gas, the activated membrane type gas hold-up device 213 which weakens the radioactivity when the seizure type reactor 811 is activated, The ventilation of the plant is discharged through a plurality of symmetrical filters 214 while discharging the air, and all of the ventilated air is discharged from the exhaust tower 215 to the inside of the main body 1 of the nuclear power plant 593,594,595 of the marine power plant. And a nuclear waste disposal apparatus 224 for preventing nuclear radioactive contamination from the outside.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

Around the launch pad of the satellite and the space rocket, a natural loess and a disaster prevention tool of 1 meter above the deck deck of the floating deck is laid on the deck deck with natural loess soil and disaster prevention material, When a circular ocher block is installed at a height of 15m at a height of 3m and at the same time a satellite and space rocket are fired at a satellite launch pad and a space rocket launch pad at the top of a deck deck, a huge amount of fuel is burned The high temperature and high-pressure combustion heat generated by high-temperature and simultaneous firing of satellites and space rockets is 60 m in diameter Circular ocher block The walls are equipped with a high-temperature and high-pressure combustion heat shield to protect the deck deck. At the same time, while installing the equipment, replace the towel crane with a small crane boom stand (942) 60 m in diameter Circular height 1 5m Block Tank Hull Disassembly Double Tube Construction Tank Bridge Construction Construction of a bridge saddle-type frame (617) with a position shifting, temporarily installed on the circumference surface of the launch pad and space rocket launching pad, The manganese block (909) is laid on a deck deck at 2 m depth and the satellite and space rocket are fired to remove the floating saddle-shaped frame (617) A hydraulic rotary cylinder machine 619 and a hydraulic cylinder machine 624 are mounted on a small crane boom stand 942 of a tower crane substituting for a dead boat that can be used in the deep sea, ), While a plurality of hydraulic cylinders are provided, and the hull is retracted at two positions in front of the hull, (593,594,595) of the marine power plant is equipped with an anchor and anchor chain so that it can be used as a ship shelter in the corridor. Is preferable.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

A nuclear waste disposal system for a reactor plant of a nuclear power plant, a dual structure block tank, a nuclear waste disposal system comprising a nuclear reactor main body 794, and a non-aqueous reactor 802 comprising a distribution injector of a nuclear fuel explosion control apparatus The structure,

The non-aqueous reactor 802 boils water to form a steam to form a turbine rotary operation. Inside the non-aqueous reactor 802, fuel and water, a control rod 798 and a recirculating pump And a pressure control pool 856 for confining water to the lower portion of the pressure vessel 813. The steam pipe 779 is connected to the outside of the reactor by a turbine and a generator. The steam remaining in the condenser 790 is cooled by the water pump to transfer the hard water to the inside of the reactor 809 by the water pump and recirculate the water into the reactor 809. At the same time, the cooling water 287 is circulated in the condenser 790 through the circulating water pump 858, (287) is discharged to the outside waterproofing system of the condenser by the double piping line (74) of the double tube structure located inside the main body (1) of the nuclear power plant (593,594,595)The reactor is equipped with a number of temperature sensors to detect the presence of radioactive contaminants in the reactor. Temperature sensor of the safety valve When the temperature of the reactor reaches 700 to 800 degrees Celsius and the pressure reaches the danger level of high pressure As the temperature pressure sensing sensor transmits an alarm message to the computer of the safety control room, the safety valve of each temperature pressure sensing sensor is opened at the same time, and the explosion nuclear waste passes through each block of the pressure vessel inner block pipe line 74a, The nuclear waste is stored at each location of the tank, the temperature-sensing sensor safety valve 472 connected to the inner block tank of the pressure vessel is opened, and at the same time, the outer block piping line 74b is connected to the fuel- The fuel explosion-proof control device is connected to the automatic charging device flashing warning lamp (99), the pressure gauge (101) Temperature sensor Thermostatic thermometer with bimetal (102) and connection structure Sensor switch for sensing flow rate (103) Level pressure switch for operation check (104) Flow meter for flow check (105) Piping line Automatic pneumatic valve And the safety valves 472 of the conveying device 916 are connected to each other to form a plurality of through holes at a predetermined angle of 45 degrees on the upper portion of the reactor building 688. The through holes are formed by a laser cutting machine and a construction machine drilling machine, A plurality of safety valves 472 are connected to the block piping line 74 through the bolts 24 and the nuts 25 by the gasket 32 while forming the double piping line 74 in the through- And an outer block tank 599 for storing the nuclear waste treatment and an outer block tank 598 for storing the nuclear waste are installed in a double structure block tank 598 having a size twice the diameter of the reactor building 688 along the outer wall surface of the reactor building 688, Combined with the shape-link structure, (681) inside and outside the core (681) to prevent the explosion of nuclear fuel immediately before the explosion of the reactor. The nuclear and nuclear offshore nuclear reactors As nuclear fuel explosion-proof control articles are provided as connection structures of various types of reactor facility bodies 811 inside the power plant main body 1, it is possible to prevent explosion of the nuclear nuclear fuel in the nuclear power plant main body 1 from the non- So that the safety operation can be further performed.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

Structure of a pressurized water reactor 803 forming a nuclear waste disposal apparatus having a nuclear reactor main body 794 and a distribution injector of a nuclear fuel explosion control apparatus, Quot;

The pressurized water reactor 803 does not generate steam to generate steam, but rather creates hot water. The steam generator 803 exchanges water and steam in the steam generator to provide steam turbine rotation. The pressurized water reactor 803 is connected to the inside of the reactor pressure vessel A fuel pump, a water control rod, a steam generator, and a coolant pump to the outside of the generator, and a turbine and a generator at an intermediate portion between the pressure vessel and the generator. The coolant is injected into the condenser, (593, 594, 595) of the offshore power plant while simultaneously supplying water to the steam generator through the feed pump connected to the condenser and to the block piping lines (74) of the double pipe structure located inside the main body Nuclear waste disposal facilities are used to control the location of nuclear waste, Several temperature and pressure sensors Sensors of temperature and pressure of safety valves When the temperature of the reactor reaches 700 to 800 degrees Celsius and the pressure reaches a dangerous level of high pressure, While the message is being transferred, the plurality of pressure sensors of the temperature sensing sensor are opened at the same time, and the nuclear waste is passed through the pressure block internal piping line 74a at each location, and the nuclear waste is stored in each location of the block tank. The temperature control sensor 472 connected to the lower inner block tank is opened and at the same time the outer block piping line 74b is connected to the automatic block device warning lamp A thermocouple 99 having a connection structure with a pressure gauge 101 and a temperature sensing bimetal 102, Check the flow rate to the thermometer sensor switch (103) Level pressure switch for operation (104) Flow meter for flow check (105) Connect to the safety valves (472) of the pipeline automatic pneumatic valve transport device (916) A plurality of through holes are formed in the upper layer of the reactor building 688 at a predetermined angle of 45 degrees by a laser cutting machine and a construction machine drilling machine while machining the through holes at the same time, A plurality of safety valves 472 are connected to the block piping line 74 by bolts 24 and nuts 25 with gaskets 32 to connect the flanges to each other along the outer wall surface of the reactor building 688 A double structure block tank 598 having a size twice as large as the nuclear reactor building 688 is combined with the outer block tank 599 for storing nuclear waste treatment in a radiation type connection structure, And nuclear fuel explosion control field (681) inside and outside core (681) Nuclear fuel explosion prevention control equipment immediately before explosion Nuclear reactors are installed in various types of reactors The main body (811) is a connection structure to prevent the explosion of the nuclear fuel in the main body (1) of the nuclear power plant, and to prevent the explosion of the nuclear fuel in the main body (1) .

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

Nuclear Radiation Leakage Control Dual Structure Block Tank for a Nuclear Power Plant Reactor Facility A multipurpose hot gas furnace reactor main body (794) for forming a nuclear waste disposal apparatus having a nuclear reactor main body (794) and a distribution injector of a nuclear fuel explosion control apparatus 805,

Using graphite as the moderator 819 and using helium gas as the coolant 816 while using enriched uranium and thorium as the fuel, the heat of the helium gas is transferred to the water and water and steam are separated from the steam drum where the steam is generated (593,594,595) of the marine power plant while simultaneously transferring the steam to the turbine through the pipeline while simultaneously generating the electric power within the generator by the rotation of the turbine. (74) to provide a nuclear waste location transfer passage to regulate the nuclear radioactivity contaminants into a plurality of temperature pressure sensing sensors. The temperature sensor of the safety valve detects the temperature of the inside of the reactor, When the level of 800 degrees and the pressure reaches the dangerous level of high pressure, the temperature and pressure sensor detects the alarm in the safety control room computer While the message is being transferred, the plurality of pressure sensors of the temperature sensing sensor are opened at the same time, and the nuclear waste is passed through the pressure block internal piping line 74a at each location, and the nuclear waste is stored in each location of the block tank. The temperature control sensor 472 connected to the lower inner block tank is opened and at the same time the outer block piping line 74b is connected to the automatic block device warning lamp A level pressure switch 104 for controlling flow rate check is connected to a thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 99 and a pressure gauge 101 and a bimetal sensor 102 for temperature sensing. 105) Pipeline line The safety valves 472 of the automatic pneumatic valve conveying device 916 are provided with a connection structure so that the upper part of the reactor building 688 has a constant A plurality of through holes are formed at an angle of 45 degrees by machining the through holes with a laser cutting machine and a construction machine drilling machine while a plurality of through holes are provided with a plurality of safety valves 472 A flange is connected to the bolt 24 and the nut 25 to the block piping line 74 by a gasket 32 and the flange is connected to the block piping line 74 along the outer wall surface of the reactor building 688 at twice the diameter of the reactor building 688 (598) to a nuclear waste disposal and storage outer box tank (599) in the form of a radiation-like connection structure, the nuclear waste disposal apparatus and the nuclear fuel explosion control apparatus as a dispensing apparatus, The nuclear reactor facility main body 811 is installed inside the reactor core 681 and outside the reactor core 681 to the interior of the main body 1 of the nuclear power plant on land and in the sea with nuclear fuel explosion- (1) Nuclear Power Plant Nuclear Fuel Explosion Prevention Nuclear Reactor Nuclear Power Plant Nuclear Reactor Nuclear Reactor Nuclear Reactor Leakage Control System (593,594,595) Nuclear power plant main body (1) Nuclear power plant operation Nuclear fuel explosion prevention is carried out by multipurpose hot gas to the structure of nuclear reactor main body (805) It is preferable to constitute a further operation.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

Double Structure Block Tank for Nuclear Power Plant Reactor Facility The structure of the new reactor furnace facility main body 806, which includes a nuclear waste disposal apparatus having a nuclear reactor building and a dispensing apparatus for the fuel explosion control apparatus,

The reactor body 806, which is newly developed and attracts attention, is provided with a reactor which is capable of increasing the utilization of nuclear fuel much more than conventional nuclear reactors. As a coolant, As the water and steam are separated from the steam drum, the steam is transferred to the turbine through the piping. At the same time, the turbine revolves to produce electric power within the generator, while heavy water is used as the moderator. Neutral water does not absorb neutrons more than hard water Utilization efficiency of uranium has been increased so that natural uranium is mixed with plutonium as a fuel. Combined mixer machine is used to mix the fuel with rotating turbine, while the marine power plant's lifting plant (593,594,595) The double tubular block piping lines 74 located at Nuclear waste Location of channel Nuclear radioactive pollutants Multiple temperature pressure sensors Sensors of safety valves Temperature sensors of pressure sensors The temperature inside the reactor is 700 to 800 degrees Celsius and the pressure is at a high risk level Upon reaching, the temperature and pressure sensors transmit alarm messages to the computer in the safety control room, and at the same time, a plurality of safety sensors for temperature and pressure sensing sensors are opened, and explosive nuclear wastes pass through the pressure block internal piping line (74a) The nuclear waste is stored in each of the block tanks so that the temperature-sensing sensor safety valve 472 connected to the inner block tank at the lower part of the pressure vessel is opened and at the same time, the outer block piping line 74b is provided with the fuel- Control equipment Nuclear fuel explosion prevention control device is automatically inserted into the flashing warning light (99) A level pressure switch 104 for controlling flow rate check is connected to a thermostat thermometer sensor switch 103 having a connection structure between the system 101 and the temperature sensing sensor bimetal 102, And the safety valve 472 of the automatic pneumatic valve conveying device 916 is connected to the upper portion of the reactor building 688 to form a plurality of through holes at a predetermined angle of 45 degrees with a laser cutting machine and a construction machine drill machine, A plurality of safety valves 472 are connected to the bolt 24 and the nut 25 in the block piping line 74 while forming a double piping line 74 in the plurality of through holes, A double structure block tank 598 having a size twice as large as that of the reactor building 688 along the outer wall surface of the nuclear reactor building 688 is connected to the outer block tank for nuclear waste processing storage, (599) and radiation-type connection structure (681) inside and outside the reactor core (681) to prevent the explosion of the nuclear fuel immediately before the reactor explosion. The reactor main body 811 is connected to the inside of the main body 1 of the nuclear power plant so as to prevent the explosion of the nuclear fuel in the main body 1 of the nuclear power plant. Equipment Nuclear reactors Nuclear reactors of nuclear waste disposal system Shielding equipment Nuclear radiation leakage control Double structure block tank Reactor of the main body of the nuclear reactor (593,594,595) It is preferable to put the nuclear reactor into the structure of the facility main body 806 to further operate the nuclear power plant.

The nuclear reactor leakage control dual structure block tank constituting the nuclear power plant main body 1 of the marine power plant 593,594,595 nuclear reactor main body 794 and the double structure block tank pipe bridge 929, (593, 594, 595) of a joint shaft provided with a connection shaft for making a disassembly-connectable connection shaft of the main body (937). The distribution side (705) of the nuclear power plant main body (1)

The structure of the fast breeder reactor facility body (F B R, 838), which comprises a nuclear reactor effluent leak control dual structure block tank nuclear reactor main body 794 for a nuclear waste treatment reactor installation,

(593,594,595) Nuclear power plant main body (1) Inside the center of the fuel rod, uranium enriched in uranium-235 to about 20% is mixed with natural uranium and plutonium, surrounded by natural uranium This fuel rod contains plutonium from uranium 238, which is used as the next fuel while at the same time the coolant uses liquid metal sodium and there is no need to decelerate the neutrons so that the moderator does not contain the intermediate heat exchanger, (593,594,595) of the marine power plant (1) inside the main body of the nuclear power plant while the turbine rotates by converting the water into steam by the heat of the liquid or sodium, while the heat exchanger has the transition from the intermediate heat exchanger to another liquid metal sodium The double tubular block piping lines 74 located at Nuclear waste location movement path by means of device Nuclear radioactive pollutants are detected by a number of temperature pressure sensors Temperature sensor of safety valve Sensors are located at the temperature of 700 to 800 degrees Celsius inside reactor and the pressure is high Level sensor, the temperature and pressure sensor transmits an alarm message to the computer in the safety control room, and at the same time, a plurality of safety sensors for temperature and pressure sensing sensors are opened, and the pressure block internal piping line (74a) The nuclear waste is stored in each of the block tanks, and the temperature-sensing sensor safety valve 472 connected to the inner block tank at the lower part of the pressure vessel is opened. At the same time, the outer block piping line 74b is filled with the fuel Explosion-proof Control Supplies Nuclear Fuel Explosion-Proof Control Products Auto-injector Flashing Warning Light (99) A level pressure switch 104 for controlling flow rate check to a thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 101 and a temperature sensing bimetal 102; And the safety valve 472 of the automatic pneumatic valve conveying device 916 is connected to the upper portion of the reactor building 688 to form a plurality of through holes at a predetermined angle of 45 degrees with a laser cutting machine and a construction machine drill machine, A plurality of safety valves 472 are connected to the bolt 24 and the nut 25 in the block piping line 74 while forming a double piping line 74 in the plurality of through holes, A double structure block tank 598 having a size twice as large as that of the reactor building 688 along the outer wall surface of the nuclear reactor building 688 is connected to the outer block tank for nuclear waste processing storage, (599) and the radiation- (681) and outside the reactor core (681) to the ground with nuclear fuel explosion-proof control equipment just before the reactor explosion. (1) of the nuclear power plant of the ocean as a connection structure of nuclear reactor main body (811) as a nuclear fuel explosion prevention control article to form nuclear power plant nuclear power plant main body (1) Nuclear reactors (Nuclear reactors) Nuclear reactors (Nuclear reactors) Nuclear reactors Leakage control Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors It is preferable to put the nuclear reactor main body 838 into the structure of the reactor facility main body 838 to further operate the nuclear power plant.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

(593,594,595) of the marine power plant The structure of the disaster prevention device on the distribution side (705) of the disaster prevention line that hides the typhoon of the disaster prevention device constituting the inside of the nuclear power plant main body (1)

The unmanned camera 184 is connected to the rope knot claw 630 and the marine cable car 256 to the injection nozzle and the diaphragm rubber balloon 628 and the rope rope 629 in the seabed, A weather forecasting information gathering machine of a dual structure nozzle hose and a double structure fire hose (9) in a fire prevention pump (8) and a satellite firefly pipe (130) and a weather forecasting observation (958) (960) and the alternative use sail (959), the electronic control unit of the disaster control pump control system and the control system (150), and the air supply unit. In order to solve the warming phenomenon of the planet as a result of the structure, the earthquake caused by the vibration frequency of the sound and the earthquake in the earth and the disaster area of the sea in which the storm dwells is the artificial waterfall which replaces the connection structure of the cranes boom band (942) A radial, dense and dispersed submarine mineral deposit with air clouds (130), a sail substitute sail (959) and a tower cradle replacement tower crane The crane boom band (942) replaces the emission of water over the sea and over the sea. Sound vibration frequency, sound vibration and wavelength transmission, as well as the emission of blown water into the trunk canals and piping crevices. At the same time, At the same time, while disrupting the occurrence of severe typhoons, lightning arresters (500) are mounted on the Abber Run (77) and Airship (78) in the area where the cumulonimbus and stormy clouds stay with the disaster prevention devices on the distribution side (705) (840) The control tower of the mooring tower (644) is a meteorological observation equipment on the roof of the control room. The control tower is used to maintain the hull from lightning and lightning, (593,594,595) Nuclear power plant main body (1) Structure of disaster prevention device on the distribution side (705) of the disaster prevention line that hides the typhoon of the disaster prevention device into the inside of the main body (1) So as to further perform the operation of the nuclear power plant.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)

(593,594,595) of the marine power plant (593,594,595) The number of injected water jetted into the gap of the spray nozzle inside the main body (1) of the nuclear power plant is designed to simultaneously prevent natural harmful conditions To form a reciprocating pistonic air compressor 80 in order to reduce the power of the compressor 80. The compressor 80 is operated by an electronic control unit and is connected to a pressure reducing valve or a safety valve A motor pressure sensor, a belt conveyor, an air suction filter and an afforter cooler are provided on the motor belt of a predetermined size, which are provided together with the first pressure check sensor and the second pressure check sensor, The tank is provided with a cooling water inlet and attached to the upper end of the channel base of the bed frame to provide air with the injection nozzle to produce air, High pressure hose is connected to the high pressure hose. It is formed so that the rising air current and the descending air current of the typhoon can be controlled together with the fine dust of the sand by the supply coupling means with the top and bottom of the sea surface, It is formed so as not to lose restorative power freely from natural disaster of typhoon. In addition, while performing strictly the regulations of International Maritime Safety Association, at the same time changing the clearance of spraying water at the dropping point of falling spraying water, And it is an irrational action that forms a continuous jet of continuous dropping water while at the same time it is transforming into a hot, windy storm, with the number of drops dropping unceasingly like the artificial waterfall of the same level At the same time, these scenes are supported by an unmanned camera, (593,594,595) of the marine power plant to the main body (1) of the marine power plant in order to control the rising air current and the downward air current of the typhoon together with the dust dust, The unmanned camera 184 and the weather observation equipment radiosonde weather observing line 840 are mounted in the baskets 42 on which the piles are boarded and are connected to the disaster prevention nozzle 945 and the submarine line wiring 946 by an underground line Container for Container Control System provided with connection structure Nuclear radiation leak control (NO) by furnace brick (948a) of furnace for continuous operation of rubber tube (947) and furnace (948) The double structure block tank furnace dust collector main body 794 is furnished with furnace bricks 948a of the blast furnace to supply electric power of the nuclear power generation power, (949) for controlling the diving buoyancy, and a thermocouple thermometer switch (950) for the temperature sensor. The small-sized crane boom stand (942) The large hydrostatic generator 943 is connected to the Phelber aberration 943a of the large hydroelectric generator and the Phelton aberration 943b of the large hydrostatic generator to the pump aberration 943a of the large- (951) and a military equipment submarine (953) for the harmful redeye suction and dust collector, while supplying power to the production power by the water pump (952) of the non-powered pump for the energy- A computer laser cutting machine 954 was installed to monitor the facility maintenance of the main body 1 of the nuclear power plant 593,594,595 of the marine power plant, In order to lock down the inevitability of all the military actions and actions that propelled the Yeonpyeong bombing accident and nuclear frenzy experiment in World War II, the Korean War, and the Cheonan, And the imitated statues to reflect the past history deeply in the center of the iron triangle in the center of the Korean Peninsula by the peaceful coexistence of Northeast Asia and the 1,200 km in the radius, At the center of the Korean peninsula, 190 meters above sea level, the inner part of the peninsula is referred to as Northeast Asia No. 1, and the radius from the circumference of No. 1 Northeast Asia 400 meters, and the distance from the center of the Korean peninsula to a radius of 18 km is called the 45th Northeast Asia. The total area of the United Nations national capitals is set at 1000 ㎢, the range of 600 km from the center of the Korean peninsula is called 1500 Northeast Asia, and the range of 1200 km from the center of the peninsula is called Northeast Asia 3000 and occupies the territory of peaceful sovereignty of the ancient ancestors. (955) installed in the offshore wind power plant (957), the wind turbine (957a) of the offshore wind power plant (957), the underground line disaster prevention nozzle (945) and the submarine line wiring (946) (593,594,595) of the offshore power plant while installing the wake-up sail (959) and the satellite weather forecast information collecting machine (960) on the distribution side (705) inside the main body (1) of the nuclear power plant. It is desirable to construct the nuclear power plant in order to ensure safe operation of the nuclear power plant.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)

(593,594,595) of nuclear power plant (593,594,595) Nuclear power plant (1) In accordance with the marine sovereignty line, it connects Russia's Bladibostok and Ulleungdo, and Dokdo to Pohang to transport energy resources and Yeosu and Jeju Island to marine tunnel , Connecting Pyeongtaek and Baekryeongdo with the Shandong Peninsula, connecting Pohang and the Japanese subcontinent to the marine tunnels, transforming into a one-day living zone, and at the same time, illegal fishing lines and illegal fishing vessels of other countries visiting the territory of the NLL Is a measure that can be passed by permission of access to the sovereignty area. The rope knot hooks (630) formed on the netting of the flagpole rubber balloon and the wire rope (19) Because illegal fishing boats can not pull the net after throwing a net on the fishing ground, At the same time, it is desirable that the main body (1) of the nuclear power plant of the marine power plant (593,594,595) is put into the structure of the disaster prevention device of the distribution side (705) constituting the utilization selection so that the safe operation of the nuclear power plant in the non- Do.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)

(593,594,595) of the marine power plant (593,594,595) Inside the nuclear power plant main body (1), it limits the range from the ground to the upper reaches up to 29 Km. Several of the floating docks that were formed were equipped with military sensor sensors to enhance the monitoring function to prevent the production of military equipment. By constructing them, Pyongan Island and Hamkyeongdo nuclear weapons manufacturing facilities were helplessly used as nuclear missiles When the missile is fired, the missile is automatically deployed in the opposite area to induce its own explosion, giving up all military provocations, And immediately carry out the cadastral work, and at the same time, The peace-preserving message of the more powerful weapon, Pto Sho (958), was reinstated in each region within a radius of 1200km from the center of the Korean peninsula, fulfilling its duties in accordance with the rights and obligations of establishing a new federal state in Northeast Asia, It is located in the off-shore area, where a number of military defense sensors are installed in the ocean and airspace, and a peaceful, non-disaster-free zone is constructed to support the marine power plant (593,594,595) 1) into the structure of the disaster prevention device of the distribution side 705, so as to further secure the safe operation of the nuclear power plant in the non-disaster area.

Preferably, the nuclear radiation leakage control dual structure block tank constituting the lifting type poison (593, 594, 595) nuclear power plant main body (1) of the marine power generation plant reactor main body 794 and the dual structure block tank pipe bridge 929, (937) Lifting dock (593, 594, 595) of a marine power plant of a connecting shaft provided with a connection structure capable of disassembling coupling shaft (593,594,595) The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body

(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)

(593,594,595) Nuclear power plant main body (1) Vertical structure of typhoon with the number of straight discharge of disaster prevention line that hides typhoon inside 10 km from the upper part of the sea surface In the upper part of the troposphere, (SLD) In order to eliminate the cumulonimbus as it falls on the upper sea level, the disaster prevention water should be installed at the upper end of the northern pole and at the equatorial point of the dual structure disaster prevention equipment pipe level line (958) The crane boom zone (942) is provided to transport the rain clouds to the bottom of the sea 10 km below the sea level. By providing distribution input, natural disaster prevention like waterfalls without pumping will be carried out like artificial waterfall. At the same time, The amount of atomic bomb dropped on Hiroshima is estimated to be one million. (942) of tower crane replacement tower crane (942) as a connection structure with pipe-level piping line (958) for dual structure disaster prevention system, Pressure hydraulic hose 190 connected to the high-pressure hose 190 at a distance of 500 m from the top of the sea surface of the connection shaft provided in the manufacturing of the disaster control pump control system and the electronic control unit connection structure of the control system 150 at the same time, (29) are formed within a length of 10 km, and pipe-level piping lines are formed on the sides of several float-type dockside towers. The tower crane is replaced by a small-sized crane boom zone (942) It is possible to change the course so as to provide the downward flow 926 to the upward flow 925 to reduce the damage of the land surface typhoon, By using the image information of the loess mixture, which is discharged from several nozzles on pipe level piping line made of non-ferrous metal with better efficiency than iron, In addition to typhoons, harmful red tide breeding is carried out in the main body of the marine nuclear power plant (1) while at the same time providing the reactor with cooling water and toothpaste- A mixture of toothpaste-like loess mixtures (927) filled inside the reactor core (681) and outside the reactor core (681) will immediately prevent the reactor explosion, while at the same time fulfilling its mission according to the rights and obligations of establishing a new South- (1) of the nuclear power plants of land and ocean, (593,594,595) to prevent sinking of the nuclear power plant main body (1) and to prevent the explosion of nuclear fuel and disaster prevention device of the distribution side (705) while providing the prevention of the explosion of the reactor while maximizing It is desirable to configure the nuclear safety operation to be more effective.

Preferably, the structure of the disaster prevention device of the distribution side 705 constituting the interior of the nuclear power plant main body 1 of the floating plant (593, 594, 595)

(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side (705) of the nuclear reactor plant main body manufacturing process of the nuclear reactor plant of the connection shaft provided for the connection structure capable of disassembling the shaft is installed inside the main body (1) of the nuclear power plant of the marine power plant (593,594,595) In comparison of the strong countries formed by the leaders of each country with the storks, the weaker countries should cooperate with each other in their efforts to live a better environment, and at the same time, the storks should not fall down to imitate the struggle, To imitate the stork's foot, and to prevent the legs from being damaged by gaps in both legs Tanks, bombers, bombs, bullets, satellites, missiles, nuclear bombs, and rocket bombs, all of which are distributed in the land, are designed to be internationally recognized as codes and norms, In order to save the world economy by fostering environmentally friendly pollution-free energy industry that uses electric power to overcome the global economic crisis, the weather conditions of any bad condition and the ships in the bombing state are sinking, The vessel shall be equipped with a vessel for lifesaving equipment according to the three dimensional image design of the ship so that the sinking accident of the ship can not occur and while carrying out its duties in accordance with the rights and obligations of the establishment of the new federal state of Northeast Asia, (948) of the ocean power plant, and the support of the marine power plant (593,594,595) Small body 1, it is preferable to configure a construction machine to the reproduction in heavy equipment by putting on the structure of the emergency unit of the dispensing side (705) be further made up the original safety accident-free operation of the world.

(Second Embodiment)

A second embodiment of the present invention will be described.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, as shown in FIGS. 1 to 9. FIG.

1 to 9 are cross-sectional views for explaining a method of manufacturing and installing a main body of a distribution input apparatus of a dual structure block tank pipe bridge tunnel apparatus for marine vessel alternate traffic apparatus according to an embodiment of the present invention.

Referring to the drawings, the dispensing apparatus of the double structure block tank 8, which manufactures in the industrial field of the marine vessel manufacturing factory or the heavy industry field metal processing industry,

Referring to FIG. 2, a key bed 30, which is a lower bottom pedestal adjuster, is provided to adjust the balance of the bottom structure of the main body of the double structure holding tank at the bottom barge hull, A shaft 32 to be coupled to the hole 31, a guide rail 33 for feeding deck deck upper end equipment, a block tank 8 having a helicopter stopper provided at the upper end of the floating pick- (35) for semi-submerged work line for underwater work for joining the structural tank frame, and a stopper plate (40) formed at the block connection portion of the double structure tank frame joint separation. (36) is equipped with a hydraulic cylinder mounted on a semi-submerged working line and is connected to a floating docking station The ballast butterfly valve (37), which is a control device for low diving and sea level float control, and the above-mentioned float-type hull engine and other motors, is required for prevention of sinking, Dr. Ventilation (38), a device of the HVISEI system that requires time, and a switch button-on door, which is a mineral resource intake suction control device of the hydrostatic pressure control device of the floating type poison ship, The turn-off door includes a closed hydraulic cylinder door 39, a stopper plate 40 having a perforated plate of a plurality of processing holes for blocking foreign substances from entering the pump inlet at the ballast butterfly valve 37, An air piping line 41 for preventing sinking of the hull and an emergency engine for extending the prevention of hull sinking are provided, For preventing access to other vessels, a rope 44, which is composed of a tie rope and a tie rope, and a rope connecting knot claw 45, which are constituted by a tie rod and a floating tie rubber balloon 43, The emergency stairs (46) and the elevator alibite (47) are installed inside the block tower and are composed of a conveying device (48) for the transportation equipment of the mineral resource machine equipment and the conveyance device (50) and an air lifting and discharging type air lifting line for lifting the hull of the sinking ship. The parts of each of the above-mentioned distribution and input devices are manufactured at marine ship manufacturing factory or heavy industrial field industrial site, ) Is characterized in that the safety assembly method is carried out inside the main body (1) after the on-site movement.

Thus, there are provided a life-and-death disaster prevention line 49 for preventing sinking of a ship or a double pipe structure tank block, a semi-diving operation line 52 on which a band guide for binding a block tank for marine work is mounted, A large number of bollards (53) for berthing and hull anchoring are installed on the top of the holding tank top barge hull and the holding tank bottom barge hull deck deck. A number of bollards (53) .

As described above, the whole of the parts for lifting and listening is detected at the industrial site after being manufactured as a general ship, and the safety of the installation of the lifting console is secured so that the person skilled in the art can best attain the zero- And anchor chain (55) for anchors (54). The mooring unit constructed by the floating roof can be anchored to the sea floor to anchor the barge hull. When the sea floor depth is deeper than the depth of the continental shelf, After the floor is excavated, the jig 98 and the wedge 113 are connected to a worm crank 259 for a mooring facility for anchorage, and an anchor ring is provided with several umbrella-type wedge- When the flood control console is moored and fixed by the hydraulic cylinder actuator (35), the floating controller constitutes the drift inside the main body (1).

As described above, the air recuperator tank 56 for the air storage tank, which is provided for diving control of the floating pick-up hull inside the main body 1, and the cooling fan 57 of the air liquefier cooling mechanism of the HVAC system A heater fan 58 for raising the balloon and the tube in the air in the adboard 152 and the airship 153 having the connection structure and the nuclear waste disposal method at the marine nuclear power plant (59) and a space rocket launch pad (61) that will dispose of all those involved in the belligerent party who are involved in an international diplomatic dispute with the war and maritime pirates in a situation equipped with nuclear bombs And an air compressor (62), which is an air compressor, in the satellite (261) and the space rocket (262), on the mooring tower (60) An air typing winch 63 which is supplied with air from the air compressor 62 and a crane 64 which is installed by an upper end SDU of a floating pick-up hull deck, and a seesaw crane boom with a connection structure to the crane 64 (74) a wire rope (65) and a wire rope chain (66) to the boom hook hook of the body, a safety pin (75), and an air hose (67), a magnet (68) for an electric magnet and a pipeline line automatic pneumatic conveying device for a position-regulating moving device, which is arranged to transport yellow soil and cement by a high-pressure hose to a lower end portion (SDL) 69 and a mixing machine mechanical mixer 70 located in front of the pipeline automatic pneumatic conveying device 69 inside the main body 1 and a lever block 71 having a coupling in a double structure block tank unit By Tonnage Capacity A machining hole for male and female engaging is provided in a bracket 73 for securing the reassembled object with the turnbuckle 72 and providing the bolt-nut connection to the holding tank or the auxiliary tank attaching portion while being engaged in block tank units, The position of the flange and the flange connection portion welded to the tank is such that the rubber packing 108 of the gasket is connected to the middle of the large flange 28 by the clearance of the flange 28 to be able to withstand high pressure, ), A double-structure block tank flange and a flange are coupled to the inside and the outside of the block tank (8) with a high-strength bolt and nut. In order to simplify the bolt position identification, a bolt A screw tab is formed inside the main body (1).

On the other hand, in the double structure block tank 8 located at the position where the bottom line wiring 244 is connected to the interior of the main body 1 by the inside of the main body 1, the above- The pressure air generated by the air compressor (62) mounted on the line (52) is provided with an air hose coupling to store the pressure air inside the double structure block tank to detect defects in the welding area of the double structure block tank If there is no abnormality, an appropriate amount of air is stored in the double structure block tank so that the rope 44, the wire rope 65 and the wire rope chain 66 are connected to the tug 51 at the upper part of the sea level surface (SLL) (2) to the interior of the main body (1), and a double structure block tank movement is provided to the sea safety assembly site at the uppermost level of the sea level located at a position having the submarine line wiring (244) Constructs.

Referring to FIGS. 1C and 1M, the double structure block tank 8 constructed by completing the transfer process into the main body 1 is connected to the double structure block tank unit, (AB), (BC), (AC), (AB), (AR), (AQ), and (A), (A), (A), (AM), and distance, respectively. In the method of manufacturing and installing the floating type dishes (4,5,6) of the main body, the developed view of FIG. 1 l] will be described as follows.

The double structure block tank 8, which is located in the main body 1 at the position with the connection structure submarine line wiring 244, is a triangular symmetrical type ABC (AB), (BC) ) And (AB'C ') are the angles (60 °) of the three sides which are constant angles of the positive triangular (AB) (BC) (AC) The connecting block 8 of the structural block tank 8 is provided with a connecting block 8 of the connecting block 8 and the connecting block 8 of the connection block 8 of the holding tank lower baring hull 3, And a connection structure to a Bellevast butterfly valve and a solenoid valve provided in a connection structure with the Bellevest balancing tank for diving adjustment of the barge ship hull, and a connection structure to the solenoid valve is provided at one side of the landing surface block SLU. Ballast control valve equipped with solenoid valve opening The main switch button 142 of the main switch button 142 for the switch button is provided so that the electrolytic water for diving control is filled in the barge hull while the barge hull is slowly submerged in the water while the buoyancy is lost. A vertical block tank pipe bridge pierced with a shaft for coupling the block tank and a lug pin is provided in a single number of lug processing holes at a site point, And a submergence preventing stay line 229 of a submerged ship which is provided with a submergence controlling device in the main body is distributed and supplied.

A double block structure having a single vertical columnar lug on both sides of a holding block tank having a portable lug connecting a block tank of a barge hull to the inside of the main body 1, The lengths of the three sides of the triangle of (AB) (BC) (AC) of (ABC) and (AB'C ') with the connecting shaft 8 of the holding block tank 9 of the block tank 8 are the same, (BC) is about 12,621 meters in height when it is about 10,000 meters in height. It is a column of the center of the double structure, which is the vertical column in the center of the floodplain, at the altitude (AL) ABC) and (AB'C ') are symmetrically symmetrical to each other and are connected to the vertexes at the point (A) of symmetry, and the semi-submerged operation line 52 and the tugboat 190 are connected to the mobile phone of the short- The work process is carried out to prevent sinking to the inside of the main body, By allocating method provided can be adjusted to the body (1) with a connection wiring line structure sea floor 244 to a location inside the input unit is configured.

Here, a plurality of vertical lugs on both sides of a holding block tank having a block tank-attachable portable lug of a barge hull are connected to the inside of the main body 1 by a single vertical processing hole portion at one side and a connection structure with a lug- The two symmetrical variables ABC and AB'C 'with the connecting shaft 8 of the holding block tank 9 of the dual structure block tank 8 are such that the inclination angle 91 is at an angle of 45 ° When the length of the height of the vertical column AL is increased, the inclination angle 91 is enlarged and the area of the triangle is enlarged, so as to prevent the sinking of the inside of the main body, The main body is constituted by distributing and inputting into a position having a connection structure bottom wire line wiring 244 inside the main body 1.

The block tank DE having a horizontal structure in the triangle ABC, which is provided with anti-sinking floats to the interior of the main body 1 so as to be able to control the inclination, is disposed between the block tank BD and the block tank CE, And the block tank (DE) is connected to the block tank (AB) and the block tank (DE) by means of an automatic transmission type valve, while the tank unit block is provided by a single pipe type flange joint, (BC) and block tank (CE) parts are provided with the shape of the attached reducer (111) attached to the control piping, but with the symmetrical (ABC) (ABC (ABC), (AB 'C'), and four sides of the barge hull are separated by an empty space angle of the hull. (120 °), leaving an empty space at an angle of 4 Four tank triangle joining means In the lug of the float coupling lug 21 and the lug coupling pin shaft 20, the machining hole 29 is machined vertically and horizontally symmetrically in the two machining holes 29 (ARS), (AQT), (APU), (AOV), and (AUV) horizontal horizons of the sea surface after being bound in one location by one pin shaft 20 in one processing hole in two processing holes. (ANW), (AMX), and (ABC). After the completion of the partial bonding at the upper end of the flood control console, one block tank installed in one of the processing holes was firstly submerged and then the barge hull As the block tank portion on one side that is not joined floats on the water, the two machining holes are aligned in a hinge type at the time of vertically shifting the position, and the remaining lug pin shaft 20 is connected to the spring or hydraulic cylinder key 35, Holding tank top barge hull (2) Recycled And the main body 1 is positioned at a position having the connection structure submarine line wiring 244 inside the main body 1.

At this moment, a plurality of vertical lugs on both sides of the holding block tank having the portable tank-attached portable lugs of the barge ship hull into the main body 1 are connected to the pin shaft for lug coupling with a single vertical processing hole portion on one side. The tug line with the connecting shaft 8 of the holding block tank 9 of the dual structure block tank 8 equipped with the connecting rods 65 and tug ropes 44 is connected to the vertical connecting block tank 9 connecting shaft 8, (4, 5, 6) holding tank top barge hull (2), and the lug (21) according to the pipe diameter size. ) And the pin shaft 20 are recognized and sensed as being varied, while at the same time, a block tank portion of one side not engaged with the barge hull is floated on the water, and the hinge type The remaining lug pin shafts 20 are connected to the inside of the main body 1 while the two lug pin shafts 20 are aligned with each other through a spring or a hydraulic cylinder key 35 to complete the re- (4, 5, 6) of the main body, which is located at the position of the main body (24, 24).

A plurality of vertical lugs on both sides of a holding block tank having a block tank coupling portable lug 21 of a barge hull are connected to a lug coupling pin shaft by a single vertical processing hole portion on one side of the main body 1, In order to identify the diving position equipped with the connecting shaft 8 of the holding block tank 9 of the double structure block tank 8 equipped with the air tank, the rubber tube 227 for air supply for the inside of the container is provided with a rope, And an odd number of shafts which are fixed to one side of the vertical side lug 21 and have an engagement with an odd number of the processing holes 29 of the vertical lug 21 are connected to the upper float line hull 2 of the floating tank top tank and the upper side barge hull 2 The even number of shafts having the coupling to the even number of the machining holes can be connected to the inside of the main body 1 while the rears of the floating barn ship upper barge hull 2 are fixed by the fixing device, The assembly of the main body of the support sikdok (4,5,6) of the body which is located in position with the sea floor wiring line 244 is composed.

A block tank engaging portable lug (not shown) having an odd number of processing holes 29 and an even number of processing holes 29 or an odd number of long holes and an even number of long holes 31 at the upper and lower ends of the barge hull at the upper end of the holding tank of the main body 21) as a holding tank and an outer block tank as an outer block tank, a holding tank and an inner block tank provided with a connection structure with a belestevalasing tank for controlling the diving area, and an outer block tank. The table-top table is equivalent to the barge hull and the table table leg is equivalent to the holding block tank of the barge hull. Because of this, the desktop table is easily manned by the manpower, In order to make it easier for anyone to open and straighten the holding block tank of the barge hull at this sea level, the barge hull is spread on the sea surface and a connecting block structure is provided on one side of both sides of the holding block tank having the portable tank- (SLU) and at the same time, the Belrest butterfly valve which is connected to the Belestevalasing tank for diving control of the barge hull and the ballast control valve which is connected to the solenoid valve is opened by the solenoid valve start switch button main switch When the on-time main switch button 142 of the button 142 is provided, the electrolytic water for diving control is filled in the barge hull while the barge hull is slowly submerged into the water while the buoyancy is lost. At the same time, (21) A single vertical column lug (21) on both sides of the main block tank is connected to the pin shaft for lug connection with a single vertical processing hole at one side, while at the same time, the horizontal column block tank pipe bridge In the state of a single vertical lug with connection to the barge hull and lug Horizontal state of the position of the forefront of the forehead in the position of the connection of the connecting block to the side of the barge ship hull in the water at first, ) Is equipped with a seam at the bottom of the ship, and at the same time, the stern shaft of each connecting block tank which is not connected to the hull of the barge is vertically adjusted to the vertical position on the top of the sea surface while at the same time, 2) is not connected to the barge hull. (2) Connection of the distributing and inputting device to the connecting shaft position at the same time while connecting the stern tanks of the connecting shaft tanks and the holding tank upper barge hull (2) at the same time Submersible and semi-working submarines Barge lines and tugboats Shipbuilding line Construction of marine cranes and anti-erosion and anti-aircraft structures built on the ship's rescue line All-marine vessels Substitute injection devices And the automatic manufacturing process of the fixing and termination of the mooring device is provided with a connecting structure so as to provide a foundation for the installation of the anti-sinking floodproofing plate. In order to enable the submerged part of the pipe bridge to be submerged, Pressure air generated in the air compressor (62) of an odd number of prime movers When the solenoid valve pressure switch of each solenoid valve 151 is manually depressed to the on-time main switch button 142 of the solenoid valve start switch button main switch button 142, the fly valve 37 is opened and the main switch The main switch button 142 of the start switch button for the start switch button 142, which stops the operation of the fly valve 37 when the fly valve 37 is fully closed, , The fly valve 37 is expanded and the pressure air generated by the air compressor 62 is passed through the piping line while being operated at the same time, A ballast control valve having a connection structure to a sprung butterfly valve and a solenoid valve, While the one-side portion is freely shifted to the position of the hull, and the electrolytic water is filled from the submerged portion to the bottom of the sea, and then gradually sinks to be joined to the shank and lug fins A vertical block tank bridge pier is provided, and at the same time, a sink prevention control dish is provided to improve the production efficiency to acquire the reservoir resource reserves, and a method of adjusting the inclination can be provided. In addition, And a distributing and inputting device for allocating and inputting the sinking prevention stay line 229 of the sinking ship which is provided to the inside of the main body 1 to constitute a main body positioned at a position having a connection structure with the submarine line wiring 244 .

Preferably, a plurality of vertical lugs (21) on both sides of the holding block tank having the block tank-engaging portable lug (21) of the barge hull into the main body (1) are lugged (8) of the double structure block tank (8) with the connecting shaft (8) of the double block tank (8) 9 is filled with electrolytic water and gradually sinks to form a block tank bridge pier in a vertical state in which a shaft for joining the block tank and lug fins are coupled to a single number of lug processing holes 29 at a jointed portion, (229) of the sinking ship having the submergence control device provided in the main body is provided to the inside of the main body by arranging the submergence preventing stay line (229) without the coupling of the tank bottom barge hull (3) To the distribution chute for building reliable body (1) it consists of be made to prevent sinking of the body which is located in position with the connecting structure submarine line wires 244 to the inside.

The third stage is able to select the hydraulic element by reading the hydraulic symbol indicated in the circuit diagram.

The order of the following exercises is

First, prepare for work.

First, the hydraulic circuit diagram is read.

Next, select the hydraulic element shown in the circuit diagram.

Next, check whether there is any abnormality in the hydraulic test equipment.

Second, the hydraulic element is assembled.

First, the hydraulic element is fixed on the hydraulic work plate.

Next, connect each hydraulic element using connecting hose.

Check the connection.

Check and check the connection of each hydraulic element and the connection hose for abnormality.

Third, the test works.

First, count the start switch.

And align the pressure relief valve using the input to 40kg _f / cm ^2.

On the other hand, the forward and backward movements of the single acting cylinder are made by switching the position of the 3/2-way valve. Also, check the pressure of p1 and p2 during forward movement and record in the record chart of Table 6-4.

Next, in order to arrange the exercise device

Power off the hydraulic power unit after cleaning.

Confirm that the pressure of the pressure gauge after shutoff is 0 kg _f / cm ² .

Next, connect the hydraulic element using connecting hose.

Also check the connection elements,

Check the connection of each hydraulic element and the connection hose for abnormality.

After the inspection, the test operation is performed.

Turn on the ignition switch after operation.

And align the pressure using a pressure relief valve to 40kg _f / cm ^2.

Use the 4/2-way valve to complete Table 6-5.

Arrange each hydraulic element after completion.

Power off the hydraulic power unit after cleaning.

Confirm that the pressure of the pressure gauge after shutoff is 0 kg _f / cm ² .

After confirming, remove the hydraulic piping and trim the parts.

<Table 6-5>

[Fourth Embodiment] In the countermeasure against the intermediate stop of the hydraulic cylinder

First of all,

First, the function of the pilot operated check valve can be explained.

Second, the intermediate stop system of the cylinder can be constructed.

According to the training sequence,

Prepare for practical training.

First, select the parts required for the exercise in Figure 6-8, and place it on the fixing plate and fix it.

Use the hydraulic hose to pipe the parts placed after fixing, as shown in the circuit diagram.

Test operation after piping.

Supply power to the hydraulic power unit after the test.

After the supply, the valve <2> is actuated to advance the cylinder.

After the movement, the valve <3> is operated to move the cylinder backward.

Next, put a weight of 20kg _f on the cylinder.

Next, the valve <2> is operated to advance the cylinder to the intermediate position of the stroke.

And arrange exercise equipment.

After the trim cylinder is fully backward movement, and the pressure of the pressure gauges such that the 0kg _f / cm ² operates the valve <3>.

Power off the hydraulic power unit after operation.

After shutting off, remove the hydraulic piping and trim the parts.

[Embodiment 5] [0082] According to the speed control of the hydraulic cylinder

Practice goals include

First, a meter-in speed control circuit of the hydraulic cylinder can be constructed.

The following can configure the meter-out speed control circuit of the hydraulic cylinder.

Prepare a meter-in speed control exercise by practice sequence.

Then select the parts necessary for the practice of Figure 6-12 meter-in speed control and place it on the fixing plate and fix it.

Use the hydraulic hose to pipe the parts placed after fixing, as shown in the circuit diagram.

Next, test the operation.

Supply power to the hydraulic power unit after the test.

It adjusts the set pressure of the pressure relief valve determining the maximum pressure of the feed system after a 50kg _f / cm ^2.

Then, adjust the adjustment screw of the throttle relief valve so that the completion time of advancement of the cylinder in the no-load state is 10 seconds.

Check the pressure and time of p1, p2, p3 during the forward movement after adjustment and record in the record table of Table 6-6.

After recording, apply a compressive load of appropriate strength by using the brake lever of the cylinder.

On the other hand, the procedure of (4) is repeated.

Repeatedly release the brake lever of the cylinder and then applies a tensile load by the weight (20kg _f).

(4) is repeated.

After repeating, arrange exercise equipment.

Power off the hydraulic power unit after cleaning.

Confirm that the pressure of the pressure gauges after blocking is 0 kg _f / cm ² .

After confirming, remove the hydraulic piping and trim the parts.

Next, prepare the meter-out speed control exercise.

After preparation, Fig. 6-13 Meter-out speed control Select the parts necessary for the exercise and fix it on the fixed plate.

Arrange the arranged components after deployment by using a hydraulic hose as shown in the circuit diagram.

Then, the operation test is performed in the same manner as in Section 2.

In the same way as in Section 3, the training apparatus is arranged.

Also prepare the counter balance valve exercise.

After preparation, select the parts necessary for the counterbalance valve exercise shown in Fig. 6-14, and fix it on the fixing plate.

After fixing, use the hydraulic hose to connect the parts placed.

Then, test the operation.

Meanwhile, in a no-load condition the pressure p3 during forward movement so that 20kg _f / cm ² to adjust the adjusting screw of the pressure relief valve.

Also, arrange the exercise equipment in the same way as in 3..

<Table 6-6>

관계지식

Relationship knowledge

■ Meter-In Speed Control

■ Meter-out speed control

As described above, in order to develop the marine environment industry into several marine power plant bodies 1, a space rocket launch pad 646 is mounted on the satellite launch pad 643, which is equipment for space science development, (611) and space rockets (612) are mounted on the deck top deck (SDL) of the marine power station floodplain (595) deck of the United States. have.

The following is a summary of the comprehensive ocean disaster prevention system for the development of marine environment industry in several marine power plants.

The total equipment installed in the floating pick-up 593 is made of stainless steel or aluminum and plastic. The piping or block piping is manufactured by using steel plate 597 of high tension, and is transferred to the tug line 636. After confirming the presence or absence of the piping (598), each of the connecting portions of the double pipe structure type block pipe (598) at sea is formed by a single body of the decomposition and coupling unit.

The block piping 598 is connected to the upper end of the lower middle floodgate 594 of the small floodgate 593 and then the lower floodgate of the middle floodgate 595 and the upper end of the floating floodgate 595, After assembling at the sea level, the disaster prevention water is pumped to the inside of the flood control room, the suction and discharge are controlled, the diving is proceeded, and the frame connection of the float type and the pyramid type is performed. After adjusting the welding connection method and the flange connection method, The pivotal plate 607 and the porter bladed pin shaft 606 for connecting and disconnecting the pipe 598 are connected to each other by pin shafts at a sea level, and the connection connecting lines are formed by welding in a zigzag symmetrical manner. Frame joint separation and block piping connection Large flange (614) by underwater cutting and underwater welding The marine work Diving workbench 621 is provided with a band guide 621 and a semi-submerging operation line 631 for partial connection of a large flange 614 connection port block piping 598 to the top of a semi-submerging operation line 637 for marine work, And a plurality of block pipes 598 are formed by operating the oil pressure switch 623 by adjusting the installation position of the block pipe.

The flood control unit is installed at the upper end of the flood control console 34 at the upper end of the sea water surface SUL and at the upper end of the flood control center by a tackle winch 137 inside the emergency pivot 631 block tower 116, A block unit block steel tower 116 is formed by inserting the steel tower 116 into a unit block steel tower connection fitting hole 615 with a lug shaft coupling bolt 603 and then coupling with a lug shaft coupling nut 604 The emergency staircase 631 is formed at the position of the mooring tower 644 of the airship 78 and the lower end of the airship tower is positioned at the bottom of the lower portion of the airship tower, In the case of the elevator 632 installed on the transport crane 861, it was positioned below 100 m below the sea level SLL in order to protect the tunnel of the tunnel 929 from the storm surge

The disaster prevention water 7 is supplied to the disaster prevention water hose 9 during operation of the high pressure piston type disaster prevention pump 8 that supplies the disaster prevention water 7 to the upper end of the upper portion of the Moirring Tower. The disaster prevention water is discharged to each of the disaster prevention nozzles 10 provided between the nozzle 10 and the fire hose connection node 65 or between the disaster prevention nozzle 10 and the water supply pipe connection fixed type disaster prevention nozzle 10, The bottom of the basket 42 on which the pile at the lower end of the lower portion of the weather observation equipment adverbone 77 or the radiosonde 134 is lifted to the uppermost position of the flood receptor by the wire rope 19 and the shackle 23 or the disaster prevention nozzle connection flange 28 The hose of the wire rope 19 for protecting the disaster prevention nozzle and the gas transportation means lighter than air is joined to the inside of the disaster prevention hose,

Accordingly, the disaster prevention water is discharged to the end portion of the disaster prevention nozzle by the operation of the high pressure piston type disaster prevention pump, and is sprayed in the form of a straight discharge spray 38 or a radial discharge spray water curtain 39, The portable radio communication terminal 82 of the high pressure piston type disaster prevention pump system 150 inside the safety control room and the switch 66 for controlling the operation of the disaster prevention pump or the control switch for operating the disposal water for the disaster prevention water, A supply control box (2) is distributed and connected to a safety control room or a disaster pump operating machinery room

The burner boom 920 for removing harmful gases used for crude oil and the generator chamber of the air receiver tank 145 or the large generator 213 are disposed on the right side of the large iron tower 595 of the large- The mixing system of the loess soil 158 and the cement to fill the borehole with the loess soil 158 and the cement 931 after the oil borehole work and the mixing system of the MUD Feed M / C RooM; (Hereinafter referred to as &quot; mud feed room &quot;). The above equipment is formed inside the body 1 of the marine power plant.

On the left side of the block, a pyramid-type frame coupling separation uppermost position deck deck helicopter station 619 is formed at the upper part of the safety control room and the weather observation equipment management room or the control room, and the satellite launch pad 643 and the inside of the satellite launch pad And a space rocket 612 disposed in the upper part of the upper deck of the floating deck deck to protect the marine environment by introducing oxygen and air into the sea by an air compressor and a net air hose to prevent harmful red- The pipe rack 854 for connecting the crude drill rod to the upper portion of the central position block steel tower is bound by the air tongue winch 137 inside the block steel tower or the wire rope 19 of the crane 861, Drilling machine (908) for crude drilling at the top of shaft bottom core drill (917) (912), a mining collection trough (924) and a limestone basket (842) for collecting manganese nuclides (909) And an anode (electrode plate, 938) is attached to the outer wall of the hull so that the cannibalism or marine life does not exist outside the floodplain and tunnel dock

The bottom of the upper part of the floating deck deck deck is provided with a double pipe structure of the inner pipe 596 and the outer pipe 599 of the pyramidal type nozzle frame at the bottom of the float bottom, And an iron plate bracket 165 for supporting the piping to move the excavated soil and the noxious gas generated in the stratum after the pulsating operation in the crude oil is formed by the equilateral hexagonal shaped steel pipe 149 The Tylong steel bar 600 and the O-ring steel bar 601 which support the inner pipe or the outer pipe are connected to the diaphragm manhole 610 of the vertical partition wall 605 and the scallop welding hole 602, Discharge water channel Manhole cover (152) The gap between the joint and the horizontal partition (609) are welded to the piping of the double pipe structure after being uniformly formed over the welded part.

The flange joint portion is joined to the flange machining hole by a bolt 603 of high strength and a nut 604 of high strength, and a gasket or a rubber packing (32), and a block pipe is formed at the joint portion of the tee elbow (44) or the disaster prevention pipe attached elbow (44) with the disaster nozzle frame connection, and the searchlight (232) or undersea survey lens glass and underwater light (843) is an outer wall of a vertical tank, and a parasitic type disaster prevention nozzle frame is formed at a predetermined distance from the outer wall of the outer pipe, and the outer wall of the outer pipe has a dis- tribution nozzle support frame attached to the outer panel. The split portable lug 21 is coupled to the pin shaft 606 or the hydraulic actuator 623 for pin engagement and the large flange 614 is double- And a joining portion pin 608 for block coupling with the elongated hole 616 of the joining portion pin joining for block joining is manufactured by machining the lug plate and moving it to the sea level so as to be assembled in a marine manner, When the object is exposed to the sea level due to the fluctuation of the birds by dispersing the load of the object by dispersing the load of the object, it is necessary to prevent the occurrence of large accidents due to collision with the marine vessel. Lt; RTI ID = 0.0 &gt; 100 &lt; / RTI &gt;

The vertically and horizontally diagonal or symmetrical vertical tanks of the floating nozzle frame and the lug plates and lug pin shafts in block units are connected to the joints of the block piping units on the sea level line. After docking and floating are repeated, Discharging water (7) is discharged to the upper side of the sea surface by adjusting or adjusting the pressure of water, and the disaster prevention water (7) is discharged through the discharge nozzle (38) and the radial discharge water channel curtain so that the power of the typhoon is suppressed and global warming is prevented, The power generated by the head tank of the large generator 213, the Franciscan aquifer 229, the Pelton aberration 230, and the offshore wind power generator 231 is supplied to the land and subjected to submarine excavation by the power thereof, (841), pollution-free natural gas (922) or manganese nodule (909) that is loaded on the bottom of the seabed. (937) piers (928) and construction of underwater tunnels. It is a multi-purpose multi-purpose equipment that includes non-disaster marine disaster prevention and harmful red tide relief equipment and comprehensive disaster prevention system The boom 651 of the conventional construction machine is installed on the sides of the deck deck of the barge main body 591 and several seesaws 935 are installed on the side of the deck deck so that the crane boom can be used as a long axis along the depth of the sea. The equipment of the present invention can be selected from the weather forecasting and weather prevention policy institute of the international society as a device for constructing a foundation concrete pier at the bottom of the sea floor by 20 km and suppressing the course of the typhoon so as to realize the accident-

A vertical support frame 11 supporting the control nozzle 10 installed inside the crane boom 651 in the middle between the control nozzle 10 and the connection hose connecting part of the control hose and the upper support frame lower support frame, (15) of the spraying nozzle (10) of the radiation type are freely manufactured and installed, and the flood control valve which stops the harmful tide is moved to the tugboat, and the high pressure piston type control pump and the air compressor The water is discharged to the outside of the nozzle in the form of a straight discharge jet or a radial water curtain 39 like an artificial waterfall by the control nozzle 651 and the control hose 9, Compressor is operated so that the new crew and air in the bottom of the sea bed together with the bottom of the seabed before the harmful red tide can be controlled with air and the injection nozzle (10) This equipment includes spraying and pre-elimination of harmful red tide occurrence or preventive method, and harmful red tide remediation equipment and comprehensive disaster prevention system equipment for marine disaster prevention and development of marine environment industry are installed in large fire and harmful tide. It is desirable to prevent natural disasters and man-made disasters by pretending that they do not know about typhoons (such as typhoons that cause the drought) As there is so much content, the beginning of the quilt route is halfway, so to avoid boredom, the parts that are not explained yet will be explained by inserting pictures.

As mentioned above, inside the body of the marine power plant (1), the lower half of the crude oil drilling rig that sells the submarine oil is the old technology level such as sinking in the water and acting as a buoy. This role is not limited to crude oil drilling rig, Because it is a shipwreck or a sinking ship due to the storm during the voyage, the influence of wave is less at 100m below the sea level. Therefore, considering the safety level (object) In order not to be sunk, the water is submerged for a while in the typhoon and the storm. At this time, the rubber balloon 914 of several containers 132 is attached to the hull by the air compression chamber 402 and used continuously

A motor body 192 and a shaft 198 formed on a horizontal center line MBCL of the motor body 192 are disposed in a central portion of a center portion of the motorcycle body 192. The impeller 148 and the impeller A pump 127 attached to the shaper 198 on a pump to which the vane 142 is not attached and a generator 213 formed inside the power plant, The main valve on the side of the generator lower pump turbine 264 of the power plant formed integrally with the body and the balance valve in the Phelton aberration 230 in the Francis turbine and the turbine 267 pump 140 are connected to the plunger pump 198 and the high- The pump 127 is connected to the propeller pump 146 and the viscous pump 343 so that each of the pumps can be separated from the shaper in the pump body casing 141 by several microcomputer controls Stage type multi-stage pump 8 is disposed inside the marine power plant body 1 Are formed in conventional oil rig is a sharp difference from those conventional in that it secures the hull to the sea floor 10km of the invention in place to secure the ship to the anchor (anchor) operation on the continental shelf regions within a depth of 200m.

The multi-stage multi-stage pump 8 includes a plurality of isolation valves 5 formed inside and outside, a valve integrated with a fluid pressure and flow rate control and flow rate control oval type valves, A second pressure sensor 87 is attached to the first pressure sensor 86, a sensor switch integrally controls the flow of the disaster prevention material in the pipe, and a carbonic acid gas 174 fire extinguisher A plurality of water collecting tanks 34 and a plurality of pressure tanks (head tanks 189) for storing the fire arms 159 and the helium gas 176 in the hearths 124 and the loess 158, The upper and lower portions of the tank 295 and the high-water tank 295 are connected to the upper portion of the tank by screwing the bolt 24 to the screw holes 167 on the manhole cover 153 and the hatch cover 154, 153) After attaching the gasket (32) to the machining hole (20), the bolts are fixed using a hand tool monkey spanner and the angle Several tank tanks 295 are connected to the ignition sense wire 41 and the non-ignition wire 178 so as to be movable along with the tent 43 and the tent 43 The wire 178 is fixed to the tent fixture frame by binding to the central portion of the vinyl pack or the tent tent and the vinyl pack node portion and is fixed to the trench fixing portion by replacing the tie rods 41 with the several tanks The fire extinguishing piping line 168 and the fire extinguishing water pipe 168 are connected to the inside and outside of the several pressure tanks 189 and the several collecting tanks 34, (10) of the pipe nozzle (10) is divided into a basic 1 type and a basic 2 type according to the standard fire hose (9) standard, and the flange (28) is connected to the firefighter nozzle and the coupling (29) The tube nozzle (10) A plurality of generator generating electric powers 685 are first supplied to the inside of the marine power generating plant body 1 such as a device formed of a fire sensor pump body having a plurality of movable pipe nozzles formed in the hollow car 256, 929 can continue to run at a speed of 500 km / h.

The cable car 256 continuously supplies electric power 685 to the connecting point between the high and low mountain 395 and the oceanic pipe bridge tunnel 929. The cable car 256 is connected to the lower surface of the mountain surface The steel tower 116 for operating the car 256 is assembled by putting it on each corner of the roof fire fighting cabin 394 of the high and low building near the beach of the sea bath, A driving wheel roller 135 and a feed wheel 256 formed of several wire ropes 19 are installed on the top of the steel tower and a winch 137 on the top of the steel tower 116 is connected to a mountain top portion The tugboat winch 137 is installed at a lower portion of the cable car 256 and is connected to the power generator 261 of the power plant 267 or the engine generator 226, (46) is connected to a transformer (96) connected by several electric wires and a transformer And a plurality of power motors 192 for controlling the sensors of several solenoid valves in several compressors and a control module 106. The control module 106 is connected to the fire control cable The load of the object of the fire water 7 inside the fire hose 9 is dispersed in the vinyl tent 43 type collecting tank 34 formed integrally with the pump extinguisher 124 attached to the wire rope 19 And a fire sensor pump body formed of a plurality of air lines 78 and ropes 131 in several of the plurality of add-ons 77 on the lifeline basket 42, And the voltage 684 of the transformer 96 of the substation is adjusted for each house in the world

A power motor 198 of the pump 8 is attached to the upper surface of the three-stage multi-stage pump 8 and the diaphragm pump 144. The diaphragm pump 144 is connected to a rubber membrane or a Teflon membrane 538, The piston 127 and the cylinder 126 are attached to the crank handle handle formed by the crank 248 and the link belt 249 and then the airizer storage tank 145 formed by the air compressor 80 and the air hose A gas cylinder 171 for storing and storing the disaster prevention material in the intercooler 170 and the pump extinguisher 124 is installed in the fire pipe cable 256 in the air piping line 181 formed by the nacelle 109 and the nipple 110, (1) is connected to the interior of the body (1) as an accident-free fire-fighting and disaster prevention countermeasure product. The inside of the body-type fire-fighting power generator Respectively.

It is possible to use a water pump 393, which is a non-dynamic pump, to generate a large-sized fire or water in less than one second without receiving the power supply 46 from several generators 213 or several engine generators 226 of the several hydroelectric power plants 267 Explain how forest fire evolves as follows.

The water hammer (water hammer) 389, in which a high pressure is generated when high-level water flows through the water hammer pump 393 using the potential energy of the fire water (fluid) without a power pump or a compressor, A head tank 189 having a corner ridge formed to control the potential energy is provided in the same manner as the head tank 189 introduced into the inlet pipe located on the upper surface of the inlet pipe 267, A plurality of water collecting tanks 34 are provided at the upper and lower ends of the collecting tank 34 and the collecting tank 34. The collecting tank 34 is connected to the lower end of the high pressure bowl tank 303 formed on the upper surface of the collecting tank 34, The water hammer pump 393 is connected to the crane boom 651 of the seesaw 935 in the ocean so that the crane boom of the lower portion of the sea level SLL 651 &lt; / RTI &gt; If sea levels can top end (SLU) to the water hammer (389) from bursting while and then pumped km wooge Chamber is potential for hurricanes

(45 ° angle, 44) socket is formed at the lower end of the horizontal center of the bowl tank 303, and then the spring safety of the front surface of the introduction pipe 191 below the top of the collecting tank And a valve 473. The head tank 189 is provided with a plurality of Tee elbows 44 of a Venturi tube type in the sea under the sea, The amount of pumped water is increased or decreased according to the adjustment of the speed of the simple movement of the suction port 269 in the form of a hopper.

When the fire water 7 flows into the introduction pipe 191, the fire water 7 is stored through the intake ports 269 of several head tanks 189 of the ridge lines and the discharge port introduction pipe 191 of the tank 189 is installed A spring type safety valve 473 is closed on the front side of the intake port 269 of the collecting tank 34 formed below and the safety valve 473 is fully closed by the flow rate, (Lift-type check valve, 453) is opened (opened) by the pressure, and the flushing water is pumped out by the pressure. At this time, by the water hammer action (389) The lift type check valve 453 is closed but the explosion water 7 can be pumped by the air pressure inside the high pressure bowl tank 303 and the safety valve 473 is opened. When the forward pressure is lowered, the valve 473 is forced by spring 186 The fire water 7 is introduced again into the introduction pipe 191 and the above operation can be repeated to continue the positive water supply. In this case, the water pump 383, which is formed by integrating several water hammer pumps 393 in the corners of the water hammer action 389, Is attached to the lug (21) and the shaft (198) on the side of a plurality of deck decks on the side of the floating deck deck side of the marine power plant body (1).

A plurality of fixed fire-fighting nozzles 10 (see FIG. 1) formed at a distance of 50 m from the agomatone-level fire-fighting hose 9 are provided on the lower surface of the water tank tank 259 of the mountain top surface upper portion GLU inside the several ridge- A bolt 24 is inserted into a flange bolt connection hole 20 (not shown) so as to be able to disassemble and disassemble several flanges 28 formed by a body of a pipe 14 provided with several nozzle holes and a plurality of gap- And the nut 25 is connected to a bolt screw tap so that the water pump 393 integrally formed with the paraffin nozzle cap 100 in units of the fire hose 15-meter unit after being connected to the hand tool monkey spanner is connected to the air compressor (Non-power pump) that raises the water level by ejecting the compressed air supplied from the water pump 88 to the lower hole of the water pipe 89 and a flexible high pressure Hoses (190) So that the jetting water 38 and the jetting water film 39 ejected to the outside of the body of the firefighting nozzle 10 in which the fire fighting and disinfection piping line 168 is formed are dropped without a rest, The first stage is a multi-tiered non-powered pump with a primary order of 2400km in diameter, a multi-tiered non-powered pump, a sensor tank, an unmanned camera with a sensor system and a control system (1) of the marine power plant (1) integrally formed with the main body (184) is combined with a non-emergency fire prevention disaster prevention countermeasure product. In the event of a forest fire in the area or damage caused by a criminal act, the fire marsh nozzle (10) And it can be used as a water gun or water cannon to prevent an artificial disaster in advance. Thus, a tunnel 929 is formed by the army line (military demarcation line) and the NL L line.

A suction port 269 integrally formed with a high-pressure low-speed air compressor 80 and an intercooler 170 integrally formed with a two-stage squeeze compressor 80 in which heat is dispersed by an oil cooler 151 without an aft cooler 182, (1), which is formed by a bed nozzle (172) and a curtain membrane (39) inside a building, is connected to an air tube (130) The fire-fighting device of the fire-fighting and disinfection countermeasures of the present invention is characterized in that it is combined with an anti-disaster countermeasure product. .

The detailed construction of the present invention will be described below with reference to the flow chart of a process in which generators of a power plant generating production power in a conventional land by moving in the marine power plant body 1 are installed in the following embodiments.

The following chart is a manual generator.

The following is the external view of the thermal power plant on the land as in the case of Hado.

(626) power plant inside the marine power plant body (1) as shown in FIG.

Hado is the motive for installing the old regional power plant inside the marine power plant body (1).

Hado is the geothermal power plant's generator (815) structure

In the top view, a well 854 device is placed over the bottom of the barrel main body 591, above the bottom of the turndox body 1, i. E., Above the magma mass 819 at the bottom of the sea floor where several wells 654 and geothermal heat 820 occur. A plurality of anchor replacement crankshafts 846 are installed on a separate construction machine 880 at the bottom of the barge main body 591 and then a gas liquid separator 818 And a plurality of condensers 790 are installed on the lower surface of the thermal power generator 792. The condenser 790 is connected to a plurality of piping of water 7 on the lower surface of the cooling tower 816, Pressure substations 690 in which several transformers 96 are formed by the transmission line 695 are installed inside the marine power plant body 1 to generate large-scale factories (698) and so on.

Hado is the old nuclear power plant (672) on land.

The installation of the nuclear reactor containment vessel 813 of the power plant 672 on the bottom of the seabed is very similar to the geothermal generator of the geothermal power plant.

And the turbine 267 and the generator 772 were fixed to the upper portion of the bottom of the deep sea bed in the bottom of the barge of the body 1 of the marine power plant.

5 is a partial perspective view of the solar power plant 799 formed on the upper part of the barge main body 591 inside the marine power plant body 1.

Hado is a solar generator structure.

(935) in the present invention. In 1964, when the applicant in the fourth grade of elementary school filled in (explicitly) the method of connecting the small bulb (661) line to the test answer, only one of the elementary school students I was awarded a commodity (listed on five bundles of noodles such as school supplies) from the teacher of the subcontractor.

Hado is a secondary substation (700).

Nuclear energy is one of the less polluting sources of energy than fossil fuels. This nuclear energy is in the spotlight as a new power source for the future.

However, this nuclear energy is not without problems. Not only are the reserves of uranium as a raw material for nuclear energy limited, but the more troublesome problem is the disposal of nuclear waste.

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

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

There are many ways to get energy from the ocean. Tidal power to generate energy using tidal and tide movements, wave power to generate energy using the power of waves, and seawater temperature difference power to obtain energy using the temperature difference of seawater. By using these methods well, we can get unlimited pollution energy from the sea.

The power of tide and ebb

Already in the 14th century, some of the coastal areas of Holland and England in Europe were using the power of tide and ebb, or tide, to turn a wheelbarrow. The following records are reported about these spinning mills.

'Residents use the sea in various forms in real life, for example, there is a waterbath in the back of the coast. Build a dam in the subdued area, and make a gate with two doors. These doors are opened by the force of the flowing tide, and after the time of high tide they are closed tightly by the force of the tide. The waters that are trapped in it will be turned back to the sea in return for being released back to the sea. "

In the case of the United States, a tidal mill was constructed in 1635 using the forces of tide and ebb. However, this tidal mill was insignificant in terms of energy production.

The facility that uses electricity to generate electricity is currently located at the mouth of the Lans River in France. The picture on the next page is the view of the Lanx tidal power plant 213.

The prominent feature of the Lance Power Station is the 24 new turbines that use the energy of the flowing water as a momentary force. When the seawater flows in, the wings of the turbine (267) are pushed by the force of the water and turn and generate electricity.

During high tide, each turbine becomes part of the dam (680) and seawater is trapped in the reservoir. As the seawater recedes and falls, the doors of each turbine open, and the power begins to regenerate back into the sea.

This unique turbine 267 also acts as a motor. Once the power is supplied, the pump will be moved, and the flow of seawater will be increased to increase the overall output.

This type of generator can be installed wherever the tidal range is large. The west coast of Korea is also considered to be a strong candidate for tidal power generation because of its large tidal current. As described above, since the tidal generator 800 of the present invention is a tube-level seesaw type feng-shui power generator, it is remarkably different from the conventional technology.

In the wave generator 689 of the wave power plant 679,

In 1909, he announced that someone invented a blue generator. The person who invented this proved to be able to turn the waves that shake the sea into energy.

This generator was to send the power of the wave caught by the board in the water to the spinning machine to turn the generator.

However, it only ended up lighting a few light fixtures hanging on the power cord. As the oddly shaped devices sank by storm, the people of the world forgot about it.

However, this design was not outrageous. As technology advances in recent years, it has been found that it can be the basis of an effective generation device.

In recent years, several wave power devices have been newly developed. In the meantime, the interest of the world gathered in the design which can develop on a large scale.

This is to fill a concrete frame with a water-sensitive liquid or gas in the concrete frame near the shore. The force of the waves coming from this frame passes through the liquid in the bag and is transferred to the coastal power plant.

Another kind of wave power generator is showing good. This is what you see in the picture below, which is not much different from the principles of the 1909 wave generator.

The generator is located about 10 meters from the coast to the sea. The surging wave rushes the third aberration, and the waves are pushed to the outside of the device and turn the other three aberrations.

The power generated by a single wave is only 5,000 watts, but enough to supply clean, cheap power to remote islands.

In order to produce power on a large scale with the power of waves, more intensive research is needed in the future.

In the use of sound electromagnetic waves,

Hado is a classification of the aquifer class into 10 levels.

In the present invention, a seawater (935) crane (861) boom (651), which is a separate construction machine (880), was used in the present invention.

The air cylinder 138 or the actuator was installed in the front section of the fire damper 583 into the inside of the marine power plant body 1 and several doctor ventilation 585 inside.

In 1982, when the ship was built in Smeralda Big Norway, the fire damper (583) could not be operated and the ship would need to be rated as Class A, but the applicant had devised a damper operating drone (107) It has been registered with the International Maritime Safety Association as the A grade in the ship stability class F, and the national level has been improved.

The diagram is a diagram of how to install the motor actuator (848) of the leech device.

The topography is a condition that the conditions (temperature and air distribution) of the altitude of the upper atmosphere of the sea surface (temperature and air distribution) are transmitted to several construction machines 880 (880) installed on the side surfaces of several barge main bodies 581 of the marine power generation plant body 1 The seepage 935 crane 861 is constituted by equipment of the role of returning the cloud 653 of the troposphere height and the descending air current 926 of the troposphere to the rising air stream 925 to the boom table 651 It is a search for the elevation of the atmosphere in the mechanism. Typhoons, floods,

The following explains satellite (including those based on meteorological observations) and the conventional method of predicting the typhoon according to meteorological observations.

The center pressure is usually about 970 ~ 930hPa, and it is very strong when it is below 930hPa, and the maximum wind speed on the ground reaches 50m / s or more.

Table 6. Pressure drop in typhoon

The record of the central pressure is 912hPa, which was observed on September 3, 1935, at 891.7hPa in Key West, Florida, USA, and the next at 21st March 1934, at the Muro Damisama in Japan. The record of the sea was recorded at about 400 nautical miles east of Luzon Island in the Philippines, at 886.7 hPa on August 18, 1928, when the ship "Sapaerea" was observed. When the typhoon "Marge" landed on August 23, 1951, It is the second record with a value of 887hPa from the sea.

1.7 Typhoon forecast method

Rapid forecasting of the hurricane's course or movement is the most important issue. However, the current advanced meteorology and forecasting techniques are incomplete. Until now, many researchers have used statistical methods and ephemeral methods by numerical model as objective forecasting method of typhoon movement.

The KMA uses statistical methods such as PC method, Climate method, Cliper method, and similar method. In mechanical method, Korean typhoon model is operated as a weather forecast computer to predict the predicted position of typhoon objectively. In addition, the following methods, which are synonymous with weather maps, are used as reference data to select the most likely route.

The width of the speed forecast is not shown, but the range of the probability source is set by imagining the maximum speed as long as possible without causing any disaster prevention. Therefore, when the velocity is slowed near the turning point, the actual and actual movement is likely to differ greatly. The probability source varies from time to time as the position and velocity of the typhoon change. Therefore, whenever a new weather data is available, it should be placed on the boundary with new typhoon information that is corrected and announced.

As described above, in the past, it was delivered by broadcasting media. However, it is very insufficient to prevent the damage of typhoon, and the present invention is a technique of a remarkable difference from the previous one. The rainfall cloud 653 and the cold air lump descending airflow 926 are introduced into the tank-level manomethen doctor ventilation 585 and the air chamber 402 by the upward flow 925 ), Which is a remarkable difference from the prior art level.

Next, in the engine-type rock drilling machine 847,

Usage It can be used as a rock drill when the concrete structure is to be opened easily by the engine type at the site of the collapse of various concrete structure collapsing site. It can be used for the breake application by replacing the bits of the novy and the kata when the concrete structure is crushed.

No. 1 engine type: 75cc 1 cylinder 2 strokes

        Fly tank capacity: 1.1L, Weight: 15Kg

        Power source: volatiles, oil 12: 1

        Hitting power: 14.3J

        Crushing capacity: 2.200 / min

        Others: Reciprocating stone type with compressor

In the configuration, several striking bits 940 are formed in the main body of the jacket 847

1)

2, 3) striking bit

*Characteristic :

1) Maximum working diameter: ¢ 51mm

2) Working depth: 2.54m

3) Adjustable rotation speed

4) Underwater blasting operation, Noiseless vibration free operation

* Specifications:

1) Steel type: 41/4 "× 1" hex

2) Number of rotations: 0 to 300 RPM

3) Weight: 30kg

4) Length: 66cm

5) Width: 46cm

6) Pressure: 105-140 bar

7) Flow rate: 26-34 LPM

The following are rockets (612) for launching satellites and spacecraft from previous nations

Hado is a nuclear rocket (612) formed in the future satellite.

In the IC (I.C) circuit, like Hado,

The following is the diode,

The following diagrams are pure silicon single crystal structures.

The following is a method to reduce the damage of noise vibration by substances other than bombs when digging the seabed

The lower drawing is a detailed description of the power-saving metal used in the transformer 96. Fig.

Next, in the submarine mineral harvesting robot 912, the reference numeral 912 is formed of a shape memory alloy.

When the battery 671 made of new material stores the electric power 685 by the battery 671 when the lightning strikes, it becomes an energy bank of the world without accidents.

The following are the laser beams used in each industry,

In a superconductor, the following description is given.

The following subsection describes the superconductivity.

The superconducting generator will be described in detail as follows.

As for the development of the computer and the new material, the detailed explanation is as follows.

First, according to the development of the IC and the computer

Currently, integrated circuits are used in many ways in our lives. Electronic circuits, electronic clocks, cameras, televisions, and so on. In addition, it is used in many fields such as airplane and train reservation, bank credit card and so on.

Because integrated circuits are parts of electrical products or computers, they do not know where they are used on the surface. However, the size of a small electronic calculator or a wristwatch can roughly estimate the size of an integrated circuit.

The reason why integrated circuits have become so popular in our lives is the invention of transistors. In 1946, a vacuum tube was used to develop a computer that did not fit into today's compact electronic calculators. The vacuum tube had poor performance and the number was 18,000, so it was often broken and it was hard to repair. Since the appearance of transistors, computers have become smaller, perform better, and can do much more quickly.

A computer using a vacuum tube is referred to as a first generation, a transistor is used as a second generation, an IC is used as a third generation, and an LSI or a VLSI is used as a fourth generation. Currently, the fourth generation is used. 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 oxide film is formed on the surface, and the properties of silicon which is stable, high in purity and excellent in 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 obtain raw materials. Silicon is the next element of oxygen on Earth, and is present everywhere in soil, stone, glass, and so on.

The performance of silicon integrated circuits is getting better every year at an amazing rate, but there is a limit to the fine processing of silicon.

Particularly important is the speed at which electrons move, depending on the material. In order to operate the transistor faster, a new semiconductor is needed that can 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 made without semiconductors

The IC, the heart of the computer, can be made without a semiconductor. Even if it is not silicon, it is possible to have an on / off function when an external signal is input.

Josephson devices using superconductors

Josephson devices using niobium, lead, and the like use superconducting phenomena with a resistance of zero, and can work much faster and with less power than current integrated circuits.

● Molecular Electronics

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.

In the fifth optoelectronics,

Optoelectronics refers to electronics using light-related devices, such as optical communication or 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 light emitting devices such as semiconductor lasers and light emitting diodes. 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, about 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.

For rotary cylinders (rack and pinion type -NRP, 620), it is the same as the above.

The following side view is an excavator used on land, but with an excavator 845 equipped with a skew drill

So that the hydraulic cylinder 623 and the excavator 845 are combined and disassembled by the crane 861.

After disassembling the hydraulic cylinder 623 and the excavator 845 after the excavation work, the bolt hammer for detaching the bolt nut for the pillar foundation column work is used to nail the nut to raise the foundation pier at the bottom of the bottom of the sea. Barge main body (591) This equipment is mounted on the deck deck.

When the electric heater of the nichrome wire 659 is installed inside the doctor ventilation 585 in front of the fan 195, the heater fan 642 for keeping the air warmed blows hot air. The cooling device and the hot air balloon are devices used in the transformer room 782, the central control room 781 and the like in the engine 226 and the like of the power generator.

A guide vane 142 of a blower used together with the fan 195 is formed inside the marine power plant.

The underside is in the form of several blowers 941 mounted inside the marine power plant body 1

The lower shaft is an assembling method of the bearing 200 and the like on the impeller 143 of the body of the blower 941 and the shaft 198.

Hado is a test list according to the model of the cooling fan (641).

The top view is a position explanatory view of the operating method of the press (switch) of the cooling machine out system and the manual control system.

The top figure shows manual, out switch operation method.

The lower portion shows a process of re-injecting the Freon gas by connecting a vacuum pump (Vacum pump, 635) to the condenser lower gauge manifold valve.

The drawing shows an external perspective view and an internal frontal view of a small air conditioner (DIPY-5KV) capacity.

1 is a perspective view and a front sectional view showing a medium-sized air conditioner mounted inside the body 1 of a marine power plant.

FIG. 1 shows a large air conditioner having several built-in units in a marine power plant body 1.

A plurality of air conditioners having a large capacity formed in the interior of the marine power plant body 1 are installed in the air compression chamber 402 inside the power plant body 1.

The table shows the efficiency of the boiler standard welding in the thermal power generator structure of the marine power plant.

<Table 1-18 Welding Efficiency of Japanese Boiler Standards>

The following describes the type of welding ornament and the choice of welding machine:

First, in the type of welding method

Welding is a method of locally bonding two or more metals in number, and about 40 types are currently used. Among the relatively important ones, some of the methods that are considered to be particularly important for those who are engaged in welding jobs are as shown in Table 2-1. These can be roughly divided into three types of welding, soldering and pressure welding.

<Table 2-1 Metal welding method>

Fusion welding is also called melting welding, in which molten metal is supplied or melted to the part to be welded. In this case, the base material (welded material) is also melted and no pressure is applied.

The pressure is applied to the part to be connected and it is heated as heat by combustion flame or electric current of gas or it is sucked as a function of surface tension in the gap of surface where other molten metal is connected without heating, The gravitational force is applied to bond.

Various cutting methods are used for cutting materials, welding joints, gouging, etc. in welding. Among these methods, there are methods using gas flame and arc as well as mechanical cutting. However, methods other than mechanical cutting are particularly related to welding. Among the coating metal arc welding and gas welding methods, oxygen and acetylene welding methods are particularly used Therefore, we will concentrate on this, and submerged arc welding and inert gas arc welding are also important 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 method and is often called electric welding.

In this welding method, welding is carried out by using the heat of arc generated between the welding rod to be coated and the welding object to be welded.

The principle of this welding method is shown in Figure 2.1. An alternating current or a direct current voltage is applied between the welding electrode and the workpiece (or the base material) held in the holder to cause an electric arc in the gap.

The strong arc of the electric arc (temperature about 6,000 ℃) melts the welding rod and the base metal. The welding electrode is made of metal vapor or the metal is melted into water droplets and welded to the melting glass. I make it.

When two materials are welded, when the material (base material) is thick, a groove is formed in the following portion, and the groove is filled as a welding metal and joined. The weld bead at this time is a bead surface, and the surface of the bead shows a wavy shape due to the solidification of the weld.

The welding rod is coated on the outer surface of the metal core wire. The cladding is decomposed by arc heat and is stabilized so that the arc does not turn off due to the role of the gas generated by the decomposition. The generated gas or slag covers the molten metal to protect the molten metal from the outside air to prevent oxidation and nitrification, The chemical reaction improves the molten metal and sometimes adds other elements needed for the weld metal.

Since the gas generated by the coating agent does not protect and protect the molten metal from being adversely affected by the air, the welded portion is weakened and weakened, so that the welding electrode is not used in the present day.

In 2.1, welding power source of AC or DC is used as welding machine. Other welding apparatuses include welding cables, welding rod holders, hand shields or helmet tools, and other tools required by welders.

Third, in the nature of Arc,

A voltage is applied between the electrode and the workpiece, and once it is contacted, an electric arc is generated that emits a bright blue light. A large current (about 50 to 400A) flows through this arc, which is divided into electrostatic and negatively charged electrons by the dissociation of metal vapor and various gas molecules therearound, And the anode, so that the arc current flows.

First,

In the case of coated arc welding, when DC welding power is used, this is called DC welding, and when an AC welding machine is used, it is called AC welding.

For red 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 a welding rod is connected to the cathode of a welding machine (abbreviated D.C.S.P.)

Reverse oplaritv When the electrode is connected to the positive electrode of the welder (abbreviated D.C.R.P.)

In the early days of electric arc welding, the coating of the electrode was not developed well, so the DC welding machine was used a lot, but after that, a good amount of arc welding electrode was produced, so the AC welding machine with low price was used a lot. Lt; / RTI &gt;

Next,

There is a phenomenon that the arc does not turn in the right direction during the welding, but it is sideways. This is especially so in the end or the first part of the weld that the arc is tilted as the wind blows into the inside of the weld, thereby preventing the welding operation from sticking to the desired spot. This phenomenon is called arc blow or self-deflection.

The phenomenon of this arc tip does not occur at the center of the workpiece.

As a preventive measure against arc

First, use AC welding instead of DC welding.

Secondly, it is most effective to use a method of welding a plate of the same material as the backing starp (about 15 cm ² ) to extend the weld line at the beginning and the end, and the first method is most effective.

Next, in the case of coated arc welding,

First of all about welding machine

The arc welder (Welder, 853) is designed to allow large currents to flow at a low voltage, suitable for welding, including DC arc welders and AC arc welders. There is also a single welder for one welder and a multi-welder for more than two people.

First, in a DC arc welder 853

There are two types of DC arc welding machine. 2.2 degree DC arc welding machine is an AC motor. It is a method of generating DC for welding by rotating a DC generator as an AC motor. 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, there is a switching switch to match the positive polarity and the reverse polarity because it is a direct current, and a positive or negative sign (+) or negative (- have.

In addition, a three-phase induction motor (commonly called a three-phase motor) is often used as a motor, but when the welding machine is connected to a power source, the power line may be connected incorrectly, and the direction of rotation of the motor may be reversed. In this case, if one line of thin wire is exchanged with another line, whether the direction of rotation is correct or not is immediately known as the direction of rotation is indicated in the welding machine.

2.3 is a selenium rectifying DC arc welding machine. Inside this welding machine, it is rectified to direct current by seren rectifier with external AC current. This selenium rectification type DC welding machine has developed recently and has no rotating part, low no load loss (power consumption when not welding), quiet, cheap and easy to repair, it compensates many defects of conventional rotary type, Has recently become popular. However, compared to an AC welder, it is still expensive and inefficient.

Secondly, in an AC arc welder 853

Due to the development of welding electrodes, the use of AC welding machines has been greatly increased since obtaining good stability of arc by AC. AC welding machines are widely used because they are relatively simple, cheap, and easy to repair. In addition, it is effective in preventing the arc from leaking.

The following three types of AC welding machines are mainly used depending on the method of current adjustment.

First, the movable iron-arc AC arc welder 853 and the sparging rizazzan AC arc welder 853 are used for the movable iron-arc AC arc welder 853

As shown in the principle diagram of 2.4 °, the current adjustment of the movable iron core AC arc welder is carried out by installing a _third iron core M ₃ in addition to the iron cores M ₁ and M ₂ of the transformer and changing the degree of easy passage of the leakage magnetic flux Adjust the size of the welding current. The normal case is of the n secondary windings _21, by switching the tabs on the n ₂₂ and the adjustment of a large range of current fine tuning is often that a movable iron piece.

The current adjustment of the movable-ring type is adjusted as a method of changing the value of the leakage positive tangent by moving the primary coil with respect to the secondary coil as indicated at 2.5 °,

That is, when the adjustment handle is turned, the primary winding is raised. The distance between the primary winding and the secondary winding varies in the secondary winding, so that the magnitude of the welding current flowing through the secondary winding changes.

In the saturable reactor type, as shown in Fig. 2.6, there is adopted a method in which a reactor is inserted in a secondary circuit in a straight line and excited as another power source (rectifier C), and the saturation degree of the magnetic circuit is changed to change the effective loudspeaker . In addition to being easy to adjust the current, this method can also use the variable resistor (C) in the figure to adjust the welding current farther away from the remote control welder.

Attention to use of the third welding machine

First of all,

In the welder, the ratio of the time that the arc springs between the welding rod and the base material on the secondary side of the welder is 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 the welding machine indefinitely is the temperature rise of the welder. When I think about 1 ~ 1.5 hours related to the temperature rise, the arc spattering time 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 usage rate is called the allowed usage rate. In other words

Here, the rated secondary current is shown in the nameplate of the welder, and the rated duty rate is also indicated as a percentage of 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 utilization rate of this welder is 50%.

Therefore, it can be seen that continuous use at this time does not interfere.

Next, in repair maintenance of the welder,

It is necessary to examine the presence or absence of welding by measuring the insulation resistance or the primary no-load current at least once a year for comprehensive maintenance of the welder.

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 is recommended to be used in places that are exposed to windy weather from outdoors, places where harmful corrosive gas is present in places where the ambient temperature is below -10 ℃, and places where there is a lot of steamy vapors or explosive gas in places where water vapor or humidity is high. There are places and places with a lot of dust, etc. Therefore, the welder should not be used in such a place for a long time.

In the specification of the third welding current and voltage,

When the 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 describes the inert gas arc welding (inert gas arc welding and carbon dioxide gas arc welding) as follows:

First, in the opening,

In its principles and advantages,

First of all about principle

Inert gas arc welding is an important welding method widely used for welding various metals, which was difficult to weld by gas welding in the conventional coated arc welding.

In this welding method, as shown in 2.37 ° and 2.38 °, the nugget's tungsten rod or metal electrode in the atmosphere of inert gas (inert gas), which does not react with the metal even at high temperatures such as argon or helium, The arc is generated between the objects to be welded and welded with the heat.

There are two methods, as shown in the figure, Teak Welding (TIG; 2.37 degrees) and MIG Welding (MIG; 2.38 degrees).

(TIG) welding is an inert gas tungsten-arc welding (TIG), which uses a tungsten rod as an electrode. It is welded to the filler metal by a welding method such as gas welding. The rod is welded while melting in arc.

2.39 degrees It is the bottom (TIG) welding of aluminum aluminum small runowout. It holds torch in the right hand and nude electrode (low rod) in the left hand.

However, in the thin plate, only the arc heat is welded without using the naked electrode.

Because tungsten is hardly consumed (monoconsumable), it is also called inert gas welding.

The product names are Heli arc, Heli weld, Argon arc, Argou weld and so on.

(MIG) welding is an inert gas metal arc welding method (MIG after the head of inert gas metal arc welding) or a method for generating arc by continuously sending (continuously) the electrode wire of the filler material instead of the tungsten electrode. Consumable (also referred to as consumable gas) inert gas arc welding.

2.40 degrees is MIG welding of aluminum alloy tank, Torch is the right hand.

Carbon dioxide arc welding (CO ₂ arc welding) is known as a promising welding method which is recently used for testing carbon steel welding using Co ₂ gas instead of inert gas of MIG welding.

In the following advantages

Inert gas arc welding is an excellent welding method and has the following advantages.

First, there is no need for cloning and flax.

In general arc welding or gas welding, it is necessary to use coating or flux to prevent oxidation and nitriding of molten metal, but in inert gas arc welding, there is no need for such welding because it is welded in inert gas. The operation is very simple because no mechanical or chemical treatment is required to remove the post-slag or residual (used and remained) flux.

In addition, in the case of aluminum (Al), magnesium (Mg), stainless steel or the like, there is no possibility that the welded portion is corroded by the residual flux as in the conventional welding.

This is because the inert 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, the arc of inert gas arc welding is very safe, has few spatter and is relatively easy to operate.

Because it is welded in all posture, more heat concentration and welding efficiency are good, it is advantageous that it is used in thin tube and welding speed is fast and 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 is advantageous in many ways because it can be directly welded and welded.

The quality of the third welded item is excellent.

The inert gas arc welded part is generally superior to the welded part of other arc welding or gas welding in terms of ductility (strength), strength (strength), airtightness (dense metal), and corrosion resistance Do,

In the case of an inert gas arc welding, the facility cost is rather high and the inert gas is rather expensive. However, since the welding work cost is rather low, it is widely used today, and aluminum alloy, magnesium alloy, stainless steel, nickel alloy, It is used for welding of carbon steel and low alloy steel and surface hardening. Especially titanium alloy, zirconium alloy, etc., only inert gas arc welding is used for welding metal which is likely to come into contact with oxygen or nitrogen in the atmosphere at high temperature will be.

In addition, TIG welding is generally suitable for thin plates with a thickness of 0.6 to 3 mm , and thick plates with a thickness of about 3 mm or more.

In other words, (MIG) welding is more efficient than (TIG) welding.

In his kind

Inert gas arc welding and related welding methods are roughly divided into the following types.

In TIG welding, there is a manual method in which a welder manually manipulates the electrode parts generating the arc, that is, torch and welding rod, in place of automatic, automatic operation using a machine, There are three kinds of semiautomatic, which are morter and semi-automatic,

In addition, there is an arc spot welding in which welding is performed as a spot instead of a continuous long welding, and a special (TIG) soil is also used for arc cutting, which will be described next in sequence.

In addition, the twin arc method of generating an arc between two tungsten rods as a heat source, such as atomic hydrogen arc welding, is also used by TIG welding.

(2) Inert gas Tungsten arc (TIG) welding

1) Features

In TIG welding, alternating current or direct current is used, and the polarity has a very large influence on the welding result.

① DC Welding (D.C Welding)

The flow of electrons and ions flowing through the arc in direct current welding is shown in 2.41 degrees.

In the positive polarity, the ions of the metal vapor and the inert gas are directed to the electrode, and the electrons strongly impact the base material, so that the penetration becomes intensively deep.

Since the electrode does not exothermically (generate heat) as a collision of a slow gas ion, it can flow at least a large current with a diameter. (Not described below)

It is called disaster prevention to prevent disaster by type of big fire, typhoon, tsunami or earthquake. It removes parasite which is full in the stomach and eradicates insect pest by spraying insecticide such as mosquito fly insect and eradicates harmful red tide In the present invention, "disaster prevention" and "control" are clearly distinguished and separated. The disaster prevention refers to the activity before the disaster and the control refers to the disaster recovery activity after the disaster.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be clear to those skilled in the art that the present invention is an instrument for recharging in a way that the efficiency is increased, and it is necessary to divide the large fire of the large forest fire and the neighborhood living area, As a result of disaster relief, it is the process of converting from the old transport equipment to the cable car as the wish for the hopeful tomorrow. It is used as a tank cleaner for each tank, and the worker is a disaster- Body (1) Generator Production Power (685) Of tubes seesaw level to 935-type crane 861 is able to continue to use the device of the boom (65).

Although the present invention has been described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications may be made therein without departing from the scope of the present invention, This application is intended to explain the structure of this application. This application is a chronic disease, unspecified due to industrial disaster. It is equipped with rehabilitation equipments to distribute, and the moment of life is finished. And to construct a tube-level seawater type feng-shui power generator of a non-disaster marine power plant.

Therefore, the actual scope of the present invention should not be limited by the above-described embodiments, but should be determined by the constitution equivalent to the claims as well as the claims as described below. (1) of the marine power plant body

(Third Embodiment)

A third embodiment of the present invention will be described.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Peace-keeping type of natural disasters that convert to dispute settlement methods to form peaceful settlement Shared water surface landfill with built-in disposal methods of pollution-free construction equipment To form a shared water surface embedding processing apparatus formed before and after the process.

In addition, the present invention is based on the fact that when one nation refuses or destroys the mutual agreement of the territorial dispute parties formed before and after the shared water surface landfill process inside the body of the shared water surface embedding apparatus, To one of the five United Nations integrated unified countries to change into the Oe Daejang. Based on the highly developed Convention on Peaceful Coexistence Treaty and the amendment of the Constitution, the Tibetan Plateau of the Himalayas, A shared water surface landfill system was constructed within the range of 2,400 km in diameter with a radius of 1,200 km from the center of the Korean peninsula. .

According to an aspect of the present invention for achieving the above object, a common shared water surface embedding processing device is a shared water surface embedding design plan formed at a time before a shared water surface embedding processing step inside a shared water surface embedding device, The total area of 2,400 km in diameter with a radius of 1,200 km from Samcheongri at the reference point is 4,521,600 ㎢ in the center of the peninsula (943) process in the form of a circular 3000-square circle in the form of individual round 3,000 squares is made up of a shared landfill 944 and a Tibetan plateau reclamation field 957 in the Himalayas in a shared reclaimed landfill 945, From the center of the Korean peninsula (942), it is divided into 360 sections from 1 ° to 360 ° to form individual parcels. A common concept of a unified Korea in the area of 3000 Northeast Asia, including the post-confirmation postal service, was established in 2003. Prior to the formation of the United Nations Integrated Landfill, the shared landfill process was shared with the landfill (944) 945) and the Tibetan Plateau Collection Site (957) in the Himalayas. In order to prevent the expansion of the military power of our country, which causes territorial disputes, Dokdo is our land, Sengaku is our land, leaders of the parties to the dispute (945) and shared landfills (945) by means of resolving territorial disputes so that all nations can share their territories and make peace in Northeast Asia automatically. And the World Peace can be achieved, when one nation refuses or destroys the mutual agreement of the parties to the territorial dispute, (945) and shared landfills (945) with shared landfilling processes prior to the formation of one United Nations integrated state, which is a new concept that is formed by changing land from land to land Until the last peaceful settlement is achieved for the peaceful coexistence of Northeast Asia formed inside the body of the shared water surface treatment system with landfill processing equipment equipped with a construction machine of natural energy pollution, hostilities and all forms of armed forces (959) and satellite communications (611) from all over the world to the land and the oceans of the world by reaffirming the wishes of all citizens and all governments to live and work peacefully, According to the weather forecast of the Korea Meteorological Administration, (944) and shared landfills (944) in ways that prevent various natural disasters such as large-scale forest fires, yellow dust, heavy snow, extreme weather, typhoon, earthquake and tsunami, landslides, 945), and various methods for controlling floods that can continuously cope with floods from the disaster to the landfill processing apparatuses of the flood control system in the manner of preventing various artificial territorial disputes, war, and terrorism It forms a shared landfill (944) and a shared reclaimed landfill (945), and is a peaceful coexistence that guarantees full halt of hostilities and all acts of violence in Korea surrounded by Russian territory in China and Japan in Northeast Asia, part of the Pacific region. In order to establish world peace coexistence for the purpose of establishing, it is necessary to unify (944) as a means of maintaining peace in the East, and the United Nations (UN), which transforms into a single, unified, A shared water surface embedding process with a non-polluting, peace-keeping type construction machine is provided in the shared water surface landfill 945, and the land surface disposal processing method having a natural-energy non- And the non-hazardous nuclear waste treatment reactor facility 962 of the nuclear power plant 961 equipped with the nuclear explosion preventive double structure block tank for the treatment of the nuclear waste are installed in the water pollution control apparatus 959 and the marine tunnel traffic apparatus 960 And the shared water surface filling apparatus body 1 formed in the shared water surface landfill 945 including the shared landfill 944 before and after the shared water surface landfill treatment process It is characterized generated.

Alternatively, the shared water surface reclamation design (943) formed before and after the shared water surface embedding process inside the body of the shared water surface embedding apparatus body (943) can be classified into the highly developed peace coexistence treaty treaty document and the Himalayan mountains Tibet Plateau Reclamation Site (957), etc., to select a well-preserved reclaimed landfill in the area where warfare occurred, and to construct a shared water surface burial system inside the range of 2,400 km in diameter with a radius of 1,200 km from the center of the Korean peninsula. And shall comply with the Northeast Asian peaceful coexistence conditions and regulations described in the following items formed before and after the shared water surface embedding process into the inside of the shared water surface embedding device body, China, Russia and Japan agree jointly and mutually, and the intent of these terms and conditions is purely In order to prevent the expansion of the military power of our country causing the territorial disputes, all military supplies are put into the blast furnace (803) and are formed by means of recycling with farming equipment (969) and construction machine (970) In order to solve the territorial disputes peacefully, the leader of each country, which is composed of one new, integrated nation, applies analogue system between the countries of the analog system of the post war before the war. (944) in order to make the best efforts to maintain peace in Northeast Asia by selecting the agreements and treaties between the digital systems within the range of 2,400 km in diameter with a radius of 1,200 km from the center of the Korean peninsula, And the shared water surface landfill 945 formed in the shared water surface landfill treatment apparatus body 1, It features formed upon.

Alternatively, in the Northeast Asia region formed before and after the process of the water surface embedding process in the body 1 of the shared water surface embedding apparatus, it is desired that a peace mechanism be established, Hoping to publicly and officially declare a common resolution to defend itself against attacks from the outside in order to prevent any potential invaders from hallucinating that Asia is isolated in the region, The Parties occupying the former territory of the Republic of Korea with the hope to maintain peace and security until the development of an effective regional security organization and to consolidate efforts for collective defense, In order to maintain peace in Northeast Asia, (944) and a shared reclaimed landfill (945) to allow for the payment of royalties to the United Nations body of the United Nations within a radius of 2,400 km, 1,200 km from the center of the peninsula, ) Of the water surface is buried in the body 1 of the water surface treatment apparatus body before and after the water surface treatment step.

In other words, all the territorial waters formed before and after the shared water surface treatment process inside the body 1 of the shared water surface embedding processing apparatus can be changed to the land, so that the northeastern Asian countries can not compete with each other due to territorial disputes. Continuously, we have the power to prevent natural disasters such as large-scale forest fires, yellow sand, heavy snow, typhoons, typhoons, earthquakes and tsunamis, landslides and nuclear radiation pollution, The territorial sea is formed as land and the land territory is formed by the global earth crustal variability versus transformation methods so that it can not continue the competition of arms race. Inside the Asian region, inside the peaceful sovereignty of the ancient ancestor, there are all the counties including the underground mineral resources belonging to the military material (971) In order to prevent the production and transport of water materials (971), the border area (972) from the Yalu River to the Tumen River, etc., allowed the International Peacekeeping Force under the United Nations Organization to provide transportation and transportation of military supplies between different countries, (973) to provide security for the international peacekeeping forces. In addition, the Northeast Asian region is equipped with both military and military goods (971) (974), submarines (975), fighter planes (976), and naval vessels (977) were formed to be able to supply and operate fuel and weapons under the control of the International Peace Keeping Army, ) In order to allow each country to enter and exit nuclear arms carriers (978), ships (974), and fighters (976) under the control of international peacekeepers, each country shall have the power and authority of peacekeepers (970) of the digital system, it is possible to prevent the burial process from being carried out under the control of the International Peacekeeping Force within the range of 2,400 km in diameter with a radius of 1,200 km from the center of the peninsula. And is formed in the shared water surface filling apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 so as to be able to perform the water surface filling process before and after the shared water surface filling process.

Alternatively, the interior and the exterior of the Northeast Asia region formed before and after the process of the water surface reclamation process inside the body 1 of the water surface treatment system of the present invention may be constructed by connecting bridges to roads and railways blocked inside the DMZ, Siberia and the Tenjin Mountains, and participated in the construction project of the Siberian oil pipeline (979) and the gas pipeline (980) to establish an unconditional shared water surface landfill system. In the Northeast Asia region, which is a new concept of integrated nations formed both before and after the process, both sides of the South and the North have a shared water surface landfill (944) formed in a shared landfill (944) and a shared water surface landfill (945) And is formed inside the apparatus body 1 before and after the common water surface treatment process.

Alternatively, the inter-Korean and intra-Northeast Asian regions which were formed before and after the shared water surface treatment process inside the body of the shared water surface treatment apparatus (1) abandoned their military rights, It is not possible to raise objections and objections to the establishment of the Organization for Northeast Asian Nations in the International Peacekeeping Force, and each group that violated it would have the right to exercise the rights of the WIPO International Convention Considering it as a crime against the authority and moral rights of the unified Korea 18th President of the Republic of Korea, elected by the Cooperating Organization and the Berne Treaty, all the workers of the power agencies of both sides of the Korean Peninsula are divided into one new unified national body In accordance with international laws and regulations. And is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface embedding process.

Alternatively, instead of abandoning the military rights, both sides of the North-East Asian region formed inside and outside the shared water surface embedding process body 1 before and after the process of the water surface embedding process, the volcanic eruption, (959), which can quickly overcome natural disasters such as earthquakes, large forest fires, Tsunami, typhoons, hurricanes, tornadoes, floods, droughts, Nuclear waste (983) disposal technology and explosion-proof reactor facility (962) are implemented in the Northeast Asia region in the first place. The cost of the right to maintain global peace by gradually spreading to the rest of the world according to feasibility evaluation The United Nations, the United Nations, the Korean Conflicts, and the people of the world economic superpower A shared landfill site 945 and a shared landfill site 944 so as to select a conversion mode to an internal country in the Northeast Asia region consisting of one new integrated country of the new concept, And is formed inside the water surface embedding apparatus main body 1 before and after the water surface embedding process.

In other words, the inside of the Nuclear Counterpoint 45 in Northeast Asia, which was formed before and after the process of the shared water surface embedding process inside the body 1 of the above mentioned water surface reclamation and disposal system, (981), glass (984), agate (985), amber (986), pearl (986), and pearl 987), and diamond (965), which are made up of a single new unified country formed inside the body of each shared water surface embedding device. And is formed in the shared water surface filling apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 so as to be able to perform the water surface filling process before and after the shared water surface filling process.

Alternatively, within the Northeast Asia region formed before and after the shared water surface treatment process inside the shared water surface treatment apparatus body 1, in the United Nations (989), the political independence or safety of any one of the territorial disputing Party At any time when recognizing that any Party is threatened by an armed attack from the outside, the Parties shall, within the Northeast Asia region consisting of one new, unified, ) Is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 so that negotiation can be performed in the common water surface landfill site 945 before and after the shared water surface landfill process.

Alternatively, within the Northeast Asia region formed before and after the shared water surface treatment process inside the body of the water surface treatment apparatus (1), in the United Nations (989), territorial dispute parties individually or jointly provide assistance and mutual assistance (990) of the Northeast Asian Nations (989), which corresponds to the appropriate measures to implement the Agreement and to pursue its objectives, shall continue to strengthen and strengthen appropriate measures to prevent armed attacks, (991) and hydrogen bombs (992) to Beijing and Tokyo to the respective territories of territorial disputant parties, which is composed of one new integrated Northeast Asia region formed inside the device body. A shared water surface landfill 944 and a shared water surface landfill 945 that are formed in the shared landfill 944 and the shared water surface landfill 945 so that negotiation and settlement can be made, Lee device body (1) is characterized by formed at the surface before and after the shared embedded into the treatment process.

Alternatively, within the Northeast Asia region formed before and after the shared water surface treatment process inside the body of the water surface treatment apparatus 1, in the United Nations (989), the territorial disputant Parties are divided into territories In the territory of the other Party, recognizing that each Party has legally entered the territory of the other Party under its administrative jurisdiction, recognizing that it would endanger its peace and security in the Pacific region and address common hazards In accordance with their respective constitutional procedures, the Parties shall act in accordance with the purpose and purpose of the establishment and establishment of the United Nations Organization (990) of the Northeast Asian Nations (989). The parties to the dispute are the Parties to the territorial dispute, Even after the dispute-inducing area, it is declared to abandon both the claims and rights of Japan and China, including the disputed area. The ruling power of the parties to the disputed territory of the territorial disputes is to make a complaint to the International Court of Justice for no reason, to determine the penalties of the book, and to determine the level of punishment, All of the residents inside the shared landfill site 945 form the shared landfill 944 and the shared waterfill landfill 945 by means of selecting the leader of the disappearance of the high- It is formed in the Northeast Asia region consisting of one integrated country formed before and after the shared water surface treatment process.

Alternatively, within the Northeast Asia region formed before and after the process of the shared water surface embedding process into the body of the above mentioned water surface treatment apparatus, in the United Nations (989), the United States of America The ROK grants it the right to deploy the Army, Navy and Air Force in and around the territory of the Republic of Korea, and the United States accepts it, and when any nation refuses or repeats the mutual agreement of the parties to the territorial dispute, It is possible to use the landfill method, which is formed as mountainous type so that the Tibetan plateau etc. of the Himalayas can be totally moved, and the landmine sediment (653) To be able to change to land. First, Northeast Asian nations If the territorial disputes between the two countries continue to compete with each other, the Northeast Asian territorial sea will be landed on land and the territorial sea will be transformed into a territorial change. The responsibility for this will be transferred to the governor of each country, The people of the disputing country and their rulers are obliged to share land with the landfill (944) and the shared landfill (945), which can not claim ownership of the territory within the Northeast Asian region, which is a new, In the inside of the body of the shared water surface embedding processing apparatus formed at the time of the water surface embedding process.

Alternatively, the Treaty of Northeast Asia Peace and Coexistence Treaty established before and after the process of the shared water surface embedding process inside the body 1 of the above-mentioned shared water surface embedding apparatus should be ratified by the Republic of Korea and the United States of America in accordance with the procedures of the Constitution, Russia, China and Japan should be equally ratified by the Constitutional Procedures, and they must be ratified on a shared landfill (944) and a shared reclaimed landfill (945) so that their ratification can take effect when they are exchanged in Seoul And is formed inside the body 1 of the shared water surface embedding processing apparatus 1 to be formed before and after the process of the water surface embedding process.

In other words, the Northeast Asian Peace and Coexistence Treaty (Northeast Asia Peace and Coexistence Treaty) document, which was formed before and after the shared water surface treatment process inside the body 1, WIPO International Treaty Organization, whose offspring are allowed to exercise their rights for 300 years, and the 18th President of the Republic of Korea who was elected by the Berne Treaty. (9) formed in the shared landfill site (944) and the shared water surface landfill (945) so as to implement the intellectual property right within the established Northeast Asia region, Feature.

Alternatively, representatives of the Free China and representatives of North Korea in the Northeast Asia region formed before and after the shared water surface treatment process inside the body of the above-mentioned water surface treatment apparatus (1) In addition to not being able to raise objections, in particular, the Japanese delegates and their nationals, who publicly declare their right to vote, are at the point of filing a claim with the International Court of Justice for the sovereignty of the Dokdo as World War II countries, And Tsunami and the earthquake volcanic eruption, etc. The author of the treaty document, which has taken a series of measures to prevent anger, is entrusted with the right to internalize the Northeast Asian region consisting of a new, The shared water surface embedding device body 1 forming the shared landfill 944 and the shared water surface landfill 945, It is characterized by being formed inside and outside the shared water surface treatment process.

Alternatively, the Chinese government insisting on the sovereignty of the Northeast Asian region formed before and after the shared water surface treatment process inside the body 1 of the water surface treatment apparatus is strictly warned that it is not free from the above-mentioned natural disasters And the Chinese government has also decided to dispose of the book books of the world which denote the Sea of Japan as the Sea of Japan and to dispose of historical relics such as Goguryeo, In the Northeast Asian region, which consists of one new, unified Northeast Asia region formed by the interior of the device body, the Cultural Heritage Administration has been established to collectively manage the floating world cultural heritage in the administrative capital within Northeast Asia. As a member of the international community, It is characterized by formed at decidedly then be able to share the landfill 944 and public waters public waters embedding processing apparatus body 1 around the embedded public waters treatment process to the inside to form a landfill 945 performed.

Alternatively, the process of installing the marine tunnel transportation device 960 formed before and after the process of the water surface embedding process in the common water surface treatment apparatus body 1 should be able to ensure safety from natural disasters, And the method of installing the marine tunnel transportation device (960) can increase or decrease the diving speed according to the loading amount of the pipeline weight (994) on the hull body and the hull due to the buoyancy control of the tunnel poison (993) (970) to the inside of Northeast Asia with the priority of safety production and installation standard of offshore heavy steel marine iron structure in the shipbuilding field during manufacturing process and installation process in transportation process so that it can re-adjust the installation process. The water surface is buried in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface embedding process It is characterized.

Alternatively, within the Northeast Asia Nation (989), which is formed before and after the process of the water surface embedding process, the dock facility in the shipyard may have a width × length, a length of 131 m × 530 m The block piping is set to the size of 20m × 30m × 500m, and the block piping is formed as one unit, and the block piping 598 is manufactured in the inside of the dock facility, A large-capacity portable lug 607 and a large-size flange (not shown) are provided with a diaphragm manhole 610 and a door 624 for a hydraulic cylinder at a detachment position of the block piping 598 so as to be able to repair the marine tunnel traffic device 960. [ The construction of the marine crane and the hunting and anti-erecting machine 877, which are mounted on the barge line 996 and the tug line 636 on the submersible vessel 995 and semi-working submergence line 637, Of machinery and mooring equipment The ball rack 638 and the anchor truck 639 which automatically form the canning and the cancellation are installed in the inside of the shared water surface embedding device body such as the anchor chain 640 and the rope 629, A construction machine 970 is provided inside the Asian region 989 to share a shared landfill 944 and a shared water surface landfill 945 into a shared water surface treatment apparatus body 1 before and after a water surface treatment process As shown in Fig.

Alternatively, a plurality of block pipelines 598 may be formed inside and outside the Northeast Asia region formed before and after the process of the water surface embedding process into the inside of the common water surface treatment apparatus body 1 by marine tunnel traffic apparatuses 960 And the marine tunnel communication device 960 is connected to the lug shaft coupling bolt 603 and the lug shaft coupling and disassembling nut 604 by a portable lug coupling And the manganese nodule 909 is formed of manganese 811 and nickel 812 with copper 813 and cobalt 814. The manganese nodule 909 is formed of a pin shaft 606 for use in a portable lug 607 and a pin 608 for a portable lug, ), And is loaded with crude oil 841 as other power resources and manganese nodules 909 under the seabed of 5000 m, which is more than the continental shelf region in the natural gas 922 There are several submarine mineral deposit net (910) on the undersea mining basket (842) And seaweed minerals air bag 849 and the like are formed in the seizure crane boom frame 821 to operate the seesaw crane boom frame 821 to lift the boat over the hull of the barge and to form the manganese nodule 909 The maritime tunnel transportation device 960 is constructed and installed so as to have abundant materials both inside and outside Northeast Asia to be shared in the shared water surface embedding device body 1 formed in the shared landfill 944 and the shared water surface landfill 945 It is characterized by being formed before and after the water surface embedding process.

Alternatively, the abundant materials formed inside and outside the Northeast Asia region formed before and after the shared water surface embedding treatment process inside the body of the water surface treatment apparatus 1 can be classified as follows: the amount of manganese nodule (909) laid on the Pacific Ocean bottom layer The manganese nodule 909 has a diameter ranging from 1 cm to 1, 000 m. The manganese nodule 909 has a diameter ranging from 1 cm to 850 m. The manganese nodule (909) is formed as a manganese nodule at a concentration of 5,000M, which is the midpoint between the gravity of about 10 Km and the buoyancy supporting the gravity. The manganese nodule 909 is connected to the periscope 913, the fish finder sonar 907, and the deep sea marsh 909, which are formed on the pneumatic lifting equipment 916 and the submarine mineral collection robot 912, quest An underwater illumination lamp 843 is provided to operate the seesaw crane boom frame 821 and the conveyor 633 to lift the manganese nodule 909 on the hull of the barge line 996 and to form a net in the upper part of the deck deck The power is supplied to the shared water surface filling apparatus body 1 which calculates the work amount and collects the abundant seabed mineral material in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface landfill treatment process .

Alternatively, a sufficient amount of material formed inside and outside the Northeast Asia region formed before and after the process of the water surface embedding process into the inside of the common water surface treatment apparatus body 1 may be supplied into the sea tunnel 941, The pipe bridge 937 used as the marine tunnel traffic device 960 is connected to the block tank inner pipe 596 and the inner surface of the block tank inner pipe 596, Shaped steel 600 and a second auxiliary steel plate 601 for a block piping are manufactured by a cutting process and a welding process and are then shared with a shared landfill 944 by a marine tunnel transport device 960 formed of a double structure block tank 598 The large flange 614 formed at the water surface landfill 945 and connected to the pipe bridge 937 of the marine tunnel traffic device 960 is formed by the welding process and the assembling process, 598 &lt; / RTI &gt; The landfill process is performed in the shared landfill 944 and the shared water surface landfill 945 before and after the water surface embedding process, and in the middle of the connection of the double structure block tank 598, A marine tunnel transport device fabrication and installation method including a connection to a tunnel 941 and a marine tunnel 941 lifting tongue 998 formed inside the common water surface embedding device body is performed by a plurality of pipe bridges 937 Bridgeheads 928 are installed at intervals of 500 meters so as to support a plurality of bridge bridges 937. The bridge bridges 928 are fixed to the bottom of the ocean floor with construction equipment and are vertically arranged at the top of 40 meters above the upper surface of the sea bridge 937, The holding tank 590 is formed inside the shared water surface embedding device body and the floating pond 998 of the vertical pier combined pillar tank 590 is provided with a floating detoxifying poison 998 It is characterized by formed at a landfill after share 944 and public waters public waters embedding processing apparatus body 1 around the embedded public waters treatment process to the inside to form a landfill 945.

Alternatively, the upper surface of the pillar support tank 590 and the upper surface of the upper float line 998 formed in the shared water surface embedding apparatus body 1 before and after the process of the water surface embedding process, (SLU) barge (996) Located on the upper deck of the deck deck, there is a submarine mineral resource collection site (791) such as a hydroelectric power plant (231) and a wind power plant (784) Each of the offshore tunnel traffic facilities (960) of the offshore industrial power generation facilities, including the barge line (996) and the floating shipyard (998), each of which has a double structure block tank (598) Is formed inside the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface embedding process.

Alternatively, the guide rails 618 may be inserted into the block tank internal piping 596 of the marine tunnel 941 pipe bridge 937 formed before and after the process of the water surface embedding process into the inside of the common water surface treatment apparatus body 1, The tunnel internal train 771 of the speed of 300 K per hour runs and the natural gas 922 and the natural gas are supplied to the lower portion of the guide rail supporter 852 in the space of the block tank external pipe 599 around the block tank internal pipe 596 The crude oil conveying line 181 is further installed and the marine vessel barge 996 is provided with construction machine equipment in the tug line 636 formed in the semi-submerged operation line 637 and the anti- The installation process is progressed so that the disassembly and assembly can be performed so that the floating type poisons formed on the upper surface of the pipe bridge 937 connecting the land and the land are connected to the tunnel tunnel 993 and the marine tunnel transportation device 960 assembled with the marine tunnel 941, The shared landfill 944 and the shared landfill 944 before the &lt; RTI ID = 0.0 &gt; Is characterized by oil surface formed in the landfill when the surface before and after the embedding process into the shared public waters embedding processing device body (1) forming in 945.

Alternatively, a separate submerged poison 998, which is not formed on the upper surface of the pipe bridge 937 formed before and after the process of the water surface embedding process in the common water surface treatment apparatus body 1, 591 and the bridge pier holding tank 590 and the lower end barge lines 592 and the portable lug 607 formed respectively with the bridge pier holding tank 590 and the respective submodal poisons 998, The small tailpost (593) divides the length of the holding tank according to the depth of the sea by the medium-sized floating tongue (593) and the large floating tongue (595) (595), and the medium-sized floating-type poison (594) combines with small-sized floating-type poison (593) and large-sized floating-type poison (595) A shared water surface landfill 910 that forms a poison 998 in a shared landfill 944 and a shared water surface landfill 945 It is characterized by the time after the device is formed body (1) around the public waters embedding process to the inside.

Alternatively, the portable lug 607 formed at each portion of the barge hull 592 at the lower end of the holding tank, which is formed before and after the common water surface embedding process in the common water surface treatment apparatus body 1, Holes 615 and long holes 616 are formed so that the holding tank connecting portion and the individual holding tanks 590 are formed in the shape of a vertical and pyramid building structure 1017, The lug shaft coupling 606 and the lug shaft engaging bolt 603 and the lug shaft engaging and disengaging nut 604 of the lug shaft 606 are connected to the portable lug 607, The disassembling nut 604 and the pin shaft 606 for engaging the portable lug can be disassembled into the pins 608 for the portable lugs and the processing hole 615 formed in the portable lug 607 and the elongated hole 616 ) In the form of a horizontal, vertical, pyramid building (1017) (944) and a shared water surface landfill body (945) formed in a shared landfill (944) with construction equipment as sinking prevention and salvage equipment and other barges, sink prevention aquaculture and marine tunnel transport devices 1) It is formed inside and outside the shared water surface treatment process.

Alternatively, a plurality of holding tanks 590 at the center of the holding tank upper barge hull 591 and a holding tank lower barge hull 592 (see FIG. 5) may be provided inside the body 1 of the shared water surface embedding apparatus, A plurality of strut tanks 590 formed on the outer side of the strut tank 590, a strut tank upper barge hull 591, and a portable lug 607 formed at each of the connecting barriers at the upper and lower ends of the strut tanks are provided with shafts, The lag shaft coupling dissolution nut is connected to the pin shaft 606 for coupling with the lag shaft and is disengaged from the pins 608 for the portable lug to form a shared water surface filling process, The upper tank barriers 615 and the long hole holes 616 are formed horizontally in the form of vertical pyramid building buildings 1017 to form sinking prevention poisons 998, A plurality of pipe racks 854, which are formed by excavation equipment and mooring devices and are formed at the lower center of the respective vertical holding tanks 590 on the outer side along the circumferential surface of the central inner side of the plurality of holding tanks 590, A drilling machine 917 is used to connect the crankshaft crankshaft 846 to the hydraulic cylinder 620 and the hydraulic cylinder master cylinder bed 623 and the construction machine 970 and a hydraulic cylinder 620 is operated in the drill hole for drilling the crankshaft crankshaft 846 connected to the construction machine 970 to push the crankshaft 846 The wrench crank 846 compresses and expands inside the excavation hole and is fixedly formed by pinching and interlocking the tool holding punches 185 having a sharp end with a sharp point and fixing the lower end portions of the respective holding tanks to prevent the barge ship from drifting And the barge line 996 is seated in the deep sea so as to form a shared water surface embedding device body 1 that securely forms a marine tunnel transport device 960 mooring device formed in the submarine dock in a shared landfill 944 and a shared water surface landfill 945, It is characterized by being formed inside and outside the shared water surface treatment process.

Alternatively, the marine tunnel transportation device 960 formed before and after the process of the water surface embedding process into the inside of the common water surface embedding device body 1 may include a holding tank bottom seated on the deep sea floor by a mooring device formed in each floating door, The marine hydroelectric power plants 231 are connected to several nuclear power plants 626 and wind power plants 784 in the upper deck deck SDU of each strut tank upper barge hull 591 fixed on the upper side of the barge hull 592 of the barge hull 592. [ The landfill 944 and the shared reclaimed landfill 945 are formed prior to the process of the shared water surface embedding process and are formed into individual marine power generation units within the respective marine power plants, The inside of the double structure block tank 598 is hermetically sealed with a flange connecting portion stopper plate 625 so that the 500-meter dual structure block tanks 598 of the tunnel pipe bridge are wound on the water, Of (599) Outside piping and valve connection Large flange (614) Two internal and external large flanges with both sterns Fixed and welded with welded joints, and both stern double structure block tanks (598 A double structure block tank 598 having a block tank inner pipe 596 formed in a stopper plate 625 inside a block tank external pipe 599 with a short side of a large flange is welded to a block tank 598 The diaphragm manhole 610 and the manhole cover 152 are connected to each other in order to remove marginal iron plate 625 from the inside of the pipe bridge 937 with an oxygen cutter after the connection operation of the large flange 614, Is formed inside the common water surface embedding device body 1 formed in the common landfill 944 and the common water surface landfill 945 also inside the plug steel plate 625 before and after the common water surface filling process.

Alternatively, the gasket 32 may be inserted into the large-sized flange 614 connected to the inside of the common water surface treatment apparatus body 1 before and after the water surface embedding process, 614), the high-performance water pump (36) is installed inside the double structure block tank (598), water is discharged outside the double structure block tank (598), the flange connection process is performed, Unlike the conventional method in which the band guide 621 is provided outside the outer wall of the block tank 598, the block tank outer pipe 599, one of the plurality of large-diameter flange connection joints of the outer wall, Side flange connection connection joint area machining hole 615 is provided with a shared landfill 944 with marine tunnel transport devices 960 having threaded machining threads 566 to replace the lug shaft engagement split nut 604, And shared sleep Is formed inside the body 1 of the shared water surface embedding apparatus formed in the landfill 945 before and after the water surface embedding process.

Alternatively, the inner large-diameter flange connection joint joint hole 615 formed opposite to the large flange 614 formed before and after the process of the water surface embedding process into the inside of the common water surface treatment apparatus body 1 may be formed by tapping A large flange 614 with machined threads 566 is formed and threaded 566 is formed in the large flange connection splice joint hole machining hole 615 with the large flange threads 566 to form a lug shaft & The diaphragm manhole 610 and the manhole cover 152 are coupled to the block tank outer pipe 599 by the coupling bolt 603 and the baffle lid 152 is connected to the band before the large flange coupling and disassembling process, The large flange 614 can be disassembled and coupled immediately without using the guide 621 and the inside of the block tank external pipe 599 and the block tank internal pipe 596 ) To the marine tunnel transport devices 960 so as to perform a new large flange disassembly and bonding process that forms threads 566 replacing the nut in the respective external large flange connection connection jointed hole 615 ) And the shared water surface landfill 945 are formed inside the body 1 of the shared water surface embedding processing apparatus before and after the common water surface filling process.

Alternatively, the marine tunnel transport apparatuses 960 may be used to perform a new large-scale flange disassembly and bonding process that is formed before and after the process of the water surface embedding process into the interior of the common water surface treatment apparatus body 1, One type of countermeasures that can withstand is to prevent the outside of the block tank inner pipe 596 of the holding tank lower barge hull 592 and the pier holding tank 590 from outside the outer side of the block tank inner pipe 596, Filling the liver with gasoline that is lighter than water, diving to the bottom of the vessel by loading the weight loss weight (994) for the sensor and dropping the weight loss weight (994) for the sensor to the outside of the vessel, Diving work line 637 on which the band guide 621 is mounted, which can withstand a deep deep sea where a water pressure of 100,000 tons acts, The deep water submersibles 995 are formed into a shared landfill 944 and a shared water surface landfill 945 by means of marine tunnel traffic devices 960 having a large flange connection method and sub-aquaculture 998 mooring methods, And is formed inside the body of the embedding processing apparatus 1 before and after the process of the common water surface embedding process.

Alternatively, a large flange connecting method and a submerged poison 998 mooring method may be installed in the inside of the marine tunnel traffic apparatus 960 formed before and after the shared water surface embedding processing process into the inside of the common water surface embedding apparatus body 1 In order to construct a marine tunnel transport system (960) consisting of a double structure block tank (598) capable of winding a circumference of 40.000 kM around the earth, a double structure block tank (598) of 500m units is formed in the shape of a raft line, A measure for connecting the entire apparatus 960 includes a deep sea submergence 995 to construct a bridge pier 928 of the 500 m spaced pipe bridge 937 to measure the depth of the sea of the pier 928 and the sea water pressure After the completion of the precise measurement and investigation of the other flow velocity, a shared water surface embedding apparatus body (not shown) for forming a diaphragm rubber balloon 628 in the shared landfill 944 and the shared water surface landfill 945 1) Share internally It is characterized by being formed before and after the water surface embedding process.

Alternatively, a flagpole rubber balloon (not shown) may be used to recognize and mark a directional mark formed in the shared landfill 944 and the shared water surface landfill 945 before and after the process of the water surface embedding process into the inside of the common water surface treatment apparatus body, The rope 629 for hanging up the rope 628 and the weight reducing weight 994 for the weight sensor for hanging the rope for hanging the sensing rope 629 are clearly provided and the respective piers 928 are connected to the tug- The vessel immersion prevention rescue line 634, equivalent to the sub-style venom 998, is horizontally × vertically × height; When the water depth of the installation point is 300 meters after the transportation, the pile file 838 is increased by 50 meters from the water depth and attached to the seesaw crane boom 821 A column 838 is vertically erected and a leveling bottom base 851 of tens of thousands of piers is provided by a construction machine hunting machine 877 and a diesel pile hammer 883 and a steam hammer 884, Is formed in the shared water surface embedding device body formed in the shared landfill 944 and the shared water surface landfill 945 by the marine tunnel transportation devices 960 formed with the water surface transportation devices 960 before and after the shared water surface embedding process.

Alternatively, after checking the level balance between the pier level base bottom base 851 and the pipe bridge 937 formed before and after the process of the water surface embedding process into the inside of the common water surface treatment apparatus body, One double row structural block tank (598) is formed in 10 rows with one row of columns and equally one set of rafts, and several tens of thousands of exposed water column piers (928) A plurality of double structure block tanks 598 are moored with the mooring rafts with the mooring device and the pipe bridge 937 connected to the bridge piers 928 at intervals of 500 m reaches tens of thousands of tons, The anchor 639 and the anchor chain 640 formed by the crane boom 651 and the crane boom hook 652 for throwing the pipe bridge into the bottom floor of the sea floor are wound around the tug winch 137 Turning and recycling A plurality of double structure block tanks 598 may be formed by moving the anchor 639 and the anchor chain 640 and the hoisting rods 137 to move the joint rafts to move the marine tunnel transportation devices 960 to the shared landfill Is formed inside the body of the shared water surface embedding apparatus formed in the water surface 944 and the shared water surface landfill 945 before and after the shared water surface embedding process.

Alternatively, the plurality of double structure block tanks 598 formed before and after the shared water surface embedding process inside the body of the shared water surface embedding processing apparatus may include the marine tunnel transportation apparatuses 960 having the methods of moving the artificial rafts, The structure block tank 598 is provided with a method of assisting the operation of the tugboat 636 by providing a substitute goods sail 654 in a manner different from the method of moving the artificial rafts, The double structure block tank 598 is wound around the tidal winch 137 formed at the time before and after the process of the water surface embedding process, (960) of the raft, the open passage of the sailing vessel is opened, and the overall connection method includes the connection of the double structure block tank (598), the external piping (599) And the odd number of connecting parts 5 are formed to have the same length as the length of the double structure block tank 598 and the contact area portable The pin shaft 606 for engaging the a-type portable lug with the lug 607 or the like is welded to the horizontal outer wall of the pin shaft 606 of the long shaft by welding and the double structure block tank 598 ) Coupling at each connection point and joint breaking and disengaging means Locking device with a pointed clearance forming a double structure block tank (598) coupling type with a tool guide shroud (185) and various types of guides (22) (937) to the shared water surface embedding device body (1) that forms the entire connection system in a shared landfill (944) and a shared water surface landfill (945) with marine tunnel transport devices (960) Before and after the treatment process .

Alternatively, a method may be employed in which a method of moving a marine tunnel transport apparatus 960 in a shared landfill 944 and a shared water surface landfill 945 before and after a shared water surface embedding process in the common water surface treatment apparatus body 1 A plurality of radioactive nuclear waste 1011 processing reactors formed in a double structure block tank 598 for preventing the nuclear explosion from being formed in the central deck deck center (SDM) inside each marine nuclear power plant 961, (999), and when the nuclear reactor waste treatment unit (911) is operated, the power generating capacity is formed to produce 1,000,000 w / h power at intervals of 10 km. The inside and outside of the nuclear power plant The production power is formed by the wind power generators 785 of the wind power plant 784 in the large hydroelectric power generator 213 of the respective hydroelectric power plants 233 and the production power is supplied to the transformers 684 of the high capacity high voltage substation 690 And then the transmission line 7 758 and a power transmission tower 776 and the like to supply a certain amount of generated power 685 and each of the generators is formed into several thousands of marine power plants and the like, and the size of a plurality of pipe bridges 937 Flange and the like are used for bolting with a spanner and a hammer screw of a hand tool or the like, and a lever block 648 and a turnbuckle 850 are provided so that the double structure block tanks 598 are coupled to each other And is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 as a tunnel under the underground pipe bridge before and after the shared water surface embedding process.

The vertical partition wall 605 and the horizontal partition wall 609 in the double structure block tank 598 formed before and after the process of the water surface embedding process into the inside of the common water surface treatment apparatus body 1 are provided with partition wall manholes 610 And a hydraulic cylinder door 624 is attached to the hatch cover 153 or the like to horizontally connect a plurality of double structure block tanks 598 to the underwater tunnel, And taking into account the lateral loads of the various offshore power plant docks formed on the upper surface of the underwater tunnel, the height of the underwater tunnel 937 underwater tunnel is increased to 1.5 times the width of the double structure block tank 598, Is formed in the shared water surface embedding device body 1 formed in the shared landfill 944 and the shared water surface landfill 945 with the traffic devices 960 before and after the shared water surface embedding process.

Alternatively, the upper part of the upper part of the upper part SLU holding tank upper barge hull 591 inside the marine tunnel transportation device 960 formed before and after the common water surface embedding process process into the inside of the common water surface embedding device body 1 Each block steel tower 116 formed of an isosceles-shaped section steel 839 is connected to the block-steel tower coupling-use machining hole 615 by a lug shaft coupling bolt 603 at the deck plate center upper end portion SDU, And the emergency stairs 631 are formed in the mooring tower 644. The emergency stairs 631 are connected to the mooring tower 644 by the block 604, And is installed at a lower portion of the lower portion of the lower portion of the airship and installed as a crane 861 and an elevator 632. A block pylon 116 of 500 m in units of four decks of the upper portion of the strut tank upper barge hull 591, Respectively, A shared isocrane boom frame 821 having several water depths formed along the water depth is formed in a shared landfill site 945 with a shared landfill 944 and a shared water surface landfill 945 by disaster prevention devices and lifting devices, And is formed before and after the embedding process.

Stage multi-stage disaster prevention pump 8 that supplies the disaster prevention water 7 to the upper end of the upper end of the moving tower 644 formed before and after the shared water surface embedding processing process into the inside of the common water surface treatment apparatus body 1 The disaster prevention nozzle 10 formed in the disaster prevention hose 9 discharges the disaster prevention water 7 and is disposed between the disaster prevention nozzle 10 on which the transportation equipment is mounted and the disaster prevention hose 9 and the disaster prevention nozzle 10, The weather strip observing equipment adverb 77 and the radio sonde 134 are connected to the wire rope 19 of the disaster prevention nozzle 10 and the like connected to the connection shackle 23 by the disaster prevention nozzle connection flange 28, The double structure disaster prevention device and the production facility equipment in which the wire rope 19 for protecting the disaster prevention nozzle and the hose of the gas transportation means lighter than air are connected to the inside of the disaster prevention hose 9 are connected to the lower end of the basket 42 on which the ship is mounted, (36) and an air compressor The shared water surface embedding device body 1 formed in the shared landfill 944 and the shared water surface landfill 945 by the marine tunnel transportation devices 960 disassembled and coupled to the top surface of the deck deck deck with the shafts 80, It is characterized by being formed inside and outside the shared water surface treatment process.

Alternatively, the high-pressure multi-stage disaster prevention pump 8 may be installed in the upper surface of the deck plate 998 formed before and after the shared water surface embedding process into the inside of the common water surface treatment apparatus body 1, The disaster prevention water 7 inside the disaster prevention nozzle 10 is discharged to the outside of the disaster prevention nozzle 10 and the discharge jetting number 38 of a plurality of straight lines and the discharge jetting number 38 of a plurality of radiation types are discharged in the form of a water film curtain 39 It is formed by the smother action to prevent combustion by blocking the supply of air by surrounding the combustible with the incombustible gas by falling spray and the cooling action method of reducing the combustible to the ignition point temperature. (82) of the high-pressure multi-stage disaster prevention pump control system, a main switch button (66) for controlling the operation of the disaster prevention pump, and a disaster prevention pump auxiliary switch button (67) The marine tunnel 2 is connected to a shared landfill 944 and a shared surface landfill 945 by marine tunnel traffic devices 960 equipped with a safety control room and a weather observing equipment radar 840, And is formed inside the body 1 of the shared water surface embedding processing apparatus 1 to be formed before and after the process of the water surface embedding process.

(998) Deck deck upper part (SDU) block formed to the inside of the common water surface treatment apparatus body 1 before and after the common water surface embedding processing process To the right side of the steel tower 116, noxious gas The removal burner boom 920, the air receiver tank and the large hydroelectric generator are formed in the power generation room and the like. After the operation of the non-operational skid 918 and the crude oil borehole 918 of the transportation system, The mixing equipment mixer 649 of the loess soil 158 and the cement 931 is connected to the marine tunnel transportation devices 960 equipped with the crude oil drill ship 841 distributed and arranged inside the machine room, 944 and the shared water surface landfill 945 before and after the common water surface treatment process.

Alternatively, the interior of the maritime tunnel transportation device 960 formed before and after the process of the water surface embedding process into the interior of the common water surface treatment apparatus body 1 may include a dock deck upper part (SDU) block pylon 116 A helicopter stop 619 is located on the upper deck of the pyramid-shaped block pylon 116 at the top of the weather observation equipment management room and a satellite 611 is installed in the satellite launch pad 643 to the left of the safety control room. And the space rocket 612 is disposed in the space rocket launching platform 646. The air compressor 80 and the net air hose 109 are connected to the air hose connection device nipple 110 to prevent harmful red- (SDU), and is located inside the center block block tower (116) at the top of the deck of the deck (DH) A pipe rack 854 for a cord connection operation is coupled to a wire rope chain 915 of a crane 861 and a core drill 917 formed at a lower end of the pipe rack 854 forms a common water surface lower end SLD The rotary table drilling machine 908 for drilling crude oil in the submarine mineral resource collection site provided with the marine tunnel traffic devices 960 such as crude oil drilling rig 841 transported and arranged in the drill machine room, A subsurface basket 842 for collecting nodules 909 and a mineral intake collecting machine 911 belonging to a pipeline conveying apparatus are connected to a shared water surface lower end SLD by a submarine mineral collection robot 912 and a mineral gathering trough 924, And a shared water surface landfill 945 connected to the rear of the seepage crane boom 821 of the seawater cistern 821 and formed by the marine tunnel transportation devices 960 equipped with the crude drill ship 841 and the like in the shared landfill 944 and the shared water surface landfill 945. [ Shared sleeping inside the body (1) It is characterized by the lip formed at the time of after treatment step before.

Alternatively, the marine tunnel transportation devices 960 provided with the oil drilling rig 841 and the like formed before and after the shared water surface embedding process process into the inside of the common water surface treatment apparatus body 1 share with the shared landfill 944 The shear crane boom frame 821 formed on the surface landfill 945 is vertically rotated to lift the entire deep-sea energy resource to the upper deck deck (SDU), and the recovered resources are transferred to the on- And a deck of a transport equipment train (771) and a separate docking station (998) is installed inside the marine tunnel transport apparatus (960) connected to the 500m unit double structure block tank (598) (1) inside a shared water surface embedding device body (1) formed in a shared landfill (944) and a shared water surface landfill (945) by a marine tunnel transportation device (960) Shared sleeping with It is characterized by formed during post-treatment process before.

Alternatively, the upper surface of the deck deck such as each of the submersible venues 998 may be connected to the inside of the marine tunnel transport apparatus 960 formed before and after the common water surface embedding process process into the inside of the common water surface embedding apparatus body 1, (SDU) underneath Upper deck of buoy deck deck Lower bottom of holding tank (590) Inner block Inside of tank (596) Center for crude oil drilling A device for safely treating and transporting excavated soil and stratum noxious gas generated in a crude drilling hole after excavation by a core drill 917 formed at the lower end of a crude drill rod pipe rack 854 provided in a rotary table drilling machine 908, The shared landfill 944 and the shared reclaimed landfill 945 are connected to the marine tunnel transport devices 960, each equipped with dual piping with pneumatic transport equipment 916 and equilateral inclined flanges 149 to the steel plate brackets 165, brother It features formed upon the surface after embedding processing to share the device body (1) around the shared water reclamation process in which the inside.

Alternatively, the inside of the seabed crane boom frame 821 may be connected to the symmetrical diagonal side portions of four marine tunnel traffic devices 960 deck decks formed before and after the shared water surface embedding process process inside the common water surface embedding device body 1 The moving barge is fixed by providing a mooring device anchor 639 and an anchor chain 640. The seesaw crane boom bar 821 is provided with a number of portable lugs 607 as a depth position adjustable pedestal, And a portable lug coupling pin shaft 606 formed by adjusting the safe working distance of the seesaw crane boom frame 821 and connected to the wire rope 915 of the tackle winch 137 by a shared lower surface level SLD, (9) to the shared water surface embedding device body (1) formed in the shared landfill (944) and the shared water surface landfill (945) by the marine tunnel transportation devices (960) It features formed during the subsequent step before.

Alternatively, turbine aberrations 74 and 74 may be generated in the marine tunnel power plant 231 inside the marine tunnel traffic apparatus 960 formed before and after the shared water surface embedding process in the common water surface treatment apparatus body 1, The seawater is pumped to the Francis aberration 229 and the Pelton aberration 230 with a shared water surface upper end portion SLU provided with multi-stage power generation equipment such as a pump aberration 264 and a main valve 265, The turbine auger 229 connected to the rear of the head tank 189 and the pressure pipe 191 and the pump aber 264 and the main valve 265 are formed in the Phelton aberration 230, The turbine aberration 74 having the reducer 35 and the rotational aids in the multistage generator body such as the pump aberration 264 and the main valve 265 are connected to the Francis aberration 229 and the Pelton aberration 230, (35) to the front and back of the inlet and outlet of the pipe, and the flow rate of seaweed The propeller 146 is rotated by the wind power without the power generation dam 680 by the wind power generators 785 of the wind power plant 784 to regenerate the power production processes The top of the deck decks such as the various docking docks 998 and the inner and the lower sides of the marine power generating facilities are connected to the marine tunnel transportation devices 960 through a shared landfill 944 and a shared landfill 945 And is formed inside the body 1 of the shared water surface embedding processing apparatus 1 to be formed before and after the process of the water surface embedding process.

Alternatively, a holding tank upper barge hull 591 (FIG. 5) formed by each of the marine power generating facilities inside the marine tunnel transportation device 960 formed before and after the shared water surface embedding process process into the inside of the common water surface embedding device body 1 (590) Block tank External piping (599) External flange (614) High-strength stainless steel bolts (603) and high-strength stainless steel nuts on the flange (614) And is connected to the gap of the joint by a high pressure gasket 32 and is formed as a double structure block tank 598 on the joint of the double structure block tank 598 and the connection elbow 44. The upper part of the strut tank upper barge hull 591) Block tank of each lower holding tank 590 Outside piping 599 Submarine mineral resource exploration equipment Search for deep sea exploration on submarine mineral resource search equipment Underwater light 843 is transmitted to outer wall of pyramid 590 The plurality of holding tanks 590 are formed at regular intervals on the outer wall of the outer pipe 599 of the block tank and a plurality of pin shafts 606 And the portable lug 608 are formed in the portable lug 607 so as to be disassembled from the barge hull and the large flange 614 connecting joint joining hole 615 and the long hole 616 The pin shaft 606 is inserted into the hydraulic cylinder key 620. The pin shaft thread is engaged with the nut and then the pin is inserted into the pin finishing hole. A plurality of submodern poisons 998 are formed inside the tunnel transport device 960 to form a shared landfill 944 and a shared waterflooding landfill 945. The watertight landfill apparatus 960 includes a plurality of sub- It is characterized by being formed in the back .

Alternatively, a plurality of holding tank upper barge hulls 591 and a holding tank lower barge hull 591 may be disposed inside the marine tunnel transportation device 960 formed before and after the process of the water surface embedding process into the inside of the common water surface embedding device body 1, The holding tanks 590 of the sub-style poison 998 fixed to the top surface of the plurality of pipe bridges 937 are erected and the deck decks of the holding tank upper barge hull 591 are raised in accordance with the pipe- The joint bottom of the bottom joint lug hinge socket machining hole and the connecting lug hinge sockets 613 of the lifting tanks of the lifting tanks to be fixed to the upper surface of the pipe bridge 937 are selectively fitted with the holding tanks 590, The lug hinge socket 613 is formed on the upper surface of the deck so that a stationary tunnel poison to which the docking tongue 998 fixed to the upper surface of the pipe bridge 937 tunnel and the holding tanks 590 are connected to the shared landfill 944, Landfill (9 45 are formed by the marine tunnel transportation devices 960 formed in the common water surface treatment apparatus body 1 before and after the common water surface treatment process.

Alternatively, a plurality of shaft coupling lug processing holes 615 (not shown) may be formed on the upper surface of the holding tank 590 inside the marine tunnel communication device 960 formed before and after the shared water surface embedding process process inside the common water surface treatment apparatus body 1 And the elongated holes 616 and the like form the pin shaft with the hydraulic cylinder key 620 and are inserted into the lug processing holes 615 and the elongated holes 616. The threads of the both surfaces of the pin shaft are connected to each other by a nut The portable lug pins 608 are inserted into the pin shaft release preventing holes and the portable lug pins 608 are displaced to both sides to prevent the unbonded parts from escaping and the shared water surface upper end portion SLU of the shared water surface SLL, And a plurality of portable lugs 607 and a plurality of portable lugs 607 are connected to a tunnel tank dock connected to a pipe bridge 937 in a lower water level SLD and a holding tank upper barge hull 591 and a holding tank lower barge hull 592, Portable lug pin shaft A plurality of holding tanks 590 joined to a machining hole 615 of a body of the pit 606 and a shaft pin 608 are used to prevent sinking of the sea surface and other lifting devices and other barriers, And the marine tunnel transportation device 960 is fixedly coupled to the upper surface of the pipe bridge 937 by a mooring device to form a shared landfill 944 and a shared water surface landfill 945 And is formed inside and outside the shared water surface embedding apparatus body 1 before and after the shared water surface embedding process.

Alternatively, a pipe bridge 937 at the lower end of the sea level SLL may be connected to the inside of the marine tunnel traffic device 960 formed by a mooring device formed inside the common water surface treatment apparatus body 1 before and after the common water surface embedding process. A fish finder sonar (907) that forms an electrode plate node (938) at regular intervals and monitors the military equipment submarine (975) so that marine biological conglomerates and barnacles can not grow outside the body of the pier (928) (937), which are connected to a communication satellite (611) for military use, such as a bridge bridge (937) inside a marine tunnel transportation device, and a marine tunnel transportation device (960) Is formed inside the shared water surface embedding apparatus body 1 formed in the water surface 944 and the shared water surface landfill 945 before and after the common water surface embedding process.

Alternatively, the meteorological observation equipment radar 840 on the rooftop of the control tower of the mooring tower 644 may be connected to the inside of the marine tunnel traffic apparatus 960 formed before and after the shared water surface embedding process process into the inside of the shared water surface embedding apparatus body 1, At the top of the control tower upper block steel tower 116, marine tunnel traffic devices 960 formed with a lightning rod 94 and a lightning rod 500 for hull safety from lightning are formed in the shared landfill 944 and the shared water surface landfill 945 And is formed inside and outside the shared water surface embedding apparatus body 1 before and after the shared water surface embedding process.

Alternatively, the electric power generated from the offshore power plant 998 inside the marine tunnel transportation device 960 formed before and after the shared water surface embedding process process into the inside of the common water surface embedding device body 1 may be transmitted to a marine tunnel (707) Supplying power to stainless steel plate manufacturing plant and steel beam beam forming steel plate manufacturing plant, which supplies raw materials (707) from small diameter piping to large diameter piping and large diameter piping production from supply pipe manufacturing plant The pipe bridge 937 of the pipe bridge 937 is standardized to have a diameter of 5M and a pier diameter of 5M above the junction of the type R The same diameter as that of the band guide 621 for joining the large flange 614 connecting portion of the large flange 614 formed on the semi-dipping working line 637 deck deck upper portion SDU Double pipe structure A shared water surface embedding apparatus body 1 (1) which forms a disassembly coupling into a shared landfill 944 and a shared water surface landfill 945 into a marine tunnel communication apparatus 960 in a set of bridged saddle- ) Is formed inside and after the shared water surface treatment process. .

Alternatively, the inside of the water tunnel 910 may be connected to the bridge saddle form frame 617 at a position before and after the water surface embedding process, 22 are formed by welding and then a plurality of tool-tip sandwiching members 185 having a plurality of sharp ends are attached to the body-slit engaging holes of the various types of tool bodies 22 in such a manner as to link the crank 248 and the links 249 The anchor replacement wiper crank 846 and the bridge piercing level base pedestal 851 are connected to the anchor replacement level crane 810 so that a plurality of piercing belts 185 are simultaneously disassembled in the processing holes of the guide bars 22, Several anchor replacement worm cranks 846 formed on the side surfaces and the lower surface of the body of the bridge saddle form 617 are formed into a shared landfill 944 and a shared water surface landfill 945 into the marine tunnel traffic apparatus 960 (1) to the inside of the shared water surface embedding device body And is formed before and after the embedding process.

Alternatively, the anchor replacement worm cranks 846 inside the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process process inside the common water surface treatment apparatus body 1 may be equipped with a construction machine 970 Mineral resources including underwater submersible pond (998) seated on the bottom of the sea and all pneumatic transport equipment (916) including submerged mineral resource collection equipment (916) such as a suction sampling machine (911) and a mining robot (912) Tank barge hull 591 in the elevator 632 that carries the manganese nodule 909 to the electric magnet magnet 645 provided with the donors 861 and the pipeline pneumatic transportation equipment 916 The mineral picking up trough 924 and the like are formed inside the conveyor 633 in the yacht basket 842 for reclaiming the seabed mineral resources and the bucket 844 and the submarine exploration deep sea exploration underwater light lamp 843 , And the collecting equipment The underside dredging equipment 632 and the submarine excavation equipment are connected to the lever block 648 by a wire rope chain block to prevent the unmanned camera 184 belonging to the undersea surveying equipment and the container 132 corresponding to the submarine mineral carrier ) And a container box latching device 129 are connected to the shared landfill 944 and the shared water surface landfill 945 both inside and outside the peace main line 963 of the marine tunnel traffic device 960, And is formed inside the body of the embedding processing apparatus 1 before and after the process of the common water surface embedding process.

Alternatively, the mineral resources formed in the submarine mineral collection site inside the marine tunnel transportation device 960 formed before and after the process of the water surface embedding process into the inside of the common water surface embedding device body 1 are connected to the holding tank lower barge hull 592 The individual solenoid valve 76 and the solenoid valve pressure switch (not shown) belonging to the crude oil transport line 181 transport device to pass the hatch cover 153 to the fire door 154 and the manhole cover 152 mounted on the lower partition wall 104 are connected to a power line 71 and connected to a solenoid valve operation switch and the like to form a shared landfill 944 and a shared water surface landfill 945 into the marine tunnel traffic apparatus 960. [ ) Is formed inside and after the shared water surface treatment process.

Alternatively, the submarine mineral resource collecting equipment integrally installed in the marine tunnel transportation device 960 formed before and after the process of the water surface embedding process into the inside of the common water surface embedding device body 1 may be installed on the side of the strut tank upper barge hull 591 (500 meters long) Double structural block tank (598) Seaso crane connected by a number of seaways The seismic crane boom zone (821) formed by the boom zones (821) on the bottom of the sea forms an integral unit of seabed mineral resources and seabed mineral collecting equipment. (910) and Seisio Crane Boom Boats (821) to the flooded baskets (842) and the seabed mineral deposits (849) to the seabed, And the hydraulic cylinder 620 formed in the seesaw crane boom frame 821 is operated to generate hundreds of million tons of manganese block 909 generated annually by the support tank upper barge hull 591, And a shared landfill 944 and a shared water surface landfill 945 are formed in the marine tunnel transportation device 960 as a whole with all of the seabed mineral resource collecting equipment and submarine mineral resources as a whole, And is formed inside and outside the body 1 at the time before and after the common water surface treatment process.

Alternatively, a manganese nodule 909 may be formed on the upper surface of the holding tank upper barge hull 591 inside the marine tunnel transportation device 960 formed before and after the process of the water surface embedding process into the inside of the common water surface embedding device body 1 A melting furnace 803 for melting and forming guide rails and the like on each of the steel plates to form a shared landfill 944 and a shared water surface landfill 945 inside the marine tunnel transportation device 960 And is formed inside and outside the shared water surface embedding apparatus body 1 before and after the shared water surface embedding process.

Alternatively, a plurality of crude oil collection tanks (not shown) formed on both sides of the body of the seesaw crane boom section 821 into the marine tunnel transportation apparatus 960 formed before and after the shared water surface embedding process process into the inside of the common water surface embedding apparatus body 1 Pressure hose 927 connected to the 500-meter high-pressure hose 927 connected to the bottom of the crude oil collecting tank 791 at the bottom of the crude oil collecting tank 791, The crude oil borehole 936 excavated by the core drill 917 combined with the several drill rod pipe racks 854 connected to the nodule and the drilling machine and the natural gas 922 borehole 936 without pollution, The hose 158 and the cement 931 are supplied to the boreholes to fill the gap space of the pipe pile 838 and the 500 m high pressure hose 927 is connected to the piping pile 838 by a capillary ring With several high-pressure hoses Structural high-pressure hose (927) Crude oil and natural gas filled in the tank combined with one connection node are seisio crane boom (821) And a submarine energy collecting device is provided to the inside of the shared water surface embedding device body 1 formed in the shared landfill 944 and the shared water surface landfill 945 into the marine tunnel transportation device 960 before and after the shared water surface embedding process .

Alternatively, the satellite 611 launch pad 643 and the space rocket launch pad launch pad 646 may be connected to the inside of the marine tunnel traffic device 960 formed before and after the shared water surface embedding process in the body of the shared water surface embedding device 1, There is a natural loess (158) of 1 meter above the deck deck of the deck deck of the docking dock (998) and a construction machine (970) on the disaster prevention deck, and it is laid on the deck deck. Metered round ocher block The disaster prevention wall is formed at a height of 15 meters at a height of 3 meters and is divided into a satellite launch pad (643) and a space rocket launch pad (646) When a rocket 612 is fired, a large amount of fuel is burned to obtain propulsive force, and a high temperature is generated. Combustion heat of high temperature and high pressure generated due to firing of the artificial satellite 611 and the space rocket 612, Round ocher The block disaster prevention wall can block the heat of high temperature and high pressure to secure the deck deck of the deck 998. It is equipped with the safety facility space science equipment and is connected to the shared landfill 944 and the shared water surface 944 into the marine tunnel transportation device 960 Is formed inside the body 1 of the shared water surface embedding apparatus formed in the landfill 945 before and after the water surface embedding process.

Alternatively, it may be positioned in the deep sea area within the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process process inside the body 1 of the water surface embedding apparatus, The crane boom 651 for use in the deep sea is operated by a plurality of hydraulic cylinders 620 formed in the long axis adjustment seesaw crane boom frame 821 to feed the crane boats 651 at two positions in front of the hull, The anchor 639 and the anchor chain 640 can be used as a vessel shelter for the marine corridor which is a coastal stoppage when both sides are retreated forward and backward. And a method of safely carrying out the method of the present invention. In this way, a shared landfill 944 and a shared water surface landfill 944 are provided in the marine tunnel transportation device 960, It features formed upon the surface before and after the embedding process into the shared public waters embedding processing device body (1) forming in 945.

Alternatively, nuclear radioactivity contamination prevention of the deep defense concept of the nuclear power plant 626 into the marine tunnel transportation apparatus 960 formed before and after the process of the water surface embedding process into the inside of the common water surface treatment apparatus body 1, The nuclear reactor waste treatment facility 999 with nuclear explosion-proof dual structure block tank 598 using the double structure block tank 598 has a plurality of block tank inner pipes 596 and a plurality A high strength stainless steel beam (not shown) is applied to the first auxiliary steel pipe 600 for the block tank and the second auxiliary steel plate 601 for the block tank and the vertical partition wall 605 and the horizontal partition wall 609 with the external pipings 599 of the block tanks A vertical partition wall 605 and a horizontal partition wall 609 in which the partition wall manhole 610 is formed are formed with a traffic hole 602 and a partition wall manhole 610, The device hydraulic cylinder door (624) and emergency stairs 631 are equipped with a welding process and a precision cutting process to process the radioactive nuclear waste 1030 having the nuclear explosion-proof double structure block tank 598 of the nuclear power plant 626 inside the marine tunnel traffic apparatus 960 Is formed in the shared water surface embedding apparatus body 1 forming the reactor 999 facilities in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface embedding process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type The facility 910 for treating radioactive nuclear waste 1030 with structural block tanks 598 is formed by block tank internal piping 596 and a plurality of block tank external pipings 599, (999) The yellow loam mixture (157), which is equivalent to the toothpaste which is installed in the reactor pressure vessel (1001), which is equipped with the loess and cement mixing equipment mixer (649) A mixture of the dispersing material causing soap water bubbles and the yellow loam mixture 157 is appropriately injected into the pressure vessel 1001 at one time to prevent a large reactor explosion accident, A plurality of disaster prevention nozzles 10 are formed inside the reactor pressure vessel 1001 and inside the reactor building 1043 in the containment vessel 1034 so that the inside of the reactor can be cleaned The jet pump 325 and the gear pump 325 are selected to be automatically formed so that the yellow loam mixture 157 is carefully selected so as not to solidify and the inside of the reactor is cleaned immediately after the earthquake stops, In order to maximize the safe operation of the nuclear reactor facilities, it is necessary to construct a nuclear explosion-proof double structure block (NBP) in the form of raw statistics of the nuclear power plant (626) Tank 598 Radonuclear waste 1030 Treatment reactor 999 A shared water surface treatment apparatus body 1 forming a facility with a shared landfill 944 and a shared water surface landfill 945 ) Is formed inside and after the shared water surface treatment process.

The nuclear explosion-proof double structure block tank 598 of the nuclear power plant 626 is connected to the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1, A plurality of stopper steel plates 625 of the nuclear reactor waste treatment reactor 999 having radioactive nuclear waste 1030 are connected to a plurality of block tank inner pipes 596 of a cylindrical double structure block tank 598 and a plurality of block tank outer pipes A plurality of cap steel plates 625 are formed in the upper end of the double structure block tank 598 by a welding process method and a large flange joining method and the like. In the lower end of the double structure block tank 598, A nuclear explosion-proof double structure block tank 598 in the form of a raw statistic is formed by a welding process method and a large flange connection method with a plurality of stopper steel plates 625 of the form of a nuclear reactor, A nuclear waste 1030 is stored in one place at a lower end portion between a plurality of block tank inner pipes 596 and a plurality of block tank outer pipes 599 at the time of a large reactor explosion accident and the double structure block tank 598 The floor of the lower surface of the road surface GLD reactor 999 is fixed by a reinforcing concrete mat 1054 of a thickness of m and a stainless steel beam 149 of high tension to form a single nuclear explosion preventive double structure block tank 598, A nuclear explosion-proof double structure block tank (Nuclear Power Plant) 626 in the form of raw statistics of the nuclear power plant 626 is installed inside the marine tunnel transport apparatus 960 so as to generate electricity into the nuclear power plant with the waste treatment unit 930 598) The radioactive nuclear waste treatment reactor facility 962 is connected to the shared water surface treatment facility body 1 formed in the shared landfill 944 and the shared water surface landfill 945, It features formed upon.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type A large amount of radiation is generated inside the nuclear reactor facility of the nuclear reactor facility so that the nuclear reactor 999 can safely secure the first wall pellets 1061 and the second wall fuel rods 1061, And a fifth wall reactor building 1043 in the third wall reactor pressure vessel 1001 and the fourth wall containment vessel 1034 so as to form a five-layered protective wall, A nuclear power plant 626 including a nuclear reactor 999 of power generation and a plurality of double structure block tanks 598 for storing radiation nuclear waste connecting the periphery of the nuclear reactor pressure vessel 1001 which is the third wall of the nuclear reactor 999, ) Inside circle In the nuclear waste treatment reactor facility 962 having magnetic power, the nuclear power plant generates nuclear fission in the nuclear reactor to generate steam 465 to rotate the steam turbine 267 A power generator 1010 for converting the power produced by the steam turbine 267 and a shaft 198 that is a rotary shaft connecting the steam turbine and the generator 1010, And a rotating electromagnet rotor 1012 for rotating the non-rotating coil 1011, which is formed along the circumferential surface of the rotor coil 1012, 267 of the nuclear power plant 626 to the inside of the marine tunnel traffic apparatus 960 by the power generation facilities 1063 including the frame 196 for fixing the generator 1010 and the shaft 198 integrally with each other, In the form of a column An explosion-proof dual structure block tank 598 a shared water surface buried within the shared water surface treatment apparatus body 1 forming a radioactive nuclear waste treatment reactor facility 962 in a shared landfill 944 and a shared water surface landfill 945; It is characterized by being formed before and after the process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type Structure block tank 598 Cooling device for cooling the water vapor in the lower portion of the body of the steam turbine 267 of the power generation facility unit 1063 into the radioactive nuclear waste treatment reactor facility 962 to provide water The condenser 1022 and the connection structure And a circulation water pump 1066 connected to the cooling water piping line 1064 to the piping line 1065 through a waterproof path is formed in front of the cooling device condenser 1022 and the condenser 1022 A feed pump 1067 is formed outside the tail pipe and the reactor and a purifier 1035 is formed on the outside of the reactor in front of the feed pump 1067 and the inside of the reactor internal pipe line, The coolant pumps are formed outside the reactor pressure vessel body storing the uranium fuel and the safety device control rod 1029 is formed in the reactor pressure vessel 1001 to automatically insert the control rod 1029 at once The reactor 999 is stopped urgently and the steam generator 1036 and steam driers 1019 formed outside the body of the pressure vessel 1001 of the reactor 999 are connected to each other, 4 holes are formed in the wall containment vessel 1034 and the upper portion of the fifth wall reactor building 1043 at a predetermined angle of 45 ° to an oxygen cutter and a construction machine, and then the nuclear waste is transferred to the plurality of through holes and the like Nuclear explosion-proof double structure block tank (598) in the form of raw statistic of nuclear power plant (626) inside the marine tunnel traffic apparatus (960) 1030 is characterized by formed at the time of before or after public waters embedding processing step into the public waters embedding processing device body (1) to form a treatment reactor equipment 962 to the shared landfill 944 and public waters landfill 945.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type A double tube structural block piping line 1068 a plurality of temperature and pressure sensing sensor safety valves 1069 to the bolts 24 and the nuts 25 and a washer The gasket 32 and the gasket 32 are connected to the block piping line 1068 flange 28 and the like by a hand-held monkey spanner and the diameter of the reactor building 1043 along the circumference of the outer wall of the reactor building 1043 The block tank for nuclear waste treatment storage in one double-structure block tank 598 of double size is provided with a double tube structure block piping line 1068 in the form of a radiation and a plurality of temperature-sensing sensor safety valves 1069 in the form of a decomposition- The nuclear waste 1030, And the cladding 1062 that protects the first wall pellet 1061 and the second wall fuel rod 1042 of the reactor 999 are formed by a third wall reactor When a plurality of the temperature-sensing-sensor safety valves 1069 are opened in the inside of the pressure vessel 1001 and in the fourth wall containment vessel 1034 or the like, the upper end block piping line 1068 of the pressure vessel 1001, (1030) passes through the bottom of the double structure block tank (598) to store nuclear waste (1030) in the radioactive nuclear waste storage tank (1047) The cooling water and the toothpaste-like loess mixture 157 stored in the reactor 999 are supplied to the inside of the pressure vessel 1001 and the fourth wall containment vessel 1034 through the double pipe structure piping line 1068, And the cooling water is supplied to the reactor 999 The explosion is terminated and nuclear explosion-proof double structure block tank (598) in the form of raw statistics of the nuclear power plant (626) inside the marine tunnel traffic apparatus (960) is filled with radioactive nuclear waste Is formed inside the shared water surface embedding apparatus body 1 forming the treatment reactor facility 962 in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface embedding treatment process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type Structure block tank 598 The radioactive nuclear waste treatment reactor facility 962 is configured to utilize a remote control cut or robot 912 during disassembly of a reactor 999 such as a nuclear power plant 626, A plurality of safety valves 1069 are closed when the internal explosion of the reactor vessel 1001 is stopped and a plurality of safety valves 1069 are normally closed at all times when the reactor is operated and various nuclear reactors 999 can be installed in the marine barge 933 (1063) at the top of the sea level to prevent the weather conditions from being affected by the earthquake and tsunami, so that the atomic energy of the atomic power plant (626) (598), which does not detonate nuclear reactors (999) and does not cause nuclear reactors to explode due to nuclear waste (1030), is installed in nuclear power plants, The double structure block tank 598 formed of a plurality of double structure block tanks 598 which is a reactor nuclear waste treatment storage tank formed from the first wall to the fifth wall in the block tank internal pipe 596 and the block tank external pipe 599), and it is provided to prevent nuclear explosion inside the reactor (999), so that safe and continuous operation of the nuclear power plant can be carried out. The safety of the nuclear power generation facilities is guaranteed, the nuclear power plant is repaired, Nuclear power plants with dual structure block tanks to prevent nuclear waste disposal reactor facilities into the marine tunnel traffic facility (960) A nuclear explosion-proof dual structure block tank 598 in the form of raw statistics of the power plant 626 and a shared radiation forming reactor facility 962 for treating the radioactive nuclear waste 1030 with a shared landfill 944 and a shared water surface landfill 945 And is formed inside the water surface embedding apparatus main body 1 before and after the water surface embedding process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type Structural block tanks (598) Radioactive nuclear waste (1030) Treatment reactors (999) Nuclear waste (1030) generated in the nuclear power plant (626) forming the facility includes the ventilation of the reactor building (1043) 999), when the pressurized water reactor is used, the method of discharging the purified air to the outside air by the active film type gas hold-up device 1044 which weakens the radioactivity when the pressurized water reactor is used, A method of discharging the exhausted air from the exhaust tower and a method of discharging the ventilated air from the exhaust tower and a method of discharging the nuclear explosion-proof double structure block tank 598 Nuclear waste (1030) treatment reactor inside the Bihan nuclear power plant (999) Nuclear explosion-proof double structure block tank (598) in the form of raw statistics of the nuclear power plant (626) Is formed in the shared water surface embedding apparatus body 1 forming the nuclear waste disposal reactor facility 962 in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface embedding treatment process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type Structural block tanks (598) Radioactive nuclear waste (1030) Treatment reactors (999) When the water leaking from the valve of the nuclear power plant forming the facility and the water in the building are regenerated liquid of ion exchange resin, etc., A method of treating radioactive nuclear waste collected in a storage tank 1047, filtered with a filter 1048, and then measured with a radioactivity measuring instrument 1049 to confirm that there is no harm, and then flows into the sea together with cooling seawater; Water other than water is purified by a filter 1048, filtered water and distilled water are used again as a reactor coolant 1004, and a monitoring monitoring post The nuclear waste disposal reactor facilities 962 inside the nuclear power plant having the nuclear explosion preventive double structure block tank 598 for the waste disposal are disposed in the marine tunnel transportation apparatus 960 in the form of the raw statistics of the nuclear power plant 626 A nuclear bombardment double structure block tank 598 a nuclear reactor waste 1030 processing reactor 999 a shared water surface filling apparatus body 1 forming a facility in a shared landfill 944 and a shared water surface landfill 945 This is characterized by being formed at the time before and after the process of the water surface embedding process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type (999) for the treatment of radioactive nuclear waste (1030) with structural block tanks (598). Ion exchange resins and filter media are used in paper, cloth, work clothes, shoes, etc. inside buildings of nuclear power plants The filter 1045 sludge and the used resin solution are stored in the storage tank 1047 and filled in the drum 1051 by hardening the concrete and the method of treating radioactive nuclear waste by compressing paper and cloth, And then all of them are hardened with concrete to be filled in the drum 1051 and the waste is moved to a forklift 858 inside the site and stored. The building and monitoring monitoring posts 1050 are equipped with nuclear detonation dual structure block tanks for nuclear waste disposal. Nuclear waste 1030 treatment reactors 999 are installed in the marine tunnel transport apparatus 960, A nuclear explosion-proof dual structure block tank 598 in the form of a raw statistic of the nuclear power plant 626 inside shared nuclear waste disposal facility 944 to form a shared nuclear waste disposal reactor facility 962 with a shared landfill 944 And is formed inside the water surface embedding apparatus main body 1 before and after the water surface embedding process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type Structural block tanks (598) Radioactive nuclear waste (1030) Treatment reactors (999) Reacted nuclear fuel (982) and spent uranium (1040) from the nuclear power plants that make up the facility are processed at the reprocessing plant (1055) The uranium fluoride 1031 is converted into uranium fluoride 1031 at the conversion plant 1056 and the fuel 982 is transferred to the concentration plant 1057 and the uranium fluoride 1031 is converted to uranium dioxide 1070 at the conversion plant 1056, The fuel rods 1042 are fabricated and processed in the reprocessing plant 1055 so that the fuel rods 1042 are produced in the conversion and processing plant 1058 so that these reprocessed fuel rods 1042 Nuclear power plant The nuclear fuel 982 is transferred to the nuclear power plant 626 and the reprocessing plant 1055 and the conversion and processing plants 1058 to the conversion plant 1056. The conversion and processing plants 1058 are used to prevent sinking The nuclear fuel cycle of the nuclear fuel (982) industry is formed on the upper surface of the barge deck deck for the treatment of nuclear waste (1030) and the inside of the nuclear power plant having the nuclear explosion- A nuclear explosion-proof double structure block tank 598 in the form of raw statistics of a nuclear power plant 626 inside a maritime tunnel transport apparatus 960 is connected to a shared landfill 944 and a radioactive nuclear waste disposal reactor 999 facility 962, Is formed inside the body 1 of the shared water surface filling apparatus body formed in the shared water surface landfill 945 before and after the shared water surface filling processing step.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type Structural block tanks (598) Radioactive nuclear waste (1030) Treatment reactors (999) At the nuclear power plant (626) that forms the facility, long-half-life wastes from the reprocessing process must be stored for thousands of years A nuclear waste disposal method in which the nuclear waste 1030 is converted into another material by fission 1059 in the reactor 999 and the permanent disposal method of the waste having a long half life period includes a construction machine heavy equipment inspecting machine 877 and an excavator 856, A nuclear waste disposal method that buries nuclear waste in polar glaciers, a nuclear waste disposal method that deeply buries in strata or ocean bottoms, A nuclear waste disposal method for transporting water containing double tubular drums (1051) to a buried area includes a barge line (933) provided with a space rocket (612) and a space rocket launch base (646) (1030) into a nuclear power plant having a nuclear explosion-proof dual structure block tank (598) for nuclear waste processing to form nuclear waste disposal methods for sending a structural drum (1051) to an outer space with a space rocket Nuclear explosion-proof double structure block tank (598) in the form of raw statistic of nuclear power plant (626) inside the ocean tunnel transport device (960) with nuclear reactor (999) facilities, and radioactive nuclear waste treatment reactor facility (962) Is formed inside the shared water surface embedding apparatus body 1 formed in the water surface 944 and the shared water surface landfill 945 before and after the common water surface embedding process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type Structural Block Tanks (598) Radioactive Nuclear Waste (1030) Treatment Reactor (999) Reactor for Nuclear Power Plant (999) to form equipment The steam generator 1068 is shut off by the safety valve 1069 and the boiler 783 of the thermal power generation is operated separately to connect the reactor power generation facility 1063 to the steam generator 1063 to supply the steam of high temperature and high pressure, (960) as nuclear waste treatment reactor facilities within a nuclear power plant equipped with a nuclear explosion preventive double structure block tank for nuclear waste disposal, A nuclear explosion-proof dual structure block tank 598 in the form of raw statistics of a nuclear power plant 626 is formed in a shared landfill 945 with a shared landfill 944 and a nuclear reactor waste treatment facility 962 for treatment of radioactive nuclear waste 1030. And is formed inside and outside the shared water surface embedding apparatus body 1 before and after the shared water surface embedding process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type Structural block tanks (598) Radioactive nuclear waste (1030) Treatment reactors (999) Nuclear power plants or the like that form the facility (962) contain reactors (811) formed from the first wall to the fifth wall on the reactor surface The tank 1047 is formed by a plurality of double structure block tanks 598 and the double structure block tank 598 is formed by block tank internal piping 596 and block tank external pipings 599 to prevent nuclear internal nuclear explosion The inner circumferential surface of the outer wall of the block tank inner pipe 596 and the inner wall surface of the outer pipe 599 of the block tank are connected to the isosceles apex steel pipe 839 and the block tank 598 for firmly supporting the double pipe structural block tank 598. [ The first auxiliary steel pipe 600 and the second auxiliary steel plate 601 for the block tank are formed by an assembly process using steel plate brackets 165 formed by cutting and welding underwater by a computer and the individual block tank internal pipes 596 And a hydraulic cylinder door 624 is formed on the wall surface of the block tank outer pipe 599 so that the forklift 858 can be inserted into and taken out from the manhole cover 610 and the manhole cover 152, Nuclear waste treatment reactor installations into a nuclear power plant 626 having a dual structure block tank 598 are provided with a nuclear explosion-proof dual structure in the form of raw statistics of a nuclear power plant 626 inside a marine tunnel transport apparatus 960 Block tank 598 Radioactive nuclear waste 1030 Treatment reactor 999 Shared water surface buried into a shared water surface treatment apparatus body 1 forming facilities 962 in a shared landfill 944 and a shared water surface landfill 945 It was specially formed before and after the treatment process It is Jing.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type Structural Block Tanks (598) Radioactive Nuclear Waste (1030) Treatment Reactor (999) Around the satellite launch pad (643) and space rocket launch pad (646) Was laid on a deck deck using a construction machine, and a 100-meter-diameter round ocher block disaster prevention wall was formed at a height of 3 meters and a height of 15 meters. A satellite launch pad and a space rocket launch pad formed at the top of deck deck (611) and space rocket (612) are fired, a large amount of fuel is burned in order to obtain propulsive force. It is equipped with a 100-meter round ocher block block wall to prevent the combustion heat of high temperature and high pressure and to form a disaster prevention wall to hold the deck deck. A nuclear explosion-proof double structure block tank 598 in the form of raw statistics of the nuclear power plant 626 inside the nuclear power plant 626, a nuclear reactor waste treatment unit 930, Is formed inside the body of the water surface embedding apparatus body 1 formed in the water surface 945 before and after the water surface embedding process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the shared water surface embedding process inside the common water surface treatment apparatus body 1 may include a nuclear explosion preventive type Structural Block Tanks (598) Radioactive Nuclear Waste (1030) Treatment Nuclear Reactors (999) In facilities (962) located in the deep sea area or in the 10 meter depth zone or as a means of moving the hull, When a plurality of hydraulic cylinders 620 formed in the long axis adjusting seesaw crane boom frame 821 are operated to feed the two floats in front of the hull 2, the hull is retracted, and both front and rear floats The anchor 639 and the anchor chain 640 are provided in the bollard 638 so as to be used as a sailing vessel shelter of the marine vessel which is a coastal marine station, The Nuclear Nuclear Power Plant with Nuclear-Explosion-proof Double Structure Block Tanks is composed of equipments that can safely move the ship by making it possible even at the bottom. Explosion-proof double structure block tank 598 in the form of raw statistics of the nuclear power plant 626 inside the reactor 960 and the reactor 999 for treating the radioactive nuclear waste 1030 are shared with the shared landfill 944 And is formed inside the body of the water surface embedding apparatus body 1 formed in the water surface landfill 945 before and after the water surface embedding process.

Alternatively, a shared landfill 944 formed in the shared water surface embedding device body 1 before and after the shared water surface embedding process may be connected to the inside of the marine tunnel transportation device 960 formed in the shared water surface landfill 945, Nuclear explosion-proof double structure block tank 598 in the form of raw statistics of the power plant 626 Nuclear waste treatment reactor 1030 Treatment reactor 999 Among the facilities 962, the nuclear reactor is divided into a research reactor 1071, (1072) of the boiling water reactor (1073), which is divided into a nuclear reactor (999) developed for power generation and a nuclear explosion-proof double structure block tank (598) The boiling water reactor 1073 boils water to make steam 465 and rotates the steam turbine 267 and the inside of the boiling water reactor 1073 is filled with the fuel 982 into the reactor pressure vessel 1001 The circulation pump 1080 and the circulation pump 1040 are connected to the water and the control rod 1029 A steam turbine 267 such as a steam pipeline 1013 and an armature coil 1011 that does not rotate are formed outside the reactor 999 And the rotating steam generator 465 with the steam 465 is used as a cooling device condenser for cooling water vapor to become water The steam 465 is cooled by the water pump 1022 and the hard water is transferred into the reactor 999 into the purifier 1035 by the water pump 1067 to form the recirculation and the cooling water is circulated in the condenser 1022 by the circulating water pump 1066 to the outside water channel of the condenser 1022 through the piping line 1065 to form a nuclear power plant and into the marine tunnel traffic apparatus 960 to the circumferential surface of the boiling water reactor 1073 of the nuclear power plant 626 Nuclear explosion-proof type in the form of raw statistics A shared water surface burial treatment apparatus body 1 forming a hollow ball block tank 598 a radioactive nuclear waste 1030 treatment reactor 999 facility 962 in a shared landfill 944 and a shared water surface landfill 945 It is characterized by being formed before and after the water surface embedding process.

Alternatively, a shared landfill 944 formed in the shared water surface embedding device body 1 before and after the shared water surface embedding process may be connected to the inside of the marine tunnel transportation device 960 formed in the shared water surface landfill 945, A dual structure block tank 598 in the form of raw statistics of power plant 626 and a dual structure block tank 598 in radioactive nuclear waste 1030 treatment reactor 999 facility 962 In the structure of the pressurized water reactor 1074, the pressurized water reactor 1074 does not generate steam by applying pressure, but instead makes hot water and exchanges water and steam in the steam generator 1036 to rotate the steam turbine 267 And the control rod 1029 is connected to the inside of the nuclear reactor pressure vessel 1001 and the control rod 1029 is connected to the inside of the reactor pressure vessel 1001, The container 1001 side The steam generator 1036 and the cooler pump 1081 are provided below the steam generator 1036 and the steam turbine 267 and the atomic power generator 1036 are provided at an intermediate portion between the pressure vessel 1001 and the steam generator 1036, Cooling water is supplied into the cooling device condenser 1022 for cooling the steam to cool the water vapor to discharge the cooling water in the piping line 1065 to the waterproof path and through the water pump 1067 connected to the condenser 1022, The water supply to the steam generator 1036 and the formation of the nuclear power plant are carried out in the marine tunnel traffic apparatus 960 to the circumferential surface of the pressurized water reactor 1074 of the nuclear power plant 626, A structural block tank 598 a radioactive nuclear waste 1030 a treatment reactor 999 a shared water surface into a shared water surface treatment apparatus body 1 forming a facility 962 with a shared landfill 944 and a shared water surface landfill 945; Before and after the landfill process, The is characterized.

Alternatively, a shared landfill 944 formed in the shared water surface embedding device body 1 before and after the shared water surface embedding process may be connected to the inside of the marine tunnel transportation device 960 formed in the shared water surface landfill 945, A dual structure block tank 598 in the form of raw statistics of power plant 626 and a dual structure block tank 598 in radioactive nuclear waste 1030 treatment reactor 999 facility 962 In the structure of the gas cooling path 1075, the gas cooling path 1075 is a reactor formed by providing graphite as a moderator 1007 with carbon dioxide as a coolant 1004, natural uranium 1028 and enriched uranium 235 And the use of carbon dioxide as the coolant 1004 forms a nuclear power plant with high heat and high pressure steam of a strong vapor condition to obtain a heat efficiency equivalent to the thermal power and supplies it to the inside of the marine tunnel transport apparatus 960 through a nuclear power plant 626 ) Of A nuclear explosion-proof double structure block tank 598 in the form of a circle on the circumference of a pressure type reactor is connected to a shared landfill 944 with a shared nuclear waste landfill 945, ) Of the water surface is buried in the body 1 of the water surface treatment apparatus body before and after the water surface treatment step.

Alternatively, a shared landfill 944 formed in the shared water surface embedding device body 1 before and after the shared water surface embedding process may be connected to the inside of the marine tunnel transportation device 960 formed in the shared water surface landfill 945, A dual structure block tank 598 in the form of raw statistics of power plant 626 and a dual structure block tank 598 in radioactive nuclear waste 1030 treatment reactor 999 facility 962 The multipurpose hot gas furnace 1076 is made of graphite as the moderator 1007 and helium gas is used as the coolant 1004 and enriched uranium 235 (1000) and thorium (1027 The heat of the helium gas is transferred to the water to form a nuclear power by the generation of steam and the nuclear power generation is performed on the circumferential surface of the multipurpose hot gas path 1076 of the nuclear power plant 626 inside the marine tunnel communication apparatus 960 Nuclear Explosion Prevention in Form Type double structure block tank 598 a radioactive nuclear waste 1030 treatment reactor 999 a shared water surface filling apparatus body 1 forming a facility 962 in a shared landfill 944 and a shared water surface landfill 945 It is characterized by being formed before and after the process of the water surface embedding process.

Alternatively, a shared landfill 944 formed in the shared water surface embedding device body 1 before and after the shared water surface embedding process may be connected to the inside of the marine tunnel transportation device 960 formed in the shared water surface landfill 945, A dual structure block tank 598 in the form of raw statistics of power plant 626 and a dual structure block tank 598 in radioactive nuclear waste 1030 treatment reactor 999 facility 962 In the structure of the new conversion furnace 1077, the new conversion furnace 1077 uses hard water as the coolant 1004 so as to increase the utilization of the fuel as compared with the existing reactor, The water and the steam 465 are separated from the steam drum 1023 and the steam 465 is sent to the steam turbine 267 to form nuclear power generation. The heavy water is used as the moderator 1007, (1009) The efficiency of utilization of uranium 1028 is increased so that nuclear power generation using natural uranium 1028 or the like is mixed with plutonium 1032 and the nuclear power plant 626 A nuclear explosion-proof double structure block tank 598, a nuclear reactor waste treatment unit 1030 treating nuclear reactor 999 facility 962 in the form of a raw statistic on the circumference of the new type conversion furnace 1077 of the new type conversion furnace 1077, Is formed inside the body 1 of the shared water surface filling apparatus body formed in the shared water surface landfill 945 before and after the shared water surface filling processing step.

Alternatively, a shared landfill 944 formed in the shared water surface embedding device body 1 before and after the shared water surface embedding process may be connected to the inside of the marine tunnel transportation device 960 formed in the shared water surface landfill 945, A dual structure block tank 598 in the form of raw statistics of power plant 626 and a dual structure block tank 598 in radioactive nuclear waste 1030 treatment reactor 999 facility 962 The fast breeder reactor 1078 in the structure of the fast breeder reactor 1078 includes uranium concentrated at about 20% of enriched uranium 235 (1000) and uranium enriched in natural uranium 1028 and plutonium 1032 at the central portion of the fuel rod 1042 The periphery of which is surrounded by natural uranium 1028 and inside the fuel rod 1042 is plutonium 1032 formed from uranium 238 1016. The plutonium 1032 is taken out to be used as the next fuel, 1004 may be a liquid metal The intermediate heat exchanger 1082 does not contain the moderator 1007 and the heat generated in the reactor 999 is transferred from the intermediate heat exchanger 1082 to the other liquid metal sodium since the neutrons 1009 need not be used for deceleration However, the heat exchanger converts water into steam by heat of liquid or sodium, and the steam turbine 267 rotates to form nuclear power, and the nuclear power plant 626 is transferred into the marine tunnel transportation apparatus 960 through the new conversion path 1077 of the nuclear power plant 626 A nuclear explosion-proof dual structure block tank 598 in the form of a circle statistic on the circumferential surface, a nuclear reactor waste 930 processing reactor 999, And is formed inside and outside the shared water surface embedding apparatus body 1 before and after the shared water surface embedding process.

Alternatively, the inside of the marine tunnel transport apparatus 960 formed before and after the common water surface embedding process process inside the common water surface embedding apparatus body 1 may include a nuclear explosion-proof dual structure of the nuclear power plant 626, Block tanks 598 Radionuclear waste 1030 Treatment reactors 999 Equipments 962 include various construction machines 970. Firstly, the range of bulldozer 855 is infinite orbit and tire type, and secondly, (856) range is more than 1 ton with an excavator in infinite orbit and tire type, the standard is self weight, and the range of loader (857) is more than 1 ton with load device in endless track and tire type, (858) range is represented by a tire-type lifting device, and the standard is represented by lifting capacity. Fifth, the range of the scraper (859) (860) range is more than 12 tons of loading capacity, but the loading capacity is more than 12 tons and less than 20 tons. For use in freight transportation, Except for those registered as automobiles by car, and the seventh, the crane (861) range is an infinite orbit and a tire type, except that it has a steel pillar and swivel system, The eighth, motor grader 862 range is represented by the self-contained stationary device and the standard is the blade length, and the ninth, roller 863 range is firstly the one with the adjustable and voltage device, The standard is expressed in medium capacity, and the tenth safety gear (864) range is for autonomous, The concrete batching plant 865 has a range of aggregate reservoirs, with a metering device and a mixing device, the movable type having a prime mover, and the standard is expressed in hourly yields of concrete, and the twelve, concrete finisher 866, The range is a standard width with construction and prime mover, with prime mover, a standard width that can be constructed, and a third with a concrete spreader (867) range, with a prime mover, with standard prime mover And the fourteenth concrete mixer truck 868 range is self propelled with a mixing device and includes an auxiliary device for the loading and unloading of the material input and the specification is expressed as the amount of concrete that can be mixed in the container at least once Fifteenth, the concrete pump (869) range is concrete pear Asphalt mixing plant (870) ranges from asphalt mixing unit (870) to dry heating unit and mixing unit asphalt feed unit And specifications are expressed by the production capacity per hour of the ascon. The seventh, the range of the asphalt finisher (871) has the prime mover with the pruning and finishing device, and the standard is the standard pavement width that can lay the ascon. The eighteenth, asphalt spreader (872) range is represented by the capacity of the asphalt tank with the asphalt sprayer and the standard is the capacity of the asphalt tank. The nineteenth, the aggregate spreader (873) range is self- The standard width is expressed as 20th, the crusher (874) range is 20KW And the standard is expressed by the capacity per hour, and the range of the air compressor (875) is expressed by the amount of air per minute per minute, and that the air discharge amount is more than 283 m 3 / min. (877) range has a perforator, the hammer and flushing device weight is over 0.5 ton, and the twenty-fourth, sari-sampler 878 range is sour, (879) range is pump type, bucket type, dipper type and grab type, Visa type, specification is P8 and ㎥, and twenty-sixth (880) is a machine with similar structure and function to the construction machinery of the 1st to 25th Shared water landfill system by the minister. Shared landfilling system. Inland and out of the Northeast Asian region, which is formed inside the body. Inland and out of the world formed by the water surface treatment process before and after the water surface treatment process. According to the weather forecast of Meteorological Agency In order to prevent floods and droughts in advance efficiently and quickly, and to overcome flood damage caused by various natural and man-made disasters, the installation process of the flood control system which can continuously control the flood damage and the flood control system (959) A nuclear explosion-proof double structure block tank 598 in the form of a raw statistic of the nuclear power plant 626 into the marine tunnel transport apparatus 960 with equipment having the overhead system construction machine 970, radioactive nuclear waste 1030 ) Treatment Reactor (999) Facility is shared both inside and outside Northeast Asia with landfill (944) and shared with landfill (945) It features formed upon the surface before and after the shared embedding processing step formed in the inner surface property shared embedding processing device body (1) to.

Alternatively, among the flood control devices 959 having various construction machines 970 formed inside and before the shared water surface embedding process inside the shared water surface embedding device body 1, The water tank 292 and the concrete dam 680 including the natural water stored in the tank 292 and the circular concrete dam 680 and the loess mixture 147 such as the disaster prevention water 7 and the like are disposed in the water In order to overcome this problem, the installation process of the method of controlling the flood control with the flood control device 959 including the various construction machines 970 of the flood control system, and the flood control process are the land and sea of the world, ), A multi-damper type non-powered water pump (393), a water tank tank (295), and a water tank (395) are connected to the inside of a circumference of 2,400 km circumference of Samcheonri- On And the unmanned camera 184 of the control system and the like are installed in the flood control unit 959. The flood control unit 959 includes various construction machines 970 of the flood control system And a common water surface landfill 945 formed in the shared landfill 944 and the shared water surface landfill 945 with the flood control devices 959 in which the installation process of the method of controlling the flood control with the device 959 and the flood control process are performed, (1) is formed inside and outside the shared water surface treatment process.

Alternatively, the flood control device 959 including the construction machine 970 may be installed and installed in the flood control device 959 to control the flood control, And is connected to the water tank 292 and the concrete dam 680 inside and outside the Northeast Asia region formed before and after the process of the common water surface embedding process into the body 1 of the water surface embedding processing apparatus 1 formed in the water surface landfill 945 A plurality of pump backflow prevention check valves 6 and a plurality of suction and mixing tubes 3 and a discharge manifold 4 are provided with a high pressure stage multi stage dissipation pump 8 and a fire hose 9, Stage multi-stage disaster prevention pump (8) and a fire-fighting high-pressure multi-stage disaster prevention pump (10) formed at the tail of the fire hose (9) such as a fire hose (9) are connected to the pipe (3) 8 and the concrete dam 680 are provided with a water tunnel 293 and an emergency water tunnel 17 672 are positioned to control the flood control system, and a flood control system including various construction machines 970 of the flood control system is installed to overcome flood control, so that the flood control system 959 And is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface embedding process.

Alternatively, it is possible to provide a flood control device including various construction machines 970 formed before and after the shared water surface embedding process in the body of the shared water surface embedding device 1, Several ridges 819 located in the mountainous bottom part 8 ridge valleys 819 inside and outside the Northeast Asia region formed in the shared landfill 944 and the shared water surface landfill 945 by the flood control devices 959 so that the adjustment process can be performed The tunnel 672 is located in the concrete dam 680 from the river 5 to the river 5 and the river 3 to the river 3 in the ridge valley 819 and from the river 678 to the upper stream valley 819 of the small river. The wastewater 266 and the agricultural wastewater 266 are prevented from flowing into the wastewater 266 and the industrial wastewater 266 to form the fishery shell scattering field 929 so as to restore the ecosystem balance so that the fish and shellfish can be scattered, Ripji is characterized by formed during after 944 and public waters reclaimed 945, flood control device (959), the public waters embedding processing apparatus body 1 around the embedded public waters treatment process by forming in the interior.

Alternatively, it may be provided with a flood control device 959 having various construction machines 970 formed inside and before the shared water surface embedding process in the common water surface treatment apparatus body 1, The world's four major fishing grounds in which the tunnels 680 are connected to the area where the trenches 672 are located under the concrete dams 680 and the trenches 680 are connected to the areas where the trenches are in contact with the trenches are shared with the landfill 944 and the shared surface landfill 945 And is formed inside the shared water surface embedding apparatus body 1 formed by the apparatuses 959 before and after the shared water surface embedding process.

In other words, the four world-wide shared landfills 944 and the shared water surface landfill 945 including the inside and outside of the Northeast Asia region formed before and after the shared water surface embedding processing process into the inside of the shared water surface embedding apparatus body 1, Inside and outside Northeast Asia, 65% of the mountainous terrain of the Baekdudaegan line of demilitarization (947) The Concrete Dam (680), located at the top of Mt. Sorak in the Taebaek mountain range, starts as a starting point and extends northward and southward along the mountain ridge And a plurality of disaster prevention waterways 17 connected to the concrete dam 680 are distributed to the Taebaeksan mountain in the Baekdudaegan and the Nambongdong vein in the Taebaeksan western part Geumbuk vein mountain fumi fumi, Mt. Mt. Mt. Mt. Mt. Jiri, and Mt. Geumnam - myeon, In the southern vein, etc., a rainwater and loess mixture 157, which is a concentrated rainfall such as natural water in preparation for the flood season, is connected to a water tank 292 for storing the control water of the south coast beach and a detonation concrete tank The water tank 292 and the concrete dam 680 for storing the control water are connected to the control tank 400 for controlling the breakwater together with the breakwater. A method of opening the ocher pressure control valve 469 and the lift-type check valve 453 to discharge a large amount of the control water to block the occurrence of the harmful tide, and a variety of construction machines 970 And is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 with the flood control devices 959 provided before and after the shared water surface embedding process.

Alternatively, the flood control devices 959 having various construction machines 970 formed before and after the shared water surface embedding process inside the shared water surface embedding device body 1 may be connected to the shared landfill 944 and the shared water surface Landfill (945) In preparation for the prolonged drought in and out of Northeast Asia, the eastern part of the Taebaek mountain range, 65% of the country, And natural water is stored in each concrete dam (680) located on the western side of the mountain range. By opening the water gate (293) of the concrete dam (680) in the flood season, the natural water is moved through the disaster prevention water channel The shared water surface 944 and the shared water surface 944 formed in the shared landfill 944 by the flood control devices 959 with the construction machine 970, Is characterized by the lip formed at the time of after treatment device body (1) around the public waters embedding process to the inside.

Alternatively, the flood control devices 959 having various construction machines 970 formed before and after the shared water surface embedding process inside the shared water surface embedding device body 1 may be connected to the shared landfill 944 and the shared water surface Landfill (945) In and out of Northeast Asia In the drought period, water is steadily discharged to the whole country, and domestic water, agricultural water, industrial water, etc. are buried in the ground by piping, And the stream holding water is supplied to the shared landfill 944 (see FIG. 4) by the flood control devices 959 having various construction machines 970 by methods of suitably maintaining the supply of water through the disaster prevention water path 17 ) And the shared water surface landfill 945 are formed inside the body 1 of the shared water surface embedding processing apparatus before and after the common water surface filling process.

Alternatively, the flood control devices 959 having various construction machines 970 formed before and after the shared water surface embedding process inside the shared water surface embedding device body 1 may be connected to the shared landfill 944 and the shared water surface Landfill (945) In and out of Northeast Asia, electric power is generated and supplied to hydroelectric generators (213) located in various regional hydroelectric power plants (233), and water is pumped into the concrete dam (680) From the river stream, the power pump 304 of each ridge line water supply also supplies electric power to the 5th water intake concrete dam 680 and the 5th water intake concrete dam 680. The concrete dam 680, The water pump is equipped with the power pump 304 and the water is pumped to the concrete dam 680, which is repeatedly taken in the concrete dam 680 for each 8 ridge line, to overcome the flood and the drought. And various construction The water surface of the common water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 by the flood control devices 959 having the system 970 .

Alternatively, the flood control devices 959 having various construction machines 970 formed before and after the shared water surface embedding process inside the shared water surface embedding device body 1 may be connected to the shared landfill 944 and the shared water surface Landfill 945 Water taken in the mountainous water intake concrete dam 680 into the inside and outside of the Northeast Asia region is discharged to the outside through a plurality of disaster prevention nozzles connected to the pipe and the fire hose 9 while opening the respective valves formed in the water intake concrete dam 680 10), and it is sprayed continuously at the time of the 8th ridge below the peak of the mountain. In the 8th ridge, the 5th ridge below the 8th ridge, the 5th ridge below the 5th ridge, and the 3th ridge below the 3rd ridge. In order to reduce damages from natural disasters such as forest fires and yellow dust and drought, a method of preventing natural disasters by using the potential energy of water and a flood control device 959 equipped with various construction machines 970 And is formed inside and outside the shared water surface embedding apparatus body 1 before and after the shared water surface embedding process.

Alternatively, the flood control devices 959 having various construction machines 970 formed before and after the shared water surface embedding process inside the shared water surface embedding device body 1 may be connected to the shared landfill 944 and the shared water surface The landfill 945 includes a method of circulating the water of the intake dam located on the ridge line to the peak of the mountain by providing the non-dynamic force water pump 393 separately from the inside and outside of the Northeast Asia region including the power pump, (970) of the flood control system to overcome various floods that can overcome the flood and drought quickly. The water surface of the common water surface embedding device body 1 formed in the shared landfill 944 and the shared water surface landfill 945 by the flood control devices 959 having the water surface regulating unit 959 It is characterized generated.

92 Alternatively, in order to overcome various floods formed before and after the shared water surface embedding process into the inside of the shared water surface embedding device body 1, the flood control devices 959 having the construction machine 970 of the flooding- (944) and Shared Surface Landfill (945) Inside and outside Northeast Asia, Baekdudaegan has paved roads and unpaved roads for various purposes such as highways, national roads, provincial roads, forest roads and military roads. The mountain has been severed and the ecosystem has been severed. Currently, there are 72 roads passing through the Baekdudaegan at an interval of 9km on average. Therefore, major habitats of wildlife and plants are being damaged. (681), an upper portion and a lower portion of the bridge (681) are provided with disaster prevention waterways (17), and ecological passages are formed for restoration of the disconnected ecosystem, In order to overcome the flood damage, the flood control devices 959 equipped with the construction machine 970 of the flood control system 970 are connected to the shared water surface filling apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 It is characterized by being formed before and after the process of the water surface embedding process.

Alternatively, in order to overcome various floods formed before and after the process of the water surface embedding process in the shared water surface embedding apparatus body 1, the flood control devices 959 including the construction machine 970 of the flood control system Shared landfills (944) and shared reclaimed landfills (945) The Nakdong river estuary and Yeongsan river estuary, which form inside and outside Northeast Asia, have been opened with the purpose of shutting off the brine inhalation water inlet and blocking the flow of agricultural landfill water. In the case of marine fishery products (929), fishermen do not spawn, and merchant vessels and fishing vessels can not pass through. Therefore, the inconveniences of the residents are significant. In addition, the water quality of the river has dropped from 3 to 4, There are algae up to the water intake area, and the odor is smelled. The industrial area is concentrated in the middle and upstream of the middle stream river, Because it is an accelerating increase, it is supplied to the drinking water of the water source with contaminated water. Therefore, it takes a lot of advanced water purification facilities and activated carbon of purified water materials, and the production cost of the water source is increased, and the damage is caused by the residents. (293) of the Nakdong River estuary and Yeongsan river estuary (293) are always opened or the gates (293) are completely demolished. The river bed (678) and the river bank (679) A shared water surface landfill 945 that forms a flood control device 959 with a construction machine 970 on a shared landfill 944 and a shared water surface landfill 945 so that the groundwater of the aquifer of the aquifer can be pumped up or ejected in bulk And is formed inside the treatment apparatus body 1 before and after the common water surface treatment process.

Alternatively, in order to overcome various floods formed before and after the process of the water surface embedding process in the shared water surface embedding apparatus body 1, the flood control devices 959 including the construction machine 970 of the flood control system A plurality of excavator construction machines 970 are mounted on the barge 933 to discharge a large amount of deep ocean water formed inside and outside the Northeast Asia region to the contaminated river bed by the shared landfill 944 and the shared water surface landfill 945, After completion of the underground underground construction, the double structure block tank 598 is formed with the disaster prevention water passage 17, and the pump and the injection nozzles are located on the riverbed, and a number of deep ocean water discharge water functions as a breakwater 679, The construction machine and the barge line (933), which are equipped with methods for water quality conservation and ecosystem restoration, are provided to overcome floods such as pumps and nozzles. The system is constructed such that the flood control devices 959 having the construction machine 970 are installed in the shared landfill 944 and the shared water surface landfill 945, It is characterized by being formed in the back.

Alternatively, a shared landfill 944 and a shared water surface landfill 944 formed before and after the shared water surface embedding process in the water surface 1 of the shared water surface embedding apparatus body may be used to overcome various floods in and out of the Northeast Asia region. The circular water tank 292 located at the top of the mountain forming the equipment having the overhead system construction machine 970 inside the flood control device 959 selects the rustproof stainless steel or plastic material, The body of the water tank 292 may be formed of a double structure block tank 598 to store the water 7 in the block tank internal pipe 596, A heat insulating material 820 is formed on the outer wall of the outer pipe 599 of the block tank so as not to be frozen in the winter during the winter season and a heating device 815 is provided in the middle between the block tank inner pipe 596 and the block tank outer pipe 599 Forming and cooling device (816) air A heater fan 642 and a cooling fan 641 for heating the apparatuses and air are connected to the shared landfill 944 and the shared reclaimed landfill 945 by the flood control devices 959 having the construction machine 970 of the flood control system ) Of the water surface is buried in the body 1 of the water surface treatment apparatus body before and after the water surface treatment step.

Alternatively, it is also possible to use a device having a construction machine 970 of a flood control system to overcome various floods both inside and outside the Northeast Asia region formed before and after the shared water surface embedding processing process into the inside of the common water surface treatment apparatus body 1 (266) in the midstream and upstream areas of the middle stream area formed by the inside of the flood control device (959) is completely blocked and the water is completely purified in the sewage end treatment plant (676) outside the large river bank (679) A shared landfill 944 and a shared reclaimed landfill 944 with flood control devices 959 having a construction machine 970 of a flood control system for overcoming various floods formed by the purification facility and the sewer construction work 677 to inflow water. Is formed inside the body of the water surface embedding apparatus body 1 formed in the water surface 945 before and after the water surface embedding process.

Alternatively, in order to overcome various floods in and out of the Northeast Asia region formed before and after the shared water surface embedding process in the water surface treatment apparatus body 1, The water level of the water level in the water tank located inside the water level adjusting device 959 and the yellow loess mixture 157 stored in the water control dam are cut to a level of 5% (921) for preventing the harmful red tide of the harmful tidal microorganism (921) from spreading on the barge after being formed on the barge line, In order to cope with various floods formed by the cooling device 816 and the heating device 815 facilities corresponding to the temperature change, the flood control devices 959 including the construction machine 970 of the flood control system, And is formed inside the shared water surface embedding apparatus body 1 formed in the water surface 944 and the shared water surface landfill 945 before and after the shared water surface embedding process.

Alternatively, it is also possible to provide a system having a construction machine 970 of a flood control system to overcome various floods in and out of the Northeast Asia region formed before and after the shared water surface embedding process in the water surface 1 Before the construction of the soil dam natural dam (680) and the disaster prevention water line (17) in the construction concrete dam built into the flood control device (959), the environmental impact evaluation based on the local setting location of the dam and the water channel A natural dam 680 having a stone and soil separate from the concrete dam 680 by calculating and forming a material such as gravel cement on the reinforcing bar and the sand serving as the material of the concrete dam 680, And the disaster prevention waterway (17). The construction machine (970) and the cable car (256) were constructed near the dam site to find the construction work. The water surface is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 by the flood control devices 959 having the water surface regulating apparatus 95 Feature.

Alternatively, it is also possible to provide a system having a construction machine 970 of a flood control system to overcome various floods in and out of the Northeast Asia region formed before and after the shared water surface embedding process in the water surface 1 (959) for the purpose of preserving road facilities such as roads, railways, bridges, etc. by turbulent flow and vortices formed in the flood control facilities (959) In order to overcome various disasters provided by the geological survey measuring instruments so that disaster prevention works such as axle reinforcement and maintenance work are performed according to the calculations, the flood control devices 959 equipped with the construction machine 970 of the flood control system, (944) and the shared water surface landfill (945) formed before and after the process of the water surface embedding process in the shared water surface embedding apparatus body This feature.

Alternatively, in order to overcome various floods in and out of the Northeast Asia region formed before and after the shared water surface embedding process in the water surface treatment apparatus body 1, The fishermen are transferred to the barge line 933 so as to prevent the fishes from being caught before the water temperature of the cage farm 929 rises due to the harmful red tide and the heat generated inside the adjusting device 959, And a method of moving the water to the landfill site 945. In order to cope with various floods formed by including the flood control system 954, the flood control apparatus 959 having the construction machine 970 of the flood control system, And is formed inside the water surface embedding apparatus main body 1 before and after the water surface embedding process.

Alternatively, in order to overcome various floods in and out of the Northeast Asia region formed before and after the shared water surface embedding process in the water surface treatment apparatus body 1, The deep water in the bottom of the ocean floor is supplied to replace the cooling device formed inside the regulating device 959 and the dummy file hammer 882 and the diesel pile hammer 882 are supplied to the construction machine hunting and anti- A plurality of deep water boreholes 936 are drilled in the downstream of the river and the ocean by mounting steam hammer 884 and crude oil drilling machine 908 on the deck 933 of the pumping bay 933, And a piping and a hose are provided on the upper surface of the deck to supply deep seawater together with purified seawater to the tank tank 295 of the farm site 929. In order to overcome various floods, The water surface of the surface of the common water surface embedding processing body 1 formed in the shared landfill 944 and the shared water surface landfill 945 by the flood control devices 959 equipped with the construction machine 970 of the water surface pre- .

Alternatively, it is also possible to use a device having a construction machine 970 of a flood control system to overcome various floods both inside and outside the Northeast Asia region formed before and after the shared water surface embedding processing process into the inside of the common water surface treatment apparatus body 1 The water taken from the intake port of the intake dam per each ridge located below the peak of the mountain formed inside the flood control device 959 is introduced into the water tank 802 through the water channel 294 And sends the same to the pump aberration 264 and the Francis aberration 229 via the hydraulic tube 191 to convert the position energy of the water into mechanical energy, And a method for generating electric energy by the water supply system 213 such as a hydroelectric power generation facility 233 or the like. In order to overcome various disasters formed by hydropower generation facilities of the hydroelectric power generation plant 233, a flood control device 959 ) Is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface embedding process.

Alternatively, in order to overcome various floods in and out of the Northeast Asia region formed before and after the process of the water surface embedding process into the inside of the shared water surface embedding apparatus body 1, The hydroelectric power plant of the hydroelectric power plant 233 forming the inside of the regulator 959 includes a pressure head tank 189 located above the hydroelectric power plant 233 and an inlet A plurality of introduction pipes 191 are connected to the hydraulic power plant through the introduction pipe 191 at the upper part of the hydroelectric power generating unit formed in a connection structure with the pressure head tank 189 and at the discharge port 270 at the rear of the pressure head tank 189, The turbine, the pump aberration 264 and the Francis aberration 229 are connected to the lower portion of the respective hydroelectric generators 213 and the suction structure 269 is connected to the forward portion of the Phelton aberration 230, Flow rate A construction machine 970 of a flood control system is provided to overcome various floods of marine hydroelectric power plants 231 which convert kinetic energy of water into mechanical energy and generate electric energy by the hydroelectric power generator 213 Is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 by the flood control devices 959 before and after the shared water surface embedding process.

Alternatively, in order to overcome various floods in and out of the Northeast Asia region formed before and after the process of the water surface embedding process into the inside of the shared water surface embedding apparatus body 1, The hydropower generator generates a hydraulic pressure in the hydraulic power generator 213 to generate mechanical energy to rotate several aberrations and turbines to generate power, A turbine, a hydraulic power generator 213 for converting the power generated from the aberrations and turbines, and a turbine (not shown) at the upper end of a shaft 198, which is a rotary shaft connecting the turbine and the turbine, An exciter 215 for supplying a current to the field coil of the AC electric motor is located below the exciter 215 and a ring coil is pushed under the exciter 215 A driver's guide bearing 217 is positioned below the driver's ring tube 216 and a driver's bearing 218 is positioned below the guide guide bearing 217, A stator core 221 is disposed in the lower portion of the drumstick bearing 218 and the stator core 221 is disposed in the stator frame 220. A wire is inserted into the gap between the stator core 221 and the stator core 221, And a lower guide bearing 225 is disposed on a brake ring 223 and a brake and a jack 224 at a lower portion of the fan and a lower bearing cooler 222 is positioned below the lower guide bearing 225, An armature coil 1011 for a generator, which is a non-rotating coil installed along the circumferential surface of the rotor coil 1012, and the like, The power generating unit 1063 having a turbine bearing 227 and a vane pump 142 and a runner 228 connected to the casing 141 are installed in the water turbine A common water surface landfill 945 formed in the shared landfill 944 and the shared water surface landfill 945 by the flood control devices 959 provided with the construction machine 970 of the flood control system for overcoming various floods formed by the generator 213 structure. And is formed inside the treatment apparatus body 1 before and after the common water surface treatment process.

Alternatively, in order to overcome various disasters formed before and after the process of the water surface embedding process into the inside of the common water surface immersion treatment apparatus body 1, the inside of the flood control apparatus 959 equipped with the construction machine 970 of the flood control system The electric motor body 192 that forms the electric motor body 192 has a fan assembly 195 attached to the hood 193 and the retaining ring 194 and a rotor assembly 199 and a shaft assembly 198 to the front racket 197 and the shaft 198 of the electric motor body 192, The terminal box 203 and the terminal box cover 205 are attached to the lifting bolts 204 and the rear rackets 205 are attached to the rear bearing 206. [ 207 and the rotor core 210 in the fan cover 209 and the stator winding 212 in the stator iron core 211. In order to overcome various problems, 970) to the shared landfill 944 and the shared water surface landfill 945, And is formed inside the body 1 of the surface embedding treatment apparatus before and after the process of the water surface embedding process.

Alternatively, in order to overcome various floods formed before and after the process of the water surface embedding process in the shared water surface embedding apparatus body 1, the flood control devices 959 including the construction machine 970 of the flood control system A power pump 304 having an impeller 143 formed at an end of a shaft 198 of a motor body 192 to be formed and a prime mover air compressor 80 having a connection structure. (960) formed in the shared water surface embedding apparatus body (1) formed in the shared landfill site (944) and the shared water surface landfill (945) by the flood control devices (959) .

Alternatively, in order to overcome various floods formed before and after the process of the water surface embedding process in the shared water surface embedding apparatus body 1, the flood control devices 959 including the construction machine 970 of the flood control system A small number of marine power plant small floating lifting tanks 590 which are combined with a pillar tie hull 592 of the lower part of the holding tank 590 to the strut tank upper barge hull 591, (595) of a marine power plant is fixed to the bottom of the ocean floor at the bottom of the ocean floor in a marine power plant large-scale floating postal drilling rig (593) And a construction machine 970 of a flood control system for the purpose of overcoming various disasters such as a hydraulic cylinder 620 and a vertically pointed slit-coupling tool blanking block 185, Surface burial treatment apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 with the water tunnel 959 and the marine tunnel traffic apparatus 959 before and after the shared water surface embedding treatment process Feature.

Alternatively, the flood control device 959 and the marine tunnel transportation devices 960, which include the construction machine 970 formed before and after the process of the water surface embedding process in the shared water surface embedding device body 1, Landfill (944) and Shared Water Landfill (945) In the 10m depths of the ocean floor, unlike the previous rafts and barges that are sinking due to typhoons and wavy waves, they are located at a depth of 10km below sea level (233) hydroelectric power generator (213) of the dam hydroelectric power plant (233) in the bottom of the sea floor in the underside of the sea floor in the unsteady state of severe storm surge and the hydroelectric power generator (213) of the hydroelectric power plant And the steam turbine 267 of the thermal power plant are combined with the power generation facilities of all other marine power plants to form a pipe bridge 937 tunnel poison 993 which is connected to the holding tank 590 at the center of the barge hull, Block tank external piping (599) provided along the outer circumferential surface of the block tank internal pipe (596) in the block tank inner pipe (596) of the pillar holding tank (590) and the water pressure inside the double- (592) Deck deck upper part (SDU) mounted on the upper part of the holding tank, equipped with equipment for air pressure control and prevention of sinking. Global marine environment The disaster prevention control system (998) inside the marine tunnel traffic system (960) that is operating as an integral part of the offshore development equipment forms the separation and disassembly process at the sea level according to the depth of the sea floor depth, and the marine iron structures are safe A plurality of construction machines 970 and deep sea submersibles 995 are formed on the bottom of the seabed according to a manufacturing method and a flood control device 959 having a construction machine 970 and a marine tunnel communication device 960 ) Is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface embedding process.

Alternatively, the subsea bottom shared landfill 944 and the shared surface landfill 945 construction machine and the marine tunnel transportation devices 959, which are formed inside and before the shared water surface embedding process, And a deep sea submersible 995 to the bridge pier 928. The construction of the bridge pier foundation base 851 is not limited to the construction of the bridge pier 851, And a plurality of construction machines 970 are provided in the upper part of the shared water surface SLU and the deep sea submersibles 995 are provided on the upper surface of the bottom of the shared water surface SLD, Is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 with the marine tunnel transportation devices 959 before and after the shared water surface embedding process.

110 Alternatively, a plurality of construction machines 970 formed before and after the process of the water surface embedding process into the water surface 1 of the shared water surface embedding apparatus 1 may be installed in a central portion holding tank (not shown) at the upper end of the upper end of the shared water surface top portion The rotary table drilling machine 908 for crude oil is provided inside the block tank internal piping 596 of the borehole 910 of the pipe rack 590 and is provided with a diamond material core drill 917 for mechanical use coupled to the end of the pipe rack 854, And a drilling machine 876 is also installed inside the block tank internal piping 596 of the four holding tanks 590 around the central part of the upper end of the upper part of the shared water surface upper part (SLU) hull, similar to the excavation process of the borehole 936, A diesel pile hammer 883 and a steam hammer 884 are provided in a special construction machine 880 and a pile driver 882 in a hanger and an anti-eraser 877, The lower part (SLD) The low-level drilling rig 845 and the rock drilling machine 847 are provided with an anchor replacement crank 846 and a plurality of anchors 639 at the respective corners outside the hull bottom, A crevice tool and a crevice tool for fixing the anchor 639 and the grinding wheel 185 to the bottom floor of the sea floor to form a mooring process, A hydraulic control valve 603 is connected to the inside of the block tank internal piping 596 of the holding tank 590 at a predetermined distance from the lower end of the hydraulic cylinder 592 and a tank frame under- ) And a plurality of hull anchoring bollards (638) at a predetermined distance from the upper end of the hull deck (SDU) at the upper end of the hull bottom, and a deep sea submersible (995) A shared landfill 944 and a shared surface landfill 945 are connected to marine tunnel traffic devices 959 with a construction machine 970 including an excavator of a centrally located holding tank at the upper end of the hull deck, And is formed inside the body 1 of the shared water surface embedding processing apparatus formed in the water surface embedding processing step before and after the water surface embedding processing step.

Alternatively, the marine tunnel transportation devices 959 having the construction machine 970 formed before and after the shared water surface embedding process process inside the shared water surface embedding device body 1 may be connected to the shared landfill 944 and the shared water surface A landfill 945 is connected to the upper portion of each of the holding tanks 590 by a crushing machine 908 for crushing crude oil and a pipe line 181 for combined cargo transportation for connecting carver to protect the pipe rack 854, A crude oil transportation pipeline line 181 for preventing the generation of harmful gas at the time of the elapse of time and for preventing the generation of harmful gases and a plurality of electronically controlled butterfly valves 305 and oval valves 259 of the in- 922 and a collecting process for collecting crude oil and is formed integrally with the crude oil drill ship 841. The center tank 590 is connected to the block tank outer pipe 599 of the holding tank 590, A fishing net 932 for securing a fish stock, A fish finder sonar 907 is attached to an unmanned camera 184 provided to protect facilities from aggressive military actions inside and outside the cradle 590 and a pyramid apartment building in the form of a pyramid apartment building around the outer wall of the holding tank 590 The hydraulic cylinder right key 620, the band guide pin 621, and the Velcro butterfly valve 622, which are respectively provided outside and inside the block tank outer pipe 599 of the holding tank 590, 623 and the hydraulic cylinder door 624 and the stopper plate 625 and the nuclear power plant 626 and the engine control system engine control module 627 and the diaphragm rubber balloon 628 with the rope rope 629, A vacuum pump 635, a tug line 636 and a semi-submerging operation line 637 are provided in the emergency step 631 and the aliquot 632 on the hook 630 and on the conveyor 633 and the anti- A heater fan for keeping air in the bellows 638 and the anchor 639 is attached to the anchor chain 640 and the cooling fan 641, A leap block 648 to a space rocket launch pad 646 and a helicopter 647 to an electric magnet magnet 645 and a loam and cement mixer mixer 649 to a satellite launch pad 642 and a satellite launch pad 643, (22) and nozzle hose equipments (65) for crane boom hooks (652) and alternative use sails (654) to crane boom block (651) And a high performance submersible pump 36 to form marine tunnel traffic devices 959 having buried material gravels 653 formed on the top of a shared water surface top part (SLU) hull deck deck (SDU) having a construction machine 970 And is formed in the shared water surface embedding apparatus body 1 formed in the shared landfill 944 and the shared water surface landfill 945 before and after the shared water surface embedding process.

Alternatively, energy can be supplied to the equipment having the construction machine 970 before and after the shared water surface embedding process in the water surface treatment apparatus body 1, An energy power line supply is provided to the construction machine 970 before and after the shared water surface treatment process inside the apparatus body and the lower end of the upper part of the double structure tank block 598 and the deck deck upper part SDU The wire rope and hooks formed in the crane 861 at the upper end of the crane 861 are installed in the boom frame to form an equipment for loading and transporting the undersea mining manganese nodule 909 through the through holes that can be operated up and down, The disaster prevention material air bag 849 is disposed in the shared landfill 944 and the shared water surface landfill 945 by the flood control devices 959 provided in the seesaw crane boom frame 821 And is formed inside and outside the shared water surface embedding apparatus body 1 before and after the shared water surface embedding process.

Alternatively, a flood control device 959 including a construction machine 970 formed before and after the shared water surface embedding process in the shared water surface embedding device body 1 may be shared with a shared landfill 944, (974), a submarine (975) and a fighter (976), a vessel (977), and a nuclear (974), from the tidal area of the land and the coast of the sea to the 30m intertidal zone (971) such as an aircraft carrier (978) and the like are in a range of 2,400 km in diameter with a radius of 1,200 km from the center of the peninsula in order to prevent military action from being made to a shared landfill 944 and a shared landfill 945 In order to increase the incomes of farmers and fishermen, a water conservation facility (959) equipped with a peace-keeping type construction machine (970) is shared with a landfill site (944) ball And is formed inside the body of the water surface embedding apparatus body 1 formed in the water surface landfill 945 before and after the water surface embedding process.

Alternatively, a flood control device 959 having the peace-keeping construction machine 970 may be installed in the shared water surface treatment apparatus body 1 forming the shared landfill 944 and the shared water surface landfill 945, The water tank 292 formed before and after the landfill process is constructed of a high-strength stainless steel plate (597) at the bottom of the water tank (292) where the welding process is eliminated in a portable manner so that the water tank (292) The upper end of the water tank 292 on which the stopper steel plate 625 is formed is not attached to the lower end of the water tank 292 and the concrete base bottom thickness is set to 60 cm, The double structure block tank 598 is of width x length x thickness; A plurality of the stencil plates set on the basis of the standard of 1.5 m x 1 m x 3 mm were fixed to the machining holes 20 of the respective stencil plates formed by the bolts 24 and the nuts 25 in the form of a circular tank by a hand tool Before the bonding, the gasket (32) is connected to each stanchion in the form of a cylinder, and the block tank inner pipe (596) and the block tank outer pipe (599) The cement 931 is mixed with the concrete finisher 865 belonging to the construction machine 970 by the concrete finisher 866 and the concrete spreader 867 and is conveyed to the concrete mixer truck 868, A flood control device 959 including a construction machine 970 of a flood control system including a base bottom of a tank 292 formed of a reinforced concrete mat 1054 and a method of converting energy of water into kinetic energy is installed in a shared landfill Lt; RTI ID = 0.0 &gt; 944 &lt; / RTI &gt; It is characterized by oil surface embedding processing device body (1) formed at the surface of the water before and after the shared embedded into the treatment process.

Alternatively, the flood control device 959 and the marine tunnel traffic device 960 having the construction machine 970 formed before and after the shared water surface embedding process process inside the common water surface immersion device body 1 may be provided with a seesaw crane boom (685) for supplying electricity to the hydroelectric generator body of each marine power plant to supply the energy necessary for the operation of the equipment formed in the main power generation control unit 781 and the transmission measuring room 782 are divided into a power outlet 686 and a power inlet 687. The transmission tower 776 at the rear of the opening and closing facility 777 is divided into a generator 704 for an ultra-high voltage wire balancer, an insulator 650 and a transmission wire 775 And a transformer 684. The transmission line 775 is formed of a wire coiled ewing 688 having seven strands of steel wire 692 and 54 strands of aluminum wire 693 in the center of the transmission line, 695, the transmission power 685 is transmitted to the ultra high voltage substation 690, The power is supplied to the large-scale plant 698 and the break-down plant 699 by regulating the power of the transformer 684 of the middle substation 697 and the substation 696 of the transverse railway substation 696 of the Dae-Dae Yang Dae- In the secondary substation 700, the marine tunnel transportation devices 960 of the marine power plants forming the electric power supply to the sub-unit factory 701 and the solar home residence 702 share the shared landfill 944 and the shared water surface landfill 944, And a peace-keeping type construction machine (988) formed inside and before the shared water surface embedding processing process inside the shared water surface embedding apparatus body (1) formed in the water surface embedding processing unit (945) .

The landfill process is performed depending on the engine using the oil at the time of operation and operation, and side effects due to the air delay are generated. Unlike the conventional technology, the landfill apparatuses having the natural energy non- Until the last peaceful settlement of the peaceful coexistence of Northeast Asia formed within the body of the shared water surface treatment system, all the people and all governments guaranteeing the complete suspension of hostilities or any act of violence or violence in the Republic of Korea are peacefully It is possible to efficiently and quickly flood the flood control system according to the weather forecast of the Meteorological Agency, which reviews and analyzes the communication weather information data transmitted from the satellites formed inside the body of the flood control system and flood control device to the land and sea of the global village, And drought caused by large-scale forest fires and land Prevent various natural disasters such as snow, heavy snow, typhoon, typhoon, earthquake and tsunami, landslide, and nuclear radiation pollution in advance and prevent various artificial territorial disputes, war, terrorism etc. A method of controlling flood damage that can continuously overcome flooding with landfill treatment devices and a complete stoppage of hostilities and all incendiary acts in Korea surrounded by Russian territory in Northeast Asia as part of the Pacific region of China and Japan To establish a peaceful coexistence with peaceful coexistence in order to establish a peaceful coexistence between the two countries through various peaceful coexistence methods according to the agreements and treaties of each country for the peaceful coexistence. Landfill disposal methods with natural energy non-polluting construction machinery replacing use of oil of maintenance type , A flood control system with shared water surface embedding systems, a marine tunnel traffic system, and a nuclear explosion-proof double structure block tank for nuclear waste disposal. Nuclear waste treatment plant of nuclear power plant sharing facility Nuclear power plant equipped with a peace-keeping type construction machine built in front of and behind the water surface treatment process in shared landfill site (944) and shared landfill site (945) in Northeast Asia An effect of providing a shared water surface embedding processing apparatus can be generated,

In addition, according to the feature of the present invention, in the center of the Korean peninsula formed at the time before and after the process of the water surface embedding process into the interior of the shared water surface embedding device, each of the 3000 circular shapes is divided into 360 spaces of 1 ° to 360 °, Northeast Asia and World Peace can be achieved through the formation of a unified United Nations unified nation formed by the unified Korea chapter numbering map up to 3000 Northeast Asia, It will prevent the expansion of the military power of our country which causes the territorial disputes of the past, Dokdo is our territory, Sengaku is our land, leaders of the parties to the dispute and their people can share their territories. Automatically

1 is a cross-sectional view of a dual structure block tank pipe bridge tunnel apparatus for a maritime ship replacement traffic facility according to an embodiment of the present invention.

As described above, the floors (4, 5, 6) of the operation method of manufacturing and installing the main body of the main body can be made to be smooth and soft with hundreds of tonnes or several hundreds of partial, , The disassembly and coupling is made up of a shaft (20) for joining the block tanks and a lug (21) with a vertical ligation with the lug pins, and a connection block tank distribution axis and connection structure. The operation of the marine iron structure including the purpose of the comprehensive disaster prevention in the harmful red tide relieving equipment for dispersing the load of the main body including the diving control function by providing gravity and buoyancy, (4, 5, 6), and the operation method of manufacturing and installation of the main body is provided at the upper part of the sea level to connect the marine environmental industry development to the inside of the main body (1) A body positioned to be able to be made configurations.

The connecting joint unit of the double structure block tank 8 unit is connected to the lever block 71 and the turn box 72 on the sea surface by the lever block handle into the double structure block tank 8 and the holding block tank 9, The block tank-attached portable lug 21 and the steel plate bracket 73, which are provided outside, are inserted into the machining holes and the long holes of the lever block 71 so as to move left and right with the handle of the lever block, At the same time, the underwater part becomes very difficult to progress. As a solution to the difficulties, there is a semi-submerged operation line (52) for the marine work, a dual structure tank bridge pierced saddle The block tank of the same type of traffic equipment distribution dispenser is connected to the main body 1 by providing a disassembling and coupling device with a band construction guide (36) for portable construction, and there is a submarine line wiring (244) It is made of the decomposition combined body position to the position it is possible to configure.

The connecting joint unit of the double structure block tank (8) for disassembling the main body into the main body of the main body is connected to the lug (21) for joining the horizontal block tank connecting flange joint bolt nut and the welding work body, And a pin shaft mounted on a semi-submerged operation line (52) for performing marine operation at sea level while providing a pin shaft (20). Safety equipment for portable construction Beach tool Connection of a block tank with a band guide (36) The float stop function state of the float stoppers 4, 5 and 6 stops at the same time, and at the time of disassembly and submerging of the main body, the wire rope 65 for lug tying in the horizontal type block tank joining portion of 500- While the block 71 is provided with the turnpike 72 and the shackle 99 for the position control mobile device while the searchlight 185 for the seabed mineral resources and the underwater light 188 for the underwater survey lens glass are installed The (73), the holding tanks (10) perpendicular to the center of the marine structure constitute the vertical tanks of a diameter of 12 m, and the vertical holding tanks (10) And a core drill 219 of a crude oil pipeline rack 210 having a connecting structure. The drilling machine 197 is operated by the drilling machine 197, (2) a barge hull at the upper end of the sea surface by providing a passage through which excavated soil and noxious gas in the stratum can be moved by the pipe of the pipe rack 210 in which the noxious gas of the deck deck is moved, A connection structure is formed by an iron plate bracket 73 and a steel pipe 220 for supporting the piping of the air conditioner tank 56 of the diving control device having a connection structure with the main body 250, And is provided with the operation of the main body positioned at a position provided with the line wiring 244. [

The main body 1 is provided with an odd number of lugs provided at a constant inclination angle vertically and horizontally on the support block tank 9 coupled to the outer block tank 11 of the inner block tank 10 of the barge- And an even number of lugs 21 are welded to four portions of the outer block tank 11 at the same time while welding lugs 21 are welded to four places in the circumferential direction, The pin shaft 20 has a diameter of 300 millimeters and a shaft length of 800 millimeters. The pin shaft 20 is provided with two holes, four holes, six holes, eight holes, and one elongated hole 21, So that the lug pin 22 can be inserted so that the nut can be loosened while the nut 18 is engaged while the male thread is machined by the lathe machine in both 150 mm units on both sides of the pin shaft 20. [ Two Ø15 mm through holes for Finish shaft (20) Completion of through hole machining with a lathe machine to facilitate disassembly and disassembly of the lug and shaft pins. And the operation of the main body positioned at the equipped position is provided.

In the main body 1, a double structure block tank 8 for disassembling and disassembling the main body is provided. In the processing holes 29, a plurality of lugs and a single number of lugs are provided with one pin shaft, The double structure block tank 8 is provided in the double structure block tank 8 and the main body positioned in the position having the engagement with the lower end barge hull 3 is connected to the vertical holding block tank 9 The main body is constituted by providing the line connection of the main body positioned at the position having the engagement with the lower end barge hull 3 for providing the conversion.

Referring to FIG. 1H, the double structure block tank 8 is necessary for vertical and horizontal coupling to provide a conversion to the vertical landing block tank 9, and the double structure block tank 8 is processed The double body block tank 8 is provided with a hole, which is located at a position where the hole is provided in the double structure block tank 8 and is engaged with the lower end barge hull 3, And a line connection of a main body positioned at a position provided with a connection with the lower end barge hull 3 for providing a conversion to the holding block tank 9 is provided.

Referring to FIG. 1 (i), the bottom side of the double structure block tank 8 is connected to the double structure block tank 8 at the connection site of the double structure block tank 8 and the digging floor is drilled by a drilling machine for crude oil, 98 and the wrench 113 are connected to a worm crank 259 for an anchor replacement mooring device by an anchor ring made up of several umbrella-type wedge-fixed mooring devices for mooring the distribution apparatus of the main body, When the wrench is fixed by the key switch (35), the float switch constitutes the drift inside the main body (1).

The vertical and horizontal block tank 8 engaging portable lug 21 inside the main body 1 is located at the third position of the circumference coupled with the outer block tank 11 of the inner block tank 10 of the holding block tank 9 One lug 21 at the central position of the holding block tank 9 is formed by six processing holes 29 and five processing holes of the other two lugs of the block tank are formed by six processing Holes are formed in the elongated holes 31 of the joining portion for joining the block tank 8 to the lower left end of the block tank 8 on the right side of the block tank 8, The two assembly block tanks 8 are connected to the block tank 8 on the front side and the block tanks 8 on the side of the sea surface horizontally while the lug pin shafts 20 are fastened to the elongated holes 31 located on the sea level line. 8 of the barge hull 3 and the lower end barge hull 3 and the two block tanks 8 ) Connected to the block tank 8 in a hinged manner by a triangular block tank 8 and connected at the same time to the upper end of the lower end barge and sealing the ballast opening and the butterfly valve 37 to the lower end barge, As the underwater pump 112 is filled with disaster prevention water in the ballast tank inside the barge ship hull, the floating dishes 4, 5 and 6 slowly make up the inside of the main body 1 to the bottom of the sea surface.

Meanwhile, the block tank 8 is connected to the inside of the main body 1 by an elevator 47 for submerged diving of a traffic device and air piping lines 41 of an AIS Vieisserie system, An emergency staircase 46, which is a vertical step in the form of a sculpture from the outside to the inside of the vertical tank, is constructed inside the main body 1 in a manhole (diameter 998 cm, 24) and a hatch carver (width x length; 800 x 2000,26).

Referring to FIGS. 1G and 1M, in order to facilitate the operation of submerging the block tank to the lower part of the sea surface, the band guide 36 is installed on the bottom of the bottom of the sea floor, In order to construct the main body connecting the land and the book area without excavation, the concrete structure of the concrete structure is provided with a bridge frame, while the double structure block tank bridge bridge of the main body is connected to the body (190) The double structure block tank 8 having the connection shaft of the pipe bridge 190 is installed in the guide rail 33 provided at the lower end position of the inner block tank 10 and is operated to the 100 kM speed train 254 The inner block tank 10 and the outer block tank 11 are provided at the lower end of the inner block tank 10, The guide rail support base 212 positioned at the lower end portion of the drain 33 and the inner bottom tank portion 11 positioned at the outer position of the inner block tank 10, A natural gas and a crude oil transportation pipe line 41 are further provided for transporting gas and crude oil. The natural gas and crude oil transportation pipeline 41 are further provided in the main body 1 and the semi-submerged operation line 52 and the construction machine (1), (2), (3), (4), (5), (6) and (7) of the pipe bridge 190 are installed on the upper surface of the main body, (244) to the submarine line injection nozzle (243) of the submarine line injection nozzle connecting port (242) to the inside of the main body (1) provided with the construction machine equipments of the distribution input device The bifurcation located in position The main body equipped with the construction machinery equipment having a connecting structure for splicing the connection shaft and the distribution shaft of the crude block tank bridge 190 is connected to the Francis turbine 234 of the large hydroelectric generator 230 and the tidal generator By supplying the generated power to the land by the generators and supplying the power to the seesaw crane boom of the construction machine crane by the power of the generator, the crude oil and natural gas produced by digging the seabed or the manganese nodule 217 The manganese nodule 217 is collected and transported to the blast furnace of the steel mills of each country while a furnace is installed at the upper end of the upper end of the stranded tank barge to produce individual steel plates, The double structure block tank 8 having the shaft is provided with a guide rail 33 provided at the lower end position inside the inner block tank 10, A multi-purpose multi-purpose facility consisting of an emergency tunnel line that can be bypassed in the event of partial failure of the tunnel line while providing iron plate transportation. Alternative traffic facility facility for marine vessels including marine disaster prevention and marine environmental industry development And to prevent the harmful red tide from breeding, and to set the conditions of the typhoon to bypass the route to the sea over the sea, to provide the conditions for the disappearance of the typhoon, and at the same time to set the inside of the main body 1 with fire prevention conditions.

Referring to FIGS. 1G and 1M, the electrolytic water is identified as indicated in the brackets (#), and the marine underwater welding operation site at the lower part of the sea surface is divided into a double- A safety device for the underwater cutting and underwater welding at the block connection site is installed by the band guide 36 and the guide conveying guide rail 33 and at the same time the rubber packing 108 is bound to the hermetically sealed part so that the band guide 36, Damping operation line 52 and the block tank 8 is connected to the upper end of the guide rail 33 mounted on the semi-submerging operation line 52 with the hydraulic cylinder actuating key 35, ) Is formed inside the main body (1).

The vertical and horizontal block tanks 8 inside the main body 1 are connected to the upper end of the semi-submerging operation line 52 in the form of a band guide 36 provided on the semi-submerging operation line 52, And a high performance submerged pump 112 is provided in the small engine and the emergency engine 42 for discharging the water trapped in the tank at the bottom of the tank while being provided in the electrolytic water discharge pipe and the air piping line in the tank 26, ) To open the drain valve installed inside and open the inside of the main body (1) in order to carry out the welding operation and the flange joint bolt nut operation for connecting the block tank (8) The work process is performed inside the main body 1.

After completion of the completion work, the worker of the semi-submerged operation line 52 confirms the completion of the work and welds the worker to the inside of the cabin, After dismantling, after docking, it moves up after arriving to arrive at the stopping point and take a rest. At the same time, the description of the connection method of the double structure block tank is completed and the method of separating the upper and lower barge hulls from each other is explained as follows.

In a conventional barge-hull bonding separation system,

Inside the main body 1, the floodgate is assembled on the land by disassembling and coupling parts with the upper tank barge hull 2 of the holding tank and the lower barge hull 3 of the holding tank, (NP) of the equator (EL) at the top of the globe and the southern pole (SP) region at the bottom of the equator, separated by latitude and longitude, In accordance with the specifications of the Contractor (Member of the United Nations Security Council, International Economic Development Association and other cooperating organizations omitted hereinafter) to be manufactured in accordance with the provisions of the International Maritime Safety Association.

Referring to FIG. 1, a barge is connected to a pillar bollard 53 for securing a rope of a ship mooring device at the upper end of the hull by intertwining a rope to the inside of the main body. Therefore, it is manufactured and dried, and the corners of the barge hull are manufactured as an egg type curve. At the same time, the barge line hull connection and the connection part of the barge hull connection are flange joint of double pipe structure. Double barrels are assembled in the form of a tank block. Each barrel is 6 meters in length and 150 meters in length, with a connection structure. Barge at the bottom Low deck hull top deck Deck or holding tank and auxiliary support tank Top deck Deck bottom 4 corners And the inside of the main body 1 is provided with a flange coupling by a lug and a pin shaft.

However, since the area to be seated in the lower layer of the sea surface must be a steel structure that can withstand water pressure, it is selected as a suitable high strength material considering the tensile strength of the steel plate and accordingly, rubber tires 256 are attached to the lower end portion of the barge hull and the left and right sides thereof to constitute the inside of the main body 1.

Various types of flood control stations (4,5,6) are capable of transporting the transportation functions that can not be provided by tens of thousands of tons of cranes in the shipbuilding industry. They can smoothly and smoothly transport 400,000 tons or several million tons of seabed resources from the sea to the sea top upper barge ship hull deck deck It is pulled up by the boom of the seesaw crane of the crane which is located at the upper position. The half of the seesaw crane boom half is applied to the installation of the bridge for the main body of the ship, As a result of the foundation of concrete work to be used for foundation work, it is applied and selected as a method and means for submarine tunnel construction for foreign trade. Excavation of crude oil for marine disaster prevention and marine environmental industry development The harmful gas generated after use is sent to the burner boom 209 for removing harmful gas Burning and constructing a peaceful global village, and is arranged inside the main body 1 by providing a layout distribution according to the hardness and latitude of the global village.

The above-mentioned lifting type readings (4, 5, 6) are not limited to the crude oil drilling rig and are not set to be the same as the crude oil drilling rig, and the lifting type poison of the present invention is constructed by connecting one block pipe After installation, the buoyant poison is completed by strictly and orderly ordering in the sea level, and the mixer (70) inside the machine room of the loess and cement mixing equipment machine works to fill the boreholes after the oil borehole work. The main body is composed of a sea structure inside the main body (1) including the politics of the stagnation state, the global economy of crisis or the multipurpose multifunctional to eliminate the unemployment disturbance.

As mentioned above, various types of floating dishes (4,5,6) are buoyancy generated by hull weight and sea level gravity, The manhole 25 and the hatch cover 26 are open to the seafloor while the large-scale blower of the high pressure multi-stage disaster prevention pump and the doctor ventilation is operated. The operation of the valve disk in the submerged Bell-rotor butterfly valve 37 is controlled by the solenoid valve 151 of each solenoid valve 151, which is supplied with the pressure air generated by the air compressors 62 of the odd- Press the solenoid valve on the valve pressure switch by hand on the on - time main switch button (142) of the main switch button (142) for the start switch button. The fly valve (37) When the off-time main switch button 142 of the cog button 142 is manually depressed, the fly valve 37 is fully closed and the operation is stopped. On the main switch button 142 of the start switch button for the start switch button 142, the fly valve 37 is opened to allow the pressure air generated in the air compressor 62 to pass through the piping line. At the same time, the fly valve 37 is connected to a plurality of multi-stage disaster prevention pump control system equipment The ballast control valve is connected to the Belleville butterfly valve and the solenoid valve, and the ballast control valve is opened.

In this way, depending on the depth and depth of the submarine, depending on the type of large and small scales of various types of lifelines (4,5,6), when one equipment is floated above the sea, another equipment is submerged Prevention of marine disasters and prevention of marine environmental industry, which is characterized by pre-prevention, is equipped with the function of harmful red tide remedy equipment and prevents the war, telemolecular, nuclear test or missile experiment which is similar to global humanitarian disaster, The installation of the nuclear waste disposal reactor at the same time as installing the nuclear water main line equipped with the V-shaped rubber balloon (43) and the submarine line injection nozzle (243) provided with the rubber balloon in the wire rope net, It is composed of distribution dispensers inside.

Various kinds of floating dishes (4,5,6) are materials that can withstand the strong water pressure of gravity and buoyancy. Carefully selected materials are placed inside the main body, The welding part is made of welded wire with high welding function. As a priority, large type of floating food rack (6) is equipped with various kinds of floating food racks (4,5) , 5, 6) is a distributing and inputting device which the hull owns, and recognizing that the establishment of measures and infrastructure for appropriately securing the mineral resources and water resources of the seabed are urgently necessary, , Economic, military, diplomatic, peace-loving, and industrial workers), while selecting and reviewing their own self-help activities (4, 5, 6) In order to develop the marine environment industry as the equipment of the equipment and the comprehensive disaster prevention system, the typhoon, the earthquake and the tsunami have priority over the disaster prevention according to the weather forecast. The instrument that serves as a cornerstone of the function of the underwater marine passageway and the bridge construction project of Sudan is built into the main body into distribution devices.

The harmful red tide relief equipment installed in various types of flood control stations (4,5,6) is to improve the awareness of marine environmental preservation by measures for marine environment conservation in land maritime. In the mid-to-long term, the comprehensive plan for marine environment preservation has been established. Prevention of marine pollution has been established. Marine water quality and marine ecosystem Marine resources management and infrastructure construction methods have been adopted. Based on the weather forecast, each rescue equipment is equipped with a marine cleaner function and artificial waterfall function. It is equipped with an emergency engine generator (42) and it is a red tide rescue equipment. It is a future oriented and environmentally friendly marine Provide development, and do a lot of important comprehensive general disaster prevention needed for reclamation and landfill construction The marine ecosystem of marine water quality and marine ecosystem is equipped with comprehensive disaster prevention combined equipment to develop the marine environment industry. The marine ecosystem of marine environment is preserved, The air compressor 24 is driven by the electric power generated by the generator 42 and compressed by the air hose 67 by the air hose 67 to be stored in the air cooler tank 56, And a high pressure hose connection fitting coupling 241 provided with a high pressure hose 240 at the bottom of the seawater by valve opening of the aft cooler 251 after passing through a cooling water inlet 252 of the tank 56 at the upper end of the channel base 253 ) Is constructed in the same way as the net for securing the fishery resources, and the preliminary interception of the red tide breeding condition with the cold air is provided and the prevention is carried out in advance. (45) of the rope knot hook (45) having a wire rope netting and a hooked flagpole and a connection structure on the fishing net for securing the fishery of the nationality to control the national warship and the fishing boat, Area. &Lt; / RTI &gt;

The manganese nodule 217 inside the main body 1 has a potato-like mineral mass left in the sea at 5000 M seabed of the world including the Pacific Ocean. Therefore, such a mineral collecting field is like farming in a field, 217), it will settle the post-war reconstruction cost of Korea and the amount of 9,000 trillion won, which is the repayment of the current national foreign debt, within a few years.

Referring to FIGS. 2F and 2N, the high-pressure-type multi-stage pump 83 supplies fire water having a height of about 200M, and supplies a water supply system of a downward pressure water supply system for supplying water from a low place to a high place, Stage type multistage pump equipped with the high-pressure-type multistage pump is effective in controlling the driving of the high-pressure-type multistage pump in a trend of changing from an inverter driving method in which an inverter 123 is provided in a step- Stage multistage pump system in which a control system for a high pressure multistage multi-stage pump is installed in a machine room while a control system for a high pressure multistage multi-stage pump is installed in a machine room is provided with a motor, The motor is constantly rotated by the supply, and is operated by the power motor control module, so that the head tank and the manifold A motor provided with an electric motor the motor for generating a very high pressure on the high pressure Vertical multi-stage pumps are provided, combined with equal and mechanical gear pump module and the engine module forms the inside of the high pressure Vertical multi-stage pump 83, a main body (1).

A power supply line for the power supply unit 133 and an overcurrent breaker for the overcurrent shut-off device (not shown) are installed in the main body 1 in a control room comprising an operation control device, The switch button having the connection structure to the main switch button 142 of the main switch 137 is connected to the high pressure shutoff valve 80 and the high pressure shutoff valve 80, And an emergency valve and a check valve for the low-pressure shut-off valve, the electronic control unit and the plurality of valves are provided with a plurality of pumps as a plurality of switch buttons for the next electronic control unit (162) A power supply 122 serving as a power supply for power supply to the high pressure stage multi-stage pump control server 127 and a high pressure stage multi-stage pump control board 129 and a communication provided in the short range wireless communication control module 131 to the short- Sudanese The electronic control unit, which is connected to the portable wireless terminal 156 or the public telephone communication network, is provided inside the high pressure multi-stage pump control box 77 and at the same time wirelessly transmits a signal to the point 125 at the portable wireless communication terminal When the "switch button-on" is received inside the control room, the monitor display screen 139 is connected to the communication equipment belonging to the electronic control unit inside the machine room and the high pressure shutoff valve 80 on the right, A low pressure shut-off valve 157 for the check valve 81 for preventing the backflow, a pressure reducing valve 159 for the emergency valve 158 and a solenoid valve 151 for electronic control functions other than that, In the main body 1, a plurality of pipe-nozzle-type fire-fighting sensor pumps are mounted on the upper and lower ends of the barge of the main body 1. [

2f and 2n, a distribution hydroelectric power generator 230 is installed at the upper and lower ends of the barge inside the main body 1, An inlet pipe 191 which is a water pressure pipe 232 having a shape of a reed 111 is connected to the head tank 231 which is a pressure tank located at the front of the head tank 231 and the inlet 252 of the inlet pipe cooling water before the head tank 231, The turbine 267 is connected to the lower portion of the body of the generator 213 in which the plurality of introduction pipes 191 are located inside the hydroelectric power plant with the connection structure with the water tank 231 and the discharge port at the rear of the head tank 231, Hydroelectric power is produced by the pump aberration 264 and the Francis aberration 229 in connection with the inlet 269 in front of the Pelton aberration 230 and at the same time the kinetic energy of the water Hydropower with conversion to mechanical energy (23 0, the main body 1 is provided with a large hydrostatic generator 230 distributing and charging device.

The large hydroelectric power generator 230 is installed in the main body 1,

The main body of the large hydroelectric power generator 230 includes a rotation speed sensor ESU paper 171 for the hydrostatic power generator located at the top of the center of the shaft rotation shaft 235 and a motor for the alternator located at the lower end of the detector ASU paper 171. [ A drag chain 173 for pushing the ring vane into the exciter 172 for DC generator which supplies a current to the field coil and a dragster bearing 175 and a stator coil 176 on the up guide bearing 174 The lower guide bearings 182 are inserted into the stator core 178 of the stator frame 177 and the lower bearing cooler 179 of the low speed cooler in the braking ring 180 and the jack 181 of the brakes, A turbine 215 for a hydraulic power generator having a connection position with a rotating shaft 235 and a generator 246 and a runner 255 to a bearing 246 and a guide vane 245, To the inside of the hydroelectric power room Inside the casing with a power connection structure seolbibu producing W power it is configured by providing a dispensing chute.

A generator distribution input device for a nuclear power plant of a nuclear power plant provided inside the main body (1)

A double structure block tank for storing the nuclear fuel waste (216) connecting the outer wall surface of the reactor building wall from the first wall of the reactor to the fifth wall double structure block tank of the generator distribution apparatus for the nuclear power plant of the nuclear power plant (193) and the combined structure of the nuclear power plant, which is provided with a combined connection structure. The nuclear power generation system of the nuclear power plant before the operation of the nuclear power plant The nuclear power generation apparatus provided for the operation generates nuclear fission within the dual structure block tank reactor 193 to generate steam as the heat to generate a steam turbine 215 for rotating the steam turbine 215 for the nuclear power plant to produce power, A nuclear power generator for converting the power produced by the steam turbine 215, A rotating rotor electromagnet coil 176 for a nuclear power generator provided along the circumference of a shaft rotation shaft 235 connecting the steam turbine 215 and the nuclear power generator and a rotor 178 for rotating the rotor electromagnet coil 176 for the nuclear power generator And a stator frame fixed with the nuclear power generator and the shaft rotation shaft integrally with the steam turbine having a connection structure with the stator acors and the stator coil 176 not rotating for the nuclear power generator, Fully-equipped reactor facility Safe operation of Fusi reactor facility Safe operation of the reactor facility Power generation facility by providing the power generation assembly inside the nuclear power generation room and generating power. And an installation position is provided outside.

A cooling water piping line provided with a condenser and a connection structure below the steam turbine hollow body provided in the distributing and inputting device to the installation position outside the double structure block tank reactor 193 body inside the main body having the power generation equipment connection structure, A water pump is provided outside the reactor and the double structure block tank reactor having a circulation water pump connection structure connecting the water line to the piping line at the front and the cooling water piping line connected to the piping line at the front, Wherein a plurality of coolant pumps are installed outside the reactor pressure vessel body in which the uranium fuel is stored, and a safety device control rod is installed in the reactor pressure vessel, so that when the shake occurs, A lot is inserted Character is configured by providing the mounting location with a nuclear reactor plant safety during operation after the reactor plant safety operation before the emergency stop to the body with the power generation unit connected to the distribution chute structure in a double tank structure block outside the reactor body.

Inside the main body with the connection structure of the power generation unit, the distribution reactor of the double structure block tank reactor inside which the enormous amount of radiation is generated inside the nuclear reactor facility is safely covered with the cladding tube for protecting the first wall pellet and the second wall fuel rod, A double structure block tank with a third wall reactor pressure vessel and a fourth wall vessel with a five-layered protective wall by canceling the former reactor building formed by the fifth wall reinforced concrete mat. Nuclear waste with a reactor building It is equipped with the distribution input device of the processing device and the distribution input device of the nuclear fuel explosion control device and it is installed in the nuclear nuclear power plant into various types of nuclear reactors. Double structure block tank Reactor building Reactor facility Safety operation As a distribution input device to the inside of the main body with connection structure of power generation equipment, double structure block tang It is configured to provide a mounting location to the reactor outer body.

Dual structure block tank with distributing input device inside the main body with connection structure of power generation facility Various types of reactors provided with distributing input device installed outside the reactor body of the reactor facility include the first wall pellet and the second wall flare rod In the third wall reactor pressure vessel and the fourth wall vessel, safety valves with a plurality of temperature and pressure sensors are opened just before the explosion, The inner block piping of the block piping line contains explosive nuclear wastes and the outer block piping includes cooling water and toothpaste-like loess mixture, which are stored in the inner block tank, At the same time, while transferring to the container, the double structure block tank The water is stored and transported. The pressure sensor is connected to the inner block tank of the pressure vessel. When the safety valve is opened, at the same time, the outer block pipe of the block piping line is connected to the cooling water which is the control substance of fuel explosion prevention stored in the inner block tank of the double structure block tank Tooth mixtures of loess mixtures were transferred to the interior of the pressure vessel and to the fourth protective wall container by a water pump, and the cooling water and toothpaste-level loess mixtures installed in the double structure block tank reactor were transferred to the inner block tank And outer block tanks. If the mixture of stored coolant and toothpaste level mixture is filled up, the reactor explosion is terminated to prevent the explosion of the reactor. Double structure block tank Reactor facility substitution device as substitute input device. Distributed into the body with a connection structure And the installation position is provided outside the reactor body of the double structure block tank.

When the explosion of the inside of the reactor pressure vessel is stopped when the nuclear reactor plant is disassembled by the remote control and the robot is dismantled by the remote control, Temperature Pressure Sensing Sensor Safety valves are closed and there is always a lot of temperature pressure sensors at the time of operation of the reactor. Safety valves are closed. Double-structured block tank to guarantee various types of reactor restoration. The safety operation of the reactor equipment before and after operation is installed in the main body with the connection structure of the power plant part.

In order to prevent the earthquake of the earthquake and tsunami, the installation position of the nuclear power plant is set to 40m above the sea level. In order to prevent the explosion of nuclear reactors of nuclear power plants which are not influenced by earthquake and tsunami by adjusting the position of nuclear power plant with damping and buoyancy control devices, In order to prevent environmental pollution, nuclear reactor explosion prevention of nuclear reactor room is provided, and double structure block tank reactor building is installed in marine nuclear power plant to ensure safe and continuous operation. In order to guarantee nuclear reactor repair and disposal of nuclear waste, The reactor is equipped with a mooring device installed on the line, a control device for the diving buoyancy, a distributing device of the nuclear waste disposal device, and a distributing device of the fuel explosion control device, so that the nuclear waste does not explode inside and outside the nuclear fuel compartment A dual structural block tank reactor (193) equipped with nuclear and nuclear weapons disposal methods and a connection structure with missile launch vehicle, while at the same time a marine nuclear power plant located in the vicinity of the missile launch base is replaced with a dual structure block tank reactor building A nuclear waste disposal system and a nuclear fuel explosion control system are installed in a single unit to ensure safe operation of the reactor facilities of the nuclear reactor facility. And an installation position is provided outside the body.

The reactor installation of the nuclear reactor is installed in the main body with the connection structure of the power generation facility to the safe operation of the reactor facility safety operation before and after the reactor installation of the nuclear reactor. A plurality of outer block tanks outside the plurality of inner block tanks, a first sub-type steel for the block tanks, a second sub-steel plate for the block tanks, and vertical beams on the vertical bulkheads and horizontal bulkheads, In the first auxiliary type steel and the second auxiliary steel plate for the block tanks, vertical barriers and steel bar beams on the horizontal bulkheads and diaphragm manholes in the snap holes are machined by a computer cutter and welded to the outer wall of the fourth protective walled container Fifth Protective Wall Double Structure Block Tank Provided along the Surrounding Surface A nuclear waste disposal unit and reactor The explosion control device is installed as a unit for the safe operation of the nuclear reactor facility. The reactor facility is operated safely before and after the safety operation of the nuclear reactor. The dual structure block tank is installed outside the reactor body. .

The above-mentioned distributing and inputting device is divided into the main body having the connection structure of the power plant equipment and the safe operation of the nuclear reactor facility after the safe operation of the reactor equipment of the nuclear reactor facility. The double partitioning tank tank is composed of vertical barriers The bulkhead is equipped with hydraulic cylinder door and emergency stairs as welder for the welding process. It is equipped with a double structure block tank reactor to prevent the explosion of the reactor. It is equipped with a double structure block tank reactor inside and outside. It is composed of a double structure block tank installed outside the reactor body as a distribution input device to the inside of the main body having the connection structure of the power generation facility for the safe operation of the reactor facility after the safety operation of the reactor facility of the reactor facility.

(193) A plurality of stopper plates provided with a mounting position outside the body are cylindrical in shape of a cylindrical shape, And a plurality of outer block tanks of the block tank are separately welded to the upper and lower ends of the block tanks and the large flange bolts are connected to the crane and conveyor transport device and the folding process , Which is equipped with an injection device located at the upper and lower positions of a reactor having a nuclear reactor building, and is equipped with a nuclear waste disposal device for various kinds of nuclear reactors Of the nuclear fuel explosion control device and the distribution input device of the nuclear fuel explosion control device Safety operation of reactor facility safety operation before and after operation of nuclear reactor facility It is constituted by providing installation position to outside of reactor body of dual structure block tank by distributing input device to inside of main body with connection structure of power generation facility.

In the case of a large-scale explosion, it is necessary to install a reactor block in the reactor body. In the event of a large explosion, Since the nuclear waste is stored in one place at the bottom between the tank and the vacant spaces of the plurality of outer block tanks, the bottom of the GLD reactor of the double structure block tank is fixed with a reinforcing concrete mat and steel beam of several m thickness, Type double structure block tank Internal block equipped with reactor Reactor provided inside tank Reactor equipped with double-structured block tank reactor with explosion-proof prevention while generating nuclear power at the same time nuclear fuel is injected into the third wall of the body Nuclear waste disposal device and fuel width It is equipped with a distributing and input device of the control device, and it distributes the injection device of the nuclear waste disposal device of various kinds of nuclear reactor into the nuclear power plant and the distribution input device of the fuel explosion control device. The system is constructed by providing the installation position to the outside of the reactor body of the double structure block tank by the distribution input device inside the main body.

In the nuclear reactor building, the safe operation of the reactor equipment is carried out before and after the safe operation of the reactor facility. The double structure block tank is installed in the main body with the connection structure of the power generation facility. A plurality of inner block tanks and a plurality of outer block tanks, each of which is a distributing and inputting device of a nuclear fuel explosion control device, each of which has a mixer machine of an ocher cement mixing device and which is fed into a pressure vessel of the same level as a furnace In the mixture of cooling water and toothpaste-like loess mixture, which is explosion-proof control material, the soap water such as washing material and the dispersing material causing bubbles are appropriately mixed into the loess mixture, and the controlled product is automatically injected into the pressure vessel at once, Firefighters can be cleaned to make the inside of the reactor clean It is possible to prevent the detonation of the reactor by automatically cleaning the inside of the reactor without the input of human and robot, while holding several inside the pressure vessel body and inside the vessel. It is equipped with distribution dispenser and nuclear fuel explosion prevention control goods and has double structure block tank of various kinds of reactor inside nuclear power plant. It is constituted by providing the installation position outside the reactor (193) body of the double structure block tank as a distributing and inputting device inside the main body having the connecting structure of the power generation facility safety operation.

In the meantime, the above-mentioned nuclear reactor facility is operated as a distributing and inputting device for the safe operation of the nuclear reactor facility into the main body having the connection structure of the power generation equipment. Double structure block tank reactor (193) The motor for the power motor provided outside the body is provided with a hood and a snap ring Fans and body frame Body front brackets and shafts Rotor assembly and front bezel ring Stator assembly and motor protection Casting frame to terminal box and lifting bolt Terminal box cover and rear bearing to rear bearing ring The stator is connected to the stator, the air gap, the fan cover or the protective cover and the rotor iron core. The stator is connected to the stern of the shaft of the motor body by the connection structure of the iron core and the stator winding. The injector is constructed by providing a mounting position outside the double structure block tank reactor body.

It is not easy to raise the treasure to the inside of the main body. However, the distribution input device of the pipe bridge tunnel apparatus of the present invention is equipped with a distributing input device of the floating lifting poison on one side, and the energy resources of the seabed and the mineral resources of the seabed are integrally provided, Which is composed of a double structure block tank which is constructed to prevent marine disaster and develop marine environmental industry. It is a connection structure of a bridge tunnel device. Various types of reactor facilities in the main body of a nuclear power plant in the global village. Alternative nuclear reactors The leakage control system is constructed to constitute a distributor unit of the main body of the nuclear reactor dust collector.

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.

(1) Lifting of marine power plants on land and offshore Nuclear power plants,
(2) mouth type multi-stage pump control panel and control box,
(3) Suction joining pipe,
(4) Confluence junction pipe,
(5) Pump isolation valves,
(6) pump backflow prevention check valve,
(7) Fire water, power generation water, and electrolytic water,
(8) Disaster prevention and control Pump type multi-stage pump,
(9) Double structure nozzle hose and double structure Fire hose,
(10) Dual structure Firefighter Nozzle,
(11) fire nozzle frame, (12) detection sensor, (13) hook, (14) nozzle piping,
(15) crevice, (16) tilt angle, (17) disaster prevention channel,
(18) Hook Hook, (19) Wire Rope (20) Processing Hole,
(21) The pawl lug,
(22) Jig, or various forms of "" and """
(23) Shackles, (24) Bolts, (25) Nuts, (26) Shah,
(27) Outer block Combine to external position of tank Disassembly hinge,
(27a) a lug pin shaft of a hinge type, (27b) a shaft of a long shaft for a hinge,
(28) Bellows of the flange or hull Barking tank Inlet inlet Debris for closing the access hole Wire mesh,
(29) Couplings, (30) Couplings Female Threaded Body,
(31) Couplings Male thread body, (32) Gasket and rubber packing,
(33) Nozzle Hose Equipment Stands,
(34) Collecting tanks,
(35) Reduce,
(36) High performance submersible pump
(37) Rechargeable Batteries,
(38) Number of jetting (39) Water film and curtain water film, (40) Fire flame,
(41) Sense cords, (42) Baskets, (43) Double vinyl tents and plastic bags,
(44) Elbo and Tei Elbo, (45) Chimneys,
(46) power source, power source, (47) inverter, (48) inverter, (49) access point, (50) internet network, (51) control server, (52) monitor, (55) a wireless communication control module of a short range wireless communication device, (56) a display, (57) an electronic control device, (58) a switch input circuit, (59) an electronic control unit, (60) an electronic control unit,
(61) Overcurrent breaker brake, (62) Power supply, (63) Display screen, (64) Analog input, (65) Digital input, (66) Main switch button for on- Auxiliary switch button (68) Input multi-stage pump display input (computer network input), (69) Current pressure value and set pressure value (pressure setting value)
(73) Disaster Prevention Mixer Mixer Machine,
(74) double tube structure block piping line, (74a) inner block piping, (74b) outer block piping, (75)
(76) a solenoid valve, (77) an advertisement balloon, (78) an airship, (79) a gas can,
(80) Air Compressor,
(81) a mobile service, (82) a portable terminal,
(83) Low-pressure shut-off valve, (84) Emergency valve, (85) Reducing valve,
(86) a first pressure check sensor, (87) a second pressure check sensor,
(88) an electronic control unit,
(89) Piping or pumping pipe (89a) or vertical down pipe (89b), (90) Ball valve handle,
(91) Drainage head, (92) Valve body internal disc
(93) Emergency siren
(94) Spark or lightning, the first source of ignition, (95) Telephone pole, (96) Transformer
(97) Reducer brushing socket,
(99) Flashing warning light, (100) Paraffin nozzle stopper (candle), (101) Manometer
(102) Sensors Sensors Bimetal, (103) Thermometers Thermometers Sensors Sensors Switches,
(104) level or pressure switch, (105) flow meter for check flow,
(106) power motor control module, (107) crane boom to level maintenance watt, weight,
(108) Overpressure protection switch and switch box,
(109) air hoses,
(110) Air hose connection device Nipple
(111), sprinkler head, (112), reflector, (113) fusible metal fuse, (114) stop valve or water valve, (115)
(116) Block pylon.
(117) rich, (118) rich circuit breaker (119) bell, (120) alarm valve, (121) test valve, (122)
(123) Lever block,
(124) Fire extinguishers (fire extinguishers a, fire extinguishers b, fire extinguishers c, fire extinguishers D, fire extinguishers e, fire extinguishers f)
(126) a cylinder,
(127) piston and piston pump, (128) fire extinguisher fixing pin,
(129) bolting equipment,
(130) Life-saving air tube (131) Rope,
(132) container,
(133) Ancabolt,
(134) Radiosonde and meteorological observatories,
(135) driven wheel rollers, (136) regulate,
(137) Tongue winch,
(138) Air cylinders,
(139) Irrigation system, (140) Turbine pump, (141) Casing,
(142) Vane pump and guide vane,
(143) Impeller, (144) Dairy Pump,
(145) Air receiver tank and high-pressure storage tank,
(146) Propeller pumps and propellers,
(147) Squirrel and squirrel Compressor and squirrel pump,
(148) a plunger pump,
(149) Steel beams,
(150) Disaster control pump control system and control system, (151) Oil cooler,
(152) Manhole cover,
(153) Hatch covers,
(154) Fire doors,
(155) gland packing, (156) mechanical seal and individual seal,
(157) jet pump,
(158) Powdered loess,
(159) Fireman,
(160) Indoor fire hydrant box, (161) Otto fire hydrant, (162) Hose gun,
(163) Helium gas (separated by coolant) (164) Nonflammable gas (carbon dioxide),
(165) Iron plate brackets,
(166) Fire objects (Class A, B and C for each fire type),
(167) Tapping machine, (168) Transmission line and fire protection piping line,
(170) intercooler, (171) exhaust gas, (172) combined life bed nozzle, (173) toot and burner (174) carbon dioxide gas, (175) halon gas, (176) ) Helium, (177) Pyrotechnic paraffin tape, (178) Non-ignitable wire, (178) Fire hydrant (Single a, Double spherical b), (180) Plastic bag, (181) Air piping line, (182) (183) limit switches,
(184) unmanned camera,
(185) Crevice tool with a pointed end,
(186) springs, (187) unmanned igniter spark lighters, (188) lifeboats,
(189) Head tanks for pressure tanks,
(190) flexible high pressure hose,
(191) introduction pipe (hydraulic pipe),
(193) a snap ring, (195) a fan, (196) a body frame, (197) a front bracket, (198) a shaft, (199) a rotor (200) front bead ring, (201) stator assembly, (202) casting frame (motor protection), (203) terminal box, (204) lifting bolt, (205) terminal box cover (208) a gap, (209) a protective cover, (210) a rotor iron core, (211) a stator iron core, (212) a 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 [<<<, >>>],
(225) Reinforced concrete mats,
(226) engine (generator), (277) Turin Beerring,
(228) reprocessing plant,
(229) Conversion plant,
(230) Concentration plant,
(231) Conversion · Processing plant,
(232), a searchlight,
(233) Refineries,
(234) Title "100", (235) Title "90", (236) Title "75", (237) Title "65", (238) Title 50, (239) Title "40"Quot; 75 &quot;," 75 x 65 &quot;, (248) crank, (249) linkage, (250) (251) a speed reducer, (252) a (V) belt, (253) a plunger, (254)
(255) Timer,
(256) Ocean cable car Oh,
(257) air valves,
(258) Safety valve,
(259) Ouett valve,
(260) Drain valve,
(261) a suction valve, (262) a suction valve, (263) a compressor body, (264) a pump aberration, (265) a main valve,
(267) turbine or steam turbine, (268) flywheel, (269) inlet, (270) outlet,
(271), (272) Pump power supply, (273) Control power supply, (274) Emergency operation circuit, (275) Dissy power supply circuit, (276) Microprocessor unit, (277) a DIP switch setting circuit, (278) an idle disable circuit, (279) an M / C drive signal contact output circuit, (280) a motor overload signal input circuit, (281) (282) pressure sensor, (283) external status input circuit, (284) discharge pressure transmitter, (285) suction / discharge switch, (286) bed frame, (287) ) Cooling water (288) Oil separation tank, (289) Suction valve,
(290) Gear Drive,
(291) an air dryer, (292) an embers, (292a) a flame, (292b) a pillar,
(293) the water gate, (294) the waterway,
(295) aquarium tank,
(296) gate valve, (297) return valve, (298) bush or trolley bush (299) type of draining head (a, b, c, d) ) Drain, (302) Reverse stop valve, (303) High pressure bowl tank, (304) Power rotating pump,
(305) Bellows butterfly valve of the diving control device of the pipeline,
(308) Centrifugal Pump, (309) Sewage Pump, (310) Spiral Casing, (311) Blowout Pump, (306) Bicarbonate Soda, 312 pump head 314 pump head 315 float 316 droplet bowl 317 flexible carriage 318 plunger 317 plunger cap 318 plunger cap 318 plunger cap 318 plunger 318 plunger 318 plunger 318 plunger 318 plunger (322) jet pump, (322) jetting surface, (323) actual head, (324) jetting head, (325) jet pump, (326) (333) Building and large building, (334) Balance (335) Unbalance, (336) Indoor fire extinguisher pump (336) Gear pump, (327) Wing pump, 337) Rotary pump, (338) Rotary rotator, (339) Flaming, (340) Self-priming pump, (341) Axial flow pump, (342) Mixing pump, (343) Viscous pump,
(344) Block Tank of Nuclear Hydroelectric Power Plant Body Connection side of manufacturing process,
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 344a, an ANW, a triangular block tank 344p, an AMX triangle block tank 344q, a DE tank block 344r, A block tank on the side of the car BD, a block tank on the side of the (CE)
(345) Standard gland packing or gland, (346) Injection lantern ring attaching packing, (34 7) Lantern packing, (348) Double gland packing, (349) Packing with throttle bushing, (350) (351), (352) the cooling water inlet, (353) the sleeve with the water jacket attachment packing for the inner cooling bottle, (354) the inner cooling chamber of the sleeve, (355) the auxiliary gland, (356) (367) O-ring, (363) stopper, (367) a method of knitting a gland packing, (358) eight strand weaving, (359) bagging, (367) a sealing ring, (367) a seat ring, (367) a driven ring, (368) a quenching, (369) a ringing, (370) a returning tube, (371) a Handle, (373) Axial thrust load, (374) Pressure acting on the front of the impeller, (375) Pressure acting on the back of the impeller, (376) Balance ball,
(387) the suction pressure, (378) the back pressure, (378) the balance hole, (380) the front wear ring, (381) the discharge pressure, (382) the rear bearing ring, (386) Impeller arrangement of multi-stage pump, (387) Order separation, (388) Order coupling, (389) Water hammer action, (390) Axial rod, (391) Mechanical seal cooling method, (392) (393) Water pump, (394) Rooftop fire fighting cab or crane cab, (395) High and low mountains, (396) Pulse encoders, (397) Speed com- mands, 398) Motor Speed and Transmission, (399) DISC Brakes, (400) Breakwater Control Tank (401) Safety Net (Rope Net) (402) Air Compressor (A ir Chamber)
(403) Sluve valve, (404) Valve body, (405) Valve cover, (406) Sleeve valve, (407) Packing press, (408) Packing pusher nut, (409) Valve (411) a handle nut (412) packing, (413) a wedge gate valve, (414) a single valve, (415) a flexible valve, (416) a parallel slide valve, A flange type glow valve; (420) a flange type angle valve; (421) a body; (422) a cover; (423) a disk; (424) 422 valve handle 427 handle 428 seal ring 429 packing seal ring 430 packing seal 431 screw fitting 432 cover bolt 433 packing (434) pin, (435) cover bolt nut, (436) packing press bolt nut, (437) handle nut, (438) detent screw, (439) washer, (440) packing, (441) Gasket, (442) valve press (flat press (a), cone press (444) Cock (2 type), (445) Bronze screw-in main cock, (446) Cast iron plan (b), Sphere push (c) (447) Bronze Screwing Gland Cock, (448) Sam Bangkok, (449) Bangkok, (450) Handle Cock,
(451) check valve body, (455) cover, (456) disk, (457) disk pin, (458) plug, (451) check valve, (452) swing type check valve, (469) Diaphragm (464) Pilot operated pressure reducing valve (magnetic type), (462) Secondary side sensing hole, (463) Diaphragm (464) Pressure regulating valve Valve 465 main valve 467 main valve spring 468 regulating spring 469 oo pressure regulating valve 470 threaded oo pressure regulating valve a, (471) Flanged type pressure regulating valve (b)
(472) Safety valve, (473) Spring safety valve,
(474) Relief valve,
(475) Steam Poff Spring Safety Valve, (476) Poof Safety Valve,
(477) Temperature control valve, (478) Oto water dispenser, (479) Oto water dispenser (a), (480) Oto level dispenser, (481) (483) Refrigerant Stop Valve, (486) Packed Valve, (483) Refrigerant Stop Valve, (486) Refrigerant Stop Valve, (486) (488) a charge valve, (488) a charge valve, (489) an expansion valve, (490) a diaphragm expansion valve, (491) a bellows type expansion valve, (492) 493) Pressure regulating valve for refrigerant, (494) Solenoid valve, (495) Outo water valve, (496) General faucet (faucet), (497) Exponent line, (498) ,
(500) Lightning rod for hull safety preservation,
(501) V-shaped strainer (503) V-type strainer (504) Tube fixing metal (505) Tongue buckle part (508) a support band, (507) a wool support band, (508) a vertical tube casting band, (509) a steel spectacle band, (510) a bottom band, (511) a trap, (522) (523) straight trap, (524) bucket trap, (525) bottom bucket trap, (526) top down bucket trap, (527) float trap, The impulse steam trap 529 the faucet body 530 the packing box 531 the packing press 532 the stem 533 the handle 534 the disk 535 the disk packing 536 the water packing, (537) aging stuff packing, (538) Teflon membrane
(539) a metal having a large thermal expansion; (540) a metal having a small thermal expansion; (541) a timer or a level switch (542) a lower level alarm; (543) a vaporizer alarm; (545) Alarm reset button (546) Low level switch, (547) Flap, (548) Sound cap, (549) Check nozzle,
(550) Rover Carver, (551) Float In Shoot Switch, (552) Indication Scale, (553) Oversphere Connection, (554) Vent Pipe Connection, (555) Flange connection, (556) Double vinyl open needle, (557) Solenoid valve body, (558) Carver, (559) Spoil, (560) Spool packing, (564) connector, (564) manifold (L; PTY 8 "large flow type), (565) manifold (S; M 5 small flow type) (566) Threaded bolts, (567) Air hose coupling Union coupling, (568) Union coupling, (569) Two position single, (570) Two position double, (571) LL Central vertical type , (572) L, Vertical, (573) Horizontal, M, (574) F, Fitting, (575) City Symbol Single, (576) Double, (577) 579) Jay,
(580) Microswitches,
(581) Direct piping type,
(582) Base piping type,
(583) Faire Damper,
(584) Damper spindle,
(585) Doctor Ventilation, (585a) Doctor Ventilation Inlet, (585b) Doctor Ventilation Vent,
(586) Hot air balloon in Mongolia, (587) Hot air balloon in Bhil Shah, (588) Hot air balloon in Kelly,
(589) Steam airship,
(590) holding block tank,
(591) Barge hull at the top of holding tank,
(592) Barge hull at bottom of holding tank,
(593) Supporting dock of a small marine power plant,
(594) Lifting dock of medium sized marine power plant,
(595) Supporting dock of a large marine power plant,
(596) inner block tank,
(597) High tension Stainless steel plate,
(598) Double structure block tank,
(599) outer block tank,
(600) a first auxiliary type steel for a block tank,
(601) a second sub-steel plate for a block tank,
(602) Corner portions of the first auxiliary steel and the second backing plate Cutting portions to eliminate welding defects Snap holes,
(603) Block tank hull disassembly combined portable lug shaft bolt, (603a) bolt thread,
(604) Block tank Hull disassembly combined Portable lug shaft Disassembly coupling nut, (603b)
(605) Second tank for block tank hull disassembly coupling Vertical bulkhead,
(606) Block Tank Hull Disassembly Combined Portable Rugged Pin Shaft,
(607) Block Tank Hull Disassembly Combined Portable Rug,
(608) Block tank Hull disassembly combined Portable lug pins,
(609) Secondary steel plate for disassembly of hull for block tank Horizontal bulkhead,
(610) Block tank Manhole bulkheads for hull transit, (611) Satellites, (612) Space rockets,
(613) Blocks Tank blocks Unit hull Disassembly lug Hinged sockets,
(614) Blocks Tank blocks Unit large hinges for dismantling Combined flanges,
(615) Large flange connection end Connection hole machining hole
Or rug machining hole
Or small keybed machining holes,
(616) Mooring equipment Floating dock Barges for hull balancing devices Keyboards,
(616a) Block Tank Block Unit Hull Disassembly Positioning Movement Control Device Lug Shaft Hole,
(617) Block Tank Hull Split Coupling Double Tube Construction Tank Piers Construction Suspended Saddle Formwork,
(618) Block Tank Guide rail for hull transport equipment, (619) Helicopter stations,
(619) Blocks tanks Blocks of a unloader Hydraulic revolving crane for dismounting of control units Drill racks of mechanical or block-unit hulls Rotary cylinders Rack and 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 tank Hull Hydraulic cylinders for traffic control equipment Door or block tank Block unit Hydraulic cylinder machine for disassembly and adjustment device.
(625) Stopper plate
(626) Thermal Power Plant
(627) Engine control module for engine control system,
(628) flagpole rubber balloon, (629) rope for rope,
(630) rope knot hooks,
(631) emergency stairs, (632) elevators, elevators,
(633) Conveyer,
(634) Sinking ship Sink prevention line,
(635) Vacuum pumps,
(636) Tugboat,
(637) semi-diving operation line,
(638) Bollard,
(639) Anka, (640) Anchor chains,
(641) a cooling fan, (642) a heater fan for maintaining air,
(643) Satellite launchers,
(644) mooring tower, (645) electric magnet magnet,
(646) space rocket launcher, (647) helicopter,
(648) Chain block,
(649) Loess Cement Mixing Equipment Mixer Machines,
(650)
(651) Crane Boom Stand, (652) Crane Boom Girder Loop,
(653) uranium 239,
(654) Water, (655) DC, which is the current that always flows in the same direction, (656) AC, which is the current that changes the direction of flow every time seesaw goes up and down,
(657) intermediate heat exchanger,
(658) heat exchanger, (659) nichrome wire, (660) bulb body, (661) bass,
(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 Hydroelectric Power Plant,
(673), the iso center axis frame, (674) the Korean wave, (675) the turbulence, (676) the Bering Strait, (677) the Chukot Peninsula, (678) Alaska,
(679) uranium 238, (680) dam,
(681) Core or nuclear fuel chamber,
(682) Cloth tube or chiral tube,
(683) Nuclear fuel pellets,
(684) voltage, (685) power, (686) outlet (power), (687)
(688) Reactor building,
(689) fuel rod,
(690) High voltage substation, (691) Primary substation,
(692) Seven strands of steel wire,
(693) 54 strands of aluminum wire,
(694) Fuel hoses,
(695) Transmission lines,
(696) Submarine tunnel transit substation, (697) Mid substation, (698) Large scale plant, (699) Central unit, (700) Secondary substation, (701) Subdistrict factory, (702) ), (703) a stepped sprocket hook, (704) a high voltage wire balancer for the cable balance cable,
(705) Reactors of various types of nuclear power plant main body The distribution side of the main body manufacturing process,
(706) Small diameter electrical resistance welded pipe, (707) raw material, (708) uncoiling, (709) leveling, (710) side trimming, (711) cutting and rough connection, (712) 713) Welding and internal and external bead removal (714) Ultrasonic and vortex test, (715) Welding heat treatment, (716) Air cooling, (717) Water cooling, (718) Ultrasonic molding, (719) (721) structural tube, (722) calibration, (723) intermediate load, (724) induction heating furnace, (725) SRM, (726) hot cutting, (728) Water pressure test (729) Ultrasonic and vortex test, (730) Weight and length measuring instrument, (731) Visual and dimensional inspection, (732) Screw, (733) Metric, (734) General piping (735) galvanized, (736) galvanized steel pipe, (737) boiler tube, (738) cold-rolled steel,
(740) coil mage steel plate raw material, (741) side trimming, (742) cage molding, (743) oil pipeline, (744) ultrasonic wave test, (745) ) Jinwon molding, (746) oil pipeline (steel pipe for petroleum industry), (747) large diameter steel pipe,
(748) Edge milling machine,
(749) 3 Roll Banding Machines,
(750) Post bending machine,
(751) is welded; (752) inner surface welding; (753) backing fusing; (754) outer surface welding; (755) tube sealing; (756) 758) cold liver expanse, (759) marking, packing. (763) uncoiling, (762) structural pipe and steel pipe pile, (763) for non-coated piping, (764) exterior brass cleaning, (765) internal brass Cleaning, (766) inner surface, (767) primary painting, (768) painting and finishing, (769) coated steel, (770) ultrasonic and X-
(771) Internal transportations for marine tunnels,
(772) Nuclear Power 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,
(779) steam pipe, (780) high-temperature high-pressure steam inlet of a powerful gas,
(781) Production power Central control room,
(782) transmission measuring room transformer room, (783) boiler working machine room,
(784) atom, (785) electron,
(786) Steam dryer,
(787) Magnets,
(789) Deaerator,
(790) a condenser which is a cooling device of a device for cooling water vapor to make it water,
(791) core or nuclear fuel chamber,
(792) Drums,
(793) Reheating,
(794) Nuclear Radiation Leakage Control Double Structure Block Tank Reactor Main Body,
(795) heavy oil tank, (796) heavy oil,
(797) Oil tankers or cargo ships,
(798)
(799) Radioactive waste,
(800) uranium fluoride,
(801) Plutonium,
(802) boiling water reactor equipment body,
(803) The pressurized water reactor installation body,
(804) Gas cooling furnace reactor facility body,
(805) Multi-purpose high temperature gas reactor main body,
(806) New type conversion reactor main body,
(807) Steam towers,
(808) lead container,
(809) purifier,
(810) steam generator,
(811) Nuclear Radiation Leakage Control Dual Structure Block Tank Distribution Apparatus for Reactor Dust Collector Various types of reactor facilities,
(812) enriched uranium or uranium 235,
(813) Reactor pressure vessel,
(814)
(815) nucleus,
(816) a coolant,
(817) Silencers,
(818) Separator,
(819) Moderator,
(820) protons,
(821) Neutron
(822) a load-and-piston seal, (823) a piston seal, (824) a bush seal, (825) a ring, (826) a slide ring, (827) (830), a backup seal (831), a load seal & backup seal (832), a multistage seal (833), a pin multistage seal (834), a multistage seal Ring, (836) piston ring, (837) dog ring,
(838) Fast breeder reactor facility body,
(839) -shaped steel or partially deformed steel,
(840) Meteorological observation equipment (841) Oil, crude oil,
(842) Undersea minerals on the baskets,
(843) Underwater light for exploration of the deep sea,
(844) Bucket or pallet,
(845) Deep drilling rigs for excavators,
(846) Anchor replacement crank,
(847) jackhammer or net,
(848) Actuate,
(849) Submarine mineral garden Adopt air pockets,
(850) Turn-up time,
(851) for piers (pillars) Level foundation base,
(852) guide rail support,
(853) Arc welder or argon welder,
(854) Pipe Racks,
(855) recirculation pump,
(856) Pressure Control Pool,
(857) Water supply pump,
(858) Circulating water pump,
(859) coolant pump,
(860) dump trucks,
(861) Ceiling crane or crane,
(862) Motor graders,
(863) Rollers,
(864) Safety equipment,
(865) Concrete Batching Plants,
(866) Concrete Finishers,
(867) Concrete Spreader,
(868) Concrete Mixer Trucks,
(869) Concrete pump,
(870) Asphalt Mixing Plant,
(871) Asphalt Finishers,
(872) Asphalt pavers,
(873) Aggregate throwers,
(874) Crushers
(875) air compressor,
(876) perforator,
(877) Hantawa Anti-erection,
(878) sowing machines,
(879) dredgers,
(880) Separate construction machines,
(882) file driver,
(883) Diesel file hammer,
(884) Steam Hammers,
(885) Hydraulic cranes,
(886) Tower cranes,
(887) Crawler cranes,
(888) Truck cranes,
(899) Tandem rollers, (891) Tamping rollers, (892) Tire rollers, (893) tractors, (894) trailers,
(898) ram, (896) lead, (897) cooling water cooler, (898) file, (899) helmit, (900) fuel pump, (901) cam, (902) fuel tank, (904) a pre-boom pin (905) card work, (906) an adapter,
(907) Sonar for fish finder,
(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 or wire rope chain,
(916) Piping line Automatic pneumatic valve transport device,
(917) Coarrill,
(918) The biopies skid,
(919) Rubber tires,
(920) burner boom, (921) harmful tidal microorganisms, (922) pollution-free natural gas,
(923) Air Nozzle, (924) Mineral Collection Turepak,
(925) an ascending air stream, (926) a descending air stream,
(927) Yellow loam mixtures containing disperse ash causing dust or soap bubbles,
(928) Double structure block tank pipe Pier,
(929) Dual structure block Tank pipe bridge Tunnel unit Body,
(930) chemicals, (931) cement, (932) fishing nets, (933) disaster prevention or control lines,
(934) crude oil drilling rig, (935) city lee lever for handle,
(936) Borehole,
(937) Double structure block Tank tube bridge,
(938) anode electrode plate, (939) cooling air bubble, (940) bit, (941) blower,
(942) Tower cranes of the city Isa cranes Boom stand
(943) Hydroelectric power plant, (943a) Pump water turbine for hydroelectric power plant, (943b) Pelton aberration for large hydroelectric power plant, (943c) Francis turbine for large hydroelectric power plant,
(944) Large hydropower generators (944a) Rotational speed detectors for hydroelectric generators, Essex, (944b) Exciter for dc generators supplying current to the motor coils of alternators (944c) Dust ring tube of means for pushing the ring collar, (944d) Upper guide bearing, (944e) Drastbeare ring, (944f) Stator coil, (944g) Stator Frame, (944h) stator core, (944i) low-speed cooler rover cooling cooler, (944j) brazing, (944k) bracket jack, (944l) Bearing, 944m, Runner, 944n, Devein, 944o, Kesing, 944p, Bearing, 944q shaft,
(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) Hatchback basket or pareto for harmful redeye suction dust collector,
(952) Locomotives, non-power, for water,
(953) Military equipment Submarine,
(954) Laser cutting machine,
(955) Peacekeeping message of a weapon more powerful than a nuclear bomb,
(957) Offshore Wind Power Plant, (957a) Wind Turbine Windmill,
(958) Weather Forecast Observation,
(959) Catamaran alternative use Sail,
(960) Satellite weather forecast information collection machine,
(961) Space rocket,
(962) Satellite
(SDU), the center of the deck hull deck (SDM), the top deck of the deck hull (SDL), the top of the machine room floor (MFGU), the floor of the machine room floor (MFG), the bottom of the machine room surface (MFGL) (GL), GLL, GLD, EL, Arctic NP, 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)
Valve body center line (VBCL or PBCL), fire wall water level (WLD), fire water surface (WLL), ejection surface (WLU)
Sea Level (SLU) Sea Level (SLL) Sea Level (SLD)
Out of Merchinery Room (OMR)
Merchinery Room (MR)
In the Merchinery Room (IMR)

Claims (42)

(593,594,595) Nuclear power plants (1) Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Leakage control Nuclear reactors Leakage control Dual structure block tank Reactor main body In the dispensing device,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structural block tank constituting the nuclear power plant main body (1) Double structure block of the reactor dust collector main body (794) Bridge pipe bridge (929) Tunnel device (937) The main body 794 of the nuclear reactor dust collector provided for manufacturing a connection structure capable of decomposing and bonding is a connection structure capable of being disassembled and coupled at a marine vessel manufacturing factory,
Heavy industry Metal processing industry All industrial sites Docking facility in the manufacturing of docking area Marine installation with connection structure Main body transportation installation part for transporting and transporting Nuclear power plant main body (1) The nuclear radioactivity leakage control dual structure block tank constituting the nuclear reactor main body 794 of the double structure block tank 598 for providing the transportation installation of the shaft is inserted through both the fore and aft sides of the central portion of the reactor main body 794 The dispensing device comprises:
The distribution and injection device inserted through both the forward and aft ends of the central portion of the nuclear reactor main body 794 of the nuclear radiation leakage control double structural block tank constituting the nuclear power plant main body 1 comprises a nuclear radiation leakage control dual structure block tank reactor The forward and aft ends of the center portions of the plurality of inner block tanks 596 of the main body 794 are passed through the reactor facility 811 of the nuclear reactor nuclear waste disposal shielding system of the light water reactor, A plurality of types of reactor facility bodies 811 provided with position shifting adjustments by a carrier having a crane boom hook ring 652 and a conveyer 633 operation on a boom stand 651 are separated from each other, The various types of reactor facility bodies 811 inserted into the inner positions of the central portions of the inner block tanks 596 of the boiler water reactor main body 802 and the pressurized water type The new conversion furnace reactor facility main body 806 and the fast breeder reactor facility main body 838 are connected to the gas furnace furnace facility main body 804 and the multipurpose hot gas furnace reactor main body 805 in the furnace main body 803, And an insertion device to control the movement of the nuclear reactor main body 1 to the inside of the nuclear reactor main body 794 of the nuclear reactor main body 1. Various kinds of nuclear reactor facility bodies 811 are inserted to provide various types of nuclear reactor facilities A plurality of kinds of reactor facility bodies 811 of a distribution and dispensing apparatus which are inserted into the inside of a nuclear power plant main body 1 through the bow and aft end of the center of the reactor dust collector 794 while the nuclear power plants are operated by the main bodies 811, (1) to prevent explosion of the nuclear fuel of the nuclear power plant;
A control shaft for controlling the capacity of the nuclear radiation explosion-proof control article of the nuclear reactor main body 794 of the nuclear radiation leakage control dual structural block tank 794 constituting the nuclear reactor main body 1 and the storage tanks of the nuclear reactor alternative nuclear waste treatment shielding apparatus, A reservoir tank internal tank tank 596 for storing cooling water 287 as a fuel explosion prevention control item and toothpaste mixture 927 at the toothpaste level is disposed inside the nuclear reactor main body 794, The outer block tank 599 is provided with a reservoir for the cooling water 287 and the toothpaste-level loess mixture 927 at the same time and the space between the inner block tank 596 and the outer block tank 599 is filled with the nuclear waste 224 (598) and a boiling water reactor (598) inside the block tank (596) inside the storage tank of the nuclear waste disposal system A new conversion furnace reactor installation main body 806 and a high speed multiplying reactor furnace installation main body 804 are attached to a main body 802 and a pressurized water reactor assembly main body 803 in a gas cooling furnace reactor main body 804 and a multipurpose hot gas furnace reactor main body 805, (838) A carrier dispensing apparatus is installed to control the position of the nuclear reactor main body (794) by controlling the position of the nuclear reactor main body (794). The nuclear reactor main body 1 can prevent the explosion of the nuclear reactor and prevent the explosion of the respective nuclear fuel rods while preventing the nuclear reactor main body 1 from being detonated by preventing the nuclear reactor operation from interfering with each other by separately providing the distributor / A storage tank for storing cooling water 287 as a control item and a toothpaste level loess mixture 927 and a nuclear waste disposal shielding facility The nuclear waste 224 in the storage tank of the tooth storage tank 224 is not reciprocated but rotates through the inside of the storage tank of the nuclear waste processing shielding apparatus so that the nuclear waste 224, which is a nuclear fuel explosive, (1) to prevent explosion of nuclear fuel in the nuclear power plant main body (1) as a connection structure of a marine vessel alternative traffic facility by providing a control device for prevention of nuclear fuel explosion inside the nuclear power plant main body (1)
At the same time, it is possible to freely control the amount of electric power produced by the main body 1 of the nuclear power plant constituted in the operation of the nuclear reactor constituted by the distribution injector of the nuclear reactor main body 794, The reactor main body 794 of the nuclear reactor main body 794 is sequentially injected so that the reactor main bodies 811, which can not cope with natural disasters, A power plant 688A in the reactor building 688A and a turbine building 688B and a power plant 688C in the control building 688C and the auxiliary building 688D and a waste building 688G in the nuclear fuel building 688F, Nuclear power plant substitute nuclear power plant (1) that is divided into deep safety engineering design of arrangement and arrangement of building (688Z) A plurality of types of reactor facility bodies 811 are installed inside the various types of nuclear power plant main bodies 1 in such a manner that a control shaft for controlling the capacity of the nuclear waste is provided in the storage tanks of the water treatment shielding apparatus, (1) to prevent explosion of the nuclear fuel of the nuclear power plant;
The control shaft for controlling the capacity of the nuclear power plant main body 1 to the storage tanks of the nuclear power plant alternate nuclear waste disposal shielding apparatus and the nuclear power plant main body 1 are connected to the holding blocks of various types of reactor facility bodies 811 The tank 590 distributes the double structured block tank pipe bridge 928 of the double structure block tank 598 to a connection structure capable of disassembling and coupling the connection shaft of the double structure block tank bridge pipe 937 and the tunnel device 929, A plurality of distribution axes;
The dual structural barge hull (591) at the upper end of the holding tank of each control shaft controls the nuclear radiation leakage inside the SDM of the hull deck (SDM) And various types of reactor facility bodies 811 on both sides of the stern are provided for each of the nuclear reactor facility main bodies 811 of various types of nuclear reactor nuclear waste disposal and shielding apparatuses for nuclear power plants, The guide rails 618 are installed to the left and right sides of the deck deck to the upper end SDU of the double structure barge hull 591 and the crane 861 of 5000 ton capacity is formed on the guide rails 618, The reactor main body 811 is moved to a safety position where the cranes 861 pass through in order to provide a movable installation and a refurbishment of the reactor equipment, Sliding H. Chi carver 153 while the equipped with two of the three into installation construction transportation section for providing the adjustment to the position of each control axes provided with connecting structure on one end each of the controlled axes of a dual structure with large;
A power transmission unit for transmitting power to the distribution shaft having a connection structure capable of being disassembled and coupled to the distribution shaft;
Cooling water (287) and loess (158) are stored in the double sliding large hatch cover (153) body, and the nuclear waste disposal system and sliding hatch Pipe Line with Connected Structure to Carver 153 Body The safety valve 472 of the automatic pneumatic valve transport device 916 is open and at the same time the connection structure coolant and toothpaste level loess mixture 927 are moved The reactor main body 811 is connected to the inside of the main body 1 of the nuclear power plant of the land and the ocean as a connecting structure for providing the prevention of the explosion of the reactor when the control device for preventing explosion of the nuclear fuel is filled with the automatic injecting device, And the ocean nuclear power plant main body (1);
(1) before and after operation of facility safety nuclear power plants in land and sea nuclear power plants in offshore and offshore nuclear power plants with prevention of explosion prevention nuclear reactors of nuclear waste disposal shield (811) The reactor main body 811 is separated from the reactor main body 811 by the operation of the crane boom stand 651 and the conveyer 633 carrier of the position movement control apparatus construction machine crane 861, The boiling water reactor main body 802 and the pressurized water reactor main body 803 of the reactor main body 811 of various kinds inserted into the internal position of the central portion of the inner block tank 596 of the reactor main body 794 A new conversion furnace reactor facility main body 806 and a fast breeder reactor facility main body 838 are connected to a reactor facility main body 804 and a multi-purpose hot gas furnace reactor main body 805, A plurality of kinds of reactor facility bodies 811 are connected to the interior of the nuclear power plant main body 1 of the land and the ocean by arranging the position shifting insertion into the inside of the nuclear reactor main body 794 of the nuclear power plant main body 1 (1) to prevent explosion of nuclear fuel of nuclear power plant;
At the same time, the barge ship propeller 591 at the upper end of the dual structure holding tank and the barge hull 592 at the lower end of the dual structure holding tank are connected to the holding tank 590 via the pin shaft 606 A screw shaft coupling engaging and disassembling nut 604 and a screw shaft engaging bolt 603 for adjusting the position of the adjusting shaft;
(593,594,595) Double structural block of a double structure block tank (598) Tank pipe bridge pier (928) and double structure block tank pipe bridge (937) Tunnel unit body (929) A plurality of distribution shafts for distributing and discharging to the structure;
The double structure barge hull 591 at the upper end of the holding tank of each control shaft is connected to a plurality of inner block tanks 596 of the nuclear reactor main body 794 of the nuclear radiation leak control double structure block tank main body 794, To generate power for each of the distribution shafts;
(1) nuclear reactor leakage control of double-structure block tank reactor nuclear reactor main body (794) at the same time, and at the same time, the nuclear reactor operation of the nuclear power plant is operated In addition to being capable of injecting the nuclear reactor main body of the alternative nuclear waste disposal shielding device, the consumer is able to control the power consumption of some of the main body in accordance with his / her preference and to control the power consumption, (1) Nuclear power plants operating nuclear power plants that efficiently improve the operation of nuclear power plants. Nuclear radiation leakage control of reactor facilities of nuclear waste disposal shields. Dual structure block tanks Electronic control of the distribution injector of the reactor main body 794 Is connected to the connection structure value movable nuclear plant safety control management produce full-length unit to raise nuclear powered by the valve and the pump of individual to automatically check the power distribution to the respective shaft;
(1) of the nuclear power plant of the above type (1), which is an explosive of a reactor having an exhaust gas outlet and an inlet, which is equivalent to a dust collector of an exhaust gas facility capable of withstanding natural disasters of the sea Nuclear waste and nuclear radioactive contaminants are placed in double tube block piping lines (74) located inside the double structure block tank reactor main body (794) Temperature sensors of pollutants Pressure sensors of safety valves Temperature sensors of sensors When the temperature inside the nuclear reactor is 700 to 800 degrees Celsius and the pressure reaches the danger level of high pressure, While the alarm message is transmitted to the computer, a plurality of temperature and pressure sensing sensors are opened to each safety valve The nuclear waste is stored in each block tank through the explosion of the nuclear waste in the pressure vessel internal block piping line 74a of each location, and the temperature pressure sensor safety valve 472 connected to the inner block tank at the lower portion of the pressure vessel The fuel block control device for controlling the fuel explosion prevention control fuel element stored in the inner block tank is connected to the automatic injector flashing warning lamp 99 and the pressure gauge 101 and the temperature sensing sensor bimetal 102 as the outer block piping line 74b, (104) Flow meter for checking the flow rate (105) Pipeline line Automatic pneumatic valve Safety of the transport device (916) And a plurality of through holes at an angle of 45 [deg.] At an upper portion of the reactor building 688 are provided with a laser cutting machine and a construction machine drill machine through holes A plurality of safety valves 472 are connected to the bolt 24 and the nut 25 in the block piping line 74 while forming a double pipe structure block piping line 74 in the plurality of through holes at the same time, 32 and connected to a flange and connected to a double structure block tank 598 having a size twice the diameter of the reactor building 688 along the outer wall surface of the nuclear reactor building 688, 599) with a radiation-type connection structure to distribute the nuclear waste disposal unit and the nuclear fuel explosion control unit into the nuclear reactor core (681) and the core (681) Explosion-proof control products are provided as nuclear fuel explosion-proof control articles as various kinds of nuclear reactor facility main body connection structure to the inside of the nuclear power plant main body 1 of the land and the sea and the nuclear power plant main body 1 Configuration achieve the same nuclear fuel and explosion-proof;
The nuclear waste treatment shielding device (not shown) immediately before the explosion of the nuclear reactor after the nuclear power plant storing the cooling water 287 and the loess 158 in the body of the double sliding large hatch cover 153 at the upper part of the reactor inner core 681, Piping line with connection structure to the sliding hitch cover body 153 The safety valve 472 of the automatic pneumatic valve transport device 916 is opened and at the same time the outer block piping 74b of the block piping line 74 The cooling water and toothpaste-like loess mixture stored in the inner block tank 596 are transferred to the interior of the pressure vessel 813 and the fourth protective walled container 808 by the water supply pump 857, The chilled water and toothpaste-level loess mixtures are filled with the water's potential energy inside the reactor inner core 681 and outside the reactor core 681 with connection structure cooling water 287 and toothpaste-level loess mixture 927 converted to kinetic energy If you discard At the same time, while preventing the explosion of nuclear reactors, it is also possible to efficiently operate nuclear power plants of mainland and offshore nuclear power plants (1) while maximizing the production of electric power and to prevent explosion of nuclear reactors. At the same time, Fuel atomic explosion prevention of nuclear reactors and nuclear reactors of nuclear reactors of nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, The method according to claim 1,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
The double structure block tank 598 has an inner block tank 596 positioned at a central position and an outer block tank 599 located at an outer position of the inner block tank 596, The double structure block tank pipe bridge device 929 is installed at one end of a double structure block tank 598 manufactured and manufactured by a steel plate steel plate 597 as a connecting structure distributing and inputting device in cutting and welding processes at an industrial site. And the first auxiliary steel 600 for the block tank and the second auxiliary steel 601 for the block tank are connected to each other by a splitting and inputting device as a connection structure between the cutting process and the welding process, The large flange (614) located as a connecting structure to the connecting shaft is connected to a large flange connection end of a large flange by a large flange (614) (625) of a certain size is provided as the main body of the manufacturing process while a manufacturing process is being carried out with a half-cutter and a cutter, so that the manufacture of the main body according to the manufacturing process according to the safe design of the main body, The structural block tank 598 is made of steel plate 597 made of high-strength stainless steels, and the double structure block tank 598 is inserted into the transportation process by the folding process, A high-strength stein-less steel is produced by a forming machine and a roll forming machine according to the original size of the steel plate 597 of the high-strength stainless steels while having a constant crane 861 and a cone- The steel plate (597) is folded in the form of a round bending type (c) at a right angle bending type (a) and a type V bending type (b) Suve The bending method of this type of bending machine and the rouller bending machine and the bending method of three bending wool bending machine are performed by the banding and bending machine of high tension stainless steel plate (597) At the same time, it is necessary to adjust the position of the welded joint to be able to weld to the banding joint of the steel plate 597 of the high tensile strength steel by a tunnel crane and a conveyor (633) (598) of the block tank (598) while being positioned at the connection position of the large flange (614) located at the stern connection position with the cutting machine being provided and the welding process proceeding to the banding joint portion of the steel plate (597) The flange 614 is provided as a main body connection structure of the manufacturing and processing shelving process and is positioned at a position outside the inner block tank 596 and the inner block tank 596 The outer block tank 599 is capable of adjusting the position of the body of the inner block tank 596 to the inner position of the outer block tank 599 by the crane crane 861 and the conveyor 633, A double structure block tank 598 having a double structure cylindrical connection structure inside the main body after the welding process is completed is constructed to operate the nuclear power plant main body 1 with the manufacturing distribution input device of the main body;
A plurality of outer block tanks 599, a first auxiliary type steel 600 for a block tank and a vertical partition 605 of a second auxiliary steel plate 601 for a block tank are disposed outside the plurality of inner block tanks 596, The vertical partition wall 605 and the horizontal partition wall 609 are formed in the first auxiliary mold 600 for the block tank and the second auxiliary steel plate 601 for the block tank by steel beams 149 in the horizontal partition 609. [ The steel beam 149 and the partition wall manhole 610 in the snap hole 602 are cut by a computer laser cutter while being welded together by the welding process of the welding process to form the outer peripheral wall surface of the fourth protective walled container 808 And a nuclear reactor main body (794) for separating the nuclear reactor main body (1) into a double structure block tank (598);
The hydraulic cylinder door 624 and the emergency stairs and the springs 631 are formed by a welding process on the vertical partition wall 605 and the horizontal partition wall 609 in which the partition wall manhole 610 is formed and the reactor explosion- A reactor structure of the tank reactor main body 794, a reactor structure of the double structure block tank reactor main body 794, and a reactor connection structure at the inside and outside of the reactor,
The plurality of stopper plates 625 are formed by a bending method of a press braking type bending machine and a rouller bending machine and a bending method of a bending roll bending machine (597) of the high-strength stainless steels and folded with a folding machine to form a cylinder-type coupling structure egg type, and a double structure formed by the coupling structure of the double structure block tank (598) A plurality of inner block tanks 596 of the block tank 598 and a plurality of outer block tanks 599 are welded to the upper and lower ends of the block tanks individually and a large flange bolting connecting device coupling structure in the form of an egg bolting coupling assembly And a large number of non-explosion-proof double structure block tanks (794) formed by a combined welding process assembly of a plug plate of a steel plate (625) without a large flange (811) nuclear waste disposal unit and a nuclear fuel explosion control unit as a dispensing apparatus of the nuclear waste disposal apparatus of the nuclear reactor main body (1) inside the nuclear power plant main body (1) The dust collector main body 794 is configured to operate the nuclear power plant;
The nuclear waste is stored in one place at the lower end between the plurality of inner block tanks and the vents of the plurality of outer block tanks in the event of the nuclear reactor explosion, so that the bottom of the GLD reactor of the double structure block tank is a reinforced concrete mat The nuclear fuel is injected into the third wall of the reactor body formed inside the inner block tank 596 having the single nuclear explosion-proof double structure block tank 598 fixed by the nuclear fuel 225 and the steel beam 149, The nuclear waste disposal unit of the nuclear reactor main body 794 of the double structure block tank of the reactor explosion preventive prevention tank and the distribution injector of the nuclear fuel explosion control apparatus are provided to form the nuclear power plant main body 1 ) Of the nuclear waste disposal apparatus of various kinds of nuclear reactors (811) and the distribution input apparatus of the nuclear fuel explosion control apparatus Configuration be made to the nuclear reactor facility movable double structure block tank reactor dust collector body 794, and separated by;
An enormous amount of radiation is generated within the nuclear reactor of the nuclear reactor facility so that the reactor can be safely covered with a covering tube 682 protecting the first wall pellet and the second wall fuel rod and a third wall reactor pressure vessel and a fourth wall vessel A double structure block tank reactor main body 794 having a five-layered protection wall formed by canceling a previous reactor building formed of a fifth wall reinforced concrete mat 225, (811) of the nuclear power plant into the nuclear power plant body (1) by the distribution injector of the nuclear fuel explosion control apparatus, and to the nuclear reactor main body 794 of the double structure block tank explosion preventive double structure block tank To constitute nuclear plant nuclear power plant operations;
The reactor 811 is connected to the dust collector main body 794 through a steam generator 810 and a steam dryer 786 installed outside the reactor pressure vessel 813, And a plurality of inner block tanks 596 and a plurality of outer block tanks 599 are connected to the distribution injector of the nuclear fuel explosion control apparatus at each of the double container block tank 808 corresponding to the fifth wall, The cooling water 287, which is a nuclear fuel explosion-proof control article, which is equipped with a loess (158) cement mixing equipment mixer machine 649 and which is injected into the pressure vessel 813 at the same level as the furnace immediately before the nuclear reactor explosion, The loess mixture is appropriately mixed with the loess mixture containing the soap bubble dispersing agent and the controlled article is injected into the pressure vessel (813) at once into the automatic injection device. After the earthquake, the inside of the reactor (811) is cleanly cleaned A plurality of fire-fighting nozzle nozzles 10 are formed inside the pressure vessel 813 and inside the compartment 808 to prevent the explosion of the reactor by automatically performing the internal cleaning process inside the reactor 811 without inputting human and robot Dual structure block tank Tanks with nuclear reactors Nuclear fuel explosion control devices with distribution injectors and nuclear fuel explosion prevention control appliances Nuclear power plants Internal structure of nuclear reactors (811) (811) dust collector main body (794) before and after the operation of the nuclear reactor safety nuclear power plant, in order to operate the nuclear power plant;
The internal cleaning of the main body 794 of the nuclear reactor 811 forms a circulating water pump 858 connected to the piping line 352 of the cooling water 287 which is a distribution input device of the fuel explosion control apparatus, The dispersing material causing the soaking water in the cooling water 287 is appropriately mixed with the yellow loam mixture and put into the pressure vessel 813 at once so that the inside of the reactor 811 is immediately cleaned A nuclear reactor waste main body 794 having a double structure block tank reactor explosion preventive double tank block structure capable of continuously generating electricity without receiving a nuclear reactor explosion prevention device and maximizing safety operation of the nuclear reactor facility, (811) into the main body (1) of the nuclear power plant, (811) before the operation of the reactor facility safety nuclear power plant, and the main body (794) of the dust collector to operate the nuclear power plant;
And a plurality of double structure block tank reactor reservoir bodies 794 for storing radiation nuclear waste 224 connecting the reactor wall of the nuclear power plant and the outer wall surface of the double walled building block reactor of the fifth wall from the first wall of the reactor wall The nuclear power plant formed at the nuclear power plant before and after the operation of the nuclear power plant formed in a coupling structure with various kinds of nuclear reactors (811) inside the nuclear power plant body (1) A steam turbine 267 for generating nuclear fission within the steam turbine 267 to generate steam to generate steam by rotating the steam turbine 267, a nuclear power generator 772 for converting the power produced from the steam turbine 267, A rotating rotor electronics (not shown) for a nuclear power generator installed along a circumferential surface of a shaft 198, which is a rotating shaft connecting the steam turbine 267 and the nuclear power generator 772, A non-rotating armature coil 773 for a nuclear power generator installed along the circumferential surface of the rotating electromagnet coil 774 for rotating the nuclear power generator and a nuclear power generator 772 connected to the steam turbine 267, And a frame (775) for fixing the shaft (198) integrally with each other.
A cooling water 287 piping line 352 having a connection structure with a condenser 790 at a lower portion of the body of the steam turbine 267 of the power generation facility and a coolant water line 352 at a pipeline line 169 at the front of the condenser 790, 287) a circulating water pump 858 connected to the piping line 352 is constructed so as to operate the nuclear power plant before and after the operation of the nuclear reactor safety nuclear power plant;
A feed pump 857 is formed outside the rear end of the condenser 790 and the reactor 811 and a purifier 809 is formed outside the reactor in front of the feed pump 857, A plurality of coolant pumps 859 are installed outside the reactor pressure vessel 813 containing uranium 812 fuel and a safety device control rod 798 is installed inside the reactor pressure vessel 813 The control rod (798) is inserted automatically at a time when the shaking occurs and the reactor is configured to make the operation safety of the nuclear reactor before and after the operation of the nuclear reactor safety nuclear reactor by emergency stop;
The first wall pellet 683 and the cover tube 682 protecting the second wall frit rod 689 of the nuclear reactors 811 of the nuclear power plant are subjected to earthquakes stronger than the magnitude 5 by the third wall reactor pressure vessel The safety valves 472 formed with the plurality of temperature pressure sensors immediately before the explosion are opened in the first wall partition vessel 813 and the fourth wall partition vessel 808 are opened and the inside of the pressure vessel 813 upper block piping line 74 The blasted nuclear waste 224 passes through the block piping 74a and the outer block piping 74b is supplied with cooling water and toothpaste-like loess mixture, which are the fuel explosion prevention control product stored in the inner block tank 596, 857 to the inside of the pressure vessel 813 and the fourth protective walled container 808 and the nuclear waste 224 is transported and stored in the inner lower portion of each of the double structure block tanks 598, The temperature-sensing sensor safety valve 472 connected to the tank 596 At the same time, as the outer block piping 74b of the block piping line 74, the fuel explosion-preventing control article coolant stored in the inner block tank 596 and the mixture of loess mixtures at the toothpaste level are supplied to the pressure vessel 813 ) And the fourth protection wall storage container 808 to transfer nuclear fuel explosion prevention control articles prepared by converting the potential energy of the water into kinetic energy to cool the reactor water and the loess mixture 927 at the toothpaste level into the reactor block 596 ) And outer block tanks 599. If the inside of the reactor is filled with the separately stored coolant 287 and toothpaste-like loess mixture 927, the reactor explosion is terminated to prevent the reactor explosion. Establish nuclear power plants before and after operation of reactor safety nuclear power plants;
When the explosion of the nuclear reactor pressure vessel 813 is stopped by the remote control cutting or the robot 700 when the reactor decommissioning operation of the nuclear power plant operating the nuclear power plant is stopped, the plurality of temperature pressure detecting sensor safety valves 472 are closed, In operation, various types of reactors, which are normally formed by closing a plurality of temperature-sensing sensor safety valves 472 at all times, can be installed on the barge 591 of a marine vessel. (811) so as to be installed on a barge of an anti-sunken type of the ocean; In order to prevent the earthquake and tsunami from being affected by the weather conditions, the location of the nuclear power plant is installed at the upper 40m of the sea level by the docking and buoyancy control devices located on the submerged barge line, Military nuclear power plants that are not affected by MIE are constructed so that nuclear reactors can not be exploded so that nuclear reactors can not explode. At the same time, Nuclear Radiation Leakage Control Dual Structure Block Tank (794) Dispenser In order to establish safe and continuous operation at marine nuclear power plant, it is possible to build a marine power station lifting tanks (593,594,595) Ensuring the safety of nuclear reactors and ensuring reactor repairs with continuous operation In order to prevent the pollution of the environment due to the nuclear waste, a mooring device formed on the barge for the waste treatment, a diving buoyancy control device, a distribution input device of the nuclear waste treatment device and a fuel injection device of the fuel explosion control device, Nuclear Radiation Leakage Control without Internal and External Nuclear Reactor Control Dual Structure Block Tank Distribution Apparatus of Nuclear Reactor Main Body (794) Nuclear Waste Treatment Units of Nuclear Power Plant (672) (593, 594, 595), diving buoyancy control devices, distribution and input devices of nuclear waste disposal equipment, and reactors, nuclear reactors, nuclear reactors, Nuclear reactors for various types of nuclear reactors Operation of nuclear reactors for nuclear waste disposal shielding Radiation leaking distribution control input device for a dual structure block precipitator tank reactor body Claim 2
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
(593,594,595) of a nuclear power plant. The main body of the nuclear power plant main body (1) is a main body for controlling the production of a nuclear power plant, The small diameter electrical resistance welded pipe 706 to be manufactured is formed by molding the raw material 707 uncoil 708 into the ring leveling 709 and the side trimming 710 by cutting and roughly connecting 711 to the forming 712, The welding process heat treatment 715 is performed while the welding process and the inner and outer surface bead removal process 713 are completed with the ultrasonic wave and the eddy current test 714. The welding process heat treatment process 715 is a process And the calibration 722 process of the structure tube 721 is performed in the intermediate stack 723 and the induction heating furnace 724 at the same time while providing the flatness test 720 at the cutting 719 (728) and ultrasonic wave and eddy current test (729) on the hot cutting (726) and the chamfering (727) The screw 732 for performing the dimensional inspection 731 with the naked eye with the crab and length measuring instrument 730 and the zinc plating 735 and the galvanized steel pipe 736 for the general piping 734 and 736, A small diameter electrical resistance welded tube 706 manufactured in a body manufacturing section that controls production at a cold-rolling stand 738 equipped with a tube 737;
Medium caliber shaped electric resistance welded pipe 739 is formed by connecting the coil mugged iron plate raw material 740 to the gasket forming device 742 connected to the side trimming device 741 and the oil pipe ultrasonic wave 743 and the test test 744 ) And at the same time regulating the extrusion molding (745), the production of medium-sized, square-shaped electrical resistance welded tubes (739) is made up of dispensing devices;
The large diameter steel pipe 747 of the oil pipeline for the petroleum industry 746 regulates the production to the edge milling machine 748 and the three-roll banding machine 749 with the post- In order to carry out the outer weld 754 at the same time while performing the back cut fin 753 weld cut to the inner weld 752 and the inner weld 752 to form the manufacture in the main body manufacturing part, (759) to the X-ray test (757) and the cold cross section (758) to the pipe section (756) and the pipe section (756) At the same time, the spiral welded steel pipe 760 for the uncoiled ring 761 and the non-coated pipe 763 of the steel pipe pile 762 are connected to the outer surface blast cleaning 764 by an inner surface blast cleaning 764 And the first coating 767 of the inner surface coating 766 and the coating and coating 768. At the same time, the coated long steel pipe 769 is irradiated with the ultrasonic waves and the X- (770) through the process, the production of the large-diameter steel pipe (747) of the steel pipe for petroleum industry (746) of the oil pipeline is constituted by the distributing and inputting apparatuses while the nuclear reactor interior and exterior nuclear reactors Leak control dual structure block tank distributing device of nuclear reactor main body 794 nuclear waste treatment apparatuses such as a mooring device formed in a marine power plant lifting tank 593,594,595 inside the main body 1 of a nuclear power plant 672, (705), which is a disassembly-coupled structure at the marine vessel manufacturing plant of the connecting shaft of the reactor main body manufacturing process Nuclear reactors of nuclear reactors, nuclear reactors, nuclear reactors, Cost nuclear radiation leakage control double tank structure block distribution chute of the reactor main body dust collector The method of claim 3,
(593,594,595) Nuclear Radiation Leakage Control of the Nuclear Power Plant (1) Dual Structure Block Tank Reactor Main Body (794) and Dual Structure Block Tank Bridge (929) Tunnel Main Body (937) (593, 594, 595) of a marine power plant with a connection shaft provided for making a disassembly-connectable connection structure. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
An inner block tank 596 positioned at the center of the body of the double structure block tank 598 and an outer block tank 599 located at an outer position of the inner block tank 596, ) Is connected to the one end of double structural block tank (598) manufactured and distributed as a connection and disconnection structure to the cutting process and the welding process at the industrial site, and is connected to the distribution input device of the double structure block tank pipe bridge device, The first auxiliary steel plate 600 and the second auxiliary steel plate 601 are connected to each other through a connecting shaft to the connecting position of the forward and aft ends of the block tank 598, The large flange 614 is provided with a large flange 614 positioned as a connection structure at a connection position with a stopper plate 625 of a predetermined size as a main body of the manufacturing process, The double structure block tank 598 of the iron structure metal of the main body according to the present invention is made of steel plate 597 made of high tensile stainless steel by a double cutting block tank 598 A crane crane 861 and a conveyer 633 to be fed to the conveying process are provided and at the same time, according to the original size of the steel plate 597 of the high tension stainless steel, (597) of the high tensile strength stainless steels were subjected to folding in the form of a round breaking (c) in the form of a right angle bending (a) and a type V bending (b) At the same time, the bending method of the press braking type bending machine and the roller bending machine of the mold steel bending type and the bending method of the bending roll bending machine of the roll bending type, The crane (861) and the conveyor (633) In order to enable welding to the banding joint part of the steel plate 597 of the power stainless steel, while adjusting the position movement, the welding machine and the cutting tool are equipped with a drill lathe and a cutting machine, The large flange 28 positioned at the position of the connection portion of the large flange 614 located at the stern connection position with the block tank 598 is inserted into the main body connection structure An outer block tank 596 and an outer block tank positioned at an outer position of the inner block tank 596 are installed in the outer block tank 599 at the same time that the body of the inner block tank 596 is positioned A double structure block having a double structure cylindrical connection structure inside the main body by completing the welding process while controlling the position movement by a ceiling crane 861 and a conveyor 633 (5988) to a nuclear power plant (672) inside the main body (1) of the nuclear waste disposal unit (593, 594, 595) of the nuclear waste ejection control dual structure block tank reactor main body (794) And the control of the docking buoyancy of the mooring device and the nuclear waste disposal device and the reactor installation of the nuclear waste disposal facility. The reactor structure of the nuclear reactor of the nuclear reactor of the present invention comprises a plurality of nuclear reactors and a connection structure, The method of claim 4,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
The distribution input device of the diving operation ready controllable control device located inside the main body of the nuclear power plant (593, 594, 595) of the marine power plant comprises:
The block tank hull disassembly and engaging portable lug 607 provided in a horizontal and vertical type coupling structure at each portion of the holding tank upper barge hull 591 and the holding tank lower barge hull 592 has a plurality of lug processing holes 615 and Block tank Tank block unit Hull disassembly Horizontal block tank with long hole (616) for position control Hull disassembly Portable rug pin shaft (606) Vertical block tank with machining hole (615) Hole hole 616 for the block tank block unit hull disassembly and coupling position shifting control device is provided in the finishing hole 615 of the pin shaft 606 so as to be connected to the connection portion of the pierce column holding tank 590 and the barge A plurality of shafts 606 bonded to a plurality of processing holes 615 provided at respective portions in a vertical form of the hull 591 and the barge hull 592 at the lower end of the holding tank are bonded to several rug processing holes 615 Block tank The double structure holding block tank 598 is rotated by the shaft 606 provided with the single opening shaft 606 by removing the sieve disassembly portable rotary pin shaft 606, It is a connection structure that can be disassembled and connected by distributing input device. Completion of assembling of sea level is completed by connection of bottom part. Barge line Connected to each part of ship hull. Blocks of diving control devices. Tank block units. A hydraulic cylinder 426 for the block tank hull traffic control device and a stopper plate 625 for the blocking tank valve 622 and the ventilation port 585a of the doctor ventilation 585 of the diving control device ), A double structure piping line automatic pneumatic valve conveying device 916 and an engine control power motor control module 106 are separately provided to prepare for the diving process, so that the horizontal holding block tank 590 can be vertically pivoted (594, 595, 596) to prevent submergence of marine power plants by distributing to the distribution input device of the anti-submergence resisting line (634) to prepare for the submergence proceeding at the lower end of the sea level (SLD) A main body 1 of a nuclear power plant positioned as a connection structure to a position having an internal connection structure of a nuclear reactor building 688 inside the main body 1 of the nuclear power plant;
The distributing and charging apparatus for portable construction of the nuclear power plant main body (1)
The block tank hull disassembly and engaging portable lug 607 formed at each of the joining portion barge lines at the upper and lower ends of the holding block tank 590 is provided with a shaft 606 and a screw thread 603a of a bolt for engaging the lug shaft, The thread 603b of the shaft coupling and disassembling nut 604 and the pin shaft 606 and the lug pin 608 for coupling the lug are inserted into the hydraulic rotary cylinder machine 619 for the positioning device of the traffic device distribution dispensing apparatus, And a hydraulic cylinder machine 624 for a block tank block unit hull disassembling and regulating device of the traffic apparatus facility, a plurality of lug processing holes 615 provided in the lug 607 and a block tank block The horizontal double structure block tank 598 having the elongated hole 616 for the unit hull breaker position shifting control device is connected to the block tank hull disassembling unit 598 provided on the semi-submerged operation line 637, which is an example of the tug line 636, Double pipe structure tank bridge construction bridge A docking position control mobile device of a hull of a block tank block unit hull disassembling / regulating device band member 621 for a unit of the same shape as the form frame 617 and a sunken prevention stay line 634 of a sinking ship rescue line, The bottom block barge hull 592 of the holding block tank bottom barge hull 592 is connected to the lower end barb line hull 592 of the holding tank 592 by a docking connection structure, The fuel rod 689 is inserted into the inside of the nuclear reactor building 688 to the inside of the reactor building 688 inside the nuclear power plant main body 1 to protect the preparation of the diving operation from the voltage 684 and the power 685 The primary power source 686 and the input power source 687 are connected to the production control power supply unit 690 for producing electric power to produce electric power by the position movement control unit. A marine tunnel crossing railway substation 696 with seven strands of steel wire 692 at the inner center and a line of transmission lines 695 having 54 strands of aluminum wire 693, And the production power supply of the voltage 684 and the power 685 of the intermediate substation 697 from the high voltage substation 690 provided with the shift control unit transformer 96 to the primary substation 691 (698) and a 699 substation (699) to provide direct supply of production power to the substation where the submarine cable is connected to the substation. At the same time, a secondary substation (691) 700), submarine cable (701) and household (702) including solar houses are connected to the submarine line wiring to the connection structure. A transformer (96) A production electric power supply control device located at the connection structure to a position having a connection structure for distributing and discharging the production electric power supplied from the wire hooks 703 to the hook rings 703, (GLD) A production electric power supply regulating device located at a location having a connection structure for distributing and discharging the production electric power supplied from the underground wire to the production electric power supply is installed in the main body of the nuclear power plant (1) (702) to the production power supply by distributing and dispensing devices for distributing and discharging the generated power to the household (702);
The distribution input device for controlling the diving buoyancy of the nuclear power plant main body (1)
The shafts 606 are removed from several of the plurality of the shafts 606 bound to the plurality of the processing holes 615 provided at the respective parts of the lug 607 prepared for the diving progression preparation, The double structure support block tank 590 is connected to the lower end barge hull 592 of the landing block tank by assembling the sea surface by the shafts 606 that are connected to each other by the weight of the diaphragm- The lower tank barge hull 592 of the holding tank is provided to protect the diving progress by the lower end SLD of the sea surface so that the assembly of the bottom tank barge line 592 is completed to proceed to the submarine line injection nozzle of the submarine line injection nozzle connecting port (1) Distribution power supply of the nuclear power plant main body (1) which is located in the structure connected with the connection structure of the submarine line wiring. Is provided with line wiring configuration be made movable and the original reference;
The distributing and inputting apparatus for lifting a sinking vessel of the nuclear power plant main body (1)
After the bottom barge hull 592 of the single shackle shaft 606 is submerged in the holding block tanks, the horizontal stowage block tanks 590 are vertically aligned to form the strut tank upper barge hull 591, A plurality of shafts 606 bound to a plurality of processing holes 615 provided at respective portions of the landing block tank lugs 607 positioned in vertical positions of the rug and the sea level SLL of each portion are disassembled into a block tank hull disassembly To the hexagonal portion 603b of the hull disassembly engaging portable lug shaft disassembly coupling nut 604 and the hull disassembly engaging portable lug pin shaft 606 to the combined portable lug shaft bolt 603 and the bolt thread portion 603a The main body 1 of the nuclear power plant is provided to the marine vessel substitute traffic apparatus facility by the distribution input device of the sink preventive stay line 634 of the sinking ship while having the hull disassembly coupling with the hull disassembling portable lug pins 608 By doing so, (593,594,595) to protect all of the ship's barge ship hull with the submarine line spraying nozzle of the submarine line injection nozzle into the main body (1) of the nuclear power plant. A double structure block tank 598 provided with a connection structure anti-sinking retention line 634 for providing a sinking vessel located in a connection structure and having a double structure cylindrical connection structure inside the main body 1 of the nuclear power plant, The nuclear radiation leakage control dual structure block tank distributing device of the nuclear reactor main body 794 nuclear waste processing devices are installed in the main body 1 of the nuclear power plant 672 and the mooring device formed in the marine power plant lifting tank 593,594,595 Buoyancy control device and nuclear waste disposal device distribution system and nuclear reactor facility safety facility Before and after operation of reactor facility facility manufacturing process ( 705). The nuclear reactor core of the nuclear reactor waste disposal system of the nuclear reactor waste disposal system of nuclear reactors of various kinds in the global nuclear power plant, Radiation Leakage Control Dual Structure Block Tank Distribution Apparatus of Reactor Main Body The method of claim 5,
(593,594,595) Nuclear Radiation Leakage Control of Nuclear Power Plant (1) Dual Structure Block Tank Reactor Main Body (794) and Double Structure Block Tank Pipe Bridge (929) Tunnel Main Body (937) (593, 594, 595) of the offshore power plant of the joint shaft provided for the manufacture of the joint structure capable of being combined. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
The distribution input apparatus of the main body (1) of the floating nuclear power plant (593, 594, 595)
(593,594,595) Distribution of the ocean connecting the land with the land providing the main body (1) of the nuclear power plant Double bottom structural block block tank tank pier (928) of sea level (SLL) (929) Tunnel unit main body (937) In order to control the distribution of the main body (1) of the nuclear power plant equipped with the connecting shaft, it is necessary to pass through both sides to the upper position of the pipe bridge support, The hollow space for the adjustment of the capacity of the nuclear power plant main body 1 to the internal position of the upper end of the pipe bridge 937 of the double structure strut block tank pipe bridge 928 is inserted into the double structure block tank An inner block tank 596 located at the center of the block tank 598 of the inner block tank 598 and an outer block tank 599 located outside the inner block tank 596 ) The pipe bridge 937 with the connection structure inside the tunnel structure 929 and the double structure support block tank pipe bridge pier provide the construction equipment located inside the distribution input hull of the sink prevention rescue line 634, To the bottom of the nuclear power plant main body (1), which is provided for fixing to the sea floor, with a foundation base (851) for the mooring unit bridge pier. Submarine wire connection of the submarine line injection nozzle Connect the submarine line wiring to the injection nozzle (634) for providing a sinking vessel lifting structure with connecting structure, which is constructed as a main body (1) of a nuclear power plant with construction equipment located inside the hull;
The distribution input device of the block tank-coupled portable lug 607 of the nuclear power plant main body 1,
The floating type marine power plant lifting tanks 593, 594, 595 which are not formed on the upper surface of the pipe bridge 937 are connected to the block tank 590 and the block tank 590 formed separately from the holding tank upper barge hull 591 and the holding tank lower barge line 592, A plurality of hull disassembly-type portable lug pin shafts 606 engaged with a plurality of block tank hull disassembly-type portable lugs 607 provided at the respective parts and a combined portable lug 607 are connected to a block tank hull disassembling portable lug 607 The floating float washers 593, 594, 595, which are joined together by shaft bolts 603 and threaded bolts 603a and lug pins, are connected to the support block tanks 590) is divided into 500 cubic meters of double structure block tank at depth of sea level (SLL), small floating uptake tank (593) is connected to floating tank (594,595) 607) A plurality of (606) block tank hull disassembly-engaging portable rubber lug pin shafts 606 bound to a connecting joint joint portion machining hole 615 of a plurality of (607) block tank hull disassembly / A tubular bridge tunnel device (603a) having a connection structure to a hexagonal line (603b) of a block tank hull disassembly-type portable lug shaft bolt (603) and a block tank hull disassembly portable lug shaft disassembly coupling nut (604) And the double structure strut block tank pipe bridge pier 928 are provided with construction equipment located inside the distribution input hull of the sinking prevention retention line 634 of the sinking ship salvage line to provide a mooring crane replacement crank 846, (593, 594, 595) to the inside of the main body (1) of the nuclear power plant is connected to the submarine line injection nozzle of the submarine line injection nozzle connecting port by the submarine line wiring Configuration be made for a nuclear power plant body (1) by connecting structure to raise anti-sinking flotation formula dock (593 594 595) of position adjustment devices connected to the structure with the result that the structure and location;
The distributing and inputting device (593, 594, 595) for sinking the connection structure of the nuclear power plant main body (1)
Double structure block tank Tube bridge (937) Upper position 40 meters above the top of the bridge to prevent the collision with the height of the ship's safe passage of the ship with a strong storm surge and general marine vessel and marine steel structure, and repair the main body of the nuclear power plant (1) (593,594,595) of the main body (1) of the individual nuclear power plant that distributes and discharges the fixed lifting tanks (593,594,595) of the main body (1) of the nuclear power plant located as a connection structure to the submerging lifting tanks (593,594,595) silver,
Double structure block tank (598) Discharge control device of connection structure Dispensing device of main body (1) with connection distribution space The distribution system of the main body (1) In order to support the power plant main body 1 with the connection structure of the double structure block tank 598 of the plurality of floating lifting tanks 593, 594 and 595, (928) are provided with a connection structure of a pipe bridge pier (928) connection structure provided at a depth of 500 m in a double structure block tank volume at the depth of the sea surface (SLL) A nuclear power plant main body 1 is provided with a worm crank 844 for replacing a mooring car placed on the lower base 851 for leveling foundation for piers on the seabed, As provided to the connection structure to equip a fixed mounting at the same time be made to configure a nuclear power plant body (1) by connecting structure of the distribution side to provide a lifting vessel sinking into the nuclear power plant body (1) and;
The distributing and inputting apparatus on the distributing side for the liquid type floating type poison (593, 594, 595) of the connecting structure of the nuclear power plant main body (1)
(590) Upper lifting dock Upper barge Deck deck Lower 40m Sea level located at sea level Upper deck of barge and sea level Barge upper deck of sea level above deck Barge Deck deck Top of deck is a sailing ship from natural disaster At the same time, various kinds of nuclear power plants and wind power plants, which supply the environment-friendly pollution-free energy industry, will be equipped with hydroelectric power plants, and the seabed mineral resource collection hall is composed of the lower part of deck (SDL) (593,594,595) located at the upper position of the deck plate (116) located at the inner position of the deck plate (116) and the buoyant top barge deck deck Each of the emergency landing sites of the aircraft located at the upper position, (593, 594, 595), which is located at the location of the distributing side connecting the submarine line wiring to the submarine line injection nozzle of the submarine line injection nozzle connecting port, into the main body (1) of the nuclear power plant ) Deck top Deck-top Deck-to-Deck Deck Aircraft Dispatching Facility Provided at the Meteorological Observation Site to Protect the Aircraft Emergency Landing with the Equipment of the Power Generation Facilities Nuclear Power Plant Main Unit (1) (1);
As a connection structure of the nuclear power plant main body 1,
Submarine line injection nozzle into the main body of nuclear power plant (1) Submarine line of nozzle connection port Connect submarine line wiring to the nozzle connected to structure Double structure block located at the structure Structure of double pipe in tunnel body (929) The double structure block tank 598 having the connection shaft of the pipe bridge 937 connected to the block tank pipe bridge 937 body is connected to the guide rail 618 for the block tank hull transportation device provided at the lower end position of the inner block tank 596 The inner block tank 596 and the outer block tank 599, which are provided for the operation of the internal tunnel 771 for the marine tunnel device at the speed of 100K per hour, The guide rail 614 is positioned at the lower end of the guide rail 618 located at the lower end of the inner block tank 596 located at the outer end of the inner block tank 596, (599) located at the lower end of the outer block tank (599), which is located at the connection structure, to connect natural gas and crude oil to the natural gas and crude oil transportation pipeline 916) is installed in the main body 1 of the nuclear power plant and is connected to the semi-submerged operation line 637 in the tug line 636 and the submergence operation line 634 in the submerged ship maintenance line. A fixed lifting device with a distribution shaft for exposing the upper surface of the sea surface on the substrate of the nuclear power plant main body 1 which connects the land and the book side by completing the installation process to the position where the installation of the pipe bridge tunnel device is possible (593, 594, 595), the connection structure provided with the construction machine equipments of the dispensing apparatus is connected to the inside of the main body (1) of the nuclear power plant A double structure block tank pipe bridge located at a position where the submarine line wiring is connected to the submarine line injection nozzle of the submarine line injection nozzle connecting structure, and a connection structure of the bridge shaft 937 and the distribution shaft, And the main body is constituted by a connecting structure. The nuclear reactor of the global nuclear power plant is operated in accordance with the nuclear reactor substitution operation. The nuclear reactor for the nuclear reactor waste disposal system is controlled by the nuclear radiation leakage control system. Device The method of claim 6,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
The distributing and inputting apparatus located at the top of the holding tank of the main body 1 of the nuclear power plant of the marine power plant (593, 594, 595) nuclear power plant and the connecting structure for each connecting barge hull (591,
(593,594,595) Nuclear power plant main body (1) Submarine line injection nozzle of submarine power plant Submarine line of nozzle connection port Connected to submarine line wiring connection to submerged nozzle Structure of flood prevention marine power plant located in structure (593,594,595) Nuclear power plant main body (1) Stacking tank upper end barge hull (591) provided as connecting structure Central block Location The bottom block tank (590) and bottom tank bottom barge hull (592) A plurality of column block tanks 590 positioned as a connection structure at a position around the central portion of the barge ship hulls 591 and 592 are connected to the support block tanks 590 ) Connect the top and bottom of the barge to the distribution shaft position Barge hull located at the connection structure (591,592) Adjust the position of the distribution shaft to each connection position (607) body is provided with a plurality of processing holes (615) and a block tank block unit for hull disassembling and regulating the position of the lug hole (616a) for the position control actuator. The screw thread 603a of the shaft 606 for the block tank and the bolt 603 for the ratchet shaft provided in the connecting structure are provided with a nut screw thread 603b of the screw shaft engaging and disengaging nut 603, The block tank-engaging portable lug pins 608 to the hull decomposition-engaging portable lug 607 are connected to the hydraulic cylinder machine 619 for decomposition coupling of the lifting dock 593, 594, 595 nuclear power plant main body 1 of the submergence- (593,594,595) of a marine power plant to prevent sinking into a connecting structure, while at the same time having a main body (1) of a nuclear power plant and preventing the sinking of marine power plants (593,594,595) Double structure block tank bridge pipe (937) located at a position where the submarine line wiring is connected to the submarine line injection nozzle of the submarine line injection nozzle connection pipe to the inside of the nuclear power plant main body (1) (593,594,595) of a submerged offshore power plant (1), which is a connection structure to protect the main body (1) of nuclear power plant. Of nuclear reactor leakage control of nuclear reactor facility of dual structure block tank reactor;
The distribution input device of the block tank coupling lug 607 as the connection structure of the main body 1 of the floating power plant of the marine power plant 593, 594,
Floating tank (593,594,595) of marine power plant (593,594,595) Horizontal and vertical type connecting structure at the upper part of the holding tank upper barge hull (591) and holding tank lower barge hull (592) Hole hole 616a is provided in a horizontal pin shaft machining hole 615 having a plurality of machining holes 615 and a slot hole 616a and a pin shaft machining hole 615 perpendicular to the pin block shaft hole 615, 590) and a plurality of shafts 606 bonded to a plurality of processing holes 615 provided at respective portions in the vertical form of the upper barge hull 591 and the lower barge hull 592, 615 are removed and the double structure support block tank 590 is fixed to the sinking prevention stay line 634 of the sinking ship by the shaft 606 provided with the connection structure of the single open shaft 606. [ Can be disassembled and combined by pre-distribution A vertical block block tank (590) provided with an assembly of sea structure as a distributing input device for the distribution system is connected to excavation equipment and mooring units at the lower part of the tank, and connected to each part of the lower part of the barge ship. The landing block tank 590 is connected to the vertical landing block tank 590 and the landing block tank 590 is connected to the landing block 634 of the stay line 634, (593,594,595) of a marine power plant to prevent submergence of a nuclear power plant. (1) Various types of reactor facilities in the main body of a nuclear power plant as a connection structure for protecting the nuclear power plant main body (1) Equipment Nuclear Radiation Leakage Control Dual Structure Block Tank Dispenser of Reactor Dust Collector Body Excavation equipment and dock for anti-sinking rescue line (634) Configuration be made to the dependent type dock (593 594 595), a nuclear power plant body (1) nuclear power plant reactor protection operation of the marine power plant having sink and;
(593,594,595) Nuclear power plant main body (1) Distributing device of nuclear reactor nuclear power plant The rotary table lathe machine 908 of the drilling machine,
(593,594,595) Hull deck top (SDU) drilling machine for drilling machines in the sea area (SLL) at the upper sea level (SLU) A wire rope 19 is connected to a boom and a boom hook ring 652 of a crane boom stand of a ceiling crane 651 located at the upper end of the drill machine room, The pipe rack 854 in the ready waiting state for connecting the crude drill rod bound to the connection structure is positioned at the bow site of several pipe racks 854 provided as a connection structure to the sea level lower end SLD position of the sea level SLL The joint drill 917 provided as a connection structure is provided with an excavation hole 936 at an excavator and at the same time an excavator 917 excavator and a anchor replacement crank 846 )) To the hydraulic cylinder unit (634) provided in the construction machine operation connection structure mounted on the upper barge line hull of each strut block tank provided as a connection structure to the submerged breakwater (624) and the submerged bed (616) (593,594,595) Nuclear power plant Main unit (1) Connected to the inside of the lifting dock with the submarine line wiring Structure of the upper deck (SDU) Connected to the center of the upper block Block tower located in the structure (15) The drilling machine located at the lower end of the ceiling crane (651), which is located at the connecting structure, is connected to the inside of the machine room. The rotary table lathe machine (908) 908) Circular table lathe with rotating body of the body Several hydraulic cylinders for drilling located at the center of the table. (623) are moved to the central position of the shelf to adjust the movement of the respective positions, and the connection structure is opened by the movement control device. A plurality of pipe racks (854) connected to a crude oil borehole (936) positioned as a connecting structure on the seabed, a crude oil borehole (936) having a connecting structure located at a connecting position, The drilling of the borehole with the drill hole 917 for the drilling of the borehole borehole 936 and the connection of the drill rod to the wire rope 65 of the breeze crane 651 Pipe Racks (854) Drilling Machines Rotary Table Lathes (908) Drilling Rig Machine Drilling Rig Rotating Table Drilling Machine Circular table lathe with hydraulic rotary cylinder machine (619) for solution adjustment Hydraulic cylinder for several drills located in the center position connected to the center position Rotary table lathe machine for crude drilling machine with key (623) A rotary table lathe machine 908 operation of a crude oil drilling machine having a crude borehole 936 with a transfer arrangement at the upper end of the oil borehole 936 is carried out while terminating the oil borehole 936 excavation, The boom of the crane boom of the tower crane 886 and the boom hook of the crane boom 886 of the tower crane 886, (652) Nuclear energy source in the deep sea by the vertical rotation operation To prevent the sinking of the deck to the top of the deck, lifting of the ocean power plant (593,594,595) Nuclear power generation Operation of Nuclear Power Plant as Connected Structure to Main Body (1) Producing Power Supply Distribution Power Supply Oil and natural gas crude oil and natural gas located at the same time while providing submarine line wiring. (593,594,595) Nuclear power plant main body (1) consists of the main body of nuclear power plant (1) operation of the nuclear power plant by secure seaworthiness in the ocean;
The distribution input device of the sinking prevention retention line (634) as a connection structure of the main body (1) of the floating power plant (593, 594, 595)
The hydraulic cylinder machine 39 is operated as a linking structure to the drill hole 936 and the drill hole 936 to insert the wrench crank 846 connected to the construction machine so as to push the wrench crank 846, The crank 846 provides a compression expansion within the excavation hole 936 to provide a fixed connection structure with several interlocking tool tip grinders 185 that are pointed at the bottom to form a fixed connection structure, (593,594,595) of the offshore power station. The barge ship is located at the top of the top of the holding tank. It is mounted on the hull of the barge ship. (846) Prevention of sinking by mooring system It is a connection structure to protect the lifting tanks (593,594,595) of marine power plants. Global nuclear power plant several types of nuclear reactor plant operations replace nuclear waste disposal shield nuclear radiation leakage control device for nuclear reactor facilities of the dual structure block distribution tank of the reactor main body of the dust collector chute, comprising a step of including the configuration be made to material The method of claim 7,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a submerged marine power plant provided for the connection shaft which is capable of disassembling the shaft. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant body,
(593, 594, 595) of the submerged offshore power plant is connected to the main structure of the main body of the nuclear power plant, the counter-
(593,594,595) Nuclear power plant main body (1) Connected to the inside of the submarine line spraying nozzle connection line Submarine line to the injection nozzle Connect the submarine line wiring to the nozzle connection Large-sized flange (SP) of the Earth (SP) and the North Pole (NP) of the Earth Equipments (EL) equipped with the connection structure of the distribution distribution input device (614) and the floating structure of the marine power plant (593,594,595) The block tanks 598 in units of 500m are distributed in the form of a double structure block tank barge by a connecting structure provided for constructing the double structure block tank 598 and the landing block tank 590 as a link structure (593, 594, 595) of the submergence prevention marine power plant, and the distribution for countermeasures connecting the whole of the main body The injector is constructed as a connection structure sequentially on one side of the pipe bridge 928 of the pipe bridge 929 at an interval of 500 m and at the same time a deep sea submersible 188 is provided so that the marine water depth of the installation point of the pipe bridge 928, At the same time that the flow velocity is precisely measured and at the same time the installation point of the pipe bridge pillar (928) is provided with the installation of the pier flag rubber balloon (628) The docking position adjusting moving device of the hull and the docking weight 949 for controlling the diving buoyancy are suspended so as to clarify the installation position of the pipe pier 928, 928 to the tugboat 636 and transfer the same to the sink retention lines 634 that are the same as the lifting tanks 593, 594, 595 of the marine power plant to connect the injection nozzle to the inside of the main body 1 of the nuclear power plant 1 (614) located at the connection structure with the submarine track wiring (946) connected to the injection nozzle of the distribution plant (614). Protection of the connection structure and lifting tanks of the marine power plant (593,594,595) with mooring structure (593,594,595) of a marine power plant to be constructed to constitute the main body of a nuclear power plant;
(593, 594, 595) of the marine power plant is connected to the main body of the nuclear power plant,
After the sink prevention rescue line 634 is transported, if the depth of the installation point is 300 meters, the pile column is increased by 50 meters more than the water depth, and then attached to the small crane boom stand (942) of the tower crane for the position- The post file 898 is vertically erected and the rock drill 847 and drilling machine 876 are attached to the excavator 845 for the deep sea excavation equipment of the construction drill of the construction machine and the anti- The hydraulic hammer 884 and the hydraulic crane 885 and the tower crane 886 are connected to a separate construction machine 880 file driver 882 and diesel file hammer 883, 887 and a truck crane 888 and a tamping roller 891 on the tandem roller 890 and a tractor 893 and a trailer 894 on the tire roller 892, Each of the construction machines is provided with a cooling water cooler 897 and a helmet 899 on the ram 895 and the lid 896, The fuel pump 900 and the cam 901 and the fuel tank 902 are provided and at the same time the front end of the boom 904 of the starter 903 A bridge 905 and an adapter 906 are provided and the level balance of the pipe bridge 929 is checked and then ten pairs of double structure block tanks are provided at the positions of the pier installation portions of the respective points, It is equipped with a connecting structure to provide a mooring at a pier (928) exposed to sea level at the top of the sea surface, and at the same time, an actuator (848) is operated in a construction machine cab, (593,594,595) of the offshore power plant to protect the docking station (593,594,595) of the power plant to protect the mooring unit;
(593, 594, 595) of the marine power plant is connected to the main body of the nuclear power plant,
Since the weight of the pipe bridge 929 connected to the inside of the pipe pier 928 at intervals of 500m reaches tens of thousands of tons, the propulsion block tank 590 is divided into 500m3 units of double structure block tank The pipe bridge that is equipped with the bulk connection structure is a connecting structure provided on the crane boom stand (942) of the tow crane replacement tower crane, and the anchor trolley (640) and the anchor chain (640) 958 and is provided with a connecting structure for releasing the anchor 639 and the wire rope chain 915 to the air tongue winch 958 and at the same time to the inside of the main body 1 as a connection structure to the injection nozzle of the injection nozzle connecting port Connection of submarine line wiring to a connection structure. Measures to be connected to a structure. Connection structure and connection structure of equipments provided to protect lifting tanks (593,594,595) of submerged marine power stations with mooring devices. Configuration be made, and the plant body;
The distribution input device for connecting the entire block tank bridge to the connection structure of the nuclear power plant main body comprises:
The wire rope chain (640) is unwound by the air tongue winch (958) with the air tongue winch (958) as a connection structure inside the main body (1) 959) to assist in the operation of the tugboat (636), while the double structure block tank (598) on one side of the pipe bridge was provided with connection structure for the connection work on the sea level in units of 500m. The block tank connection operation is temporarily suspended at one location, and the temporary passage of the sailing vessel is opened to provide a connection structure. The whole block tank pipe bridge connection structure is connected to the block tank 598 at the connection position. The block tank connecting portion is disposed at a position spaced apart from the block tank by an even number of connecting portions 4 and an odd number of connecting portions 5, (593,594,595) of a nuclear power plant to protect the marine power plant's lifting tanks (593,594,595) by means of an overall block tank bridge bridged connection structure mooring to the interior of the nuclear power plant;
(593, 594, 595) of the above marine power plant, the distribution pipe of the main body (1) of the nuclear power plant,
The crank pin 21 of the hinge 27 of the pawl rug 21 in contact with the pawl rug 21 provided in the detachable detachment hinge 27 to the outside position of the outer block tank 599, (27a) is provided with a shaft (27b) of a long axis and a block tank provided with a hinging for hinging is provided with a connection structure at the position of the block tank connection portion at a predetermined distance position, And the block tanks are connected to each other by the up-and-down rotation operation, and the block tanks are disassembled and coupled to each other by the interlocking device 185 and the guide block 22, At the same time, the block tank unit block unit hull disassembly lug hinge socket (613) block tank connection position floatation of marine power plant with individual connection (593,594,595) (937) connected to a position where the submarine line wiring (946) is connected to the connecting structure, and the lifting unit (593,594,595) of the marine power plant is provided with a mooring connection structure (593,594,595) of the offshore power station (593,594,595) Combined decomposition of the main body (1) of the nuclear power plant with the position of the block tank connection unit While the block tank (185) (593,594,595) of the nuclear power station of the nuclear power plant (1), and the nuclear power plant of the nuclear power plant (1). Nuclear Radiation Leakage Control for Nuclear Reactor Facilities Dual Structure Block Tank Distribution Apparatus for Reactor Main Body The method of claim 8,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the manufacture of a connection structure capable of splitting the shaft, the distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant body,
As a connection structure of the nuclear power plant main body 1, various kinds of generators for distributing and supplying power for the floating power generation of marine power plants (593, 594, 595)
(593,594,595) Nuclear power plant main body (1) Connected to structure Injection nozzle connection port Submarine railway ship (946) Connected to a position with a connection structure Pipe bridge located at a structure (929) Combined distribution input (593, 594, 595) Moving control arranging mooring control unit as a connecting structure Adjustable deck deck as a connecting structure of distributing and inputting apparatus Decks Decks of double structure block tank as connection structure inside each of the offshore power plants Nuclear explosion-proof double-structure block tank Inside the nuclear power plant 672 and the offshore wind turbine 592, 594, and 595 of the marine power plant of various kinds of power generation facilities of the reactor facility provided in the building of the nuclear reactor main body (794) A power plant 957 is provided with an eco-friendly wind power generator windmill 957a and an internal nuclear radiation leakage control dual structure block 957a for deck deck inside the small- The connection structure of the nuclear reactor (774) of the tank reactor main body (794) is provided with a fixed connection structure by a large hydroelectric generator and a connection is provided to each line distribution shaft to transmit power to each distribution shaft in the main body (946) to the submarine line injection nozzle to the inside of the main body (1) of the nuclear power plant with the power transmission part connected to the submarine line wiring structure (946) (593,594,595) Nuclear power plant main body (1) of the power plant, marine power plant, and the main unit (1) of the nuclear power plant. ;
A large hydroelectric power generator 230 connected to the main body 1 of the nuclear power plant of the marine power plant 593, 594, 595. The various types of power distributing /
The large hydraulic power generator body of the maritime hydropower generation plant 943 is connected to the head tank for the pressure tank located at the upper end of the barge line in the lifting tanks 593, 594, 595 of the marine power plants of various types of power generation apparatuses of the nuclear power plant main body 1, An inlet pipe 191 serving as a hydraulic pipe having a shape of a reed 35 is connected to a head tank 189 at the inlet of the inlet pipe 191 in front of the head tank 189, A pump aberration 943a of the turbine 267 and a Pelton aberration 943b of the turbine 267 are connected to a lower portion of each large hydroelectric generator body in which a plurality of introduction pipes 191 are located inside the hydroelectric power plant at an upper portion and a discharge port at the rear of the head tank 189, ) Of the Francis aberration 943c and a discharge port 270 at the rear of the Francis turbine 943c to generate hydropower generation power. At the same time, the kinetic energy of the water is converted into mechanical energy Dusa (35 ) Of a tower crane that performs a vertical rotation operation to a small hydroelectric generator main body 944 having an iso central shaft frame 673 at the time of mechanical energy conversion, A large hydropower generator distribution and charging device is provided inside the nuclear power plant main body 1 by means of devices for generating electric energy by providing a crane boom stand 942 so as to further operate the nuclear power plant;
The large hydrostatic generator main body 944 has a slave 944a and a slave 944a for the hydrostatic generator for the hydrostatic generator located at the top of the center of the shaft rotational shaft 944q, 944a for supplying a current to an electric motor coil of an alternator, a duster ring pipe 944c for pushing the ring pipe feathers into an exciter 944b for a dc generator, The stator core 944h of the stator frame 944g and the low-wavering cooler 944i of the low-speed cooler are connected to the drudguide ring 944e and the stator coil 944f, Guide rods 182 are positioned at the center upper end position of the rotary shaft 944q at the braking ring 944j and the jack 944k of the bracket and at the same time the connection structure with the rotary shaft 944q A casing 944c and a guide vane 944c are attached to a turbine 267 and a bearing 944c, And the runner 944 is used to convert the kinetic energy of the water into mechanical energy by using the flow rate of the current to the inside of the hydroelectric power generation chamber by the mechanical energy conversion of the introduction pipe 191, Of the tower crane that performs a vertical rotation operation to the large hydrostatic generator silencer body 944 having a multi-stage inlet-type manometric turn configuration of the iso-center shaft frame 673, (593, 594, 595) of a marine power plant having a power plant connection structure for generating power by further providing devices for generating electrical energy, and a distribution input device is provided inside the main body (1) of the nuclear power plant To make the operation more efficient;
(593, 594, 595) of the above marine power plant. As a connection structure of the main body (1) of the nuclear power plant, various kinds of distributing /
(1) Internal structure of nuclear power plant Deck deck of marine nuclear power plant Double structure block tank for internal use Generate 1,000,000 w / h of production power at 10km power generation capacity when reactor main body (794) is in operation And is provided with a wind turbine 957a for eco-friendly wind power generator in the main body 944 of each large hydroelectric generator in the marine power plant, and the production power is supplied to the power transformers 96 of the large capacity substation (595, 595) to a plurality of offshore power plants, and a power plant (593, 594, 595) to a plurality of offshore power plants to provide a predetermined amount of generated power to the connection structure of the transmission line A predetermined amount of generated power is supplied to the process of connecting the large flange 28 of the pipe bridge disposed at the lower end position of the main body 1, Water, and at the same time, performs a bolting work on the hammer machine of the hand tool. While the power is supplied to the lever block (123), the chain block (648) and the turn block (593, 594, 595) of a marine power plant having a plurality of block tanks (850) are provided to connect the submarine line wiring (946) to the injection nozzle of the submarine line injection nozzle connecting port Pipe bridge located as a structure Coupling distribution input device Power generation equipment of various types of marine power plants Connected production power of generator to equipments that provide lifting and poisoning operation Distribution of production power as a structure Input of marine power plant as connection structure Dock (593,594,595) Generating unit of nuclear power plant (1) Constituting the supply of electricity to the generator;
The distributing and inputting device for supplying the power supply line for power generation equipment as a connecting structure of the main body (1) of the floating power plant (593, 594, 595)
The partition wall manhole 610 and the manhole cover 152 are provided with a hatch cover 153 attached to the vertical partition wall 605 and the horizontal partition 609 inside the dual structure block tank as a connection structure, The hydraulic cylinder door 624 is attached as a connection structure so that the double structure block tank 598 is connected to the lever block 123 by the distributing and loading device connection structure and the chain block 648 and the turn blocks 850 are provided (593, 594, 595) of each marine power plant, the height of the pipe bridge is increased to 1.5 times the width of the main body to provide a coupling with each block tank 1) Connected to the inside of the pipe structure Bridges Bridges Distributing input devices Power generators for various types of offshore power plants Lifting dock for offshore power plants that provide for the operation of the dredging operation of generators (593,594,595) Nuclear power plant main body (1) connect The power generation system of the present invention is characterized in that it is constituted to supply the production electric power to the distribution input device of the electric power supply line for the power generation device and to supply the production electric power of the power generation device to the connection structure having the distribution input, Nuclear reactors Nuclear reactors Nuclear reactors Leakage control Nuclear reactors Nuclear reactors Nuclear reactors The method of claim 9,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the manufacture of a connection structure capable of splitting the shaft, the distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant body,
(593, 594, 595) of the marine power plant as a connecting structure of the main body of the nuclear power plant, and a dis- tribution input device for the production facility device in the disaster prevention device and the lifting device,
(593,594,595) Nuclear power plant main body (1) Connecting structure to submarine line injection nozzle connecting port Subwoofer line (946) is connected to the holding tank at the upper part of the sea level upper part (SLU) The deck plate center upper end portion SDU at the upper end of the upper barge hull 591 is fitted into the machining hole 615 of the mold steel 839 to be fixed to the bolt 24 and the shoe 26 of the nut 25, The block unit block pylon 116 is connected to the block unit block pylon 116 by the respective connecting structures provided with the small crane boom stand 942 of the tower crane for replacing the dragon crane, The block tower block 116 is attached to the shackle 23 for the position adjusting and moving device and is simultaneously connected to the crane boom stand 942 of the tower crane The block unit block located at the top of the pylon (116) The emergency stairs 631 are provided as a traffic device and the emergency stairs 631 in the block stanchion table 116 are installed at the position of a mooring point of the lower steam line 589 of the mooring tower 644, The emergency stairs 631 are provided at positions of the cloth junk lane 651 and the elevator allybates 632 from the lower end lower central portion to the deck deck 4 of the strut tank upper barge hull 591 The unit of the boom of 500m unit is equipped with several iso crane boom stand (942) of the crane which is provided according to the depth of the sea floor, and the lifting system of the marine power plant (593,594,595) ) Pipe bridge located at a position with a connection structure of submarine line wiring (946) to the inside of the bridge unit. Rock tower (116) Emergency stairway (631) by stairs Lifting dock (593,594,595) of marine power plant with distribution input to traffic system Bridge (1) ;
The distributing and inputting device for the disaster control device provided on the block steel tower as a connecting structure of the main body of the nuclear power plant of the marine power plant (593, 594, 595)
(644) Upper end upper block steel tower (116) Connection structure for delivering disaster prevention water to the normal position Disaster prevention device is a high pressure multi-stage multi-stage emergency prevention pump (591) 8) Push the 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) into the machine room by hand, Pressure multi-stage disaster prevention pump 8 that stops the operation of the pump when the user pushes the off-time main switch button 66 of the button 66 to the double structure disaster prevention hose 9, The fire extinguishing water discharge nozzle 7 discharges the disaster prevention water 7 with the fire prevention disposal double pipe nozzle 10 and the fire extinguishing water pipe 10 for the transportation equipment and the fire hose 9 are connected to each other The fire-fighting pipe nozzle (10) and the water pipe connection pipe Connected to the wire rope (19) of the fire-fighting emergency nozzle (10) and the connecting device shackle (23) by means of a connection flange connecting the weatherproof instrumentation equipment (77) and the airship (78) 134) a connecting structure formed by connecting the wire rope (19) for protection and the fire-prevention hose (9) of a gas transportation means lighter than air to the bottom of the basket (42) The disaster prevention system and the production facilities are provided with a high performance submersible pump 36 and air compressors 80 connected to the upper side of the floating deck deck so as to connect the submarine line wiring 946) connected to the connection structure Tubular bridges located in the structure Coupling dispensing device Lifting and disinfecting device and production facility Connection structure provided to protect the devices Block unit block to the equipment Stack (116) The upper stage (631) is equipped with a line distributor to connect the main structure of a nuclear power plant (593,594,595) of a marine power plant with a connecting structure to protect the flood-control type disaster prevention device and the production equipment. Nuclear reactors of nuclear power plants of various types in the world Nuclear reactors Nuclear reactors Nuclear reactors Leakage control Nuclear waste treatment Shielding equipment Nuclear radiation leak control Dual structure block tank Distribution distributor The method of claim 10,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
(593, 594, 595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant, and a disaster injection pump control system and a control system (150)
(593,594,595) Nuclear power plant main body (1) Submarine line injection nozzle connecting port Submarine line (946) connected to the submerged venom deck deck located at the top structure. The multi-stage pump control panel with the high-pressure multi-stage pump (8) and the control box (2) having the connection structure are connected to the control system for electronic control facility operation 150 (5), which is a pump internal isolation valve, is connected to the suction merging pipe (3) and the earth joining pipe (4) for the electronic control device located inside the control box (2) A multistage multi-stage disaster prevention pump (8) is connected to a fire hose (9) and a fire disaster prevention pipe nozzle (10) to a nipple (110) for connecting an air hose to a check valve (6) The fixing frame 11 for fixing the position The power source power source 46 is connected to the detection sensor 12 for the electronic control device for detecting the fire and the breaker 61 for the overcurrent breaker and the power source unit 62 which are located in the connection structure and connected to the inside of the control box 2 An inverter 47 for the electronic control unit and an inverter switch 48 are connected to the control point 53 and the monitor 52 of the internal control server 51 in the Internet network 50 A connection structure including a short-range wireless communication antenna 54 and a rechargeable battery (37) having a connection structure with the wireless communication control module 55 of the short-range wireless communication device is provided to the mobile 81 and the portable terminal 82 A display screen 63 is provided on the display 56 and an electronic control unit ENAID 57 and an electronic control unit ENA 59 of the switch input circuit 58 and a DAIICHI 60 are connected to the display screen 63 ) And the digital input (65) of the electronic circuit (68) for the display input and a recognition nameplate for the pressure setting value, which is the set pressure value of the current pressure value, on the main switch button (66) and the auxiliary switch button (67) The power supply 46 is connected to the memory 70 and the power supply power line 71 to supply the power supply 46 to the electronic control unit of the firefighting and disaster prevention operation machine room, (593,594,595) Nuclear power plant (1) Connected to the interior of the nuclear power plant Connected to the submarine railway wiring (946) as a structure Tubular bridges located as a structure Coupled distribution input device Connected to protect flood- (593,594,595) of the marine power plant of the connecting structure equipped with the electronic control unit of the fire control disaster prevention machine room in the structure equipment and the line dispensing input unit of the nuclear power plant body (1) Configuration be made up the original operation by the material and apparatus;
(593, 594, 595) of the marine power plant as a connection structure of the main body of the nuclear power plant,
(593,594,595) of marine power plant (593,594,595) Piping (89) equipped with electronic control unit of fire fighting and disinfection machine room and connection and disconnection input unit to the inside of main body (1) of nuclear power plant is connected to safety valve (258) The bolts 24 and the nut 24 are connected to the low pressure shut-off valve 83 and the emergency valve 84 through the safety valves 258 of the pressure reducing valve 85 to the gap 15 of the pipe connecting flange 28 of the pipe 89, (26) and a rubber packing (32) of a gasket for connection of piping connection are connected to each other by means of the valves, and at the same time, a first pressure check sensor (86) The piping connection detour piping line 89 of the electronic control unit 88 and the collecting tank 34 is connected to the radiator 35 and the tee elbow 44 of the piping connection elbow The disaster prevention water 7 of the fire fighting / disaster control product is stored in the inside of the pipeline 89 with the connecting structure having the structure of the multi-stage disaster prevention pump 8, (66) for disposing the main switch and an auxiliary switch button (67) for disaster prevention pump for disposing disaster prevention water to the inside of the main body (1) to the position having the submarine line wiring (946) Pipe bridge located at the structure, joint distribution and dispensing device, lifting and disinfecting device, and connection equipment to protect the production facility equipment Fire control and disaster prevention equipment Electronic control device of the machine room and line distribution input device, (593,594,595) The main body of nuclear power plant (1) consists of disaster prevention equipment and production facility equipment;
(593, 594, 595) of the marine power plant, the operation distribution dispenser of the fire fighting and disaster control equipment is a connecting structure of the nuclear power plant main body (1)
(8) Connecting structure with connection structure to the fore part of the fire protection disaster prevention machine room, connect piping connection bypass line of the collection tank (34) to the red pipe (35) The disaster prevention water 7 of the fire fighting and disaster prevention control article is stored in the pipeline 89 with the connecting structure having the connection structure to the beam 44 and the disaster prevention water of the fire prevention disaster prevention control article of the multi stage disaster prevention pump 8 (66) of the main switch button (66) for the start switch button of the high pressure multistage emergency protection pump (7) and the high pressure multistage multistage emergency protection pump (8) Stage multi-stage disaster prevention pump 8 that stops the operation of the pump by pushing the switch 66 of the main switch 66 and the main switch 66 of the main switch 66, Nozzle Hose Connection Structure The equipment stand (33) is equipped with a high-performance submersible pump (36) (13) of the helicopter (647) located at the body and a connection structure having a coupling structure with a hook structure (13) of the fire hose (9) The disaster prevention water 7 having the internal water pressure is supplied to the on-time main switch 66 of the start switch button 66 of the start switch of the high-pressure multi-stage emergency protection pump 8 after the operation of the multi- When the switch button 66 is depressed by hand, the pump operation is progressed, and at the same time, the connection structure provided on the body of the multi-stage disaster prevention pump 8 is connected to the suction merging pipe 3 for electronic control and the joining pipe 4 The disaster prevention water 7 having the water pressure is released from the solenoid valve 76 to the high pressure shut-off valve 5 as the isolation valve and the pump backward flow prevention check valve 6, So as to be connected to the inside of the main body 1, Pipe bridge located at a position equipped with line wiring 946 Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser Dispenser (593,594,595) Nuclear power plant main body (1) consisting of disaster prevention equipment and production facility equipment of marine power plant as connecting structure;
(593, 594, 595) of the marine power plant The operation of the fire-fighting and disaster control equipment of the nuclear power plant main body (1)
The disaster prevention water 7 having the water pressure is moved through the piping to the position of the fire fighting disposal pipe nozzle 10 so that a plurality of processing clearances 15 for the position adjusting and moving device located at the body position of the fire fighting disposal pipe nozzle 10 And the disaster prevention water 7 having the water pressure outside the position of the processing hole 20 are discharged while the ejection number 38 of the fire and disaster prevention control article is discharged to the disaster prevention film The number of the water discharge curtains 39 (39) at the positions of the plurality of processing holes (20) and the number of the radial discharging nozzles (38) at the positions of the gaps (15) ), And a cooling action method for reducing the combustion to a temperature of the ignition point and a sucking action for preventing the combustion by blocking the supply of air by surrounding the combustible with the incombustible gas are injected into the main body (1) The structural submarine line wiring 946, (593,594,595) Nuclear power plant main body (593,594,595) equipped with electronic control unit of fire fighting and dismantling machine room equipped with equipment to protect flood disinfection device and production facility equipment 1) comprises a disaster prevention device and a production facility device;
(593, 594, 595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant,
In order to evolve in less than one second, the number of ejection nozzles (38) of the fire-fighting emergency control article immediately before the arrival of fire departments (40) The disaster prevention water 7 as a connection structure is arranged at a position of a plurality of the processing holes 20 and at a position of the gap between the straight circular discharge sprays 38 and the plurality of processing holes 20, 38) The water curtain (39) is sprayed in the form of falling spray, which surrounds the flue gas with incombustible gas to block the supply of air to prevent combustion and to cool down the combustible to the ignition point temperature. Fire-fighting hose Non-flammable gas (164) with internal pressure located inside the body as a connection structure. Disaster prevention water located in connection with storage air hose (109) and fire hose body is mixed with cooling water (287) The same number of toothpaste The portable wireless communication terminal 82 of the high pressure multi-stage disaster prevention pump control system 150 inside the safety control room and the main switch bar for controlling the operation of the disaster prevention pump Turning 66 and the disaster prevention water spraying arrangement, the power supply control box is distributed to the safety control room and the disaster prevention pump operating machine room on the upper side of the emergency switch auxiliary switch button 67, The ring 29 is provided with a coupling structure for coupling the female threaded body 31 to the coupling body 30 and a double structure fire hose to the fire fighting chamber 40 and the helicopter 647, (593,594,595) of the marine power plant by providing a connection structure with the fire control electronic control device to the top of the floating deck plate deck with the disaster prevention water (593,594,595) Inside the nuclear power plant main body (1) A nozzle bridge 945 and a pipe bridge coupling distribution input device located in a connection structure with the submarine line wiring 946 as a connection structure to provide a connection for protecting the production equipment devices by the floating fire suppression electronic control device Block unit block to structural equipment Block tower (116) Emergency stairway (631) by stairs Stacking device of traffic device with connecting device to construct marine power plant lifting dock (593,594,595) Nuclear power plant main body (1) with disaster prevention device And a plurality of nuclear reactors installed in the nuclear reactor, and a plurality of nuclear reactors installed in the nuclear reactor. The method of claim 11,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side 705 of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided for manufacturing the connection structure capable of disassembling the shaft,
(593, 594, 595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant,
(593,594,595) connected to the interior of the main body (1) of the marine power plant. The lifting deck deck located at the upper sea level (SLU) of the sea level surface (SLL) The block tower (116), which is located at the top center of the bridge, is connected to the left side of the top center of the deck deck. The safety control room and the nuclear power station, which are located in the connecting structure, It is equipped with satellite and space rocket for the nuclear waste disposal device at the position of the satellite launching platform and the space rocket launching platform, and at the same time, the damage of the volcanic ash generation before and after the spontaneous typhoon, earthquake, tsunami, To prevent the flood drought control, the equipment management room of the weather forecasting observation station (958) for the weather forecasting observation is provided and the block pylon (116 ) The deck plate is provided with a helicopter stop (619) which is connected to the vicinity of the center of the upper end of the deck plate. The satellite 962, the satellite launch pad 643, and the space rocket 961 A rocket launching platform 646 is provided and a satellite launching platform 643 and a space rocket launching platform 646 are provided in the vicinity of the artificial launching platform 643 and the space rocket 961 launching platform 646, (1) to the inside of the main body (1) to the position where the submarine line wiring (946) is provided. The natural loess located at the upper part of the floating deck deck located at the connection structure is connected to the harmful tidal microorganism ) To prevent large breeding, the connecting structure provided at the top of the deck deck is to control the fire control. The natural loess of the loess soil (158), which is the same level as the toothpaste mixed with the cooling water, The natural loess soil 158 is introduced into the basin 951 inside the basin basket 951 for the harmful redeye suction dust collector by the bottom of the harmful tidal microorganism 921 which is generated at the seabed, (158) to the underside of the deck bottom deck at the bottom of the buoyant deck deck. Positioning of the harmful tidal microorganism (921) to the breeding position is carried out at the bottom of the buoyant deck deck. The wire rope 19 and the wire rope chain 915 are connected to the driving wheel rollers 135 for the position adjusting and moving device on the small crane boom stand 942 of the tower crane for the main tower crane, In order to protect the marine environment by injecting oxygen and air into the sea by the air hose 109 with the air hose 109 equipped with the air conditioner 80 and the connection structure while simultaneously performing the position adjustment movement Fire fighting control goods ship (593,594,595) of the marine power plant is connected to the inside of the main body (1) of the nuclear power plant, and the marine environment protection facility device is located at a position having the submarine line wiring (946) In order to protect marine environmental facilities, a distribution input and connection structure is to be made up of the main body of the nuclear power plant (593,594,595) of the marine power plant (1);
(593,594,595) of the marine power plant The crude oil and natural gas crude oil drilling equipment crude oil drilling ship 934 distribution input device of the nuclear power plant main body (1)
Lifting dock (593,594,595) of a marine power plant Lifting dock with a submarine line wiring (946) connected to the inside of a nuclear power plant main body (1) Connected to the upper center part of deck upper part (SDU) Is a drilling machine located at the lower end of a ceiling crane (651) located at the upper end of the lower end of the block pylon (116) and positioned as a connecting structure. A plurality of tool keys 623 are connected to the center of the lathe by a plurality of hydraulic cylinders 623 for drilling, which are positioned at the center of the circular table lathe with the rotary body of the lathe machine 908, The connection structure that is pushed to the central position of the shelf to adjust the movement of the position, A plurality of pipe racks 854 connected to the bottom of the borehole 936 located at the bottom of the ship as the connection structure of the rack 854 is continued. A crude oil drilling hole 936 is provided with a crude oil bore hole 936 for excavation and a crude oil drilling hole 936 is provided with an oil drilling hole 936 for excavation, The connection pipe rack (854) is connected to the center position of the circular table lathe with the hydraulic rotary cylinder (619) for rotary drum drilling machine rotary table turning machine (908) The hydraulic borehole distribution input device is equipped with a transfer arrangement to the top of the rotary table lathe machine 908 of the drilling machine with several hydraulic cylinder keys 623 located in the structure At the same time, the crude oil and natural gas discharged from the location of the oil borehole 936 are connected with the connection structure located at both sides of the city cranes boom stand 942 of the tower crane for replacing the warhead, while finishing the excavation of the crude oil bore hole 936 The above-mentioned crane boom stand (942) of the tower crane replacing the above-mentioned crane was operated by the vertical rotation, and the deep-sea energy resource was provided to the top of the deck deck so that the lifting system of the marine power plant (593,594,595) (593,594,595) Nuclear power plant main body (1) as a connecting structure of crude oil and natural gas crude oil borehole distributing and inputting device located as a connection structure to a location having a connection structure with a submarine line (964) ;
(593,594,595) of the marine power plant as a connection structure of the main body (1) of the nuclear power plant, the deep-sea energy resource and the distribution input device for collecting minerals,
(593,594,595) of a marine power plant is located in a location with a submarine line wiring (946) connected to the inside of the main body (1) of the nuclear power plant. In the deep seabed mineral resource collection site, a yang basket (909) 842), a pipeline line automatic pneumatic conveying device 916 for a position-and-control mobile device, a mining robot 912 of a suction-taking machine for submarine mineral resource collection to a suction-sampling machine 911 as a connection structure, (924) has a connecting structure that is located at both sides of the sea-son crane boom stand (942) of the tower crane for the lower sea level (SLD), and the tower crane Boom Stand (942) Vertical rotation operation lifts all deep-sea energy resources to the top of deck deck so that the salvaged resources can be lifted by the marine power plant (593,594,595) Transport equipment supplying water to the industrial site on the water Linking structure 500m unit Double structural block Connected to tank position Lifting dock of marine power plant with connecting structure located as structure (593,594,595) Nuclear power plant main body (1) Connected inside The structure of the transport equipment with the submarine track wiring (946) as a structure. The equipment of the marine power generation facilities on each side of the floating deck deck top and one side of the buoy deck deck below the deck (593,594,595) Nuclear power plant main body (1) composed of equipment of marine power generation facilities as connection structure of deep sea mineral collection energy resource distribution input device with connection structure located on the big side Nuclear reactors of nuclear reactors Nuclear power plants Nuclear reactors Nuclear reactors Nuclear reactors Cost nuclear radiation leakage control double tank structure block distribution chute of the reactor main body dust collector The method of claim 12,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side 705 of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided for manufacturing the connection structure capable of disassembling the shaft,
(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for the hull safety equipment, as a connection structure of the main body 1 of the nuclear power plant,
(593,594,595) of nuclear power plant (593,594,595) Nuclear power plant main body (1) As a connecting structure, marine power generation facility Connected to the upper tank barge hull (591) and the holding tank lower barge hull (593) The hull safety equipment for distribution and input into the connection structure to the position provided with the submarine line wiring 946 has a structure in which the high strength bolt 603 and the high strength nut 604 are fastened to the large flange 614 through the processing hole 615, A large flange 615 located at the stern of the outer block tank 599 at the forefront portion of the outer block tank 599 as a connection structure provided with a plurality of column block tank tanks 590 to provide a tank connection A rubber packing (32) of a gasket for connection to a structure is connected to a large-sized flange (614) by connecting a high-strength bolt (603) and a high-strength nut (604) And a hydraulic structure of the hydraulic cylinder unit 619 for the position adjusting device of the dispensing and inputting device and the hydraulic cylinder machine 624 for the transportation device is connected to the auxiliary processing hole 615, The tank double pipe block tank 598 is constructed by disposing the tank pipe bridge 928 and the double structure block tank piping 937 quantity disassembly coupling disassembly into the distribution dispenser double structure block tank 598 connection structure, Connected to the connection structure The tee elbow (44) is welded to the large-diameter flange (614) at the same time while the welder is welded with the welder. The hydraulic rotary cylinder machine (619) (593,594,595) of a marine power plant provided with a hydraulic hammer lance connection structure in a hydraulic cylinder machine (624) for a traffic facility facility and a lifting dock of the center of a hull deck (SDM) Hull (SDU) and floating lifting deckle lower deck (SDL) Upper deck top deck (SDU) Upper strut tank top barge hull (591) and strut tank lower barge hull (592) ) Maritime power generation facilities with connection structure Replacement towers for each tower Cranes for crane boats (942) Connected structures Mooring system and power generation equipment Connection structure for marine power plants (593,594,595) Nuclear power plant main body 1);
(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for the hull safety equipment, as a connection structure of the main body 1 of the nuclear power plant,
(593,594,595) Nuclear power plant main body (1) Connected to the inner structure of the marine power plant Upper tier of the upper deck (SDU) of the floating deck center of the hull deck (SDM) Upper tie barge hull (591) The double structure block tank 598, which is located at a position where the submarine line wiring 946 is connected to the holding tank lower barge hull 592 of the lower deck portion SDL as a connecting structure, is connected to the outer position of the outer block tank 599 It is provided as a connection structure of power generation facility which distributes marine power generation power to the location of submarine mineral resource exploration equipment (843) for exploration of a number of deepwater exploration submarines. It is also possible to equip the barge lines for installing harmful tidal control and disaster prevention device with the device connection structure protection and also to be able to repair the main body by the connecting structure of the tie- The external block tank 599 of the plurality of column block tanks 590 located outside the connection structure is provided with a lamp facility at an outer wall at a predetermined interval and is provided with a large flange 614 connecting connection joint portion processing hole 615 and a long hole (603a) of the bolt (603a) of the bolt (603) of the block tank hull disassembly-combined portable shovel shaft bolt (603) and the ratchet shaft disassembly coupling nut 604 and the stillbirth 604b are coupled to each other by a hammer lancet hydraulic rotary cylinder machine 619. When the pin is coupled to the pin machining hole 615 and the pin is moved away from the pin side by a male tool, (593,594,595), which is resistant to any swell wave, by preventing the detachment of the nut bound to the screw thread (603a), so that it can be connected to the inside of the main body (1) of the nuclear power plant of the marine power plant line (SDU) of the deck center (SDM) Upper deck (SDU) of the deck and deck of the deck (SDL) Upper deck (SDU) Upper deck of the deck (SDU) Upper barge hull (591) of the upturned tank Lower barge hull (946). Each crane boom is connected to the mooring system by connecting the mooring system to the power generation facility. (593,594,595) The main body of the nuclear power plant (1) is connected to the marine power plant as a connection structure. ;
(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for the hull safety equipment, as a connection structure of the main body 1 of the nuclear power plant,
(593,594,595) Nuclear power plant main body (1) Connected to the inner structure of the marine power plant (SDU) Upper deck (SDU) of the hull deck center (SDM) Upper deck (SDU) of the deck of the deck Upper deck top (SDU) A connecting structure located at the top of the holding tank top barge hull (591) and the holding tank bottom barge hull (592) with a subsea line wire (946) connected to the structure. Top and bottom barge hull angles The block tank-combined portable lug 607 includes a block tank combined portable lug 607 provided as a horizontal and vertical type coupling structure at each portion of the strut tank upper barge hull 591 and the strut tank lower barge hull 592 Holes 615 are provided in a horizontal pin shaft processing hole 615 and a pin shaft processing hole 615 having a plurality of processing holes 615 and an elongated hole 616 in the body, Tank (905) Opened A plurality of shafts 606 bound to a plurality of processing holes 615 provided as connection structures at respective portions in the vertical form of the upper and lower barge hulls 591 and 592, The shaft 606 bound to the shaft 606 is removed and the shaft 606 with the single shaft 606 is provided with the shaft 606 for balancing the level of both sides of the barge hull 592 of the fixed lifting- The diving position control movement device of the hull and the diving buoyancy control device (949) for the diving buoyancy control are mounted on one side of the horizontally-held landing block tanks equipped with the vertical type coupling structure The shaft block 606 provided with a single shaft 606 fastening of the provided block tank engaging portable lug 607 is horizontally supported by a vertical block coupling structure, (593,594,595) Lug hinge sockets (613, 594, 595) positioned in the form of concavo-convex structure at the position of the joining joint of the lower deck bottom end of the above-mentioned strut tank upper barge hull (592) of the nuclear power plant main body And the connecting block lug hinge sockets 613 of the fixed lifting type poison holding tank are provided at the upper end of the pipe bridge tunnel device and the holding block tanks 590 are selectively coupled to the concave- The roof hinge sockets (613) are provided on the upper surface of each deck plate to provide a concave / convex connection structure. The holding block tanks of the fixed upright tanks (593, 594, 595) located at the upper end of the pipe bridge tunnel device (593, 594, 595) as a connection structure, and at the same time, a sea level upper end portion (SLU) of the sea surface SLL, a pipe bridge of the body of the barge hull and the sea bottom surface (SLD) 593, and 595, which are coupled to the fixed tank lifting tank 929 and the floating lifting tanks 593, 594, and 595, and are divided into several block tank combined portable lugs 607 and block Tank Combined Portable Lug Pin Shaft (606) Several column block tanks (590) tied to the body's machining holes (615) and pin shafts (606) provide flotation and docking Hull safety equipment Providing protection by connecting structure, at the same time, repairing barge lines for harmful tidal control and disaster prevention device, and repairing the main body by connecting structure, providing barge lines for disaster prevention device, (593,594,595) Nuclear power plant main body (1) Connected to the inside of the building (SLU) with submarine track wiring (946) (SDU) Location Alternative towers Replacement towers Crane boats (942) Connected structures Mooring units and power generation units Distributing and inputting units Consisting of a body as a connection structure Nuclear reactors for nuclear reactors Nuclear reactors Leakage control Dual structure block tank Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Leakage control Nuclear reactors 14. The method of claim 13,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side 705 of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided for manufacturing the connection structure capable of disassembling the shaft,
(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for safe operation of the hull, as a connection structure of the main body 1 of the nuclear power plant,
(593,594,595) Nuclear power plant (1) Connected to the inside of a nuclear power plant (1) To the outside of the body at the bottom of the sea level (SLL) Connections to the marine biogeochemistry and barnacle The electrode plate anode 938 is installed at an outer position of the body of the pipe bridge tunnel apparatus main body 929 and the double structure block tank pipe bridge 928 at the lower end of the sea level SLL (907), which monitors the military equipment submarine, while providing docking detection, while simultaneously connecting the submarine cable (593,594,595) to the inside of the nuclear power plant main body (1) of the marine power plant 946). Upper part of the sea level (SLU) located at the connection structure of the main body. Upper deck (SDU) of the floating deck hull. Marine power generation facility. Crane Boom Stand (942) Connected structure to mooring system and power plant equipment Connected structure to ship safety distribution Displacement Hull safety system for operation and intercommunication communication satellite (962) Satellite weather forecast information collecting machine with connection structure (960) Connection structure (593,594,595) of nuclear power plants of marine power plants (1). The nuclear reactors of nuclear reactors of nuclear reactors of nuclear reactors, Leakage control dual structure block tank Dispensing device of reactor main body 15. The method of claim 14,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side 705 of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided for manufacturing the connection structure capable of disassembling the shaft,
(593, 594, 595) of the above-mentioned marine power plant. The distributing and inputting device for safe operation of the hull, as a connection structure of the main body 1 of the nuclear power plant,
(593,594,595) Nuclear power plant main unit (1) Connected to the inside of the control tower of the mooring tower (644) Connected to the top of the roof top block of the tower (116) Meteorological observation equipment located as a structure (840) The lightning rod 500 is provided as a hull distributing and feeding device for hull safety operation while the hull safety preservation is provided from the lightning strike and the lightening at the top of the block pylon 116 and the submarine line wiring 946 is connected to the inside of the main body 1 as a connection structure (SLU) Floating upper deck (SDU) Offshore power plant Sea towers for replacement towers Crane boom stands (942) Connecting structures Mooring and power generating facilities Distribution and input devices for hull safety operation Connections (593,594,595) nuclear power plant main body (1) of a marine power plant is constituted by a distribution input device for safe operation of the hull Chon nuclear several types of nuclear reactor plant operations replace nuclear waste disposal distribution of the nuclear reactor plant nuclear radiation leakage control block double structure reactor tank for the dust collector main body of the shield of a power plant input device 16. The method of claim 15,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side 705 of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided for manufacturing the connection structure capable of disassembling the shaft,
(593, 594, 595) of the marine power plant as a connection structure of the nuclear power plant main body (1), the distribution input device for operating the power-
(593,594,595) Nuclear power plant (1) Connected to the inside of a marine power plant (593,594,595) As a structure, it supplies the power produced by a marine power plant of floating type poison to the manufacturing factory of the main body, The plant is equipped with a transmission line and a connection structure to supply a certain amount of power generation power from a power transmission tower to produce a pipe of a small diameter and a pipe of a large diameter, and a raw material high strength stainless steel plate 597 ) And the supply of electric power to the steel beam (149) and the steel mill (839) manufacturing plant, the pipe bridge apparatus is provided with a standard production and the double structure of the pipe bridge apparatus main body (929) The block tank pipe pier (928) has a diameter of 5M and a diameter of 1m at depth of 5m. (637) A block tank is connected to the upper part of the deck deck. It is a connection structure that provides connection of large flange (28) (593,594,595) of the power plant; (1) the main body of the nuclear power plant;
(593,594,595) of the marine power plant (593,594,595) Double-structure tank as bridge structure inside nuclear power plant (1) Traffic apparatus equipments like bridge saddle mold (617) Block tank of distribution dispenser (621) Sink sinking line (634) Sinking line (634) Double deck tank bridge bridge saddle frame (617) Adjustable position to the upper deck deck (SLU) with submarine line wiring (946) connected to the disaster prevention nozzle (945) by underground line Upper deck (SLU) Floating deck hull Deck upper part (SDU) Marine power generation facility Alternate towers Replacement towers (942) Mooring device and power generation equipment connection structure as a connection structure Double structure block tank pipe bridge (928) as a structure Manufacture and installation of marine power plants, (593,594,595) of the power plant; (1) the main body of the nuclear power plant;
(593, 594, 595) of the marine power plant as a connection structure of the nuclear power plant main body (1), the distribution input device for operating the power-
(593,594,595) of the marine power station (1) to the inside of the nuclear power plant (1) to the above-mentioned bridge saddle formwork connection position. Various types of jig (22) It is also possible to connect the pointed crevice tool grinders 185 to the shredding link so as to provide several grinding wheels 185 in the several grinding jigs 22 and at the same time to provide the anchor replacement worm crank 846 And a piercing level foundation bottom base 851 are disassembled into several crankshaft crankshafts 846 provided on the side surfaces and the bottom surface of the saddle mold body, (593, 594, 595) nuclear power plant main body (1);
(593,594,595) of the marine power plant The upper part of the sea surface (SLU) with the submarine line wiring (964) connected to the inside of the main body of the nuclear power plant (1) Upper part of the deck (SDU) (942) connection structure to the mooring unit and the power generation facility unit. The double structure block tank pipe bridge (163) as a structure is manufactured and installed by the power supplied from the marine power plant of the floating type dock (593,594,595) of the marine power plant as the connection structure, and the nuclear power plant main body (1) of the nuclear power plant. Nuclear Radiation Leakage Control Dual Structure Block Tank Distribution Apparatus of Reactor Main Body 18. The method of claim 16,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side 705 of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided for manufacturing the connection structure capable of disassembling the shaft,
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593,594,595) of a marine power plant. An interlocking structure inside the nuclear power plant (1) is provided with anchorage crankshaft (846) for anchor replacement, Lifting deck deck Deck hull safety distribution to the upper position Hull safety equipment and construction machinery equipment for the crane Replacement towers Crane boom stand (942) Boom stand to distribute both sides to the boom frame (842) for reclaiming submarine mineral resources with connection to hooks (18) and a connection structure for submarine mineral resources within Pareto (844) to collect submarine mineral resources manganese nodules (909). (909) to the upper deck (SDU) of the floating deck hull and is supplied with the power produced by the marine power plant of the floating dock, Form dock (593,594,595) nuclear power plant unit (1) undersea mineral resources of manganese ingot stage (909) configured to be made to collect the floating dock, the hull deck style upper end (SDU) Lifting equipment Construction equipment into position and the;
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
Construction equipment equipments Cranes for crane replacement tower crane boom (942) Both sides of the connection structure are used for reclaiming seabed mineral resources (842) and Paret (844) at the bottom of sea level (SLL) ) Movement from the internal position of the submarine mineral resource collection area inside the lifting deck hull deck (SDL) to the upper deck area (SDU) of the lifting deck hull on the upper part of the sea surface (SLU) (903) of the submarine mineral resource mangement (909) to the upper part of the deck (SDU) of the lifting deck, while at the same time controlling the displacement of the oceanic power plant (593,594,595) (1) Inside the submarine mineral resource collection site, the submarine mineral resource collection is provided as a connection structure for distributing and inputting the suction collection machine (911) and the mineral extraction robot (912) of the mineral resource collection equipment (593,594,595) Nuclear power plant main body (593,594,595) of marine power plant, which is supplied with the power produced by the marine power plant of the floating type poison, while controlling the position shift to the upper part of the deck (SDU) (1) The connection structure of the suction collecting machine (911) and the mining robot (912) constitutes the submarine mineral resource collection by the distribution input device for operation of the submarine mineral collection construction machine;
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593,594,595) of the marine power plant. (593,594,595) Submarine mineral resource gathering site to the inside of the nuclear power plant main body (1) Connected to the upper end of the sea surface (SLU) with submarine line wiring (946) A marine power plant located as a structure The connection structure of the main body which receives power by each mooring device and the power generation equipment The supporting dock (593,594,595) is distributed to the sea floor by the diving control device, (593,594,595) of the construction equipment and the marine power plant (593,594,595) The connection structure of the connection structure of the main body of the nuclear power plant is provided to collect the seabed mineral resources, and at the same time, It is equipped with a connection structure to control the position shift to the upper deck (SDU) position, and supplies the power produced by the marine power plant of the floating dock. (593,594,595) of the offshore power plant (1) of the nuclear power plant;
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593,594,595) Nuclear power plant main body (1) Connected structure to a submerged location including a submarine mineral resource harvesting equipment to a suction collecting machine and a mining extraction robot The manganese monolith (909 ) To the upper part of the floating deck of the deck (SDU) Positioning to the structure Connection structure to control the movement Construction machinery Equipment Construction machinery Equipments of each tower A connecting structure for connecting the manganese block 909 to the piping line automatic pneumatic conveying unit 916 of the connecting structure of the connecting magnet magnet 645 and the suction collecting machine provided in the tower crane 886 equipped with the elevator A connection structure provided at the upper position of the lifting deck upper end SDU of the lifting tank upper barge 591 of the rebate 632 and the landing mineral resource recycling base 84 2) and the connecting structure Paret (844) is located at the upper part of the deck (SDU) of the lifting deck, and at the same time, (942), and at the same time, as a connection structure of the Conveyor (633), the upper part of the deck of the floating deck hull at the inner position of the seabed mineral resource collection site of the submarine mineral resource located inside the lower deck (SDL) SDU) to locate the submarine mineral resource location at the same time, and to search the submarine mineral collecting process as a connected structure. Connected structure to submarine mineral resource search equipment Structural searchlight 232 and submarine survey lens glass underwater lights 843 And a submarine line wiring 946 is provided as a connection structure, and at the same time, an illuminating device is provided in the main body 1 as a connection structure, The mining robot collects minerals from the submarine mineral resource collection site, and collects the collected minerals from the submarine mineral resource collection site by the collection equipment according to the water pressure of the deep sea floor and the flow rate of the deep sea. Wire rope chain (915) is connected to each lever block (123) to prevent all equipment from being lost, and is bound to a submarine excavating equipment location connecting structure by a submarine elevating elevator rebound (632) The position of the wire rope of the lever block 123 can be adjusted while the position of the wire rope connecting structure of the lever block 123 is adjusted. Unmanned camera (184) belonging to the submarine exploration equipment at the same time with the control of the position movement of the collection equipment In order to search for the state of the low mineral collection process, the undersea mineral resource search equipment is connected to the search beam 232 and the underwater light 843 for the undersea survey lens glass is connected to the connection structure. 184) the submarine mineral collecting process state scene transmission is carried out, and at the same time, the connection state of the container box latching device 129 of the container box 132 corresponding to the submarine mineral carrier is connected to the underside camera 184 (SLU) floodgate with state-of-the-art mining process status transmission Connected to the control room location of the hull safety facility located at the top of the deck (SDU) It is equipped with a subsea line wiring (946) that is included as a connection structure in the underwater submarine mineral resource collection equipment to the suction collection machine and the mining robot (SDU) hull safety equipment control room inside the upper part of the water level upper part (SLU) of the lifting deck hull deck upper part (50) An unmanned camera (50) inside the monitor 52 and control board 53 of the internal control server 51 184). At the same time, each of the marine power generation facilities is connected to a mooring system and a connecting structure. The distribution system of mineral resources collection equipment is distributed to the construction equipment. (593,594,595) nuclear power plant main body (1) of a marine power plant to be able to withstand the water pressure of the deep sea bed and the flow rate of the deep sea bed at the same time, Nuclear reactors for various types of nuclear power plants Nuclear reactivity leak control for reactor facilities of nuclear waste disposal system Dual structure block tank Dispensing device of reactor main body 18. The method of claim 17,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593,594,595) Nuclear power plant main unit (1) Wing crank (846) Replacement wing crank (846) The floating type poison (593,594,595) provided as a connecting structure is distributed to the seabed as a connection structure, Shipboard safety deck to the upper deck of the ship deck deck. Hull safety system for the operation and connection structure to the construction machinery equipment. Separate both sides of the boat crane boom stand (942) of each tow crane replacement tower crane (844) connecting structure to the boom hook hook (18) as a boom-to-boom connection structure. It is equipped with a connecting platform (844) Submarine mineral resource harvesting is carried out by the connecting structure of the regulating device to the upper deck top (SDU) of the lifting deck, A connection structure being supplied with the electricity generated from the marine power plant located in connection value structure of the marine power plant floating dock formula (593 594 595), a nuclear power plant body (1) configured to be made movable, and;
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
Construction Machinery Equipments Replacement towers for individual towers Cisterns for crane boom (942) Connection structures Both sides of the connection structure are used for reclaiming seabed mineral resources (842) and connecting structures (844) (SLD) at the bottom of the sea surface (SLD) at the bottom of the deck bottom (SDL) of the SLL. (909) of the submarine mineral resource manganese (909) is connected to the upper part of the deck (SDU) of the lifting deck, and at the same time, the submarine mineral In the internal location of the resource collection site, the inhale collection machine of the mineral resource collection equipment and the minerals extraction robot are equipped with the distribution input, (593,594,595) Nuclear power plant (593,594,595) Connected structure supplied with power generated from marine power plant located at the upper part of floating deck (SDU) The power plant main body 1 is configured to be operated;
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
Submarine mineral resource collection site Connected to internal structure Upper part of sea surface (SLU) with submarine line wiring (946) Floating docking hull Deck upper part (SDU) Location Marine power generation facility Alternate towers Replacement towers Crane cranes Boom Stand (942) Connection structure Mooring device and connection structure Floating type docking structure receiving power by power generation equipment Seated on seabed Seats to be distributed and loaded Supporting type Dock deck Top position Floating dock Connecting structure Hull safety (SDU) as a connecting structure to the submarine mineral resource harvesting equipment with connection structure to the small crane boom stand (942) of the tower crane for the replacement of each quay crane. (593,594,595) of the marine power plant, which is supplied with the power generated by the marine power plant of the floating type, Configuration be made a nuclear power plant body (1) and;
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593,594,595) Nuclear power plant main body (1) Connected to the structure as a suction system Collecting minerals as a connection structure Minerals Collecting submarine mineral resources Collecting equipment As a connection structure Manganese monolith 909) as a connecting structure Lifting the poison hull to the top of the deck (SDU) Moving to the control unit connection structure Construction machinery Equipments Replacement towers for each tower Cranes for the crane Boom stand (942) As the connection structure, the magnet magnet 645 and the connection structure are connected to the pipe line conveying device 916 of the suction collecting machine, and the manganese block 909 is transported to the connecting structure elevator allybate 632 (842) for reclaiming submarine mineral resources provided at the upper position of the upper part of the lifting deck (SDU) of the lifting tank upper barge line (591) (844) was moved to the upper deck (SDU) position of the lifting deck hull to control the transport of the construction machinery and equipment to the marine power generation facilities. And at the same time the conveyor 633 is provided at the upper position of the upper part of the floating deck SSU at the internal location of the seabed mineral resource collection site located in the lower part SDL of the lifting deck, A submarine mineral resource search equipment search light 232 and a deep sea exploration underwater light 843 are connected to each other by a submarine line wiring 946 while a lighting device is located at the same time with a submarine line wiring 946, (593,594,595) The collecting equipment, which includes all of the submarine mineral resource collecting equipment as a connection structure in the main body (1) of the nuclear power plant and the suction collecting machine and the mining robot, The damage of the collecting equipment according to the water pressure of the deep water and the flow rate of the deep sea bed occurs and the wire rope chain block 648 is attached to each lever block 123 in order to prevent the collection equipment from being lost at the position inside the seabed mineral resource collecting hall. ) To the location of submarine excavation equipment and the location of the submarine mineral resource harvesting site in order to regulate the movement of the submarine mineral resource harvesting site. The harvesting equipment connected to the wire rope of the lever block (123) (123) of the lever block (123) is wound and loosened so that the position of the harness can be controlled by each of the harvesting equipments, and the connection structure which receives the power produced by the marine power plant of the floating type poison (593,594,595) (593,594,595) of the marine power plant (1);
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
The unmanned camera 184 belonging to the submarine exploration equipment as a connection structure inside the main body 1 of the nuclear power plant (1) of the marine power plant (593,594,595) is equipped with an undersea mineral resource search equipment search light 232 An undersea camera (184) located at a position where the underwater illumination lamp (843) is connected to a position where the illumination is emitted through the connection structure, is provided for transmitting the state of the submarine mineral collection process to the safety facility control room, The submarine line wiring line 946 is connected to the hull safety facility control room position where the container box latching device 129 is connected to the upper end of the sea surface (SLU) lifting deck upper part (SDU) (593,594,595) of the marine power plant Connected to the inside of the main body (1) of the nuclear power plant Suction collecting machine and connection structure Mineral collecting robot (SLU) with submarine track wiring (946) Connected structure including an integrated connection structure of low mineral resource collection unit SDU Upper part of floating deck hull (SDU) (50) Receiving a submarine mineral collection process state scene transmitted from the unmanned camera (184) into the monitor (52) of the internal control server (51) and the control board (53) (942) as a connecting structure for mooring equipment and mineral resource collection equipments. It is equipped with a construction machinery connection structure and a seawater installation at the same time as a connection structure mineral resource collecting equipment connection structure. (593,594,595) Nuclear power plant main body (1) of the marine power plant, Distribution of the different types of global nuclear reactor plant nuclear reactor plant operating nuclear radiation leakage control block double structure reactor tank for the dust collector main body of the alternative shield of nuclear waste processing plant characterized in that it comprises the configuration be made chute 19. The method of claim 18,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side 705 of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided for manufacturing the connection structure capable of disassembling the shaft,
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593,594,595) Nuclear power plant main body (1) Distribution of minerals collection equipment to internal connection structure Transfer of operation equipment distribution to construction machine connecting structure to location with submarine track wiring (946) Diversity control equipment connected to the water collecting equipments to be able to withstand the water pressure of the deepwater basin and the deep sea bed Connective structure Bellows butterfly valve (305) and diving control connection structure Dr. Benchure And the ventilation duct 585a of the connection structure 585 and the doctor ventilation outlet 585b are provided with the piping type 581 and the base piping type 582 and the air conditioner of the prime mover 585, Pressure air generated in the micro-switch (80) while at the same time providing the mono-pos. Auto-pneumatic instrumentation provided in the micro-switch (580) Pressure air is injected into the air cylinder (138) equipped as a connection structure to the air damper (583) automatically without setting the time indicator (541) The spindle 584 connection structure allows the vent damper 583 to be fully closed and deployed within the doctor ventilation 585 to control and shut off the pressurized air, (593, 594, 595) of a marine power plant as a connection structure providing a connection structure such as a ballast butterfly valve (305) of a diving control device of a pipeline to a connection structure such as a pneumatic conveying device (916) A diving control device of the main body (1) of the nuclear power plant is constituted to constitute the main body (1) of the nuclear power plant;
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593,594,595) of the marine power plant Solenoid valve of each solenoid valve (76) provided with the pressure air generated by the air compressor (80) of the prime mover as a connection structure of the nuclear power plant main body (1) When the switch 108 is manually depressed to the on-time main switch button 66 of the main switch button 66 for the solenoid valve start switch button, the fly valve 305 opens and the main switch button 66 is depressed, The main switch button 66 for the start switch button, which is fully closed and stops operating when the manual valve switch 66 of the fly valve 305 is manually depressed, When the turn valve 66 is manually depressed, the connection structure of the fly valve 305 is opened to allow the pressure air generated in the air compressor 80 to pass through the pipeline connection structure, And Several hatch carver 153 is configured to be connected to the structure to provide a connection structure with a body made of floating dock formula (593 594 595), a nuclear power plant body (1) of the marine power plant, and;
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593, 594, 595) of a marine power plant While the operation of rotating the hydraulic control rotary cylinder (35) for electronic control is performed as a connection structure of the nuclear power plant main body (1), a plurality of fire doors (154) (153) The connection structure is opened and the mineral resources provided in the submarine mineral collection site are connected to the inside of the body of the lower tank barge hull (592) of the holding tank. Vacuum pump (635) When the vacuum pump 635 is rotated by hand while pushing the on-time main switch button 66 of the main switch button 66 for the start switch button to the connecting structure of the barge hull 592 ) Mineral resources provided in the submarine mineral collection site located outside the body are the connecting structure that provides the position movement to the inside of the body of the barge hull (591) A power plant main body 1;
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593,594,595) of marine power plant (593,594,595) Connection structure of nuclear power plant main body (1) Diving position control of hull Sub-submarine mineral resource connection structure as connecting structure selected as diving buoyancy control lead- It is a submarine mineral resource for diving buoyancy control. It is equipped with the main body of the lifting docking hull as a connecting structure at the seabed and at the same time, the upper part of the sea surface (SLU) SDU) Connected to the upper position Offshore power plant located as a structure Alternate towers Replacement tower Cranes Cranes Boom stand (942) The connection structure is a power plant equipped with a mooring system and connection structure. (593,594,595) of the marine power plant (1);
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593,594,595) of the marine power plant (593,594,595) Mineral resources are connected structure of the nuclear power plant main body (1) The bottom resources of the holding tank Lower barge hull (592) (949) for buoyancy control (949) Replacement of submarine mineral resources by connecting structures to control the diving position of the ship and submarine mineral resources for diving buoyancy control. Holding tank Lower barge hull (592) External bulkhead A plurality of fire doors and a plurality of hatch covers 153 are connected to the pipeline line automatic pneumatic conveying device 916 as a connecting structure, The butterfly valve 305 and the solenoid valve overpressure prevention switch 10 of the solenoid valve 76 as a connection structure 8) Solenoid valve Start switch Main switch button for switch button (66) Connected to the power line (71) Connected structure Connected to the floating structure of the marine power plant (593,594,595) Nuclear power plant Main body (1) (942) Connection structure Mineral resource collecting equipment distributing equipment The distribution system of the moving equipment is provided as a connection structure of the construction machine, and it is equipped with the connection structure provided with the seabed from the seabed, and at the same time, the upper part of the sea surface (SLU ) Floating docking deck Upper deck (SDU) Connected to the upper position Offshore generating facility located as a structure Alternate towers Replacement towers Crane boats (942) Connected structures Power generation facilities with connection structure (593,594,595) of the marine power plant as the main structure of the nuclear power plant (1) Nuclear reactors for nuclear reactors Nuclear reactors for reactor shields Nuclear radiation leakage control Dual structure block tanks Nuclear reactors Dispensing device The method of claim 19,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side 705 of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided for manufacturing the connection structure capable of disassembling the shaft,
(593,594,595) floating structure of the marine power plant, the distribution structure of the nuclear power plant main body (1)
(593,594,595) Nuclear power plant main body (1) Connected to the structure Underwater minerals collecting equipment as a whole is installed in a block block tank (590). Upper barge hull (591) Block piping is connected to a large number of manganese nodules (909) at a depth of 5,000 meters in the sea floor, including the Pacific Ocean, in a number of hundred million tons, and is connected to a plurality of landing baskets (183) (849) to replace the towel crane with a tower crane. Small cranes Boom stand (942) Distributing both sides of the connecting structure to separate the tower crane from the city crane boom stand (942) Connections to Hook Hooks (18) Hooked baskets (842) and connection structures (844) for recycling submarine mineral resources The connecting structures are connected to the tower cranes The ingress basket 842 and the connecting structure 844 for reclaiming both sides of the in-boom zone 942 are connected to the seabed bottom SLL of the sea level SLL, (SDU) at the upper part of the sea surface (SLU) to the upper part of the floating deck (SDU) at the inner site of the mineral resource collection site, while transporting the submarine mineralized manganese block (909) (593,594,595) of the marine power plant at the same time while arranging the movement of the minerals collection equipment and the minerals collecting robot in the submarine mineral resource collection site inside the main body (1) of the nuclear power plant. (SLU) Floating marine vessel located at the position with the submarine line wiring (946) Maritime power generation facilities located at the top of the deck (SDU) Alternative towers (593,594,595) powered by a power plant is allocated to the seafloor to be placed on the seafloor to support the marine power station (593,594,595). Nuclear power plants A connecting structure for providing a distributing and inputting device for the submarine mineral resources and the seabed mineral collecting device integrally on both sides of the sea crane boom girder 942 of the sea crane boom girder 942 provided on the underside of the sea surface of the power plant main body 1, (593, 594, 595) nuclear power plant main body (1);
(593, 594, 595) of the marine power plant The mineral resource and lifting device lifted by the lifting harvesting equipment as a connection structure of the nuclear power plant main body (1)
(593,594,595) of the marine power plant The hydraulic cylinder (39) is operated as a connection structure inside the main body (1) of the nuclear power plant, and the yearly generated manganese block (909) (591) A small-sized crane boom stand (942) of a tower crane substituting for the deck plate located at the upper deck position. While the hydraulic cylinder machine 624 has quick operation, the inside of the hydraulic cylinder machine 624, A seal ring 826 is attached to the bushing seal 824 and the seal ring 825 to the piston seal 822 and the piston seal 823 and an O ring 828 and a seal The backup seal 830 and the load seal & backup seal 831 are provided with a double seal seal 832 and a pin seal seal 833 on the downstream side seal 834 and the baffle 835 The piston ring 836 and the dog rings 837 are each provided with a hydraulic cylinder machine 624, The hose 190, the high-pressure pipe, and the solenoid valves 76, so that the piston is advanced and retreated within the hydraulic cylinder while the holding tank upper barge hull 591 is placed at the upper deck position for replacing the towel crane The crane boom girder 942 of the lower crane boom can be distributed and input into a submarine mineral resource collecting equipment that provides the lifting of the manganese block 217 with the hydraulic cylinder machine 624 having quick operation, (SDU) The upper part of the seabed mineral resource is provided for the repayment of the national foreign debt. At the same time, the upper part of the sea surface (SLU) with the submarine line wiring (946) (942) of the tower crane for the replacement of the towers of the crane (2) Connection structure to the mooring device of the connecting structure and the main body (1) (593,594,595) of nuclear power plants of marine power plants (1). The nuclear reactors of nuclear reactors of nuclear reactors of nuclear reactors, Leakage control dual structure block tank Dispensing device of reactor main body The method of claim 20,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side 705 of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided for manufacturing the connection structure capable of disassembling the shaft,
(593, 594, 595) of the marine power plant is connected to the main body (1) of the nuclear power plant. The furnace distributing and inputting apparatus for operating the mineral resource heat treatment,
(593,594,595) Nuclear power plant main body (1) Connected to the interior of the marine power plant Upper part of the sea surface (SLU) with submarine line wiring (946) Floating upper part of the deck (SDU) (942) Connecting structure to mooring device and connection structure Undersea minerals resource lifted by power generation facility unit Connected to structure Submarine line wiring (946) Trunk replacement tower crane with connection structure (942) to the inner boom hook hook (18) as a body connecting structure. The structure of the yacht basket (842) for reuse of seabed mineral resources and the connecting structure (844) (842) and the connecting structure (844) for reclaiming submarine mineral resources are connected to the lower end of the sea surface (SLL) of the sea level (SLD) line The submarine mineral resource reservoir (909) is transported from the submarine mineral resource collection site inside the lower deck (SDL) to the upper SDU position of the levitated upper deck (SLU) (SLU) floated with submarine track wiring (946) at the same time while providing positional control to the upper part of floating lifting deck (SDU). Upper deck (SDU) Marine power generation facility Each tower crane (942) Connected structure Mooring device and lifting dock of marine power plant (593,594,595) Nuclear power plant (1) Connected to the inside of structure (1) Structure of connecting structure to construct power plant equipment,
(593, 594, 595) of the marine power plant is connected to the main body (1) of the nuclear power plant. The furnace distributing and inputting apparatus for operating the mineral resource heat treatment,
(593,594,595) of marine power plant (593,594,595) Inside of the nuclear power plant main body (1) Inside location of the seabed mineral resource collection site, the inhale collection machine of mineral resource collection equipment and the mineral picking robot are distributed and moved, And a blast furnace 948 provided with a carrier positioned at the upper end of the lifted deck top deck (SDU) and having blast furnace 948a of blast furnace 948. In addition, (908) is injected into the furnace (948) for the production of the steel plate (597) and the guide rail (618) of the high tensile strength stainless steel by melting the molten metal, And the guide rail 618 for the block tank hull transportation device is provided to the pipe tank hull conveying apparatus with the connection shaft of the double structure block tank pipe bridge 937, A guide rail 618 provided as a connection structure is provided at a lower position inside the inner block tank 596 of the double structure block tank 598 connected to the main body 929 to operate the internal tunnel 771 for a marine tunnel apparatus of 100K / And an inner block tank 596 having an inner block tank 596 having an inner block tank 596. The guide rail 618 is connected to an iron plate 597 of a high tension stainless steel plate, (593,594,595) Nuclear power plant (1), which is composed of a nuclear reactor plant (593,594,595), nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, Dispensing device of block tank reactor dust collector main body 23. The method of claim 21,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side 705 of the reactor main body manufacturing process of the nuclear power plant main body of the connection shaft provided for manufacturing the connection structure capable of disassembling the shaft,
(593,594,595) of the marine power plant is connected to the main body (1) of the nuclear power plant, and the construction machine distributing and inputting device for operating the submarine energy and mineral collecting equipment,
(593,594,595) Nuclear power plant main unit (1) Connecting structure to the inside of the sea power plant (SLU) with submarine line wiring (946) Floating deck hull deck upper part (SDU) (842) and the connecting structure Pareto (844) for the submarine mineral resource reclamation to the boom girder (652) connecting structure of the crane boom boom of the city cranes boom of the tower crane (842) and a connecting structure (844) connecting structure for the sub-seabed mineral resource reuse of the connecting structure are provided at one side of both sides of the small crane boom stand (942) SLD) In the submarine mineral debris (SLL), the submarine mineral resource reservoir (SLU) is moved to the upper deck area (SDU) The manganese block (909) is moved to the upper deck (SDU) of the lifting deck with 909 cargo transport and the positional movement is provided as a connecting structure for the small crane boom band (942) ) Inside the nuclear power plant main body (1) Inside of the seabed mineral resource gathering site In the location of the earthquake crane boom band (942), the construction equipment of the mooring equipment Excavator (845) And an anti-protector 877 are provided to the pile driver 882 of the construction machine 880 and the diesel pile hammer 883 of the separate construction machine 880 while the solidified manganese block 909 is provided for crushing, The suction and extraction machines 911 and 912 for the collection of seabed mineral resources by the crane 885 and the tower crane 886 are connected to the construction machine excavator and the connection structure to control the movement of the operation position. Supporting dock of power plant (593,594,595) won Force made be configured to connect to the seabed mineral collection structures of the power plant body (1) to the seabed with energy input device for a construction machine dispensing mineral gathering equipment and operation;
(593,594,595) of the above marine power plant. The construction machinery distributing and inputting device for operating the submarine energy and mineral collecting equipment as the connecting structure of the crane boom stand (74) of the nuclear power plant main body (1)
(593,594,595) Nuclear power plant main body (1) Connected to the inside of the structure Structure of the tower Cranes for replacing towers Crane Boom Boom Stand (942) Boom Boom Boom Boom Boom Girder (652) Both sides of the body A double structure high pressure hose 190 connected with a plurality of high pressure hoses 190 as a connection structure coupling fluid coupling hose 190 connected to a 500 m high pressure hose 190 connected to the heavy oil tank 795 in accordance with the water depth, And at the same time a plurality of drill rod pipe racks 854 as a connection structure of a rotary table lathe machine 908 of a drilling machine for crude oil drilling, ) And the natural gas borehole 936 are provided with a predetermined amount of piping pile and at the same time, yellow loess and cement are supplied to the pipe line of the drilling pipe rack 854 as the passage of the piping line, A double structure high pressure hose (190) connected with a plurality of high pressure hoses by a coupling ring (29) connected to a 500 m high pressure hose (190) in the piping file while filling the loess soil with cement. Crude oil and natural gas reserves of crude oil and natural gas are supplied to the submarine mineral resource (CBR) of tower crane boom boom boom and boom girder bridge (652) inside body boom hook hook (18) The reclaiming yard basket 842 and the pallet 844 are connected to each other so that the yard basket 842 and the pallet 844 for reclaiming both undersea mineral resources of the small crane boom stand 942 (SLD) of the sea surface (SLL) from the internal position of the submarine mineral resource collection site in the lower SDL of the floating deoxygenated deck (SLD) to the upper part of the floating deck (SDU) Go ahead. Mineral resource Manganese (909) is transported to the upper part of deck (SDU) of the lifting deck, while at the same time it is moved vertically into the main body (1) And the natural gas submarine energy harvesting equipment is connected to the top of the sea level (SLU), which is located at the position where the submarine line wiring (946) is installed. The marine power generation facility located at the upper position of the deck upper part (SDU) Replacement Tower Cranes The connection structure for the mooring unit and the power generation equipment unit of the crane boom stand (942) and the boom hoist boom (652) connecting structure of the tower crane is used for lifting dock (593,594,595) (1) of a nuclear power plant, comprising: (1) a plurality of nuclear reactors of a global nuclear power plant, Nuclear Radiation Leakage Control for Nuclear Reactor Facilities Dual Structure Block Tank Distribution Apparatus of Reactor Main Body 23. The method of claim 22,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
The nuclear reactor main body 794 includes a plurality of inner block tanks 596 and a plurality of outer block tanks 596 outside the plurality of inner block tanks 596. [ The first auxiliary steel 600 for the block tanks and the second auxiliary steel plates 601 for the block tanks are provided with the vertical beam 605 and the horizontal beam 609 with the steel beams 149 in the outer block tank 599, The steel beams 149 and the snap holes 602 are formed in the first auxiliary steel 600 for the block tanks and the second auxiliary steel plates 601 for the block tanks and the vertical partition 605 and the horizontal partition 609, The fifth guard wall distributing and inputting device formed along the outer wall circumferential surface of the fourth protective wall container 808 and the fifth guard wall distributing and inputting device formed by the manhole 610 while being machined by the computer laser cutter 954, The explosion control device is divided into the distribution device and the reactor facility nuclear radiation leak control It made be configured to operate the nuclear reactor building block tank dust collector body 794 dependent expression venom of the marine power plant (593 594 595), a nuclear power plant body (1) in a nuclear reactor plant operations replace nuclear waste disposal, and the shield;
The vertical partition wall 605 and the horizontal partition wall 609 in which the partition wall manhole 610 is formed inside the main body 1 of the nuclear power plant of the marine power plant 593,594,595 are provided with the hydraulic system cylinder door 624 and emergency stairs 631) is formed by a welding process and is equipped as a transportation device to prevent the explosion of a reactor Reactor facility Nuclear radiation leakage control Double structure block tank Reactor main body (794) The shielding device is configured to operate the nuclear power plant;
The plurality of stopper steel plates 625 are connected to a plurality of inner block tanks 596 and a plurality of outer block tanks 599 of the cylindrical double structure block tank 598 at the upper and lower ends of the block tanks, (593,594,595) of a marine power plant equipped with an egg type main body (794) of a double structure block tank with flange bolting connection devices, nuclear waste of various kinds of nuclear reactors (811) into the main body (1) 224) Treatment of nuclear waste (224) of various types of reactors (811) by the main body (1) of the nuclear power plant (593,594,595) of the marine power plant by dividing it into the distribution input device of the treatment device and the distribution input device of the nuclear fuel explosion control device The device and the fuel explosion control device are configured to operate the nuclear power plant;
Nuclear waste is stored in one place at the lower part between the vacant spaces of the plurality of inner block tanks and the plurality of outer block tanks in the event of a large reactor explosion, and at the same time, the bottom of the road surface of the double structure block tank (GLD) A plurality of nuclear explosion preventive double structure block tanks 598 secured by a mat 225 and a steel beam 149 are disposed outside an inner block tank 596 having a reactor main body 794 and a barge hull 591 ) Nuclear power plant pellet (683) is injected into the third wall of the reactor body formed by introducing the reactor facilities of the alternative nuclear waste disposal shielding apparatus, (593,594,595) of a marine power plant equipped with an explosion control device of the explosion control device. The nuclear reactor operation control unit 810 is provided with a distribution input device for the nuclear waste disposal apparatus of the nuclear reactor 811 and a distribution input apparatus for the nuclear fuel explosion control apparatus to operate the nuclear reactor to prepare the nuclear power radiation leakage control double structure block tank reactor main body 794 ;
(593,594,595) of marine power plants (593,594,595) In the nuclear power plant main body (1), a large amount of radiation is generated so that the reactor can safely cover the first wall pellet and the second wall fuel rod, the third wall reactor pressure vessel A double structure block tank in which a conventional reactor building formed of a fifth wall reinforced concrete mat (225) is formed in a four-walled container by forming a five-layered protective wall, and a distribution injector and a nuclear fuel The nuclear power plant main body 1 is provided with a distributing and inputting device for the explosion control device and the barge hull 591 at the upper end of the holding tank is provided in the reactor structure 811 of nuclear power generation as a double structure block tank reactor building, The nuclear reactor operation of the power plant is constituted by a nuclear radiation leakage control dual structure block tank reactor dust collector main body 794;
A steam generator 810 and a steam dryer 786 installed outside the reactor pressure vessel 813 are connected to each other and a fluid container 808 corresponding to the fourth wall of the reactor 811 is connected to the steam generator 810, And a plurality of through holes are formed in the upper portion of the reactor building 688 corresponding to the fifth wall by a predetermined angle of 45 degrees into the cutter and the construction machines, A plurality of safety valves 472 are connected to the flange by the gasket 32 to the bolt 24 and the nut 25 on the block piping line 74 and the plurality of safety valves 472 are connected to the flange by the gasket 32, A double structure block tank 598 having a size twice as large as the reactor building 688 is connected to an outer block tank 599 for storing nuclear waste treatment in a radiation type connection structure, And the distribution input device of the fuel explosion control device. It made be composed of the operation of the nuclear power plant to nuclear radiation leakage control block double structure reactor tank dust collector body 794, and;
Dual Structure Block Tank The reactor building is provided with a plurality of internal block tanks 596 and a plurality of external block tanks 599 each having a loess (158) cement mixing equipment mixer machine 649 as a dispensing device of a nuclear fuel explosion control device Coolant (287), which is a control material for fuel explosion prevention, which is injected into a pressure vessel (813) at the same level as a blast furnace immediately before a reactor explosion, and a dispersion material that causes soap and foam in a toothpaste- The mixture is properly mixed with the mixture 927, and the control article is injected into the pressure vessel 813 at one time by the automatic injection device. Thereafter, several fire-fighting nozzle nozzles 10 are cleaned so as to clean the inside of the reactor 811 Is formed inside the pressure vessel (813) and inside the vessel (808), and the reactor (811) inside the reactor (811) Explosion-proof double structural block tank Tanks containing nuclear reactors Nuclear fuel explosion control devices equipped with nuclear fuel explosion control devices equipped with Nuclear power plant main body (1) Double reactor structure of various reactors (811) Block tank leakage of nuclear radiation Control dual structure block tank A nuclear waste disposal unit of a nuclear waste disposal system for internal and external refurbishment equipped with a reactor main body 794 is installed and operated to prevent the explosion of nuclear reactor facilities ;
The inside of the reactor 811 is internally cleaned by forming a circulating water pump 858 connected to the cooling water 287 piping line 352 serving as a distribution input device of the fuel explosion control apparatus and cooling water 287 to prevent solidification of the loess mixture, And the dispersing material causing the foaming such as the washing material is appropriately mixed with the loess mixture with the loess cement mixing equipment mixer machine 649 and put into the pressure vessel 813 all at once, and immediately after the earthquake stops, (811) of the nuclear reactor main body (791) to perform continuous power generation without restriction from natural disasters and to prevent the explosion of the reactor that maximizes safety operation of the nuclear reactor facility. (1) of the nuclear power plant main body (1) as a distribution dispenser of the nuclear waste disposal apparatus and a distribution dispenser of the nuclear fuel explosion control apparatus Configuration be made to Nuclear Power-on After the various lines of the distribution chute around the reactor plant safety operation in the control apparatus for a fuel explosion reactor (811) and;
And a plurality of dual structure block tank reactor nuclear reactor (s) for storing the nuclear reactor effluent (224) connecting the outer wall surface of the reactor building wall from the first wall of the reactor to the double structure block tank reactor wall of the fifth wall The nuclear power generated at the nuclear power plant before and after the operation of the nuclear power plant formed in the nuclear power plant body (1), which is formed with a coupling structure with various kinds of nuclear power generation reactors (811), generates nuclear fission inside the reactor (811) A steam turbine 267 for generating steam from the steam to produce power by rotating the steam turbine 267; a nuclear power generator 772 for converting the power produced from the steam turbine 267; And a rotating rotor electromagnet coil 774 for a nuclear power generator installed along a circumferential surface of a shaft 198, which is a rotation shaft connecting the atomic power generator 772, A non-rotating armature coil 773 for a nuclear power generator installed along a circumferential surface of a rotating rotor electromagnet coil 774 for a magnetic power generator and a power generator 772 for driving the nuclear power generator 772 and the shaft 198 to the steam turbine 267 And a frame 775 integrally fixed to the main body 794 of the double structure block tank reactor main body 794 so as to operate as a nuclear power plant;
A cooling water 287 piping line 352 having a connection structure with a condenser 790 at a lower portion of the body of the steam turbine 267 of the power generation facility and a coolant water line 352 at a pipeline line 169 at the front of the condenser 790, A circulation water pump 858 connected to the pipeline line 352 is connected to the nuclear reactor radiation leakage control double structure block tank reactor main body 794 before the reactor facility safety operation;
A feed pump 857 is formed outside the rear end of the condenser 790 and the reactor 811 and a purifier 809 is formed outside the reactor in front of the feed pump 857, A plurality of coolant pumps 859 are installed outside the reactor pressure vessel 813 containing uranium 812 fuel and a safety device control rod 798 is installed inside the reactor pressure vessel 813 The control rod 798 is automatically inserted at a time so that the reactor can be operated as an emergency stop by the reactor main body 794 of the double structure block tank ;
Various kinds of reactor 811 first wall pellets 683 and a covering pipe 682 for protecting the second wall flaring rods 689 are disposed inside the third wall reactor pressure vessel 813 The safety valve 472 formed with the plurality of temperature pressure sensors immediately before the explosion is opened in the fourth wall container 808 and the inner block pipe 74a of the pressure vessel 813 upper block piping line 74 of each location is opened, The explosive nuclear waste 224 passes through the inner block tank 596 and the outer block piping 74b is filled with coolant and toothpaste-like loess mixture, which is a fuel explosion prevention control product stored in the inner block tank 596, The nuclear waste 224 is transferred and stored in the inner bottom portion of each of the double structure block tanks 598 and the inner block tank 596 of the pressure vessel 813 is transferred to the inside of the pressure vessel 813 and the fourth protective walled container 808, And the temperature-sensing-sensor safety valve 472 connected to the temperature- Cooling water and toothpaste-like loess mixture, which are the fuel explosion prevention control product stored in the inner block tank 596, are supplied to the outer block piping 74b of the piping line 74 by the water pump 857 inside the pressure vessel 813 And transferred to the fourth protective walled container 808 to convert the energy of the water into the kinetic energy of water at the coolant and toothpaste levels to the reactor so that the inner block tank 596 and the outer block tank 599 are separately stored, And toothpaste-level loess mixtures, the reactor explosion is terminated to prevent the explosion of the reactor. The reactor structure of the double structure block tank is replaced by the injector. The reactor facility safety operation is performed. To constitute the operation of nuclear power plants;
When the decommissioning of the reactor pressure vessel 813 is stopped with the remote control cutting or the robot 700 when the reactor decommissioning operation of the nuclear power plant is stopped, the plurality of the temperature pressure detection sensor safety valves 472 are closed, A plurality of types of reactors that are always closed by a plurality of temperature-sensing sensor safety valves 472 can be installed on a barge 591 of a nuclear power plant. The dust collector main body 794 is configured to operate the nuclear power plant;
Several types of reactors (811) are installed in the sinking prevention type barge of the ocean, and the nuclear radiation leakage control dual structural block tank reactor main body (794) is constructed to operate the nuclear power plant;
In order to prevent the earthquake and tsunami from being restricted by the weather conditions, the location of the nuclear power installation at 40m above the sea level is adjusted by the mooring device formed in the submerged barge line and the diving and buoyancy adjusting devices, The nuclear reactor leakage control system is configured to operate the nuclear reactor main body (794) to control the nuclear radiation leakage control such that various kinds of nuclear reactors of unaffected nuclear power plants can not explode;
By constructing a dual structure block tank reactor building at a marine nuclear power plant so as to prevent the nuclear explosion of the nuclear fuel chamber to prevent environmental pollution due to nuclear waste, In order to ensure the safety of power generation facilities and to ensure the renovation of nuclear reactors by continuous operation, the mooring device formed on the barge for the treatment of nuclear waste, the control device for the diving buoyancy, the distribution input device for the nuclear waste treatment device and the distribution input device for the fuel explosion control device (2) Nuclear power plant (672) Main body (1) Reinforcing system (2) Nuclear power plant (2) Nuclear power plant Replacing a conventional reactor building formed of a concrete mat (225) A nuclear waste treatment apparatus having a nuclear reactor block tank reactor main body 794 and a distribution input apparatus for a nuclear fuel explosion control apparatus to control the reactor facility safety operation before and after the nuclear reactor radiation leakage double structure block tank reactor main body 794 ) Of nuclear reactors for nuclear reactors of nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, and nuclear reactors. Device 24. The method of claim 23,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
Nuclear Radiation Leakage Control for Nuclear Power Plant Nuclear Radiation Leakage Control Dual Structure Block Tank Nuclear waste treatment device equipped with reactor main body 794 and nuclear reactor installation of nuclear fuel explosion control device Distribution injector Various kinds of nuclear reactors 811 are sunk in the ocean In order to prevent the construction of the barge of the prevention type and the weather condition of the earthquake and tsunami, it is necessary to set the installation position of the nuclear power plant at the top of 40m above the sea level to prevent sinking of the barge line. In the operation of nuclear power plants for safe operation equipment of nuclear reactors forming equipment safety,
In order to avoid the restriction of the weather conditions, the height of the barge line installed at the nuclear power plant is adjusted to 40 m above the sea level. The elevator car (639) and the anchor car chain (640) (8) for the emergency pump and a vacuum pump (8) for the emergency pump in the vacuum pump (635) of the automatic pneumatic valve transport device (916) BELLUSTAR BARRING TANK ADJUSTING BLANK BUTTON AND TANK INSULATION FLUID ACCESS BLOCK MECHANISM Connecting jet pump (157) to wire netting (28) Bellows butterfly valve of diving control device of piping line with structure And a hydraulic ventilator door 624 for a block tank hull traffic control device is connected to the doctor ventilation inlet 585a and the doctor ventilation outlet 585b of the nuclear waste treatment storage tank and doctor ventilation 585, ) And a block tank (76) Solenoid valve (76) to be installed in the hydraulic cylinder device of the rock hull disassembling and regulating device (76) Diving position control device of the hull to each valve and the moving weight device for controlling the diving buoyancy (949) (595) of the large-scale marine nuclear power plant is buoyant due to the buoyancy generated by the weight of the hull and the sea surface gravity, so that the large-scale marine nuclear power plant lifting tongue (595) A plurality of balls 638 for hull mooring for the mooring device and the mooring of the ship mooring deck are provided on the top of the strut tank upper barge hull 591 and the bottom of the strut tank bottom barge hull 592, (639) formed on the anchor chain (640) for connecting link of the mooring device anchor (638) and the mooring device anchor (639) When the sea floor depth is deeper than the depth of the continental shelf while the mooring anchorage system is provided, the bottom floor of the submarine is excavated by a rotary table lathe machine (908) of drilling machine for crude oil, (Not shown) of the mooring device 185 with the hydraulic cylinder hydraulic pressure key 623 formed on the hydraulic cylinder hydraulic pressure key 623 of the mooring device, When the barge hull anchoring is released and the hydraulic cylinder operating key 623 is operated by the umbrella unpacking body of the feed dog 185, the barge hull anchoring is formed, The height of the barge ship anchor, which is a nuclear power plant, is used to control the operation of the nuclear power plant before and after the operation of the nuclear power plant;
(593,594,595) of the marine power plant In order for the lifting dock to dive into the main body of the nuclear power plant (1), the air reciever tank (145) for the air storage tank and the recycle tank A cooling fan 645 serving as an air liquefier cooling mechanism and a heater fan 642 for floating the rubber balloon 914 and the tube 188 in the air balloon 78 and the advertising balloon 77, (643), which is a satellite launch pad (643) that will eliminate all those involved in the belligerent party who are involved in war, maritime piracy and international diplomatic disputes from the global atmosphere. Operated air supplied from the air compressor 80 to an air compressor air compressor 80 and a space rocket launcher 646 of the same level as the satellite, By oral winch 137 marine nuclear power plant nuclear movable around the configuration be made when the nuclear power plant operation and after;
A hoist rope 19 included in the crane 861, a wire rope chain 915, and an air compressor (not shown) 80 and the air hose 109 connected to the front of the air-tying winch 137 in front of and behind the air receiver tank at the rear of the deck 80. An electric magnet magnet 645 and loess and cement A pipeline automatic pneumatic conveying device 916 for conveying by piping and high pressure hose and a mixing equipment mixer machine 73 located at the front of the pipeline automatic pneumatic conveying device 916 are provided After the lever blocks 123 are provided for each tonnage capacity so that they can be combined in units of the double structure block tanks 598, they are combined in units of the block tanks 598, and then the turning bodies 640 are re- As the joint between the holding tank and the auxiliary holding tank, (165) is provided with a machining hole for male and female joints, and then welded to a block tank, and then subjected to continuous nuclear operation of the nuclear waste treatment reactor facility of a marine nuclear power plant so as to withstand the high pressure at the joint portion of the flange and the flange To operate nuclear reactors before and after safe operation of reactor facilities;
After the rubber packing 32 of the gasket packing is sandwiched between the large flange 614 and the large flange 614 by the space between the large flange 614 and the double structure block tank 598 with high strength bolts and nuts, ) And a connecting double structure block tank flange (614) to another coupling with the double structure block tank flange (614) inside and outside the nuclear power plant body (1) The valve disk operation inside the ballast butterfly valve 622 submerged in the seafloor with the opening of the manhole 610 and the hatchback 153 is released while the fan 195 of the regulation valve is opened, And the bottom barge hull at the bottom of the double structure vertical holding tank is formed into a nuclear waste disposal storage tank generated from a reactor, a key bed (616) as a barge underneath the barge hanger and a vertical horizontal hinge joint The shaft 606, which is tightened to the long hole 616 of the long shaft, constitutes a continuous operation of the nuclear waste disposal reactor of the marine nuclear power plant before and after the safe operation of the reactor facility;
(618) for deck deck top equipment transfer, a helicopter stop (619) at the top of the floating deck deck, and a semi-submerged operation line (623), a double structure block tank for the marine safety work for the diving work line mounting for cutting and welding in the tank tank joint connection separation and tank frame connection type of double pipe structure type (598 ) Combined fixture equipment A ballast butterfly valve (621), a hydraulic cylinder mounted on a semi-submerged operation line (637) and controlled by a submerged barge line, And the inner side of the motor body 192 of the power motor is connected to the hood 193 and the snap ring 194 by means of a fan 1 The stator assembly 201 and the motor protection casting frame 202 are fixed to the front bracket 197 and the shaft 198 to the rotor assembly 199 and the front bead ring 200 to the body frame 196 and the body frame 196, A terminal box cover 203 is attached to the terminal box 203 and a terminal box cover 205 is attached to the lifting bolt 204. A rear bracket 207 is attached to the rear bead ring 206 and a protective cover 209 and a hole When the power is supplied to the electronic iron core 210, the stator iron core 211 and the stator winding wires 212 are used to turn the rotor into a rotating body. At the same time, With the necessary time required, the HVAC system of this system, Dr. Venture (585), and the swing-type poison hull internal water pressure control, the mineral resource intake suction control system, The hydraulic cylinder dorer (624), which is closed by the switch-off valve, (625), which is formed with a tie-wire mesh (28), to establish a continuous operation of nuclear reactors for nuclear waste disposal facilities before and after safe operation of nuclear power plants;
The air piping line 181 for preventing sinking of the hull and the emergency engine 226 for extending the prevention of the sinking of the hull are provided. In order to prevent access to other ships during lifting, The airbag inflatable flagpole 628 of the airbag 628 is connected to the tugboat and the lifting dock with a rope 629 for disconnecting rope and a rope connecting knotty pawl 630 and the emergency staircase 631 ) For controlling the balancing of the mineral and the conveyer 633 for the machine equipment conveying facility and the barge hull 592 to the inside of the barge hull 591 to the elevator alley bed 636, (635) of the vacuum pump (635) and the air lifting line (634) of the air suction and discharge device for lifting the hull of the sinking ship, the parts are manufactured at the marine ship manufacturing factory and heavy industry field, (666), and the position of the barge elevation is controlled by the equipments, so that the operation of the reactor of the nuclear waste treatment reactor of the marine nuclear power plant after the safe operation of the nuclear reactor is completed ;
In order to prevent nuclear reactors of nuclear power plants from exploding and to prevent the environment from being contaminated by nuclear waste without being affected by earthquakes and tsunamis, The power plant is formed of a single number of double structure block tanks, which are reactor nuclear waste treatment storage tanks formed from the first wall to the fifth wall on the reactor surface, the double structure block tanks being formed of inner block tanks and outer block tanks, In order to ensure the safety of the nuclear power generation facility and ensure the repair of the nuclear reactor and the treatment of the nuclear waste, the nuclear explosion preventive double structure block tank reactor main body 794 The nuclear power plant, The nuclear waste 224 that has been exploded into the block piping line 74 is passed through the double structure block tank reactor in which the reactor does not explode and the nuclear waste 224 is stored in the block tank 598, The plurality of safety valves 472 are closed when the explosion of the reactor pressure vessel 813 is stopped and the safety valve 472 is closed and the plurality of safety valves 472) are closed so that the nuclear facilities of the nuclear waste disposal reactor of the post-sea nuclear power plant before and after the safe operation of the nuclear reactor facility can be continuously operated. Nuclear Radiation Leakage Control for Nuclear Reactor Facilities in Alternative Nuclear Waste Treatment Shielding Units Distribution chute of the main body 27. The method of claim 24,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,
(593,594,595) of the marine power plant If the regenerated liquid of the ion exchange resin is liquid in the water leaking from the valve of the nuclear power plant (672) and the water in the building inside the nuclear power plant main body (1) Collected in a tank 216 and filtered with a filter 217. The radioactivity is measured by a radioactivity measuring device 218 to confirm that there is no harm and then flows into the sea together with the seawater for cooling and water other than the washing water is filtered through the filter 217 ), Filtered water and distilled water are provided for monitoring with the monitoring post 219 while preparing for use as a reactor coolant, so that it can be used as a floating nuclear power plant inside the main body 1 of the nuclear power plant (593,594,595) Which is characterized in that it comprises a structure for preventing radioactive contamination of the nuclear waste. Plant nuclear radiation leakage control double tank structure block distribution chute of the reactor main body dust collector for 26. The method of claim 25,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,
If the ion exchange resin and the filter material are solid in the paper, cloth, work clothes, shoes, etc. inside the building of the nuclear power plant 672 inside the main body 1 of the nuclear power plant of the marine power plant 593,594,595, The resin solution used is stored in the storage tank 216 and is filled with the concrete in the drum 220. The paper or cloth is compressed to reduce the volume and attenuate the resin, The nuclear waste storage 224 and the nuclear waste storage building 332 and the monitoring monitoring post 219 are further provided for nuclear waste disposal by the forklift in the site, (593,594,595) Nuclear power plant main body (1) It is equipped with various kinds of atoms Nuclear reactors Leakage control Dual structure block tank Nuclear reactors Discharging device of reactor main body 27. The method of claim 26,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a double structure block tank nuclear reactor radiation leakage control reactor for nuclear power plants of the nuclear power plant and a nuclear fuel cycle apparatus of a nuclear waste fuel industry produced from a nuclear power plant of a nuclear fuel waste disposal control apparatus Nuclear waste 224 In its processing apparatus,
The spent fuel 683 used in the nuclear power plant 672 and the uranium 812 left in the nuclear power plant main body 1 of the floating power plant 593,594,595 of the marine power plant are processed in the reprocessing plant 228, Processing plant 229 converts uranium fluoride 812 into uranium dioxide 812 and transfers uranium fuel 812 to uranium dioxide 820 at conversion plant 229 to transfer pellets 683 to uranium dioxide 820, The fuel rod 689 is fabricated and the plutonium 801 processed in the reprocessing plant is produced in the conversion and processing plant 231 so that the reprocessed fuel rods 689 are returned to the nuclear power plant 672 The nuclear fuel 683 moves to the nuclear power plant 672 and the conversion and processing plants 231 to the concentrating plant 230 and the conversion factory 229 in the reprocessing plant 228 are located at the upper 40 m Sinking type barge deck top of the nuclear fuel industry Nuclear power plant main body (1) Nuclear power plant main body (1) Nuclear waste (224) is treated as nuclear fuel cycle of the nuclear fuel industry to prevent nuclear radiation contamination. Nuclear reactors for nuclear reactors of nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, 28. The method of claim 27,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,
Since nuclear waste 224 having a long half life period from the reprocessing process at the nuclear power plant 672 inside the nuclear power plant body 1 has a long half-life, it must be stored for several thousand years, so that the half- The apparatus of construction machine heavy equipment stock 877 and excavator 845 to constitute the nuclear waste 224 to be buried in the polar glacier with the nuclear waste 224 treatment device;
Fission in the reactor (811) to form a conversion into another material; and structuring the deep buried bed or the bottom of the ocean with a nuclear waste (224) treatment device;
A dual tubular drum (220) containing a nuclear waste and a vessel for transporting the buried region to a nuclear waste (224) treatment device;
A double tubular drum 220 containing nuclear waste is mounted on a space rocket 612 on the upper surface of a barge deck deck 591 equipped with a space rocket 612 and a space rocket launcher 646 and is transferred to an outer space (1) of the nuclear power plant (1) of the marine power plant, and (2) the nuclear waste (224) treatment device Nuclear reactors for nuclear reactors Nuclear reactors Leakage control Dual structure block tank Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Leakage control Nuclear reactors 29. The method of claim 28,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
The nuclear waste disposal apparatus having the nuclear reactor main body 794 of the dual structure block tank control nuclear reactor radiation leakage control for the reactor plant of the nuclear power plant and the nuclear reactor of the nuclear fuel plant of the nuclear fuel plant of the nuclear fuel explosion control apparatus, And for forming a reactor maintenance guarantee, the apparatus comprising:
In case that the maintenance work of the nuclear power plant 672 in the inside of the reactor 811 of the nuclear power plant 671 takes longer than 3 months, it is necessary to install the reactor 811 in the main body 1 of the nuclear power plant 593,594,595, The boiler 783 of the thermal power generation is separately operated after the line is shut off by the safety valve 472 so that the connection structure is formed in the reactor power generation facility to supply the steam of high temperature and high pressure to further operate the emergency power generation, ) Maintenance of nuclear power plants by safe and continuous operation of nuclear power plant main body (1) of the marine power plant (593, 594, 595) (811), it is necessary to pay close attention to the workers in order to prevent radioactive contamination and ensure that the reactor can be repaired. In the dispensing device also different types of global nuclear reactor plant nuclear reactor plant operating nuclear radiation leakage control block double structure reactor tank for the dust collector main body of the alternative shield of nuclear waste processing plant characterized in that 29. The method of claim 29,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
A nuclear waste disposal apparatus having a nuclear reactor main body 794 of a nuclear reactor radiation leakage control double structural block tank reactor reactor nuclear reactor plant and nuclear waste disposal apparatus generated from a nuclear power plant of a distribution input apparatus of nuclear fuel explosion control apparatus ,
When the air contained in the inside of the building and the water contained in the water inside the reactor 811 is gas, the activated membrane type gas hold-up device 213 which weakens the radioactivity when the seizure type reactor 811 is activated, The ventilation of the plant is discharged through a plurality of symmetrical filters 214 while discharging the air, and all of the ventilated air is discharged from the exhaust tower 215 to the inside of the main body 1 of the nuclear power plant 593,594,595 of the marine power plant. And a nuclear waste disposal apparatus (224) for preventing the contamination of the nuclear radiation from the outside. The reactor nuclear plant of the global nuclear power plant, Controlled dual structure block tank Dispensing device of reactor main body 32. The method of claim 30,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
Around the launch pad of the satellite and the space rocket, a natural loess and a disaster prevention tool of 1 meter above the deck deck of the floating deck is laid on the deck deck with natural loess soil and disaster prevention material, When a circular ocher block is installed at a height of 15m at a height of 3m and at the same time a satellite and space rocket are fired at a satellite launch pad and a space rocket launch pad at the top of a deck deck, a huge amount of fuel is burned The high temperature and high-pressure combustion heat generated by high-temperature and simultaneous firing of satellites and space rockets is 60 m in diameter Circular ocher block The walls are equipped with a high-temperature and high-pressure combustion heat shield to protect the deck deck. At the same time, equipped with equipments, the tower crane is replaced with a small crane boom bar (942). m Block tank Tank Pipes Construction of bridge pylons Construction of bridge saddle-type frame (617) with provision of temporary positioning on the circumference of the launch pad and space rocket launching area, The manganese block (909) is laid on a deck deck at 2 m depth and the satellite and space rocket are fired to remove the floating saddle-shaped frame (617) A hydraulic rotary cylinder machine 619 and a hydraulic cylinder machine 624 are mounted on a small crane boom stand 942 of a tower crane substituting for a dead boat that can be used in the deep sea, ), While a plurality of hydraulic cylinders are provided, and the hull is retracted at two positions in front of the hull, (593,594,595) of the marine power plant is equipped with an anchor and anchor chain so that it can be used as a ship shelter for the marine anchorage. Nuclear reactors for nuclear reactors of nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, 32. The method of claim 31,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
Nuclear Reactor Leakage Control Dual Structure Block Tank for a Nuclear Power Plant Reactor Facility A non-equilibrium nuclear reactor facility body (not shown) forming a nuclear waste disposal system having a reactor body 794 and a distribution injector of a nuclear fuel explosion control apparatus 802,
The non-equilibrium type reactor reactor body 802 boils water to form a steam to form a turbine rotating operation. Inside the non-equalizing type nuclear reactor 802, fuel and water and a control rod 798 are injected into the reactor pressure vessel 813, And a pressure control pool 856 for confining water to the bottom of the pressure vessel 813 in the recirculation pump 855. The steam pipe 779 line outside the reactor comprises a turbine and a generator, The remaining steam is cooled by the condenser 790, and the water is returned to the inside of the reactor by the water pump to recycle the water into the reactor 809. At the same time, the cooling water 287 is circulated in the condenser 790 through the circulating water pump 858), the cooling water (287) is discharged from the condenser outside watertight to the buoyant poison (593,594,595) of the marine power plant. The double pipe structure of the block pipe line (74) The reactor is equipped with a regulator to provide a path for the transfer of nuclear waste. A number of temperature sensors for detecting radioactive contaminants. Temperature sensors for safety valves. Sensors are used to detect the temperature of the reactor inside the nuclear reactor at temperatures between 700 and 800 degrees Celsius Level sensor, the temperature and pressure sensor transmits an alarm message to the computer in the safety control room, and at the same time, a plurality of safety sensors for temperature and pressure sensing sensors are opened, and the pressure block internal piping line (74a) The nuclear waste is stored in each of the block tanks, and the temperature-sensing sensor safety valve 472 connected to the inner block tank at the lower part of the pressure vessel is opened. At the same time, the outer block piping line 74b is filled with the fuel Explosion Prevention Control Supplies Nuclear Fuel Explosion Prevention Control Equipment Auto Injector Flashing Warning Light ( 99, a pressure gauge 101, and a temperature sensor bimetal 102, and a thermostat thermometer sensor switch 103 having a connection structure. ) Piping line Automatic pneumatic valve conveying device 916 is provided with a connection structure with safety valves 472 so that a plurality of through holes are formed at a predetermined angle of 45 degrees on the upper portion of the reactor building 688 by a laser cutting machine and a construction machine drilling machine A plurality of safety valves 472 are connected to the bolt 24 and the nut 25 in the block piping line 74 while forming a double piping line 74 in a plurality of through holes at the same time while processing the through holes. A flange is connected to the gasket 32 and a double structure block tank 598 having a size twice the diameter of the reactor building 688 along the outer wall surface of the nuclear reactor building 688 is connected to the nuclear reactor The outer block tank 599 and the radiation- (681) inside the reactor core and outside the core (681) by means of a distribution input device of the nuclear waste disposal device and a distribution input device of the nuclear fuel explosion control device. (1) of the nuclear power plant of the ocean as a connection structure of nuclear reactor main body (811) as a nuclear fuel explosion prevention control article so as to prevent explosion of the nuclear fuel of the nuclear power plant main body (1) And the nuclear reactor is installed in the structure of the facility body 802 to further perform the operation of the nuclear power plant. The nuclear reactor radiation reactor leakage Controlled double structure block tank Dispensing device of reactor main body 33. The method of claim 32,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
Nuclear Radiation Leakage Control Dual Structural Block Tank for a Nuclear Power Plant Reactor Facility A pressurized water reactor reactor facility body 803 that forms a nuclear waste disposal apparatus having a nuclear reactor main body 794 and a distribution injector of a nuclear fuel explosion control apparatus ),
The pressurized water reactor reactor main body 803 does not generate steam to generate steam but generates hot water and exchanges water and steam in the steam generator to make steam turbine rotation while the pressurized water reactor 803 has a reactor pressure vessel A control rod, a steam generator and a coolant pump to the outside of the generator, and a turbine and a generator as an intermediate portion between the pressure vessel and the generator. The coolant is injected into the condenser, (593,594,595) of the marine power plant while simultaneously supplying water to the steam generator through the water pump connected to the condenser and discharging the cooling water to the water pump. The double piping line (74 ) To prepare a nuclear waste location channel through the use of a nuclear waste location control system, Temperature sensors of pollutants Pressure sensors of safety valves Temperature sensors of sensors When the temperature inside the nuclear reactor is 700 to 800 degrees Celsius and the pressure reaches the danger level of high pressure, At the same time as the alarm message is transmitted to the computer, a plurality of temperature and pressure sensor safety valves are opened, and the explosion nuclear waste is passed through the inner block piping line (74a) of each location to store nuclear waste in each block tank And the temperature-sensing sensor safety valve 472 connected to the inner block tank at the lower part of the pressure vessel is opened, and at the same time, the outer block piping line 74b is automatically supplied with the fuel explosion-proof control article stored in the inner block tank A device flashing warning lamp 99, a pressure gauge 101, a temperature sensor bimetal 102, (104) Flow meter for checking the flow rate (105) Pipeline line Safety valve (472) of the automatic pneumatic valve transport device (916) A plurality of through holes are formed in the upper layer of the reactor building 688 at a predetermined angle of 45 degrees by a laser cutting machine and a construction machine drilling machine, while a plurality of through holes are provided with a double pipe structure block pipe A plurality of safety valves 472 are connected to the block piping line 74 by bolts 24 and nuts 25 with a gasket 32 to form a line 74, A double structure block tank 598 having a size twice the diameter of the nuclear reactor building 688 along the circumferential surface is combined with the outer block tank 599 for nuclear waste processing storage and storage in a radiation type connection structure, Of distribution equipment and nuclear (681) inside the reactor core and outside the reactor core (681) to prevent the explosion of the nuclear fuel immediately before the explosion, and to control the inside of the nuclear power plant main body (1) of the offshore and offshore. (811) as a connection structure to prevent the deterioration of the nuclear fuel in the nuclear power plant main body (1) by injecting the prevention of nuclear fuel explosion into the structure of the pressurized water type reactor nuclear power plant facility (803) The nuclear reactor of the nuclear reactor of the present invention comprises a plurality of reactors installed in the nuclear reactor of the nuclear reactor, 34. The method of claim 33,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
Nuclear Radiation Leakage Control Dual Structure Block Tank for a Nuclear Power Plant Reactor Facility A multipurpose hot gas furnace reactor main body (794) for forming a nuclear waste disposal apparatus having a nuclear reactor dust collector main body (794) and a distribution injector of a nuclear fuel explosion control apparatus 805,
Using graphite as the moderator 819 and using helium gas as the coolant 816 while using enriched uranium and thorium as the fuel, the heat of the helium gas is transferred to the water and water and steam are separated from the steam drum where the steam is generated (593,594,595) of the marine power plant while simultaneously transferring the steam to the turbine through the pipeline while simultaneously generating the electric power within the generator by the rotation of the turbine. (74) to provide a nuclear waste location transfer passage to regulate the nuclear radioactivity contaminants into a plurality of temperature pressure sensing sensors. The temperature sensor of the safety valve detects the temperature of the inside of the reactor, When the level of 800 degrees and the pressure reaches the dangerous level of high pressure, the temperature and pressure sensor detects the alarm in the safety control room computer While the message is being transferred, the plurality of pressure sensors of the temperature sensing sensor are opened at the same time, and the nuclear waste is passed through the pressure block internal piping line 74a at each location, and the nuclear waste is stored in each location of the block tank. The temperature control sensor 472 connected to the lower inner block tank is opened and at the same time the outer block piping line 74b is connected to the automatic block device warning lamp A level pressure switch 104 for controlling flow rate check is connected to a thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 99 and a pressure gauge 101 and a bimetal sensor 102 for temperature sensing. 105) Pipeline line The safety valves 472 of the automatic pneumatic valve conveying device 916 are provided with a connection structure so that the upper part of the reactor building 688 has a constant A plurality of through holes are formed at an angle of 45 degrees by machining the through holes with a laser cutting machine and a construction machine drilling machine while a plurality of through holes are provided with a plurality of safety valves 472 A flange is connected to the bolt 24 and the nut 25 to the block piping line 74 by a gasket 32 and the flange is connected to the block piping line 74 along the outer wall surface of the reactor building 688 at twice the diameter of the reactor building 688 (598) to a nuclear waste disposal and storage outer box tank (599) in the form of a radiation-like connection structure, the nuclear waste disposal apparatus and the nuclear fuel explosion control apparatus as a dispensing apparatus, The nuclear reactor facility main body 811 is installed inside the reactor core 681 and outside the reactor core 681 to the interior of the main body 1 of the nuclear power plant on land and in the sea with nuclear fuel explosion- (1) Nuclear Power Plant Nuclear Fuel Explosion Prevention Nuclear Reactor Nuclear Power Plant Nuclear Reactor Nuclear Reactor Nuclear Reactor Leakage Control System (593,594,595) Nuclear power plant main body (1) Nuclear power plant operation Nuclear fuel explosion prevention is carried out by multipurpose hot gas to the structure of nuclear reactor main body (805) The nuclear reactor of the nuclear reactor of the present invention comprises a plurality of reactors installed in the nuclear reactor of the nuclear reactor, 35. The method of claim 34,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
Double Structure Block Tank for Nuclear Power Plant Reactor Facility The structure of the new reactor furnace facility main body 806, which includes a nuclear waste disposal apparatus having a nuclear reactor building and a dispensing apparatus for the fuel explosion control apparatus,
The reactor body 806, which is newly developed and attracts attention, is provided with a reactor which is capable of increasing the utilization of nuclear fuel much more than conventional nuclear reactors. As a coolant, As the water and steam are separated from the steam drum, the steam is transferred to the turbine through the piping. At the same time, the turbine revolves to produce electric power within the generator, while heavy water is used as the moderator. Neutral water does not absorb neutrons more than hard water Utilization efficiency of uranium has been increased so that natural uranium is mixed with plutonium as a fuel. Combined mixer machine is used to mix the fuel with rotating turbine, while the marine power plant's lifting plant (593,594,595) The double tubular block piping lines 74 located at Nuclear waste Location of channel Nuclear radioactive pollutants Multiple temperature pressure sensors Sensors of safety valves Temperature sensors of pressure sensors The temperature inside the reactor is 700 to 800 degrees Celsius and the pressure is at a high risk level Upon reaching, the temperature and pressure sensors transmit alarm messages to the computer in the safety control room, and at the same time, a plurality of safety sensors for temperature and pressure sensing sensors are opened, and explosive nuclear wastes pass through the pressure block internal piping line (74a) The nuclear waste is stored in each of the block tanks so that the temperature-sensing sensor safety valve 472 connected to the inner block tank at the lower part of the pressure vessel is opened and at the same time, the outer block piping line 74b is provided with the fuel- Control equipment Nuclear fuel explosion prevention control device is automatically inserted into the flashing warning light (99) A level pressure switch 104 for controlling flow rate check is connected to a thermostat thermometer sensor switch 103 having a connection structure between the system 101 and the temperature sensing sensor bimetal 102, And the safety valve 472 of the automatic pneumatic valve conveying device 916 is connected to the upper portion of the reactor building 688 to form a plurality of through holes at a predetermined angle of 45 degrees with a laser cutting machine and a construction machine drill machine, A plurality of safety valves 472 are connected to the bolt 24 and the nut 25 in the block piping line 74 while forming a double piping line 74 in the plurality of through holes, A double structure block tank 598 having a size twice as large as that of the reactor building 688 along the outer wall surface of the nuclear reactor building 688 is connected to the outer block tank for nuclear waste processing storage, (599) and radiation-type connection structure (681) inside and outside the reactor core (681) to prevent the explosion of the nuclear fuel immediately before the reactor explosion. The reactor main body 811 is connected to the inside of the main body 1 of the nuclear power plant so as to prevent the explosion of the nuclear fuel in the main body 1 of the nuclear power plant. Equipment Nuclear reactors Nuclear reactors of nuclear waste disposal system Shielding equipment Nuclear radiation leakage control Double structure block tank Reactor of the main body of the nuclear reactor (593,594,595) (806) so as to further perform the operation of the nuclear power plant. Chon nuclear several types of nuclear reactor plant operations replace nuclear waste disposal distribution of the nuclear reactor plant nuclear radiation leakage control block double structure reactor tank for the dust collector main body of the shield of a power plant input device 36. The method of claim 35,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
The structure of a fast breeder reactor facility body (FBR) 838, which comprises a nuclear reactor effluent leak control double structure block tank nuclear reactor main body 794 for a nuclear waste treatment reactor installation,
(593,594,595) Nuclear power plant main body (1) Inside the center of the fuel rod, uranium enriched in uranium-235 to about 20% is mixed with natural uranium and plutonium, surrounded by natural uranium This fuel rod contains plutonium from uranium 238, which is used as the next fuel while at the same time the coolant uses liquid metal sodium and there is no need to decelerate the neutrons so that the moderator does not contain the intermediate heat exchanger, (593,594,595) of the marine power plant (1) inside the main body of the nuclear power plant while the turbine rotates by changing the water into steam by the heat of the liquid or sodium, while the heat exchanger has the transition from the intermediate heat exchanger to the other liquid metal sodium The double tubular block piping lines 74 located at Nuclear waste location movement path by means of device Nuclear radioactive pollutants are detected by a number of temperature pressure sensors Temperature sensor of safety valve Sensors are located at the temperature of 700 to 800 degrees Celsius inside reactor and the pressure is high Level sensor, the temperature and pressure sensor transmits an alarm message to the computer in the safety control room, and at the same time, a plurality of safety sensors for temperature and pressure sensing sensors are opened, and the pressure block internal piping line (74a) The nuclear waste is stored in each of the block tanks, and the temperature-sensing sensor safety valve 472 connected to the inner block tank at the lower part of the pressure vessel is opened. At the same time, the outer block piping line 74b is filled with the fuel Explosion-proof Control Supplies Nuclear Fuel Explosion-Proof Control Products Auto-injector Flashing Warning Light (99) A level pressure switch 104 for controlling flow rate check to a thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 101 and a temperature sensing bimetal 102; And the safety valve 472 of the automatic pneumatic valve conveying device 916 is connected to the upper portion of the reactor building 688 to form a plurality of through holes at a predetermined angle of 45 degrees with a laser cutting machine and a construction machine drill machine, A plurality of safety valves 472 are connected to the bolt 24 and the nut 25 in the block piping line 74 while forming a double piping line 74 in the plurality of through holes, A double structure block tank 598 having a size twice as large as that of the reactor building 688 along the outer wall surface of the nuclear reactor building 688 is connected to the outer block tank for nuclear waste processing storage, (599) and the radiation- (681) and outside the reactor core (681) to the ground with nuclear fuel explosion-proof control equipment just before the reactor explosion. (1) of the nuclear power plant of the ocean as a connection structure of nuclear reactor main body (811) as a nuclear fuel explosion prevention control article to form nuclear power plant nuclear power plant main body (1) Nuclear reactors (Nuclear reactors) Nuclear reactors (Nuclear reactors) Nuclear reactors Leakage control Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors The nuclear reactor main body 838 and the reactor main body 838, Nuclear reactors of various kinds in the global nuclear power plant Nuclear reactors Nuclear reactors Nuclear reactors for shielding equipment Nuclear radiation leakage control Dual structure block tank Nuclear reactors Dispensing device 37. The method of claim 36,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
(593,594,595) of the marine power plant The structure of the disaster prevention device on the distribution side (705) of the disaster prevention line which hides the typhoon of the disaster prevention device constituting the inside of the nuclear power plant main body (1)
The unmanned camera 184 is connected to the rope knot claw 630 and the marine cable car 256 to the injection nozzle and the diaphragm rubber balloon 628 and the rope rope 629 in the seabed, A weather forecasting information gathering machine of a dual structure nozzle hose and a double structure fire hose (9) in a fire prevention pump (8) and a satellite firefly pipe (130) and a weather forecasting observation (958) (960) and the alternative use sail (959), the electronic control unit of the disaster control pump control system and the control system (150), and the air supply unit. In order to solve the warming phenomenon of the planet as a result of the structure, the earthquake caused by the vibration frequency of the sound and the earthquake in the earth and the disaster area of the sea in which the storm dwells is the artificial waterfall which replaces the connection structure of the cranes boom band (942) A radial, dense and dispersed submarine mineral deposit with air clouds (130), a sail substitute sail (959) and a tower cradle replacement tower crane The crane boom band (942) replaces the emission of water over the sea and over the sea. Sound vibration frequency, sound vibration and wavelength transmission, as well as the emission of blown water into the trunk canals and piping crevices. At the same time, At the same time, while disrupting the occurrence of severe typhoons, lightning arresters (500) are mounted on the Abber Run (77) and Airship (78) in the area where the cumulonimbus and stormy clouds stay with the disaster prevention devices on the distribution side (705) (840) The control tower of the mooring tower (644) is a meteorological observation equipment on the roof of the control room. The control tower is used to maintain the hull from lightning and lightning, (593,594,595) Nuclear power plant main body (1) Structure of disaster prevention device on the distribution side (705) of the disaster prevention line that hides the typhoon of the disaster prevention device into the inside of the main body (1) And the nuclear reactor operation is further carried out. The nuclear reactor nuclear reactor nuclear reactor nuclear reactor nuclear reactor nuclear reactor nuclear reactor nuclear reactor nuclear reactor nuclear reactor facility nuclear reactors reactor nuclear reactor nuclear reactor leakage control dual structure block tank reactors Dispensing device 37. The method of claim 37,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)
(593,594,595) of the marine power plant (593,594,595) The number of injected water jetted into the gap of the spray nozzle inside the main body (1) of the nuclear power plant is designed to simultaneously prevent natural harmful conditions To form a reciprocating pistonic air compressor 80 in order to reduce the power of the compressor 80. The compressor 80 is operated by an electronic control unit and is connected to a pressure reducing valve or a safety valve A motor pressure sensor, a belt conveyor, an air suction filter and an afforter cooler are provided on the motor belt of a predetermined size, which are provided together with the first pressure check sensor and the second pressure check sensor, The tank is provided with a cooling water inlet and attached to the upper end of the channel base of the bed frame to provide air with the injection nozzle to produce air, High pressure hose is connected to the high pressure hose. It is formed so that the rising air current and the descending air current of the typhoon can be controlled together with the fine dust of the sand by the supply coupling means with the top and bottom of the sea surface, It is formed so as not to lose restorative power freely from natural disaster of typhoon. In addition, while performing strictly the regulations of International Maritime Safety Association, at the same time changing the clearance of spraying water at the dropping point of falling spraying water, And it is an irrational action that forms a continuous jet of continuous dropping water while at the same time it is transforming into a hot, windy storm, with the number of drops dropping unceasingly like the artificial waterfall of the same level At the same time, these scenes are supported by an unmanned camera, (593,594,595) of the marine power plant to the main body (1) of the marine power plant in order to control the rising air current and the downward air current of the typhoon together with the dust dust, The unmanned camera 184 and the weather observation equipment radiosonde weather observing line 840 are mounted in the baskets 42 on which the piles are boarded and are connected to the disaster prevention nozzle 945 and the submarine line wiring 946 by an underground line Container for Container Control System provided with connection structure Nuclear radiation leak control (NO) by furnace brick (948a) of furnace for continuous operation of rubber tube (947) and furnace (948) The double structure block tank furnace dust collector main body 794 is furnished with furnace bricks 948a of the blast furnace to supply electric power of the nuclear power generation power, (949) for controlling the diving buoyancy, and a thermocouple thermometer switch (950) for the temperature sensor. The small-sized crane boom stand (942) The large hydrostatic generator 943 is connected to the Phelber aberration 943a of the large hydroelectric generator and the Phelton aberration 943b of the large hydrostatic generator to the pump aberration 943a of the large- (951) and a military equipment submarine (953) for the harmful redeye suction and dust collector, while supplying power to the production power by the water pump (952) of the non-powered pump for the energy- A computer laser cutting machine 954 was installed to monitor the facility maintenance of the main body 1 of the nuclear power plant 593,594,595 of the marine power plant, In order to lock down the inevitability of all the military actions and actions that propelled the Yeonpyeong bombing accident and nuclear frenzy experiment in World War II, the Korean War, and the Cheonan, And the imitated statues to reflect the past history deeply in the center of the iron triangle in the center of the Korean Peninsula by the peaceful coexistence of Northeast Asia and the 1,200 km in the radius, At the center of the Korean peninsula, 190 meters above sea level, the inner part of the peninsula is referred to as Northeast Asia No. 1, and the radius from the circumference of No. 1 Northeast Asia 400 meters, and the distance from the center of the Korean peninsula to a radius of 18 km is referred to as Northeast Asia No. 45, and one of the new concepts The total area of the United Nations national capitals is set to 1,000 ㎢ and the range of 600 km from the center of the peninsula is called 1500 Northeast Asia. The range of 1200 km from the center of the peninsula is called Northeast Asia 3000 and occupies the territory of peaceful sovereignty of ancient ancestors. (955), and at the same time, a wind turbine (957a) for offshore wind power plant (957), an underground line disaster prevention nozzle (945) and a submarine line wiring (946) (593,594,595) of the marine power plant while installing the sail (959) and the satellite weather forecast information collecting machine (960), and putting it into the structure of the disaster prevention device of the distribution side (705) The nuclear power plant of the global nuclear power plant, which is characterized by the fact that the safety operation of the nuclear power plant in the non- Movable replace nuclear waste disposal shield nuclear radiation leakage control device for nuclear reactor facilities of the building block double tank dispensing chute of the reactor main body dust collector 42. The method of claim 38,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)
(593,594,595) of nuclear power plant (593,594,595) Nuclear power plant (1) In accordance with the marine sovereignty line, it connects Russia's Bladibostok and Ulleungdo, and Dokdo to Pohang to transport energy resources and Yeosu and Jeju Island to marine tunnel , Connecting Pyeongtaek and Baekryeongdo with the Shandong Peninsula, connecting Pohang and the Japanese subcontinent to the marine tunnels, transforming into a one-day living zone, and at the same time, illegal fishing lines and illegal fishing vessels of other countries visiting the territory of the NLL Is a measure that can be passed by permission of access to the sovereignty area. The rope knot hooks (630) formed on the netting of the flagpole rubber balloon and the wire rope (19) Because illegal fishing boats can not pull nets after throwing nets into fishing grounds, they can restrict illegal fishing boats. (593,594,595) nuclear power plant main body (1) of a marine power plant is added to the structure of the disaster prevention device of the distribution side (705) constituting the utilization selection, so that the safety operation of the nuclear power plant in the non- Nuclear reactors of various types in the global nuclear power plant as a feature Nuclear reactors Nuclear reactors for shielding equipment Nuclear radiation leakage control Dual structure block tank Distribution distributor of main body of nuclear reactor dust collector 42. The method of claim 39,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)
(593,594,595) of the marine power plant (593,594,595) Inside the nuclear power plant main body (1), it limits the range from the ground to the upper reaches up to 29 Km. Several of the floating docks that were formed were equipped with military sensor sensors to enhance the monitoring function to prevent the production of military equipment. By constructing them, Pyongan Island and Hamkyeongdo nuclear weapons manufacturing facilities were helplessly used as nuclear missiles It is formed as a defensive missile attached to the net at the top of the firing position at the launching position. When the other party launches the missile, it automatically induces the self-explosion in the other region to abandon all military provocation actions. Immediately after the completion of the cadence, The peace-preserving message of the more powerful weapon, Pto Sho (958), was reinstated in each region within a radius of 1200km from the center of the Korean peninsula, fulfilling its duties in accordance with the rights and obligations of establishing a new federal state in Northeast Asia, It is located in the off-shore area. It is equipped with a military defense sensor detector and an anti-dust netting device, which are formed in a large number of floating docks, in the ocean and airspace. 1) into the structure of the disaster prevention device on the distribution side (705), thereby constructing the safe operation of the nuclear power plant in the non-disaster area. The nuclear power plant is equipped with various nuclear reactors. Nuclear Radiation Leakage Control for Nuclear Reactor Facilities of Shielding Device Double Structure Block Tank Reactor Main Body Distribution chute 41. The method of claim 40,
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 (593, 594, 595) of a marine power plant with a connection shaft provided for the connection structure of a shaft capable of disassembling coupling. The distribution side (705) of the nuclear plant main body manufacturing process of the nuclear power plant main body (1)
(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)
(593,594,595) Nuclear power plant main body (1) Vertical structure of typhoon with the number of straight discharge of disaster prevention line that hides typhoon inside 10 km from the top of the sea level. (SLD) In order to eliminate the cumulonimbus as it falls on the upper sea level, the disaster prevention water should be installed at the upper end of the northern pole and at the equatorial point of the dual structure disaster prevention equipment pipe level line (958) The crane boom zone (942) is provided to transport the rain clouds to the bottom of the sea 10 km below the sea level. By providing distribution input, natural disaster prevention like waterfalls without pumping in the sea is realized like artificial waterfall, The amount of atomic bomb dropped on Hiroshima is estimated to be one million. (942) of a tow crane replacement tower crane (942) as a connection structure with a pipe level piping line (958) for a dual structure disaster prevention system, the humanity of the global village will suffer from sadness and suffering The double structure high pressure hose 190 of 500 m in the upper part of the sea surface of the connection shaft provided in the manufacturing of the disaster control pump control system and the electronic control unit connection structure of the control system 150 is connected to the high pressure hose 190 (29) Several pipe-line lines are formed within a length of 10 km. Several pipeline lines are installed on the sides of floats. The tower crane is replaced by a small crane boom (942). A 10-kilometer jet stream So that the downward flow 926 is switched to the upward flow 925 so as to reduce the damage of land-based hurricanes. At the same time, By forming a drop jet from the upper part of the sea surface to the sea surface in advance with the image information provided by the satellite, the yellow loam mixture having discharge from several nozzles on pipe level piping line made of nonferrous metal with better efficiency than iron, In addition, the hazardous red tide breeding is provided in the main body (1) of the marine nuclear power plant, while at the same time providing the reactor with cooling water and toothpaste-like loess mixture, the position energy of the water is converted into the kinetic energy of the connection structure cooling water (287) Level mortar (927) inside the reactor inner core (681) and outside the reactor core (681), it will immediately prevent the reactor explosion and at the same time fulfill its duties in accordance with the rights and obligations under the new Korean Nation At the same time, the operation of nuclear power plants of mainland and offshore nuclear power plants (1) (593,594,595) to prevent sinking of the nuclear power plant main body (1) and to prevent the explosion of nuclear fuel and to construct the disaster prevention device of the distribution side (705) Nuclear reactors for nuclear reactors of nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, nuclear reactors, and nuclear reactors. Device 42. The method of claim 41,
(593, 594, 595) of a marine power plant The structure of the disaster prevention device of the distribution side (705) constituting the inside of the nuclear power plant main body (1)
(593,594,595) of the marine power plant Nuclear radiation leakage control dual structure block tank constituting the nuclear power plant main body 1 Reactor main body 794 and double structure block tank pipe bridge 929 Tunnel unit body 937 The distribution side (705) of the nuclear reactor plant main body manufacturing process of the nuclear reactor plant of the connection shaft provided for the connection structure capable of disassembling the shaft is installed inside the main body (1) of the nuclear power plant of the marine power plant (593,594,595) In comparison of the strong countries formed by the leaders of each country with the storks, the weaker countries should cooperate with each other in their efforts to live a better environment, and at the same time, the storks should not fall down to imitate the struggle, To imitate the stork's foot, and to prevent the legs from being damaged by gaps in both legs Tanks, bombers, bombs, bullets, satellites, missiles, nuclear bombs, and rocket bombs, all of which are distributed in the land, are designed to be internationally recognized as codes and norms, In order to save the world economy by fostering environmentally friendly pollution-free energy industry that uses electric power to overcome the global economic crisis, there is an accident of sinking the vessels in the voyage condition and the bombing condition of any bad condition. In order to prevent accidents from happening, a vessel for lifesaving equipment according to the 3D image design of the ship is being provided, while carrying out its duties in accordance with the rights and obligations of the establishment of a new federal state in Northeast Asia and at the same time, (948) to provide the support for marine power plants (593,594,595) Nuclear power generation (1) In order to reproduce the heavy equipment of the construction machine, it is included in the structure of the disaster prevention device of the distribution side (705) so that the safety operation of the nuclear power plant in the non- Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors

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