KR20170043487A - Marine steel works with metal smelting furnaces and construction machinery - Google Patents

Abstract

The present invention relates to a marine steel works with metal smelting furnaces and construction machinery and, more specifically, provides a marine steel works with metal smelting furnaces and construction machinery, which comprises factories having metal processing smelting furnaces and equipment for lifting metal, and comprises a collection process, a transportation process, a heat treatment processing process, or the like.

Description

[0001] Marine steel works with metal smelting furnaces and construction machinery [0002]

The present invention relates to a marine ironworks having a metal smelting furnace and a construction machine. More particularly, the present invention relates to a marine ironworks having a metal smelting furnace and a construction machine, A construction machine, a vehicle, a ship, a marine tunnel transport device, a flood control dock connected to the upper part of the deck (SDU), and a plant for preparing equipment for lifting the metal, Floating docking dock The distribution of manganese nodules and oil, gold, silver, glass, agate, amber, pearl, diamond natural gas, etc. contained in the marine capital goods constituting the deck bottom part (SDL) The present invention relates to a marine ironworks including a metal smelting furnace and a construction machine constituting a collection process, a transportation process, a heat treatment process process, and the like.

Generally, it is composed of ore or metals which are the resources of the sea that sleeps in the deep sea. The submarine mineral mass contains minerals such as manganese, nickel, copper, and cobalt. It is called manganese nodule because it has a large amount of manganese. Manganese nodules are called treasures. Crude oil and natural gas, which are other power resources, are materials that are used before crude oil alternative energy is used. Manganese nodule particles are generated in the 5000m seabed, which is more than the continental shelf area. Can be detected in oil, gold, silver, glass, agate, amber, pearl, diamond natural gas, and so on.

In particular, the above-mentioned marine capital goods are used for capital goods according to the classification of capital goods after passing through processes such as collection process, transportation process and heat treatment process, and marine capital goods within the territorial waters of the world's unique nations are subject to agreement and agreement The marine steelworks of the marine plant will be formed to maximize the development of the marine plant and to prevent disruption to the weather conditions with disaster prevention equipment. It is equipped with hydroelectric generators with buoyancy and subsea flow to provide bulk collecting process of capital goods, and it has a marine tunnel transportation system connected with the limitations to prevent sinking of ships, Floating docking dock is constructed in the upper part of the deck (SDU) of the hull, and the metalworking furnace and electric furnace It is composed of manganese nodule particles and oil, gold, silver, glass, agate, amber, pearl, diamond natural gas And the like, which are distributed in various regions of the ocean, are composed of a blast furnace for metal processing for marine capital materials and equipment for lifting the metal so as to constitute a collection process, a transportation process and a heat treatment process.

The furnace for metal processing for marine capital goods and the equipment for lifting the metal constituted by the inside of the above-mentioned marine steel mill are composed of crude oil, natural gas, and gold, silver, glass, agate, amber, pearl, diamond, ore or metals However, the conventional minerals collecting marine capital goods containing minerals such as manganese, nickel, copper, chromium, cobalt and the like include minerals such as engine generators, metals detecting crane Petroleum drilling rigs are used in the collection process for collecting detectors, construction equipment, vacuum aspirators, conveyors, and crude oil and natural gas.

The minerals collection line and petroleum drill ship equipment as mentioned above are used for collecting marine capital goods, ash collecting machine, submarine mineral picking robot, rotary table lathe machine for crude oil drilling machine, double structure piping line automatic pneumatic valve conveying device, Mineral picking troughs, tower cranes Seize crane boom, double structure block tanks Marine tunnel transport equipment, blast furnace furnace bricks, metal furnace furnaces with electrical furnaces, metal working furnaces on deck top deck (SDU) , And the mineral collecting line and oil drilling rigs form an apartment-like structure which is connected in a block unit which is set up on the deep sea floor.

Hereinafter, the equipment for marine capital goods will be described with reference to the drawings as follows.

1, there is shown a side sectional view of a manganese monolith, which is an undersea mineral resource buried in a conventional deep sea floor constructed inside the main body 1 of a marine steelworks according to an embodiment of the present invention, Of submarine development methods of construction Road,

As shown in Fig. 1, in the collection process of the existing marine capital goods,

In the upper part of the sea surface (SLU), marine capital goods that are sleeping on the sea floor are put into the mineral collecting vessels, and the individual collecting equipments formed in the respective vessels are used.

First, a picking process is carried out in which a chisel is rotated to suck up muddy water by cutting a lump of mineral,

Second, there are a collection process of dragging a ship to puddle or stone,

Third, a collection process of piling up mud or sand on the surface,

Fourth, there is a collecting process of cutting solid rock with a conveyor with a bucket,

Fifth, there are collecting processes that are piled up on the sea floor or grabbing stones, and they are collected in the seabed mineralization site of the seabed.

Here, since the depth of the ocean floor is different depending on the area, the mineral collecting line 1264 can be divided into two parts,

In the case of severe storm surges, it is necessary to give up the collection process and return to the coastal pier of land or ship, or to evacuate,

In the first collecting process, pumping is provided with muddy water with a pump, and capital goods such as coal, iron, diamond, tin, gold and silver, nickel, manganese and chrome of minerals resources having a larger diameter than the inlet pipe diameter are collected , Which is more likely to be lost due to being excluded from the study.

In the second collecting process, during operation of the mineral collection line 1264,

It is often the case that the rope connected to the basket is caught in the rock and the rope is disconnected,

In the third collection process, the same result as the first collection process is produced,

Fourth, in the collection process, the fifth process is the same as the capital goods being pumped up using the wellbore Torepak. The collection process as described above requires capital goods to satisfy the supply to the industrial society of the global village, The supply is very scarce reality.

For this reason, the capital goods collected for the mass production of ores or metals, which are the resources of the sea sleeping in the deep sea, are stored in the deep sea in order to enhance the quality of the metal materials after the heat treatment of the above- After the above-mentioned storage products are picked up by pick-up device and transported by ship, the necessity of supplying the stored products to each of the global villages with marine tunnel transportation equipment is emphasized, It is in the technical field that will be equipped with the equipment for the collection process of the deep seabed mineral resources for capital goods, and, of course, the necessity of equipment for collecting capital goods such as petroleum and natural gas is selected. (Hereinafter, the description of collecting equipment will be omitted)

Hereinafter, a blast furnace (shaft furnace) will be described with reference to the drawings as follows.

2, there is shown a view showing a scene in which a furnace 948b and a furnace 948 of a domestic domestic steel mill constituting an interior of a main body 1 of a marine steelworks according to an embodiment of the present invention are provided and melting iron ores Former mining smelting operation method configuration Road,

3, a conventional furnace 948 of a domestic steel mill constructed inside the main body 1 of a marine steelworks according to an embodiment of the present invention includes a furnace brick 948a of a furnace, a furnace 948b of a steel mill, Coke 948e, 948f, hot gas, 948g, water cooling, and 948h mats, which show the internal structure of the copper furnace 948d, the furnace 948c inside the steel mill, 948i) gas, a furnace 948b, and a furnace 948 to dissolve iron ore,

4, a blast furnace structure 948j constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention includes a blast furnace gas flow 948k, a coke 948l, 948m, a hot air stream 948n, a fresh iron 948o, a hot air tube 948p and slag 948q. The industrial electric furnace 948r is provided with accessories 948s of an industrial electric furnace, (948t) of the blast furnace, 948t of the domestic environmental technology of the domestic steel mill (948u), 948v of the operation method of the old domestic steel mill furnace, 948w of the domestic blast furnace operation method, (948x) of the working method of steel mill furnace (948x) as a side view, and the structure of the furnace (948j) constituting the interior of the main body of the steel mill (1) to melt the iron ore Existing mineral smelting working side-by-

5, an elemental industrial electric furnace partially showing an accessory 948s of an industrial electric furnace of a conventional industrial electric furnace 948r constituting the inside of a marine ironwork body 1 according to an embodiment of the present invention, The partial side configuration of the accessory 948s of the configured industrial electric furnace of Figure 948r,

6, an elemental industrial electric furnace partially showing an accessory 948s of an industrial electric furnace of a conventional industrial electric furnace 948r constituted inside the main body 1 of a marine steelworks according to an embodiment of the present invention, The partial side configuration of the accessory 948s of the configured industrial electric furnace of Figure 948r,

7, there are shown an accessory 948s of an industrial electric furnace inside the main body 1 of a marine steelworks according to an embodiment of the present invention, an accessory 948s of an industrial electric furnace constituting an elementary industrial electric furnace partially showing a cauldron and a lid 948t of a furnace, A partial strained configuration of the cauldron of the furnace and the lid 948t of the furnace 948r,

Referring to FIG. 8, an advanced environmental technology 948u of a domestic steelworks constructed inside a main body 1 of a marine steelworks according to an embodiment of the present invention, ) The partial strabismus configuration of the road,

9, the state-of-the-art environmental technology 948u of the domestic steelworks constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention, the operation method diagram 948v of the existing domestic steelworks furnace, And a structure 948j of a blast furnace which constitutes a domestic blast furnace working way 948w and a type 948x of a conventional foreign steel mill blast furnace working inside the main body 1 of the marine steelworks shown in side cross- The existing mining smelting operation side view showing the scene of melting iron ore.

10, the advanced environmental technology 948u of the domestic steelworks constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention, the operation method diagram 948v of the existing domestic steelworks furnace, And a structure 948j of a blast furnace which constitutes a domestic blast furnace working way 948w and a type 948x of a conventional foreign steel mill blast furnace working inside the main body 1 of the marine steelworks shown in side cross- Existing minerals showing the scene of melting iron ore Smelting Working side-by-side Diagonal configuration Road,

11, there is shown a conventional German (948ya) furnace, an American (948yb) furnace, and a free standing type (948z) furnace constructed inside the marine steelworks main body 1 according to the embodiment of the present invention Types of old blast furnaces (side furnaces)

12, the conventional hot air path 1265 and the cowork type hot air path 126 5b of the marine steelwork main body 1 according to the embodiment of the present invention, (Blast furnace) showing the clean gas pipe press burner 1265d, the combustion chamber 1265e, the blowing pipe 1265f, and the flue pipe 1265g,

13, there is shown a conventional mineral processing furnace structure 948j constructed inside the main body 1 of a marine steelworks according to an embodiment of the present invention, showing a scene in which iron ores are melted, Working Side View Straight Configuration Road,

Referring to Fig. 14, there is shown a conventional mineral smelting operation (see Fig. 14) showing a scene in which a kind of a conventional foreign steel mill furnace 948y constructed inside the main body 1 of a marine steelworks according to an embodiment of the present invention is melted, Side-way strabismus configuration Road,

15, there is shown a conventional coke oven layout 1266 constructed inside the marine steelworks main body 1 according to the embodiment of the present invention, in which a coal conveyor 1266a, a cargo ship 126 6b, an uprising pipe 1266c The extruder 1266g, the coke guide 1266h, the fire extinguisher 1266i, the main gas pipe 1266j, and the main air pipe 1266k. The main pipe 1266d, the main pipe 1266d, the main pipe 1266e, The previous mineral smelting operation side view showing the scene of melting iron ore,

16, there is shown a conventional mineral smelting operation (see FIG. 16) showing a scene in which iron ores are melted with a recent coke furnace (DKH type, 1267) constituted inside the main body 1 of the marine steelworks according to the embodiment of the present invention Side way construction Road,

17, the conventional sintering machine 1268 constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention is divided into a DeWorthroid 1268a and a Grünwald 1268b The second stage barg mill 1268d, the air and gas blower 1268e, the submerged lower chute 1268f and the submerged lower chute 1268b are connected to the parts constituting the dewatering type 1268a, A cooling device 1268k, a shaking conveyor 1268l, a light distribution conveyor 1268a, a light guide 1268g, a crane 1268j, a cooling device 1268k, A main exhaust 1268p, a main exhaust 1268p, a spool, a rocket 1268q, a pramper 1268r, a sinking 1268s, a spout 1268t, And sintered pot 1268v, a primary damper 126 8w, and a sintered pot 1268v. The sintered pot 1268v, the primary damper 126 8w, , A crane 1268x, a secondary vibration damper 1268y, a half light hopper 1268z, an air blower 126 8aa, an Efron conveyor 1268ab, a belt conveyor 1268ac, an exhaust introduction pipe 1268ad, , And a krisrye introduction pipe (1268ae) to show the melting of iron ore,

18, a part of the conventional flat plate 1269 constituting the inside of the marine steelworks main body 1 according to the embodiment of the present invention is provided with a small ceiling 1269a, a knuckle 1269b, 1269c, 1269c, 1269c, 1269c, 1269b, 1269c, 1269c, 1269c, 1269c, 1269c, 1269c, 1269c, 1269c, 1269d, Showing a scene in which iron ore is melted with a hearth front wall 1269k, a bow inlet 1269l, a regenerative lattice box 1269m, a year 1269n, a change plate 1269o and a damper 1269p Existing mineral smelting operation showing side-by-side construction roads,

19, there is shown a stoker 1270a, a hoist 1270b, a gas cooler 1270c, and a gas cooler 1270b, respectively, in the components of a conventional electrolytic apparatus constituted inside the marine steelworks main body 1 according to the embodiment of the present invention. Wow. The emergency stoker 1270d, the spray chamber 1270e, the venturi school lever 1270f, the primary separator 1270g, the PA venturi 1270h, the secondary separator 1270i, 1270j, an LD converter 1270k, and a suction fan fan 1270l to dissolve iron ores. In the present embodiment,

20, components of a conventional crack furnace 1271 constituted inside the main body 1 of a marine steelworks according to the embodiment of the present invention are provided with a regenerative chamber 1271b and a crack chamber And a burner (not shown) constituting an upper two-emission flush floor plan 1271f, and a burner (not shown) constituting an upper two-flame combustion floor plan view 1271f, which show a scene in which iron ores are melted by a skeleton 1271c, a skeleton 1271d and a bogie 1271e 1271g, a foot gas 1271h, a duct waste 1271i, a reboiler 1271j, and preheating air pipes to dissolve iron ore. A calorie burner 1271m constituting an upper two-emission topography elevation view 1271m, a wastewater 1271n, a working phase 1271o, an exhaust gas 1271p, a preheating air 1271q, a cold air 1271r ), A steel ingot (1271s), and a slaughter iron (1271t) to show the melting of iron ore The bottom two-emission flush plan view 1272 shows a scene of melting iron ores with an exhaust gas port 1272a, a lower dual flame retardant frontal view 12 72b and a low-flame combustion type 1273 Former minerals smelting operation side configuration Road,

21, in a conventional steel material heating furnace 1274 constituted inside the marine steelworks main body 1 according to the embodiment of the present invention, Showing a scene in which the continuous iron door 1274b, the subsidiary annulus 1274c, the cold air inlet 1274d, and the end faces 1274e of the double row indoor exhaust gas passage are melted and iron ores are melted. The three-piece formula 1274h, the two large-type large pieces 1274i, the two large pieces 1274j, and the two-piece formula 1274j are included in the classification of the mineral smelting operation side, The two flame dividing equipments 1274l and 1274m and the two flame dividing equations 1274m and 1274n and the two upper heating units 1274o and 1274o, 1274p), showing the scene of melting iron ore.

22, in the conventional small-sized furnace 1275 constituted inside the marine steelworks main body 1 according to the embodiment of the present invention, a direct-current type valve mold 1275a and a radiant tube type 1275b And an outer cover 1275c is formed with an outer cover 1275c, a cavity 1275d, a cylinder, an inner cover 1275e, a wire coil 1275f, A conventional mineral smelting operation side view showing a scene in which iron, iron, silicate (127 5g), burner (1275h) and recirculating fans (1275i) A radiator tube 1275k, a fan 1275m, an atmospheric gas outlet 1275n and an atmospheric gas inlet 1275o constituting the heating furnace 1275j, And a radiant tube burner sand room (1275p) to dissolve iron ore. In this embodiment,

23, in the conventional arc-type electric furnace 1276 constituted inside the marine steelworks main body 1 according to the embodiment of the present invention, an electric furnace structure 1276a and a furnace body 126b And an electrode 1276c constituting an electric furnace structure 1276c, a secondary wire 1276d, an electric furnace 1276e, a transformer 1276f, a tilting mechanism 1276g, a rotating mechanism 1276h, and melts the iron ore. The electrode 1276i constituting the furnace body 127b, the furnace brick 1276j, the furnace 1276k, A scene in which the iron ore is melted by the refractory 1276l, the louver 1276m, the seal level 1276n, the outlet 1276o, the stamp 1276p, and the refractory 1276q, The method of manufacturing the marine steelworks,

24, there are provided a preheating section 1277a, a heating section 1277b, a cooling section 1277c, and a cooling section 1277c in a tunnel yaw 1277 constituted inside the marine steelworks main body 1 according to the embodiment of the present invention. And the combustion front 1277d is an elemental prior art side-face configuration,

Referring to Fig. 25, there is shown a heat sensitivity diagram 1278 of a conventional tunnel furnace constructed inside the main body 1 of a marine steelworks according to the embodiment of the present invention, in which a preheating chamber 1278a, a combustion heating chamber 1278b, A cooling chamber 1278c, a flue gas heating furnace 1278d, a firing furnace 1278e, and a heated column 1278f of a heated object and a wagon to dissolve iron ore. ,

26, a conventional cement fired rotary furnace 1279 constructed inside the marine steelworks main body 1 according to the embodiment of the present invention is provided with primary air 1279a, fine coal particles 127 9b, The burner 1279c, the link cooling 1279d, the firing yaw 1279e, the secondary air 1279f, the secondary air preheating Tronmel 1279g, the raw material 1279i, the auxiliary combustion 1279j, A waste heat boiler 1279k, a flue gas discharger 1279l, an electrostatic precipitator 1279m, a dry trunmel 1279n and a chestnut raw material 1279o to dissolve iron ore. Side configuration Road,

FIGS. 1 to 26 are schematic views illustrating an embodiment of a conventional furnace for metalworking for capital equipment of steelworks and a conventional steelworks for melting the metal by the constitution of the present invention.

As shown in Figures 2 to 26, the blast furnace is a kiln used for melting ore and for drawing metal, usually made by stacking refractory bricks in a cylindrical form. It burns ore by putting it in a furnace and sending hot air from below to burn out the ore and the pure metal to go down and to separate it.It has the iron furnace, the copper furnace, the soft furnace, use.

A furnace used in a process (metal smelting refining) in which a gangue is separated from a metal ore to obtain a molten metal. It is an upright pile made of refractory bricks.

The ore fuel is injected from the upper part of the furnace and the hot air is blown from the lower part to burn it. The sagging is carried out on the upper surface of the furnace, and the metal is smelted and separated downward.

The attached equipment includes hot air (air heating furnace), preheating device for preheating, and dust remover.

The furnace that produces pig iron in iron ore is called a blast furnace due to its high height.

The furnace for non-ferrous metals is relatively small and has a rectangular cross-section, and other electric furnaces are constructed inside the main body 1 of the marine steelworks.

Referring to Fig. 27, there is shown a diagonal construction diagram of an electric motor pump for supplying diesel engine and generator electric power produced by the operation of a hydroelectric power plant constituted inside the main body 1 of a marine steelworks according to an embodiment of the present invention to respective compressors and pumps ,

Referring to FIG. 28, the operation of the nuclear power plant of the nuclear power plant for restoration before and after the failure during operation of the nuclear hydroelectric power generation control unit constituted by the interior of the main body 1 of the marine steelworks according to the embodiment of the present invention Inside the hydroelectric generator inside the hydroelectric power plant Francis aberration, pump aberration in Pelton aberration, turbine and guide vane Inside assembly model construction and modeling of pump aberration Road,

As shown in Figs. 27 to 28, an electric motor pump for supplying diesel engine and generator production electric power according to the operation of a hydroelectric power plant constituted inside the main body 1 of the marine steelworks by respective compressors and pumps, Operation of Nuclear Power Plant to Provide Recovery of Hydrogen in a Hydraulic Power Plant Showing the Conventional Configuration Internal Francis aberration, pump aberration in Pelton aberration and internal assembly models of turbine and guide vane Inside of a marine steelworks (1) Consists of.

29, there is shown a diesel engine external view constructed inside a marine steelworks main body 1 according to an embodiment of the present invention, and a model construction road showing an internal disassembling assembly of a motor motor,

As shown in FIG. 29, the outer shape of the diesel engine constructed inside the main body 1 of the marine steel mill and the disassembling and assembling models of the motor are formed inside the main body 1 of the marine steelworks.

30, there are shown a front sectional view and a front elevation view of a mouth type multi-stage pump constituted inside a main body 1 of a marine steelworks according to an embodiment of the present invention, a control block diagram showing a configuration of a multi- BF model; Speed control method, 3 pump direct start method configuration of the mouth type multi-stage pump operation method example,

As shown in Fig. 30, a control block diagram and a BF model showing the construction of the concept of a mouth type multi-stage pump internal front view and front view and a mouth type multi-stage pump system constituted inside the main body 1 of a marine steelworks; Speed control method, and 3-pump direct-start-start-type method, and is constructed inside the main body 1 of the marine mill.

31, there is shown a partial perspective view of a plurality of compressor moving compressors, a stationary compressor, and a multi-stage screw compressor constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention, Sectional view showing the side view of the compressor-moving compressor and the stationary compressor and the multi-stage screw compressor,

As shown in Fig. 31, there is shown a partial perspective view of a plurality of compressor moving compressors, a stationary compressor, and a multi-stage screw compressor constituting the inside of a marine steelworks main body 1, and a front section operation for fixing an underground anchor bolt The side view of the compressor, the stationary compressor, and the multi-stage screw compressor shown in FIG. 1, and is constructed inside the main body 1 of the marine steelworks.

32 is a perspective view showing a turbine pump 140 constituting the interior of a marine steelworks main body 1 according to an embodiment of the present invention. The prime mover 339 and the self- The diagram of the operation of the axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146 is shown in the block diagram. The viscous pump 343 and the viscous pump 343 are shown in a perspective view. As a side view,

32, a turbine pump 140 constituting the interior of the marine steelworks main body 1, an axial flow pump (not shown) of the propeller pump 146 in the prime mover 339 and the self- 341, a mixed-flow pump 342, a viscous pump 343, a viscous pump and an impeller.

33 is a side view showing the operation of the automatic collecting tank constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention,

As shown in FIG. 33, the operation of the automatic collecting tank constituting the interior of the main body 1 of the marine steelworks is constituted inside the main body 1 of the marine steelworks.

Referring to FIG. 34, a plurality of blades attached to a hydraulic pneumatic cylinder constituting the interior of the main body 1 of a marine steel mill, comprising a blast furnace for metal processing for marine capital materials and equipment for lifting the metal according to the embodiment of the present invention The configuration of the embodiment showing the operation assembly of the solenoid valve and the structure of the application method of the fluid pressure and the sensor technology according to the configuration of the sensor according to the configuration of the switch for detection,

As shown in Fig. 34, a plurality of solenoid valve operation assemblies attached to hydraulic pneumatic cylinders constituting the inside of the main body 1 of the marine steel mill, including a furnace for metal working for marine capital materials and equipment for lifting the metal, The sensor is composed of a sensor of the sensor for detecting and a method of applying sensor technology, and is constructed inside the main body 1 of the marine steelworks.

Hereinafter, the construction machine included in the method of manufacturing a marine steelworks will be described in detail.

A facility control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 constituting the inside of a main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

35, there is shown a hermetically sealed container for a marine capital goods construction machine, comprising a furnace for metal processing for marine capital materials and equipment for lifting the metal according to an embodiment of the present invention, Construction machine showing a construction machine A plurality of construction machines showing a position-regulating construction Diagonal construction of a bulldozer (855)

As shown in FIG. 35, a plurality of construction machine bulldozers 855 having a blast furnace for metal processing for marine capital materials and equipment for lifting the metal and constituting the interior of the main body 1 of the marine steel mill,

It is a soil construction machine that is equipped with a straight and angled type asphalt plate on the front part of the tractor and attaches an auxiliary device such as a ripper and a lute to the rear to cut soil and rock. As a compound term of the same bull and a machine for resting the bull, a construction machine 811c of a construction machine including a mineral collection facility 811, which provides a strong pushing work to release the bull from work, It is a construction machine equipped with distribution dispenser.

Usage of the doser will be described as follows.

As a general rule, the standard size of the doser is expressed by its own weight (ton or kg), ie its own weight. The economical working distance of the doser is 10100m. The distance between two dozers is less than 100m. As shown in the table below,

The power transmission sequence of the doser is shown in the following table,

The calculation of the workload of the doser is explained as the following table.

1) Workload per hour:

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

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

Blade (earth plate) Capacity:

here. Q : Blade capacity (m ³ )

B : Blade width (m)

H : Blade height (m)

 1 cycle time

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

A detailed description of the traction force is as follows.

Here, ((coefficient of friction)

( W : Vehicle weight (kg))

Traction horsepower (H)

only,

In the bulldozer 855 constituting the construction machine included in the mining collection facility 811 constituting the inside of the main body 1 of the marine steelworks,

A crawler type, a dozer 855a and a wheel type, a straight to a dozer 855b, an angle to a dozer 855c and a dilator dozer 855d, a dozer 855e and a hinge, a tree dozer 855g to a dozer 855f, (855h) equipped with Hydraulic Ripper (855i) construction machine connection structure,

Straight rake dozer which constitutes construction machinery is straight, roots are attached by attaching rake instead of shovel to dozer. It is used exclusively for rock excavation,

The back hoe that constitutes the construction machine is the pipe hole of the pipe wire. It is used for excavation of drainage,

The hydraulic ripper that constitutes a construction machine is used for crushing, roots, and rock scraping of grounds and pavements that are hard to excavate from hard and hard ground to blades,

The towing winch constituting the construction machine is used for traction of heavy wood,

Snow plows that make up construction machinery are used for snow removal work,

The sketch loader which constitutes a construction machine is used for carrying the round object of wood, pump, and loading of crane or heavy object. Used for loading and transportation,

The lock buckets constituting the construction machine are dedicated to the loading of rocks,

The shovel constituting the construction machinery is a shovel for constructing the minerals collection facility 811 of the marine steelworks of the hull locomotion control of the floating picker (593, 594, 595) of a small, medium and large scale marine steelworks, It is composed of construction machines that are equipped with a hull position moving construction machine and are constructed inside the main body of the marine steel mill (1).

A facility control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 constituting the inside of a main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

The power transmission device parts of the dozer constituting the construction machine are replaced with the earth moving device of the bulldozer attachment device located in the flood control room,

The power transmission device 855j of the dozer constituting the construction machine is provided with a suction pump 855k for the cam miscellaneous device, a cooling system 855m for the engine 855l and a sprocket 855o for the driven wheel on the final gear device 855n ) And a idler (855p) of a fluid wheel, a provisional clutch (855q), a power transmission unit of a dozer of a construction machine, and a construction machine of a mining collection facility (811) And the construction equipment included in the mineral collecting facility 811 constituting the inside of the marine steelworks main body 1 located at the upper part SDU of the hull dock hull deck 593,594,595 of the ship.

In the doser including the manufacturing method of the marine steelworks, the classification of the dozer equipment of the construction machine constituting the hull position moving construction machine control unit of the mineral collection equipment unit 811 constituting the dozer is described as the following table .

The crawler type dozer 855a and the wheel type dozer 855b are used as the crawler type crawler type crawler as shown in the following table.

In the dozer equipment of the construction machine included in the mineral collecting equipment unit 811, the infinite track system constituting the dozer equipment,

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

The use of traverse for wetland is very suitable for wetland work because of low grounding pressure. It is easy to work underwater to the depth where track can be locked by construction machine and dozer equipment of mineral collection facility (811) of marine ironworks.

In the construction equipment of the mineral collecting facility 811,

The wheeled ceremony of the tire can be operated on the flat surface or the pavement because the ground area is large and the grounding pressure is high so that it is impossible to work on the wetland and limb but the mobility and mobility are better than the infinite tracked type. It is effective as dozer equipment of machine.

In the construction machinery and dozer equipment included in the mineral collection facility 811 constituting the inside of the main body 1 of the marine steelworks,

In the sorting by the working device, the straight dozer 855c and the tilt dock 855d are separated by an angle and a dozer 855e,

The straight dozer is usually used as a dozer and can not be changed in shovel. It is used to cut the upper part of the bladed plate at an angle of 10 ° and to use for straight cutting and transferring. Using a hydraulic cylinder for up and down operation of the blade It is a machine that excavates with its own weight. It adjusts the pitch of the construction equipment of the mining equipment (811) of the marine steelworks, and adjusts the oyster force by 10 ° forward and backward angle.

The angle picker 855e to the mining collection facility 811 of the marine steelworks,

The blades are long and low and the position of the blades is changed by a required angle to the left and right so as to serve as a tilt dozer 855d, a straightener and a dozer 855c. In addition, It is used for slope cover work, cutting work, snow removal work, side burial work, trench reclamation work, pipe embedding work, hard ground side cropping work,

The tilt dozer can be used to work the slope angle of the blades with the slope of about 15c m each on the left and right with respect to the horizontal plane and at the same time to work on freezing land, hard land, side ditch excavation, rock stone rolling, V- Mineral collection facility of steel mill (811) It consists of dozer facility of hull locating and construction machine to adjust facility.

The construction machine and the dozer equipment constituting the mining equipment 811 of the marine steelworks include a shredder 855g and a hydridic ripper 855i in a rake dozer and a hinge and a dozer 855f The pusher, the dozer, the Tina and the dozer are subdivided into the U Dozer, and the Lake Dozer (855h) is a dozer equipped with a rack-type hook-and-loop attachment device instead of a blade. Applications include: It is used for construction machinery and dozer equipment which is included in the mineral collection facility (811), which is suitable for large scaffolding in the construction of dam and tree roots,

The tree doser 855g included in the mineral collection facility 811 constituting the inside of the main body 1 of the marine steelworks is suitable for opening and shutting operations,

The hinge and the dozer 855f are suitable for jetting, snow removal,

The Hydraulic Ripper 855i is used when the ground is hard and rigid, making it difficult to excavate. It is used when the excavation is difficult with the bulldozing soil board, when the rock or jade plow which is difficult to be blasted is removed and the asphalt pavement is destroyed, It is used as a dozer facility of the construction machine included in the mineral collection facility 811 constituted inside.

The push and dozer included in the mineral collecting facility 811 constituting the inside of the main body 1 of the marine steelworks is provided with the function of pushing the scraper from the back to give a pulling force in the operation of the scraper, The construction machine and the dozer equipment included in the mineral collection facility 811 of the marine steelworks main body 1 which is higher in speed than the infinite track type by the formula and dozer can increase the cargo volume, It is an advantage not to give.

U Dozer, which makes up the hull locating and construction machinery of floating carpentry (593,594,595) of small, medium and large sized marine steelworks that constructs construction machinery in the ocean inside the main body of the marine steel mill (1)

Since the blades are U-shaped, they do not overflow side-by-side, and are formed inside the main body 1 of the marine steelworks.

Inside the main body of the marine steelworks (1), there are galchari apparatus (861q), shell apparatus (861r), shovel apparatus (861s), scraping apparatus (861t), weighing apparatus (861u) (861v) equipped with a marine steel mill facility to control the movement of the hull of the small-sized, medium-sized and large-scale marine steelworks (593,594,595), which constitutes the construction machinery composed of the inside of the main body A construction machine is constructed inside the main body (1) of the marine steel mill,

The construction equipment cable cranes 861o are provided with all six devices 861p of the following crane, firstly a hook device 861q and secondly a clam s hell device A shovel 861s, a shovel 861s, a dragline 861t, a trench hoe 861u, Sixth, it is equipped with pile driver (861v) devices,

The cable cranes (861o) that make up the construction machinery are equipped with a construction machine to control the movements and disassembly of the hull position of the marine ironworks (593,594,595) of small, medium and large sized marine steelworks. Construction machine cable cranes (861o) In the facility,

The construction machine cable crane (861o) equipment is provided with all six devices 861p of the following crane.

The first one is a hook device 861q, the second is a clam shell device 861r, the third is a shovel device 861s and the fourth is a scraping device A trench hoe 861u and a pile driver 861v in order to provide the operation of the construction machine,

The cable cranes (861o) that make up the construction machinery are equipped with a construction machine to move and disassemble the hull position of the floating marine plant (593,594,595) of small, medium and large sized marine steelworks, A facility control unit 811a of a floating picket hood position shifting construction machine included in a mineral collection facility 811 constituted by a facility control unit 811a; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 36, a forklift 858 and a dump truck 860, which illustrate a construction of a transportation part construction machine of a hull position moving construction machine constituted inside the marine steelworks main body 1 according to the embodiment of the present invention, And a method of manufacturing a marine steelworks with a tamping roller 891 on a concrete batching plant 865 and a machine roller 889 and a trailer 894 on a tire roller 892. [

As shown in FIG. 36, the metal pickling furnace for marine capital goods and the equipment for lifting the metal are provided, so that the floating pick-up hood is moved in the mineral pick-up facility 81 1, The loader including the manufacturing method of the marine steelworks, in the equipment control section 811a of the construction machine,

It is a construction equipment which is called a loader and is equipped with a shovel device on the front of the tractor to load gravel, sand and dirt on the dump truck in the construction work. The standard specification (performance) shows the standard bucket capacity as m ³ do. The loader that constitutes the distributing and inputting device of the nuclear reactor facility is called a loader and is equipped with a shovel device on the front of the tractor. It is the construction equipment whose main purpose is to load gravel, sand and soil on the dump truck, As a display method, the standard bucket capacity is expressed in m ³ .

As shown in Fig. 36, the crawler type loader 857a (long crawler type = infinite crawler type = crawler type = shovel loader) is used as the sorting by the traveling method in order to classify the loader 857 constituting the construction machine. Is equipped with a bucket in front of a crawler tractor to perform work in a rugged swamp or sandy area and allows for underwater work. A wheeled loader (857b) (wheel type = tire type = wheel type) It has excellent maneuverability in a flat work place, it is easy to work on packed roads with high work performance ability, and semi-infinite crawler loader has one of the front and rear wheels,

It is equipped with tires on the other side, which compensates for the shortcomings of infinite track and wheel type. The rail type loader (857c) is a device that can travel on rails and loads in tunnels and mines. The classification of the ship control unit 811f by the loading system constituting the construction machine is shown in the following table.

The loading method of the loader 857 constituting the construction machine is shown in the following table.

In the other loader (857) equipment constituting the construction machine,

The Merck Loader, which makes up the construction machinery, is widely used in tunnel construction, and is used to load demolished debris from excavation works on a car,

The payloader that makes up the construction machine is used to load the dirt into the dump truck (860). It should be operated as slowly as possible and should not be raised during no-load operation,

The rail-type slack loader constituting the construction machine is a dedicated heavy-duty truck which loads the blasted slag in the car in the tunnel or the excavation work of the tunnel,

It is used for various tunnels, residential composition and limestone mining,

Screw x-carver making up construction machine is used for underground excavation work of city area, soil carrying work in factory or ship,

The following table shows the workload calculation formula for the bucket wheel excavator and belt loader as well as for the skid loader as a loading machine suitable for working in tunnels and tunnels.

A dump truck (860) constituting a construction machine The rear dump truck constituting a construction machine of the kind used is the truck which loads the load by tilting the luggage compartment backward,

The side dump truck 860 constituting the construction machine is a truck that tilts the load sideways to load,

The bottom dump truck (860) constituting the construction machine can be used for trailer dump trucks because the lower part of the jib can be opened and the load can be lowered,

The three-room open dump trucks that make up the construction machine are trucks that can load in three directions, and the calculation formula for the dump trucks is shown in the table below.

Calculating the required number of trucks:

Calculate truck workload:

here,

표시하고,구배저항(W_g)은

상기와 같으며,구동력(W_s)은

상기와 같다. 여기서,

In the running resistance of the dump truck 860, there is a calculation formula of the driving force for the rotational resistance and the spherical resistance, and the rotational resistance (W _r )

, And the gradient resistance (W _g )

As described above, the driving force (W _s )

The same as above. here,

It is possible to work in a narrow workshop with special dirt road truck which is equipped with a dumpter which constructs a construction machine, and it is used for the transportation distance of 1 km or more as follows. And the size is indicated by the weight (ton) indicating the traction force,

The tractor and trailer 860a is a machine that transports a tractor trailer 860a loaded with a heavy load or a bulldozer or roller of a construction machine and a tractor, and the traveling device of the tractor is a crawler type. Half crawler type, and wheel type.

As shown in FIG. 36, a steel tower is built on both sides of the mountain with a rope making up a construction machine constituting the inside of the main body 1 of the marine steelworks, and a machine for transporting cargo by arranging a carrier every 60 m And that it is not restricted by topography and road conditions, and that it is less prone to failure and is relatively easy to transport over long distances. It is used to transport materials of aggregate and cement in dam construction,

As shown in Fig. 36, the wagon constituting the construction machine constructed inside the main body 1 of the marine steelworks is similar to a motor scraper, but it is a machine that can not load soil by magnetic force and carries the gravel loaded from the loading machine The tractor drawer wagon is towed by the tractor. front. It is also called a full trailer (860a) with an axle and wheels attached to the rear end.

As shown in FIG. 36, the equipment is equipped with a forklift (85 8) facility that is built inside the main body 1 of the marine steelworks, and is a device for raising or lowering cargo. It is widely used in warehouses, The equipment being. This is effective for short-haul transportation and loading and unloading of hardened products. The standard display shows the capacity (in tonnes) that can be lifted (middle of 1 ton or more), and the characteristic feature is that the tilt lever installed in the cockpit The master can be tilted forward 56 ° (referred to as the front wrist), backward 10 ° 12 ° (referred to as the back wrist), height up to 4500 mm, minimum 3000 mm (referred to as maximum sheep)

As shown in FIG. 36, the minimum radius (steering angle of the inner wheel at 65 ° 75 °) is very small in the forklift 858 equipment constituted inside the main body 1 of the marine steelworks, and the pressure of the hydraulic piston is 110130 kgf / cm < ² >

All-wheel drive is provided in a rear-wheel-drive manner, and the steering device of the forklift 858 is provided with a rear-

A master bundle installation operating with hydraulic pressure (hydraulic pressure of 70130 kgf / cm ² ) is provided,

In operation, the fork is raised 150 m from the ground,

The travel distance is less than 250m, and the front wheel is installed directly on the frame. The rear wheel does not have suspension spring, but the large one uses suspension spring.

As shown in FIG. 36, the method of controlling the forklift (858) equipment constituting the inside of the marine steelworks main body (1) is suitable for efficient transportation within a transportation distance of 250 m or less. The height of the fork is about 150200mm,

The inclined land transportation is that the fork part (front part) is directed to the upper part and moves backward when the inclined point cargo is transported,

And a forklift (858) facility that adjusts and disassembles the hull of the marine small, medium and large marine steelworks (593,594,595).

As shown in FIG. 36, the conveyor 633 is installed in the main body 1 of the marine steelworks and is used mainly for transportation of materials and concrete. Since the equipment is easy and economical, it is widely used. The large conveyor that constitutes,

It is used for transportation of sand, soil, gravel and crushed stone. Screw conveyor is used for sand, cement and concrete conveying. Belt conveyor is most widely used for soil, crushing and aggregate transportation. Size: ton Portable conveyors are used to transport and collect sand gravel,

It is a wheel-type all-wheel drive vehicle capable of transporting under heavy traffic conditions such as mud, sand, and unevenness, while Unimog is an all-wheel drive vehicle for agriculture, It is widely used in various fields of civil engineering, snow removal and road maintenance. Hoisting includes a manufacturing method of a marine steel mill which is composed of a construction machine that carries and transports heavy materials.

As shown in FIG. 36, a compaction machine having two or more smooth drum rollers as independent devices having a voltage device with a roller 863 device constituting the interior of the marine steelworks main body 1 is also referred to as a voltage machine It is a construction equipment that is mainly used for roads, embankments, aerodromes and runways.

In the specification of the roller 863, the weight of the roller is expressed in tone, and when the standard of the roller 863 is 815 tons, the weight of the roller 863 is 8 ton and the load of the ballast is 7 ton. do.

As shown in Fig. 36, the types of the rollers 863 constituting the interior of the main body 1 of the marine steelworks are separated into a voltage type by an impact type and a pressing type by a vibration type.

As shown in the table above, the additional load (weight) of the urine site is called an additional load, which is the load of adding the additional load when the voltage capability is small due to the weight of the roller itself. and,

The additional load constituting the construction machine includes iron, water and sand. The tire roller is provided with an injection as necessary for the water tank,

The machine, tandem, and tamping rollers increase the voltage capability by injecting additional loads on the wheels.

As shown in Fig. 36, in the classification by the pressurizing system constituted inside the marine steelworks main body 1,

The voltage type compaction machine constituting the construction machine is separated into a road roller, a tire roller and a tamping roller,

The impact type compaction machine constituting the construction machine is separated by a rammer and a tamper,

The vibration type compaction machine constituting the construction machine is separated into a vibration roller 863a and a soil compactor 863b.

As shown in Fig. 36, the rollers according to the static pressure according to the type and characteristics of the rollers constituting the inside of the main body 1 of the marine steelmaking plant are made up of the road surface by the static self weight of the rollers, and the application of the machine roller 863c It is suitable for initial compaction in crushed stone (gravel) base layer, road surface, roadbed and asphalt pavement,

It is a differential gear that uses a differential gear to slow down the speed of the inner ring for smooth turning when turning a curve. It is mounted at the center of the rear axle and drives both wheels at different speeds when the curve is turned.

As shown in Fig. 36, the use of the tandem roller 863d constituting the inside of the marine steelworks main body 1,

It is suitable for the compaction of clay and clay soil. It is used for finishing of asphalt pavement and finishing work of asphalt pavement. Power transmission sequence is proceeding in order of engine main clutch transmission forward, reverse gear, differential gear type reduction gear rear wheel. It can not be used, and the driving drums are equipped with two-axis tandem and three-axis tandem with smooth fuel steel cylinders and wheels, and the compaction width can be widened separately from the operation of the front and rear wheels.

As shown in Fig. 36, the use of the tamping roller 863e constituting the inside of the marine steelworks main body 1,

It is used to repair the weak soil. The tamping roller 863e is constituted by a foot roller, a turn-up roller and a tape foot roller. The feature of the tamping roller 863e is that a plurality of projections are attached to a forced cylindrical wheel, Provide compromise.

As shown in Fig. 36, in the tire roller 863f equipment constituting the inside of the marine steelworks main body 1,

The tandem roller is equipped with tires instead of iron wheels. It is used for towing and self-propulsion. The construction equipment is used to constantly pressure the road surface during airfield runway and highway asphalt pavement. Air pressure of tires is 1.510kg / cm < ² > and the characteristic was that the traveling speed was very high.

In this way, the roller by centrifugal force is used to concentrate the surface by centrifugal force on its own weight, and the vibrating roller is used for compaction of crushed stone, gravel, soil, asphalt and concrete by vibrating the compaction wheel by vibrator. .

As shown in Fig. 36, the impact type compaction machine constructed inside the marine steelworks main body 1 is provided for chipping free fall impact, and the rammer is provided with a compaction foot on a two-stroke cycle engine body of a small internal combustion engine, Is a structure that changes the explosive force of a gasoline engine to a torque and then changes it to a reciprocating motion of a crankshaft and transmits it to a compaction plate through an elastic body of a spring. It is suitable for narrowing a narrow place and a road,

The soil compactor 863b constituting the construction machine is a compaction machine having a small gasoline engine and a device for generating vibration and a flat plate vibrator combined with each other. It is suitable for sandy soil and is inappropriate for clayey soil.

The equipments are the line pressure by the width (maximum butterfly) that can be made in one pass by the roller compaction width, the value of the ground weight of the wheel divided by the width of the wheel (k g / cm).

As shown in Fig. 36, the soil stabilizer 864, which is the same as that of the hearth safety unit constituted inside the main body 1 of the marine steelworks, is provided. road. It is an economical compaction stabilization method for airfield construction. It is a stable processing construction machine that can finish all kinds of work in real work at one time. Therefore,

(593, 594, 595) of the marine small, medium and large sized marine steelworks, the top of the holding tank top barge hull (591) and the bottom of the holding tank bottom barge The marine steelworks facility of the marine hydroelectric power plant floating structure (593, 594, 595) constituting the hull (592) is provided with a movement control and disassembling and assembling construction machine for the hull position and the connection of the electronic sensor valve hydraulic cylinder machine (624) And a screw adjusting portion 811h provided as a structure, and includes a manufacturing method of a marine steelworks.

Referring to Fig. 37, there is shown a six-unit device 861p of a crane that shows a construction of a transportation transportation section construction machine of a hull position moving construction machine constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention A method for manufacturing a marine steelworks for operation of a seawater device 861r on a galactic apparatus 861q and a piling device 861v on a scraping device 861t and a weighing device 861u on an inserting device 8 61s,

As shown in FIG. 37, in the specification (performance) display method of providing the construction machine constituted by the interior of the main body 1 with the furnace for metal processing for marine capital materials and the equipment for lifting the metal, the maximum hoisting load Tone (ton) shows the basic operation of the crane as shown in the table below.

As shown in FIG. 37, a working device, which is a six-unit device for a crane that furnishes a construction machine constituting the interior of a marine steelworks main body 1, including a furnace for metal processing for marine capital materials and equipment for lifting the metal, ,

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

Clam shells are suitable for soil loading work, vertical excavation work, dirt removal work, underwater excavation, hopper work and deep hole digging work,

The shovel (shovel) is suitable for the construction of the earth's crest, the slope of the slope, the loading of the earth and the foundation of the road,

The drag line (drag line) is suitable for embankment construction, drainage construction work, plank excavation and loading of soil to underwater work vehicle,

The trench hoe is suitable for drainage work, burial work, excavation work, mining work, pipeline work,

The file driver (pillar) is used for pillar-laying work on the foundation work of the building, and for the pagomatic pavement work of the bridge. The above-mentioned six cranes are the main equipment for assembling the marine steelworks facilities.

As shown in Fig. 37, the operating angle of the boom constituting the interior of the main body 1 of the marine steel mill with the furnace for metal working for marine capital materials and the equipment for lifting the metal is as follows.

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

And, when the weight of the object is heavy, the length of the boom is shortened and the angle is large when the crane is working.

Classification of cranes is classified into crawler type and truck type. Classification by traveling device is as follows.

*

37, the function of the drag cranes constituting the inside of the main body 1 of the marine steel mill with the furnace for metal working for marine capital materials and the equipment for lifting the above-

The structure and function of the tower crane are designed to be used in the construction of high-rise buildings such as steel frame assembly, loading and unloading of materials, It is a crane equipped with a hammerhead type truss. It is widely used in high-rise buildings and construction sites that require high use. The structure and function of a hydraulic crane is a mobile cranes The boom,

It is possible to expand and contract up to 510m and the hoisting load is usually 310 tons. Its usage is used for harbor loading and unloading work, civil engineering work, electric pole work, heavy lifting work,

As shown in FIG. 37, a derrick crane, which comprises a blast furnace for metal processing for marine capital materials and an equipment for lifting the metal, and constructed inside the main body 1 of the marine steel mill,

The derrick crane is used to put the trolley up by putting a heavy cable on the tower at both ends of the tower. The purpose of the derrick crane, which is made up of concrete or material for the dam construction,

The structure and function of the derrick crane are such that the boom is installed obliquely at the lower part of the steel mast, and the hoist rope is passed over the block, and the hoist is lifted up by the winch. The application is to assemble the steel frame, , Gyederik is capable of hanging loads on material beams, and has a large working radius and easy assembly and disassembly. Movement of heavy objects. The three-angle derrick, which constitutes the steel assembly work,

It is suitable for the roof work of the narrow place or the building and does not have the foundation. If it is installed on the wheel, it is easy to move, so it is used for pile hammer work, bridge construction and harbor unloading. (593,594,595) of small, medium and large sized marine steelworks which constitute the assembly and construction machine to the ocean, and the construction machinery of hull position movement control which provides the disassembly and assembly of the hull.

As shown in FIG. 37, a metal-working blast furnace for marine capital goods and equipment for lifting the metal are installed in the main body 1 of the marine steel mill to construct a small-, medium- and large- The tractor cranes constituting the hull position shifting control and disassembling assembly,

The crane is attached to the upper body of the shovel excavator first, and the following outriggers keep the safety and prevent the load from being applied to the tire, thereby preventing wear and tear from being caused by tires and spring loads The crane (= door crane) that constitutes the overhead running,

The crane is equipped with a running rail on the ceiling. It is used for the production and processing of concrete beams. The fixed type is used for loading work in factories and warehouses. However, it is not used for construction works. I use it a lot.

As shown in FIG. 37, a metal-working blast furnace for marine capital goods and equipment for lifting the metal are installed in the main body 1 of the marine steel mill to construct a small-, medium- and large- The chain block 648, which constitutes the hull position control and disassembly and assembly, can be pulled up to a maximum of 15t on for unloading. The safeguard during hoisting and peening work of the crane is a braking and limiting switch.

As shown in FIG. 37, a marine steel compact dock comprising the furnace for metal processing for marine capital materials and the equipment for lifting the metal, and the inside of the marine steelworks main body (1) And the marine cranes constituting the construction machinery of the hull locomotion control of the flood control console (593,594,595) of the medium and large scale marine steelworks,

Transportation and hypothesis of large steel structures of bridges. It is used for the transportation and installation of super-large facilities, for the transportation and installation of offshore structures,

A hydraulic crane 885 including a hydraulic crane 885 and a crane 888 having a cable crane and a clam shell attachment to a drag crane 887 and a tower crane 886 and a tower crane 886 constituting construction machines The name 886a of each part of the Gai derrick structure,

The triangle 886h constituting the construction machines is constituted by connecting the boom 886d to the boom 886b and the boom 886c with the turnbuckle 886f and the public network 886g to the boom 886b and the boom 886c,

The boom 886i and the boom 886j comprise boom foil 886k and leaks 886l,

The structure 887a of the drag cranes of the drag cranes 887 constituting the construction machines is provided with a hoist cable 887b and a letter cable 887d on the dump cable 887c and letter cables 887f on the lower boom 887e, The boom cable 887h and the cable roller 887i are connected to the cable roller 887g and the cable drum 887k and the cable drum 887l are connected to the boom hoist cable 887j by parallel weights 887m,

As shown in Fig. 37, in the structure of the crane 888 having the clam cell attachment structure inside the main body 1 of the marine steel mill with the furnace for metal working for marine capital materials and the equipment for lifting the metal,

The rack line 888f to the upper frame 888d and the lower frame 888e to the clam-cell bucket 888c on the holding line 888a and the opening and closing line 888b and the crowd 888h and the breech- A boom hoist rope 888j and a rear drum 888l and a parallel weight 888m are connected to the front drum 888k,

It is composed of small, medium and large sized marine vessels in the marine steel deck upper part (SDU) of the marine steelworks which constitute the movement control and disassembly assembly of the hull position of the floating marine steelworks of the small, medium and large scale marine steelworks (593,594, 595) (593,594,595) of the marine steelworks, and the mineral picking facility (811) which is composed of the construction machinery of the hull locomotion control of the marine steel mill inside the main body (1) of the marine steel mill. 811a, and a manufacturing method of a marine steelworks.

Referring to FIG. 38, there is shown a structure of a marine ironwork deck upper part (SDU) of a marine steelworks showing a transportation transportation part construction machine of a hull position moving construction machine constructed inside a marine steelworks main body 1 according to an embodiment of the present invention. A method for manufacturing a marine steelworks having a crusher (874) and a dredger (879) showing the construction of a transport conveying part of a construction machine of a hull position moving control of a steelworks flotation receiver (593,594,595)

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, In the construction equipment facility adjustment section 811a

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, The dredger 879 of the equipment control unit 811a of the construction machine,

The red 879i and the engine room 879j are connected to the blast tank 879g and the blast pump 879h to the red shear 879e and the spot 879f in the spot shear 879c and the cab or the adjustment chamber 879d, And the left and right front spots 879q and 879d are attached to the spot winch 879o and the bucket 879p in the bucket driving device 879m and the rear spot 879n constituting the dive dredger 879k and the grape dredger 879l, A plurality of construction machine connecting structures constituting a winch 879s and a belt conveyor 879u and a gravure 879v to an anchor storage 879t are connected to a marine steelworks dock hull deck upper part SDU A wire rope chain 915 is attached to the periscope 913 and the rubber balloon 914 to the submarine mineral intake collecting machine 911 and the submarine mineral collection robot 912 to the crude oil drilling machine 908 and the undersea mining net 910. [ ), A double-structure pipeline line automatic pneumatic valve conveying device 916 and a core drill 917 to collect the seabed mineral manganese nodule 909 .

Conventional dredgers constituting a construction machine,

It is the equipment that works for digging the soil in the water. Fermentation. In order to increase the water depth of rivers and waterways and to maintain water depth, we work on landfilling of shared water surface and basic construction of shaft construction such as rock wall and breakwater. Classification of dredger is divided into classification by type and ability, In addition,

The pump type constituting the construction machine is a non-visa type with the rated output of the drive engine,

The bucket formulas constituting the construction machine are the same as those of the main engine,

The dipper formations of the construction machinery are non-visa-free with bucket capacity (m ³ )

The grab form of the construction machine is the non-proprietary equation with the flat capacity (m ³ ) of the grab bucket.

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, In the construction equipment facility adjustment section 811a

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, The pump dredging line (879a), which is divided into electric turbine type and gas turbine type in electric and diesel type and construction and use of the dredger in the construction control device (811a) of the construction machine,

The construction and use of the dredgers that make up the construction machinery are equipped with a low-head pump line to transport soil to a toe line or to suck up soil and water when the delivery pipe is difficult to install or the long distance is long, It is used for dredging or landfill. The working range of the hull moving range is from 70 ° to 90 °, and the standard indication is expressed as the rated output (PS) of the drive engine.

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, In the dispensing and dispensing apparatus construction machine of the equipment control unit 811a of the construction machine,

The construction and use of the bucket dredger 879b, which constitutes the construction machine,

The soil is dredged with dredged soil by using a bucket conveyor in continuous submersible sand dredging. The dredged soil is transported by a toe line and used for the dredging of large-scale passageways and anchorage. The types are continuous and intermittent. The standard marking is indicated by the continuous rated output (PS) of the main engine. The characteristics of the dredger (879b) are shown in the table below.

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, The structure and use of the dredger dredger (879c) of the equipment control section (811a) of the construction machinery is used for dredging the hardened ground or the broken rock with strong excavation force. The standard indication is indicated by the bucket capacity (m ³ ) Are described as follows.

The submarine mineral manganese nodule 909 constructed by the construction machine is collected by a submarine mineral intake collection machine 908 and a submarine mineral deposit net 910 connected to an oil drilling machine 908 connected to an upper part SDU of a body dock, A wire rope chain 915 and a double structure pipe line automatic pneumatic valve transport device 916 and a core drill 917 are installed in the periscope 913 and the rubber balloon 914 in the submarine mineral extraction robot 911 and the submarine mineral collection robot 912, A facility control unit 811a of a floating pick-up hood position shifting construction machine included in a mineral collection facility 811 having sub-seabed mineral manganese nodules 909 as internal structures of a marine steelworks main body 1; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, The structure of the grab dredger (879d), which consists of the distributing device of the reactor facility of the nuclear hydroelectric plant of the small-sized, medium-sized and large-sized marine nuclear hydroelectric power plant of the construction machinery facility control unit (811a) For the purpose,

This equipment is used to dredge small ships or anchorage by using a special crane equipped with a clam shell on the ship. The standard marking is indicated by the grab bucket flat capacity (m ³ ) As shown in the table,

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, (593, 594, 595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constructed by the construction machinery of the construction machinery control unit (811a) of the construction machinery control the hull position shifting of the upper part (SDU) The construction and use of the grab dredger (879l), which constitutes the construction machine position control, is a device for dredging by means of a special crane by installing a clam shell on the ship and used for dredging small-sized lanes or anchorage. The bucket bucket capacity (m ³ ) is indicated by the following table.

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, The construction and use of the grab dredger 879d of the equipment control section 811a of the construction machine,

It is used to dredge a small-sized lane or anchorage by using a special crane equipped with a clam shell on the ship. The standard mark is indicated by the grab bucket capacity (m ³ ) Explain as follows.

The structure and use of the grab dredger 879l constituting the construction machine of the hull position movement control,

This equipment is used to dredge small ships or anchorage by using a special crane equipped with a clamshell on the ship. The standard marking is indicated by the grab bucket capacity in cubic meters (m ³ ) Explain as follows.

A mining collection facility 811 included in a mining collection facility 811 constituting the interior of the main body 1 of the marine steelworks so as to collect marine nets and manganese nodules 909 with a marine ironworks facility, A facility adjustment unit 811a of the control unit 811a; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, A construction machine position adjustment crusher 874 for controlling the hull position movement of the floating picker 593, 594, 595 of a small, medium and large scale marine steelworks of the construction machine facility control unit 811 a, and a crusher 874 A first jog crusher 874e of the crushing head portion and a second jaw crusher 874f located at the rear of the crushing chamber are connected to the feeder hopper 874c and the vibrating grease repettor 874d to the gillet crusher 874a and the chassis frame 874b, ) 874g and a drum elevator 874h, and is used as a crusher 874 for compaction of aggregate layers in road and concrete construction.

It is used to produce crushed stones, which are used in all crushing operations. It is mainly used for the production of aggregates. In the future, it will be subjected to primary screening process of submarine mining ore .

Thus, the types of crushers are separated into primary, secondary, and tertiary crushers. Explanations of the respective parts of the primary crusher will be described as follows.

Jaw crusher composed of construction machine is a machine that is crushed by compressive force. When rocks are inserted between Jaws on both sides, they are fixed and one side is fixed and the other side is operated to crush the price pressure The stone is pulled down by the gravitational force and pushing force.

Such a construction machine jaw is made of a structure capable of crushing any hard rock pomegranate with strong force.

The construction machine comprises a cast iron or steel casting machine comprising a frame lower eccentric shaft and a drive gear, and a crushing chamber of a cone shape at the upper part,

The crusher has a hard crushing head on the vertical forcing shaft, which crushes first while rotating and then discharges under the last crushing chamber.

The crusher constructed by the construction machine is less vibration than the jaw crusher and has the advantage of continuous crushing. It has the upper part of the machine as the discharge port and the lower part as the discharge port, so that the grit input hopper is installed to the dump truck There is an advantage that it can be loaded as it is.

The hammer crusher of the impact crusher is loaded with a large number of disks on one rotating shaft, and when a rectangular hammer is hung around the hinge, the hammer crusher hits the stone and is crushed by the striking force at this time .

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, The crusher of the secondary crusher constructed by the construction machine of the construction machine control unit 811a is constructed by arranging an umbrella-shaped cone head on a short vertical spindle, A stone strikes between the balls, and the lower stone is broken 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 dimension of the supply port is small, and the outlet gap size is the largest size of the crushed stones.

The hammer mill crusher's double-roll crusher has two light-hardening rolls fixed on separate horizontal shafts, and the gap 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.

The rod mill of the third crusher (874) constituted by the construction machine was to produce fine aggregate of 5m or less,

The ball mill of the construction machine is a machine for producing the broken milled stone and the ball mill as the aggregate of the recycled stone, and the rod of the short round rod is put into the forced round drum,

In this case, the fine aggregate is continuously supplied with water, and the drum is rotated to be pulverized and then discharged. In this case, the particle size is relatively uniform. When the water is small, it is crushed finely. When the water is small, Big. Wheat with water is wet, and dry without water is generally wet.

The construction of the ball mill is different from that of the rod mill, except that a steel ball is rotated in a cylinder to obtain a new aggregate. The standard marking indicates the crushing capacity per hour in tonnes (TPH (ton per hour) ].

As described above, a crusher is used as a machine for crushing and reducing crushed stones, and is used for all crushing operations. It is mainly used for aggregate production. The power source 46 of the engine generator 226 serves as a marine tunnel transport device 941 ), A number of construction machinery connection structures are used for crude oil drilling machine (908) and submarine mineral deposit net (910) connected to the upper part (SDU) of the dock hull deck A wire rope chain 915 and a dual structure pipeline line automatic pneumatic valve transport device 916 and a core drill 917 are constructed in the periscope 913 and the rubber balloon 914 in the machine 911 and the undersea mining robot 912 (909) seawall minerals manganese nodules collected by mechanical connection structures.

Since the rod mill of the crusher 874 constituting the construction machine produces the fine aggregate of 5m or less, the ball mill is a machine for producing the broken stone and the ball mill as the fine aggregate, The standard indication is to display the crushing capacity per hour in tonnes [TPH (ton per hour)].

As shown in FIG. 38, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, which is included in a mining collection facility 81 1 inside the main body 1 of the marine steelworks, A submarine mineral intake sampling machine 911 and a submarine mineral harvesting machine 911 are connected to an oil drilling machine 908 and a seabed mineral deposit net 910 connected to the upper part of a dock hull deck of a marine steelworks of a construction machine control unit 811a, A wire rope chain 915 and double structure piping line automatic pneumatic valve transport device 916 and a core drill 917 to a periscope 913 and a rubber balloon 914 in a robot 912 (909) As a machine for crushing and reducing raw stones, the rod mill of the crusher (874) is a ball mill which constitutes the production of fine aggregate of 5 m or less,

The rod mill and the ball mill constituting the inside of the main body (1) of the marine steelworks having the double structure block tanks are machines for producing the crushed stone as fine aggregate again, and the marine steelworks facilities having the double structure block tanks A facility control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 included in a mining collection facility 811 including the inside of a main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

39, there is shown a construction of a transportation transportation section construction machine of a hull position moving construction machine constituted by the inside of a marine steelworks main body 1 according to an embodiment of the present invention, a marine structure constituting an upper part of a dock hull deck (SDU) A plunger pump 148b of the plunger pump 148 is connected to the hydraulic tank 819 having a connecting structure and an excavator 856 showing the construction machine position adjustment structure of the hull position movement control of the hydroelectric power plant floating posture 593,594,595, And radial plunger pump (148c) Manufacturing method of marine steelworks of construction machine connection structure Straight configuration Road,

As shown in FIG. 39, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, and a mineral picking facility 81 1 constituted inside the main body 1 of the marine steelworks, An excavator 856 constituting the position adjustment of the construction machine of the hull locomotion control connected to the marine steelworks dock hull deck upper part (SDU) of the equipment control part 811a of the construction machine, and a hydraulic tank 819 having a connection structure, The hydraulic system 819 is connected to the heat plate 819a, the oil level meter 819b and the drain 819c, which are connected to the constriction plunger pump 148b and the radial plunger pump 148c, And the tank bottom plate 819d and the diaphragm 819e and the suction strainer 819f and the upper plate packing 819g and the suction port packing 819h and the suction port lid 819i and the tank upper plate 819j and the air blader / A tank leg plate 819l and cleaning window seals 819m, The hydraulic motor 820 and the hydraulic pump 821 are connected to each other so that the inside of the main body 1 of the marine steelworks having the double structure block tank is largely divided into a liquid type and a radial type depending on the relative relationship between the reciprocating motion direction and the driving rotation direction of the plunger. And is referred to as a rotary pump 337 constituting a pump or motor of the type,

The crank-type piston pump, which constitutes the rotary pump 337,

It can be thought of as a kind of radial type when it is classified as the motion of the piston but it is classified into one independent type because there is a considerable difference from other pumps in structure.

As shown in FIG. 39, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, and a mineral picking facility 81 1 constituted inside the main body 1 of the marine steelworks, In the rotary type pump 337 constituted by construction machines connected to the upper part (SDU) of the marine steelworks dock hull deck of the equipment control part 811a of the construction machine,

High speed operation (usually 3000 to 4000 rpm, larger than 15,000 rpm) is possible because the mass of the reciprocating part is extremely small or there is no reciprocating part at all.

Therefore, a relatively high-pressure, high-performance pump can be obtained.

Since the pump having a plurality of plungers is operated at a high speed, the pulsation of the delivery oil is extremely small and the vibration is relatively small, so that a relatively smooth operation is possible.

In addition, a variable-displacement type mechanism can be easily obtained.

As shown in FIG. 39, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, and a mineral picking facility 81 1 constituted inside the main body 1 of the marine steelworks, Marine mill dock plunger pump connected to the upper hull deck (SDU) for a construction machine equipment control part (811a) of the delivery pressure 700~350k g _f / cm ^2, songchulryang 10~50ℓ / min, the efficiency is usually 80-90% to be.

The crank-type piston pump, which is composed of the construction-machinery of the transport transportation portion 811c of the hull position moving construction machine of the nuclear power generation equipment section 811,

In recent years, there have been many low-speed and large-sized machines. Recently, high-speed rotation, high-pressure and small feed rate have been developed and are widely used for general industrial and special purposes because of their small size, high efficiency and simple structure.

The structure and features of the liquid type plunger pump 148a include,

The plunger is inserted into a cylinder block arranged in parallel with the axial center on a circumferential phase constituted around the axial center and reciprocates by a mechanism such as a tilt or swash plate between the axial center and the drive shaft to constitute a pumping action. We divide by large.

As shown in FIG. 39, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, and a mineral picking facility 81 1 constituted inside the main body 1 of the marine steelworks, The cylinder block constituting the cross section of the swash plate type axial pump connected to the upper part (SDU) of the dock hull deck upper part of the marine steelworks of the equipment control part 811a of the construction machine,

And the piston in the cylinder constitutes rotation together with the swash plate in accordance with the rotation of the drive shaft,

In the swash plate type constituting the cross section of the pump,

Since the structure is simple and the number of parts is small as compared with the boss shaft type, it is small and lightweight, and its price is low, and its structural rotating weight is concentrated around the shaft, so it is suitable for high speed rotation and is widely used in construction vehicles and cargo handling machines.

As shown in FIG. 39, a floating hearth crucible including a furnace for metal working for marine capital materials and equipment for lifting the metal, and a mineral picking facility 81 1 constituted inside the main body 1 of the marine steelworks, The marine steelworks dock of the construction machinery equipment control section 811a, the extension cable 861b, which consists of the hull locating construction machines connected to the upper part of the ship hull deck (SDU), the extender cable 861b, (861p) and drag cranes (887) Construction machinery connection structures, equipped with double structural block tanks in the control of the position of the construction machinery in the marine steelworks dock hull deck upper part (SDU) A seal 156 is attached to an axial bar formed inside a cylinder 126 used as a construction vehicle or a conveying machine constituting an inside of a marine steelworks main body 1, And a linkage 249 used as a connecting device to the crank 248 and a high pressure hose 190 of the high pressure hose 190, a coupling 29 and a crank 248 composed of valve devices, Which is included in the mineral collection facility 811 included in the main body 1 of the marine steelworks which is connected with the link stand 249 located at the upper portion SDU of the dock, A facility control unit 811a of the floating construction eccentric hull position moving construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 40, there is shown a structure of a marine steelwork dock top deck (SDU) of a marine steelworks showing a transportation transport construction machine of a marine steelworks main body 1 according to an embodiment of the present invention, A crawler-type dozer 855a of a bulldozer 855 showing the construction machine position adjustment structure of the hull position movement control of the hydro-power plant flood control 593,594,595, a straight dozer 855c and a derterator 855b on a wheel- A method of manufacturing a marine steelworks of a construction machine connection structure of an angled dipper 855e at a ditcher 855d, a tree dozer 855g at a hinge dozer 855f and a hydraulic hopper 855i at a rake dozer 855h. ,

As shown in FIG. 40, the marine metalworking furnace for marine capital material and the equipment for lifting the metal are provided, and the marine earthenware hull position shifting included in the mineral collection facility 81 1 constituting the inside of the marine steelworks main body 1 The attached equipment of the bulldozer connected to the marine steelwork dock hull deck upper part (SDU) of the equipment control part 811a of the construction machine,

The straight lake dozer, which constitutes an attachment of the bulldozer,

Straight, Dozers are attached to the rake instead of the shovel, roots are used only for excavation of rocks,

The back hoe that constitutes the attachment of the bulldozer is the buried hole of the pipe wire. It is used for excavation of drainage,

The hydraulic ripper which constitutes the attachment device of the bulldozer is used for crushing, roots and rock scraping of the ground or the packing which is hard to excavate with the blade from hard solid ground,

The towing winch constituting the attachment device of the bulldozer is used for the towing work of heavy wood,

The snow plow that constitutes the attachment of the bulldozer is used for snow removal work,

The skid loader which constitutes the attachment of the bulldozer is used for carrying the round object of wood, pump, and loading of the crane or heavy object. Used for loading and transportation,

The lock bucket constituting the attachment device of the bulldozer is dedicated to the loading of the rock,

The shovel constituting the attachment device of the bulldozer,

The hull location moving construction machinery of the nuclear power plant (811) of the marine power plant of the marine power plant with the control of the hull position movement of the floating portable harness (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants, And the facilities of the traffic transportation section 811c of the construction machine,

The attachment device of the bulldozer constituting the equipment of transportation and transportation can be replaced by attaching the attaching device and the suction pump 855k and the engine 855l for the cam other device constituting the power transmission device 855j of the dozer can be operated, A marine steel body (main body) provided with a cooling system 855m in a final gear device 855n and a dozer power transmission device part of a provision clutch 855q in a driven wheel sprocket 855o and an idler 855p in a fluid wheel, 1), a facility control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 included in a mineral collection facility 811; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

41, there is shown a marine power plant dock hull deck upper part (SDU) of a marine power plant construction machine of a hull position moving construction machine constituted by the inside of a marine steelworks main body 1 according to an embodiment of the present invention, Construction Machinery of Hull Locomotion Control of Hydraulic Power Station Floating Plant (593,594,595) Construction Machinery of Construction Machinery Connection Structure showing Control Structure of Construction Ocean Steel Construction of Straight Construction Road,

As shown in FIG. 41, the mineral collecting facility 811 included in the mineral collecting facility 81 1 including the furnace for metal processing for marine capital goods and the equipment for lifting the metal, A facility control unit 811a of a floating-position elevator hull position moving construction machine, A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

42, there is shown a marine power plant dock hull deck upper part (SDU) of a marine power plant construction machine of a marine steelworks main body 1 according to an embodiment of the present invention, A crawler type dipper 855a and a wheel type dump 855b showing the construction machine position adjustment structure of the hull position movement control of the hydroelectric power station floating picker 593,594,595 are installed on the excavator 856 and the skimmer 856f by a pile driver 882 ) Manufacturing method of marine steelworks of construction machinery connection structure Straight configuration Road,

As shown in FIG. 42, the floating pick-up hood is located in the mineral pick-up facility 81 1, which is provided inside the main body 1 of the marine steelworks, with a furnace for metal working for marine capital materials and equipment for lifting the metal. A crawler type dozer 855a and a wheel type docker 855a showing a construction machine position control structure of a marine steel dock lifting console connected to a marine steelwork dock top deck (SDU) of a marine steelwork docking station 811a of a construction machine, The excavator 856 in the excavator 855b and the ball constituting the main constituent part and role of the pile driver 882 and the scraper 859 in the skimmer 856f constitute a part of the scrapers 859 With the blade in the center, push the ball on the excavation surface with the operating device while advancing the blade with the blade on the lower side, and prepare the excavation and loading.

As shown in FIG. 42, the floating pick-up hood is located in the mineral pick-up facility 81 1, which is provided inside the main body 1 of the marine steelworks, with a furnace for metal working for marine capital materials and equipment for lifting the metal. It is called a carol, which is larger than a bulldozer that constitutes a construction machinery connection structure connected to the upper part of the ship's dock deck (SDU) of the marine steelworks in the control part (811a) of the construction machinery. It is possible to continuously perform five operations such as loading, carrying, laying, compaction, and the like, so that the equipment of each name of the motor grader 862, which is provided with the power transmission device parts of the dozer of the construction machine,

A cooling fan 862c is attached to the engine flywheel 862b and a transformer 862e and a fixed gear type transmission (not shown) are connected to the forward / And a motor grader 862 provided with a gear reducer 862i for the differential gear 862h and a tangential drive 862k for the disc brake 862j. The motor scraper that constitutes is a motorized tractor and a scraper which are combined with each other to make it more powerful. Since it is different from a motor that has power, it is possible to carry a lot of soil to excavation and excavation. To cut the ground surface of a flat terrain. Tosa 812. Cutting. load. carrying. It is possible to carry out the embankment work, and the main usage can not be carried by pushing with the soil 812 transportation operation.

As shown in FIG. 42, the floating pick-up hood is located in the mineral pick-up facility 81 1, which is provided inside the main body 1 of the marine steelworks, with a furnace for metal working for marine capital materials and equipment for lifting the metal. The standard of the motor grader 862 connected to the upper part of the marine steelwork dock hull deck (SDU) of the equipment control part 811a of the construction machine is expressed by m ³ (capacity) of the ball. Explain as follows.

[Comparison of pull type scraper (859a) and power type scraper (859b)

The Air Front (859c) facility, which is provided with transportation services for construction equipment,

The air prong (859c) is installed on the front of the ball, and serves to prevent the soil 812 of the ball from flowing down. In the case of loading and discharging, the hull position of the marine iron- And the power transmission devices of the construction machine dozer are combined with the structure of disassembling and assembly of the ball 859e and the cutting edge 859f in the air front 859c and the ejection 859d, Inside,

As shown in FIG. 42, the floating pick-up hood is located in the mineral pick-up facility 81 1, which is provided inside the main body 1 of the marine steelworks, with a furnace for metal working for marine capital materials and equipment for lifting the metal. In the ejector 859d equipment connected to the marine steelworks dock hull deck upper part (SDU) of the equipment control unit 811a of the construction machine,

It is located on the back of the ball, which is called a tailgate, and serves to push out the gravel in the ball,

In the yoke, it is a member that combines the ball 859e with the tractor.

 The workload of the skipper (braking type skipper)

Here, Q : the ball carrying capacity

* f : Conversion factor

E : Working efficiency of the scaler

C _m : Classify by cycle time.

The grader (862l) equipment is used for civil engineering work. It is mainly used for stopping work. It is a device to pick up ground by scraping the ground with blade plate (blade) and it is called equipment of earthwork machine. It is equipment used for finishing. Usage and specifications are indicated by the length of blade (blade) and the following table is used.

As shown in FIG. 42, the floating pick-up hood is located in the mineral pick-up facility 81 1, which is provided inside the main body 1 of the marine steelworks, with a furnace for metal working for marine capital materials and equipment for lifting the metal. The power transmission sequence connected to the SDU of the marine steelworks dock hull deck of the equipment control unit 811a of the construction machine is described as follows.

The parking brake of the motor grader 862 holds the lower shaft of the transmission and is externally contractible.

The power transmission procedure will be described in the following table.

As for the pushing angle and cutting angle of the blade, as shown in the table below,

The angle formed by the center line of the grader and the blade makes it possible to work on a hard ground in a small size and in a stopping operation in a range of about 70 ° to 90 °.

The cutting angle is an angle at which the cutting edge of the blade is inclined with respect to the cutting surface, and is small at the cutting operation. When stopping, the angle is adjusted so that the angle between the grader and the clayboard is adjusted to 45 ° and 60 ° when pushing the soil to the side, and 90 ° when finishing.

As shown in Fig. 44, the blade capacity will be described as the following table.

only. Q : Blade capacity (m ³ )

B : Blade width (m)

H : Blade height (m)

Minimum turning radius of the steering system

(단. L : 축 거리. : 킹 핀. : 외 측 바퀴 각 )

( L : Axis distance: King pin: Outer wheel angle)

Why there is no differential mechanism

The motor grader 862 that constitutes the movement control and disassembly assembly of the marine ironworks cargo stand includes an air plunger 859c, an ejection 859d, And a disassembling assembly of the ball 859e and the cutting edge 859f. The mineral collecting facility 811 includes the power transmission device parts of the dozer of the construction machine and constitutes the interior of the main body 1 of the marine steelworks A facility control unit 811a of a floating-position-dependent hull locating construction machine included in the mineral collection facility 811, A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

43, there is shown a transportation transport construction machine of a hull position moving construction machine constituted by the interior of a marine steelworks main body 1 according to an embodiment of the present invention. (861b) on the reactor and luther (856 g) showing the construction machine position control arrangement of the hull displacement control of the marine hydroelectric power plant flood control station (SDU) constituting the marine hydroelectric plant (593,594,595) 861p) and Dragcrane (887) Manufacturing method of marine steelworks of construction machinery connection structure Straight configuration Road,

As shown in FIG. 43, the metal-working blast furnace for marine capital goods and the equipment for lifting the metal are provided, so that the floating pick-up hood is moved in the mining collection facility 81 1, A shipyard excavator, which consists of a shovel-type excavator that consists of the transportation and construction machinery of hull locating and construction machinery connected to the marine steelworks dock top deck (SDU) of the control unit of the construction machinery (811a) , The upper rotating body is provided with a swivel and crane that constitutes a large number of operations as a multi-purpose machine, and a crane operation and a crane work which constitute a plurality of attachments, And the structure of the excavator (856) of the three major components is described as follows.

The outer structure of the excavator 856 and the excavator 856 are classified into a crawler type that constitutes the traveling device and a crawler type which is divided into a wheel type and a truck type on the basis of the traveling type, It is easy, easy to operate wetlands, limbs and slopes, has very good stability, is difficult to pave the way, has a slow speed of 3.2 km / hr,

The wheel type of the traveling device has a running speed of 40 km / hr and a working efficiency of 30% to 35% higher than that of the crawler type,

The truck mounted type that constitutes a traveling device has a good running performance at a traveling speed of 60 km / hr, but the working efficiency is low.

As shown in FIG. 43, the metal-working blast furnace for marine capital goods and the equipment for lifting the metal are provided, so that the floating pick-up hood is moved in the mining collection facility 81 1, Classification according to the operating method provided by the construction machines connected to the upper part (SDU) of the dock hull deck of the marine steelworks of the equipment control part 811a of the construction machine,

It is divided into manual type and hydraulic type by air type and electric type,

It is a small, medium, and large-sized separator. It is a limit to be able to be roundly loaded for transportation of small silver, railroad, and trailer.

A shovel with a bucket capacity of 0.6 m ³ or less and a medium-sized bucket capacity up to ³ m ³ crane anchorage capacity of 10 tons,

The large size is made up of those of a medium weight or more.

The performance display method of the excavator 856 constituted by the construction machines is represented by the capacity m of the buckets 856a, 856b, drag line 856c and clam shell 856e buckets,

The earth drill 856d is indicated by an excavation aperture,

The file driver 882 displays the weight of the hammer,

The crane 861 displays the maximum hoisting load as (t o n), and the workload calculation formula of the shovel 856b, backhoe 856a, drag line 856c, and clam shell 856e is as follows.

In the backhoe 856a distribution machine of the construction machine,

The backhoe (856a) constituting the dispensing device is used for excavation lower than the working position and is used for foundation excavation of the river and construction, excavating the lower side of the trench digging machine, and can be loaded on the conveying equipment higher than the machine. The backhoe 856a is suitable for disaster prevention and prevention piping line installation for preventing large-scale forest fire,

The power shovel constituting the distribution input device is suitable for excavation higher than the working position in the circular shape. It is used for cliff drilling.

The feature of the hydraulic excavator of the construction machine,

First, the structure is simple,

Second, the front is easy to exchange and travel,

Third, maintenance and driving operation is easy,

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

In the drag line 856c of the construction machine,

First, the work radius was large and it was easy to underwater excavation,

The next is to use the ground lower than the ground to excavate broad,

Then, it is used for harvesting the rivers,

Finally, it was not suitable for hardened ground or gravel extraction.

As shown in FIG. 43, the metal-working blast furnace for marine capital goods and the equipment for lifting the metal are provided, so that the floating pick-up hood is moved in the mining collection facility 81 1, The construction machine constituting the earth drill 856d connected to the upper part (SDU) of the marine steelworks dock hull deck of the equipment control part 811a of the construction machine,

The earth drill 856d constituting the construction machine is used for adjusting the on-site spreading by drilling a deep hole of a large diameter with no noise. The earth drill 856d is used for adjusting the on- The barge hull 592 is provided for installing the bridge,

The construction crane is used for unloading of heavy objects and for high construction work. Instead of bucket, the crane is equipped with a device for lifting heavy objects,

The file driver (882) equipment, which constitutes the construction machine,

It is used for putting concrete pile or sheet pile as a hovering tool,

The clam shell (856e) equipment constituting the construction machine was a clam shell device suitable for excavation of a certain place such as underwater excavation and explosion work, and it was used deeply for vertical excavation in a narrow place under the ground,

It is suitable for re-use of manganese nodule (909) and it is widely used to load gravel, sand and soil on dump trucks, and is not suitable for hard ground excavation.

The trenchers that make up the construction machinery are suitable for construction machines equipped to dig ditches.

The working range of excavators equipped with construction machines,

The maximum excavation depth is the distance from the 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 maximum horizontal distance of the bucket tooth from the center of the circle drawn when turning, The dump height is the maximum ground clearance.

The structure and function of the skimmer 856f provided by construction machines includes,

It is a construction equipment that slides off the surface of a bucket, which is composed of a boom on a revolving stand and is moved by the force of a chain. It is suitable for thin excavation in a narrow place. It is used for a thin excavation in a narrow place where it is difficult to work with a large machine. Respectively,

The structure and function of the Ripper and Luther (856g)

The Ripper and Luther (856g), which consist of construction equipment, are used when the ground is hard and rigid, making it difficult to excavate. It attaches to the back of a large bulldozer and uses its own weight of 23 toe scraper to scrape hard ground That is,

For its use, it shall be used for the removal of asphalt and concrete pavement, and for the removal of rocks or pomegranates.

Cranes (cranes, 861), which consist of construction machines,

It is called a crane. It is called a crane. It is used for lifting and lowering of heavy objects, crushing work by using other work equipment, heavy use for collecting waste iron and building construction, and moving and transporting of earth, stone, Hook, clam shell, dragline All the structures and basic three-part names used for the installation of the device are explained as follows.

The construction and name 861a of the crane 861 constructed by the construction machines are as shown in the drawings except for the hook 18.

As shown in FIG. 43, the metal-working blast furnace for marine capital goods and the equipment for lifting the metal are provided, so that the floating pick-up hood is moved in the mining collection facility 81 1, The Air Front (859c) equipment, which consists of the transportation and construction machinery of the hull locating construction machine connected to the upper part of the ship's dock deck (SDU) of the marine steelworks of the equipment control part (811a)

It is installed on the front surface of the ball constituting the air front 859c facility and the role of providing the gravel 812 of the ball not to flow down is set up in the stacking and saturation,

Ejector (859d) equipment, consisting of transportation and construction machines of hull locating construction machinery,

It is called a tailgate and is located on the back of the ball and serves to push out the gravel in the ball and to construct a space that is large enough to load the gravel.

The yoke constituting the construction machine is a member that combines the ball 859e and the tractor.

The amount of work of the scraper constituting the construction machine (braking scraper)

Wherein, Q: In view once soil carrying load capacity, f: Sat amount conversion coefficient and E: a scraper working efficiency and C _m: classifies the cycle time.

In the grader (862l) equipment constituting the construction machine,

It is equipment used for civil engineering and mainly used for stopping work. It is equipment to pick ground by scraping the ground by installing blade (blade). It is equipment called a planter of earthworking machine. It is used for finishing the ground smoothly In application and specification, the indication of use and performance is indicated by the length of blade (blade) and it is explained as below table.

The power transmission sequence that makes up the construction machine is explained as the table below.

The parking brake of the motor grader 862 constituting the construction machine holds the lower shaft of the transmission and is externally contractible.

The power transmission procedure will be described in the following table.

As for the pushing angle and the cutting angle of the blade constituting the construction machine, as shown in the following table,

The cutting angle is the angle at which the blade cutting edge is inclined with respect to the cutting ground, and is small at the cutting operation. The angle between the center line of the grinder and the blade is small in the hard land and is about 70 ° to 90 ° in the stopping operation. The angle between the grader and the clayboard is adjusted to 45 ° and 60 ° when the soil is pushed to the side and 90 ° when the clay finish is finished.

The following table describes the blade capacity of the construction machine.

only. Q : Blade capacity (m ³ )

B : Blade width (m)

H : Blade height (m)

Minimum turning radius of the steering system

(단. L : 축 거리. : 킹 핀. : 외 측 바퀴 각 )

( L : Axis distance: King pin: Outer wheel angle)

This is why there is no differential mechanism.

In order to enhance the straightness of the construction machine and to improve the finishing accuracy and to improve the efficiency, it is necessary to adjust the movement position of the hull position of the marine ironworks (593,594,595) The constituent motor grader 862 is constituted by the transportation and construction machines of the hull position moving construction machine,

And the power transmission device parts of the dozer of the construction machine constituted by the combination of the air front 859c provided by the construction machines and the disassembling assembly of the ball 859e and the cutting tail 859f in the ejection 859d, Construction of the hull position moving construction machine of the power generation equipment unit 811 The ripper and the lute 856g and the extensile cable 861b constituting the transportation construction equipment and the six all units of the crane 861p and the drag cranes 887 (593,594,595) of marine small-sized and medium-sized and large-scale marine steelworks constructed in the upper part (SDU) of the ship's dock hull deck, equipped with mechanical connection structure, And a power generation facility unit 811.

The shovel type excavator that constitutes a construction machine is a multipurpose machine that does many work by installing a front attachment in addition to using it as an excavating machine as the oldest used load machine.

Moving hull position Moving construction machinery Construction of shovel and crane that make up the construction machine and constructing various excavation work and crane work by exchanging various accessories, the upper rotating body can turn 360 ° The structure of the excavator (856) of the three major components is described as follows.

In the classification of the excavator 856 and the external structure of the excavator 856 constituting the transportation and construction machine of the hull position shifting construction machine of the mineral collection equipment 811, according to the classification according to the traveling equipment, The crawler type separates into a truck mounted type. The crawler type is easy to operate in a place with a large pulling force and narrow place. It is easy to operate wetlands, limbs and slopes, has excellent stability and is difficult to be paved and has a traveling speed of 3.2 km / hr ≪ / RTI >

The wheel type that constructs the construction machine has a good running of pavement and bridges, and is easy to move the workplace. It has a running speed of 40 km / h r and its working efficiency is 30% ~ 35% higher than that of the big roller type.

The truck mounted type of construction machine has a good running ability at a traveling speed of 60 km / h r, but it has low efficiency.

Transportation of the hull locomotion Transportation of construction machinery Classification according to the operation method of the construction machine is divided into manual type and hydraulic type by pneumatic and electric type. For size classification, it is divided into small and medium type, It is a limit of a limit that can be rounded for transportation of trailer. It has a weight of 20 tons or less. It has a shovel with a capacity of 0.6 m ³ or less and a bucket capacity of ³ m ³ with a bucket capacity of 10 tons. Gas weight is provided.

The performance indication method of the excavator 856 for providing the transportation and construction machine of the hull locating and construction machine includes the backhoe 856a, the power shovel 856b, the drag line 856c, the clamshell 856e bucket capacity ), The earth drill 856d constituting the construction machine is indicated by the excavation diameter, the pile driver 882 constituting the construction machine is represented by the weight of the hammer,

The crane 861 represents the maximum hoisting load in ton and the workload calculation formula of the shovel 856b, backhoe 856a, drag line 856c and clam shell 856e constituting the construction machine is as follows.

In the backhoe (856a) equipment of the construction machine providing the transportation and construction machinery of the hull locating and construction machinery of the mineral collection equipment unit (811)

The backhoe (856a) constituting the construction machine is used for excavation lower than the working position and is used for foundation excavation of the river and the construction. Excavation of the lower side of the trench digging machine is possible and it can be loaded on the conveying equipment higher than the machine. The backhoe 856a is suitable for disaster prevention and prevention piping lines for preventing large-scale forest fires,

The power shovel that constitutes the construction machine is suitable for excavation higher than the working position in circular shape. It is used for cliff drilling.

Compared with the mechanical rope type, which is a feature of a hydraulic excavator for constructing a transportation construction and construction machine of a construction machine, the construction is simple, the second is easy to exchange the front and the running, the third is the repair and driving operation It was simple and, at the end, superior to the machine rope type on all sides.

In the drag line 856c constituting the traffic transportation construction machine of the hull position moving construction machine, the drag line 856c constituting the scraping operation,

It was said that it had a large working radius and it was easy to underwater excavation. Next, it was used to excavate the ground lower than the ground, and then it was used for the harvesting of the river and it was not suitable for hard soil or gravel picking at the end.

As shown in FIG. 43, the metal-working blast furnace for marine capital goods and the equipment for lifting the metal are provided, so that the floating pick-up hood is moved in the mining collection facility 81 1, The earth drill 856d constituting the transportation and construction machine of the hull position moving construction machine connected to the upper part (SDU) of the dock hull deck upper part of the marine steelworks of the construction machinery facility control part 811a,

And it is suitable for the installation of a pier hull 592 at the lower end of the holding tank at the pier hull 591 at the upper end of the pillar tank.

The crane that constitutes a construction machine is used for unloading heavy objects, building high construction, installing a hook instead of a bucket, lifting a heavy object,

The pile driver 882 constituting the construction machine is used as a pile driving device for piling concrete piles or sheet piles,

The clam shell 856e constituting the construction machine was a clam shell device suitable for excavation at a certain place such as underwater excavation and explosion work. It was used for deep excavation in a narrow place under the ground, , It is widely used to load gravel, sand, and soil on a dump truck, but it is not suitable for hard ground excavation,

Trenchers that make up a construction machine are suitable for machines used to break ditches.

Hull Location Movement The construction of the excavator for the construction and transport of construction machinery is to be the maximum excavation depth from the surface to the tip of the bucket tooth when the tip of the bucket tooth is lowered to the lowest position, Work radius) is the maximum horizontal distance of the bucket tooth from the center of the circle drawn when turning, and the maximum dump height is the maximum ground clearance,

The structure and functions of the skimmer 856f constituting the construction machine include,

It is a construction equipment that slides off the surface of the bucket as the bucket is moved by the power of the chain along the boom on the swinging platform. It is suitable for thin excavation in a narrow place and is used for thin excavation in a narrow place where it is difficult to work with large machines. , The structure and function of the ripper and the router (856g) constituting the transportation and construction machinery of the mining equipment 811,

It is used in the case where the ground is hard and rigid and it is difficult to excavate. It is attached to the back of large bulldozer and is suitable for digging hard ground using 23 foot saw blades by its own weight. In its use, It was used for concrete pavement and hard rock removal in the removal of rocks or pomegranates.

The crane (crane, 861) is called a crane according to the equipment. It is used for lifting and lowering of heavy objects, crushing work by using other work equipment, heavy use for collecting waste and building construction, soil, stone materials and equipment used in civil engineering construction A hook, a clam shell, and a drag line are installed on the front of the vehicle for the purpose of movement and transportation of the vehicle, etc., the structure and basic three-part names are explained as follows.

The name of each part of the crane or crane structure constituting the construction machine, as shown in the drawings, except for the hook 18 and the structure of the crane 861 and the name 861a,

The upper frame 861h and the lower frame 861i are connected to the extension cable 861b and the breech 861d on the load system 861c and the May rope 861f and the boom hoist rope 861g on the boomboxes 861e, The hoist rope 861j and the front drum 861k are provided with intermediate drums 861l and 861m and the rear drum is provided with counterbalances 861n to provide a coupling structure.

The transportation crane 811c of the hull position moving construction machine of the mineral collection equipment 811, the cable crane 861o constituting the construction machine,

All six of the following crane devices 861q and 861r and shovel devices 861r and shovels 861s and 861t devices and scrapers 861u devices and pylons 861v) devices.

Moving the hull position of the mining equipment (811) Transporting and transporting construction machinery The standard way of displaying the performance is to display the maximum hoisting load in tonnes. The basic operations of the crane are as follows: same.

Moving hull position of mining equipment 811 The construction of the transportation equipment of the construction machine All six of the crane that provides the construction machine,

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

Clam shells are suitable for soil loading work, vertical excavation work, dirt removal work, underwater excavation, hopper work and deep hole digging work,

The shovel (shovel) is suitable for the construction of the earth's crest, the slope of the slope, the loading of the earth and the foundation of the road,

The drag line (drag line) is suitable for embankment construction, drainage construction work, plank excavation and loading of soil to underwater work vehicle,

The trench hoe is suitable for drainage work, burial work, excavation work, mining work, pipeline work,

The file driver (pillar) is used for pillar-laying work on the foundation work of the building and the bridge piling work of the bridge. The above-mentioned six cranes are a multi-purpose high temperature gas reactor for nuclear waste disposal and a marine nuclear power plant It is the main equipment for assembling.

Movement of hull position The driving angle of the boom which provides the transportation and construction machinery of the construction machine is as follows.

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

And, when the weight of the object is heavy, the length of the boom is shortened and the angle is large when the crane is working.

Classification of cranes is classified into crawler type and truck type. Classification by traveling device is as follows.

The location of the hull of the mineral picking equipment (811) The construction of the transportation and construction machinery of the construction machine is separated as follows according to the purpose of use and the function of the drag cranes is as follows:

The structure of the tower crane is used for the construction of the steel frame of the high-rise building, the loading and unloading of the material, and the loading and unloading of the harbor. It is a crane equipped with a head type truss. It has been widely used in high-rise buildings and construction sites where the height is required. The structure and function of the hydraulic crane are provided with a transportation transportation construction machine of the hull locating construction machine,

The boom can be extended and retracted up to 510m, the hoisting load is usually 310ton, and the application is used for the harbor construction work, civil works, electric pole works, heavy lifting works, and the structure and function of the cable crane silver,

The derrick crane, which constitutes the displacement control and disassembly assembly of the hull position of the floating portable harbors (593,594,595) of small, medium and large scale marine steelworks,

The derrick crane is used to put the trolley up by putting a heavy cable on the tower at both ends of the tower. The purpose of the derrick crane, which is made up of concrete or material for the dam construction,

The structure and function of the derrick crane are,

A steel boom is installed at the bottom of the mast by sloping the boom. The machine is used to hoist and move the weights of the weights with the rope passing through the block. The application is used for assembly of the steel frame, foundation work, The ability to hang loads on the beam or the work radius is large, the assembly is easy to dismantle and the loading and unloading work. Movement of heavy objects. The three-angle derrick, which constitutes the steel assembly work,

It is suitable for the roofing work of narrow places or buildings and does not have foundation. If it is installed on the wheel, it is easy to move, so it is used for pile hammer work, bridge construction and harbor unloading. 593, 594, 595) with hull position adjustment control and disassembly assembly.

The tractor crane, which constitutes the hull position movement control and disassembly assembly of the flood control console (593, 594, 595) of small, medium and large scale marine steelworks,

The crane is attached to the upper body of the shovel excavator first, and the following outriggers keep the safety and prevent the load from being applied to the tire, thereby preventing wear and tear from being caused by tires and spring loads The crane (= door crane) that constitutes the overhead running,

The crane is equipped with a running rail on the ceiling. It is used for the production and processing of concrete beams. The fixed type is used for loading work in factories and warehouses. However, it is not used for construction works. I use it a lot.

The chain block 648 constituting the hull position control and disassembly assembly can be pulled up to a maximum of 15 tonn for unloading, and the safety device for hoisting and unclamping of the crane is a brake and limiting switch.

The offshore cranes constituting the construction machinery of the hull locomotion control of the marine small-sized, medium-sized and large-scale marine nuclear hydroelectric power station (593,594,595) constituting the upper part of the marine steelwork dock hull deck (SDU)

Transportation and hypothesis of large steel structures of bridges. It is used for the transportation and installation of super-large facilities, for the transportation and installation of offshore structures,

A hydraulic crane 885 including a hydraulic crane 885 and a crane 888 having a cable crane and a clam shell attachment to a drag crane 887 and a tower crane 886 and a tower crane 886 constituting construction machines The name 886a of each part of the Gai derrick structure,

A boom 886d and a boom 886e are connected to a turnbuckle 886f and a public network 886g at the guide side 886b and the side 886c,

The triangle 886h, which constitutes the construction machines,

The boom 886i and the boom 886j comprise boom foil 886k and leaks 886l,

The structure 887a of the drag cranes of the drag cranes 887 constituting the construction machines is provided with a hoist cable 887b and a letter cable 887d on the dump cable 887c and letter cables 887f on the lower boom 887e, The boom cable 887h and the cable roller 887i are connected to the cable roller 887g and the cable drum 887k and the cable drum 887l are connected to the boom hoist cable 887j by parallel weights 887m,

In the structure of the crane 888 having a clam cell attachment constituting construction machines,

The rack line 888f to the upper frame 888d and the lower frame 888e to the clam-cell bucket 888c on the holding line 888a and the opening and closing line 888b and the crowd 888h and the breech- A boom hoist rope 888j and a rear drum 888l and a parallel weight 888m are connected to the front drum 888k,

The marine steel dock, which controls the movement and disassembly of the hull of the oceanic small and medium sized marine steelworks (593,594,595), is located at the upper deck (SDU) of the ship. The small, medium and large marine steelworks (593, 594, 595) equipped with a construction machine for adjusting the position of the hull, a furnace for metal processing for marine capital materials, and a device for lifting the metal, The name of each part of the crane or crane structure constituting the construction machine connected to the marine steelworks dock hull deck upper part (SDU) of the facility control part 811a of the floating cargo hood position shifting construction machine 811a included in the float 811,

An extension cable 861b constituting a crane structure, a breech 861d in a load system 861c, a canopy 861f in a boombox 861e, an upper frame 861h in a boom hoist rope 861g, The frame 861i is provided with a hoist rope 861j and an intermediate drum 861l on the front drum 861k and a balance structure 861n on the rear drum 861m to constitute the inside of the marine steelworks main body 1 The facility control section 811a of the floating construction harvester hull position moving construction machine included in the mineral collection equipment section 811 and the ocean hydro-nuclear power generation production control section 811b for providing the power production, and the nuclear waste processing A ship control section 811f corresponding to the portable jet and a submarine 811e corresponding to the life jet structure shutdown prevention control section 811d, a lifesaving anti-sundown prevention control section 811e, and a submarine submarine transit railway substation 811c, The resource transport portion 811g and the electronic sensor valve screw adjusting portion 811h Including the preparation of marine steel mill and has been configured.

44, there is shown a traffic transportation construction machine of a hull position moving construction machine constituted by the inside of a marine steelworks main body 1 according to an embodiment of the present invention. The hull position moving construction machine control part of a marine steelwork dock hull deck upper part SDU) of a fork lift truck 858 and a trailer 860a of a dump truck 860 to a loader 857 showing a construction machine position adjustment arrangement of a hull locomotion control of a marine hydroelectric power station floating picker 593,594, A method of manufacturing a marine steelworks connected to a structure.

As shown in FIG. 44, there is provided a mineral collecting facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, and is constructed inside the main body 1 of the marine steelworks, A loader 857, a forklift 858 and a dump truck 860 constituting a transportation transportation construction machine of a hull locating construction machine connected to a marine steelworks dock hull deck upper part (SDU) of a machine facility control part 811a, (860a) The loader that constructs the marine steelworks with the construction machinery connection structure,

It is a construction equipment which is called a loader and equipped with a shovel device on the front of the tractor to load gravel, sand and soil on the dump truck.

First, the standard bucket capacity is expressed in m ³ as the performance specification. The loader, which makes up the marine steelworks,

It is a construction equipment which is called a loader and equipped with a shovel device on the front of the tractor to load gravel, sand and soil on the dump truck.

First, the standard bucket capacity is expressed in m ³ as the performance specification.

The crawler type loader 857a (long crawler type = infinite crawler type = crawler type = shovel loader) is used as the classification by the traveling method in order to classify the loader 857 constituting the traffic transportation construction machine of the hull position moving construction machine, Is equipped with a bucket in front of a crawler tractor to perform work in a rugged swamp or sandy area and allows for underwater work. A wheeled loader (857b) (wheel type = tire type = wheel type) It has excellent maneuverability in a flat work place, it is easy to work on packed roads with high work performance ability, and semi-infinite crawler loader has one of the front and rear wheels,

It is equipped with tires on the other side, which compensates for the shortcomings of infinite track and wheel type. The rail type loader (857c) is a device that can travel on rails and loads in tunnels and mines.

As shown in FIG. 44, there is provided a mineral collecting facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, and is constructed inside the main body 1 of the marine steelworks, The following table shows the classification by the loading system constituting the transportation and construction machinery of the hull position moving construction machine connected to the upper part (SDU) of the dock hull deck of the marine steelworks of the machinery control part (811a).

The following table shows the loading method of the loader (857) constituting the traffic transportation construction machine of the hull locating construction machine.

Other loader (857) equipment constituting the transportation and construction machinery of the hull locating and construction machine of the mineral collection equipment unit (811)

The Merck Loader, which makes up the construction machinery, is widely used in tunnel construction, and is used to load demolished debris from excavation works on a car,

The payloader that makes up the construction machine is used to load the dirt into the dump truck (860). It should be operated as slowly as possible and should not be raised during no-load operation,

The rail-type slack loader constituting the construction machine is a dedicated heavy-duty truck which loads the blasted slag in the car in the tunnel or the excavation work of the tunnel,

It is used for various tunnels, residential composition and limestone mining,

Screw x-carver making up construction machine is used for underground excavation work of city area, soil carrying work in factory or ship,

The following table shows the workload calculation formula for the bucket wheel excavator and belt loader as well as for the skid loader as a loading machine suitable for working in tunnels and tunnels.

And a dump truck (860) constituting a transportation transportation construction machine of the hull locating construction machine of the mineral collection facility (811).

A dump truck (860) constituting a construction machine The rear dump truck constituting a construction machine of the kind used is the truck which loads the load by tilting the luggage compartment backward,

The side dump truck 860 constituting the construction machine is a truck that tilts the load sideways to load,

The bottom dump truck (860) constituting the construction machine can be used for trailer dump trucks because the lower part of the jib can be opened and the load can be lowered,

The three-room open dump trucks that make up the construction machine are trucks that can load in three directions, and the calculation formula for the dump trucks is shown in the table below.

Calculating the required number of trucks:

Calculate truck workload:

here,

표시하고, 구배저항(W_g)은

상기와 같으며, 구동력(W_s)은

상기와 같다. 여기서,

In the running resistance of the dump truck 860, there is a calculation formula of the driving force for the rotational resistance and the spherical resistance, and the rotational resistance (W _r )

, And the gradient resistance (W _g )

As described above, the driving force (W _s )

The same as above. here,

Mineral Collecting Equipment (811) Hull Location Moving and Construction of the Construction Machinery It is possible to work in a narrow workplace with a special off-road truck for short-haul transportation with a dumpter that constitutes a construction machine, and the locomotive can be transported as follows It is used in the case of over 1 km, it is used for the construction of the tunnel construction, and the size is indicated by the weight (ton)

The tractor and trailer 860a is a machine that transports a tractor trailer 860a loaded with a heavy load or a bulldozer or roller of a construction machine and a tractor, and the traveling device of the tractor is a crawler type. Half crawler type, and wheel type.

Transporting the hull of mining equipment (811) Moving the hull of the construction machine Construction machinery Construction of a steel tower on both sides of the mountain with a rope making up the construction machine, It is not restricted by road condition, and it is easy to carry relatively long distance with few faults. It is used to transport materials of aggregate and cement in dam construction,

A wagon that is similar to a motor scraper, but which can not be ground by magnetic force. It is a machine that transports soil from a loading machine. A tractor-driven wagon is towed by a tractor. front. It is also called a full trailer (860a) with an axle and wheels attached to the rear end.

(858) Equipment that lifts or lowers cargo with equipment (858) that make up the transportation equipment of construction machinery. It is widely used in warehouses and paddocks indoors and outdoors. This is effective for short-haul transportation and loading and unloading of hardened products. The standard display shows the capacity (in tonnes) that can be lifted (middle of 1 ton or more), and the characteristic feature is that the tilt lever installed in the cockpit The master can be tilted forward 56 ° (referred to as the front wrist), backward 10 ° 12 ° (referred to as the back wrist), with a maximum height of 4500 mm, a minimum of 3000 mm,

As shown in FIG. 44, there is provided a mineral collecting facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, and is constructed inside the main body 1 of the marine steelworks, The forklift 858 arrangement of the construction machine connected to the marine steelwork dock hull deck upper part (SDU) of the machine control part 811a has a very small minimum radius (steering angle of the inner wheel of 65 ° 75 °) The pressure of the hydraulic piston was set at 110130 kgf / cm ² ,

All-wheel drive is provided in a rear-wheel-drive manner, and the steering device of the forklift 858 is provided with a rear-

A master bundle installation operating with hydraulic pressure (hydraulic pressure of 70130 kgf / cm ² ) is provided,

In operation, the fork is raised 150 m from the ground,

The travel distance is less than 250m, and the front wheel is installed directly on the frame. The rear wheel does not have suspension spring, but the large one uses suspension spring.

Transportation of the mining equipment (811) Location of the hull Location of the construction machinery Transportation of the forklift (858) which constitutes the construction machine The method of operation of the equipment is efficient and the transportation distance of the efficient transportation distance is suitable for the work within 250m. The height of the fork is about 150200mm when it is transported,

The inclined land transportation is that the fork part (front part) is directed to the upper part and moves backward when the inclined point cargo is transported,

And a forklift (858) facility that adjusts and disassembles the hull of the marine small, medium and large marine steelworks (593,594,595).

Conveyor (633) which constitutes traffic transportation construction machine of mining collection facility (811) and construction machinery of construction machine It is widely used because it is equipped with equipment and transports material and concrete, and facility is easy and economical,

Large conveyors, which make up construction machinery,

It is used for transportation of sand, soil, gravel and crushed stone. At the same time, screw conveyor is used for sand, cement and concrete conveying. Belt conveyor is most widely used for soil, crushing and aggregate transportation. Size: ton Potable conveyor is used for the transportation and collection of sand gravel,

It is a wheel-type all-wheel drive vehicle capable of transporting under heavy traffic conditions such as mud, sand, and unevenness, while Unimog is an all-wheel drive vehicle for agriculture, It is widely used in various fields of civil engineering, snow removal and road maintenance. Hoisting is connected to marine steelworks facility which is composed of construction machine that carries heavy cargo.

Roller (863) constituting a construction machinery Compaction machine with two or more sleek drum rollers as a voluntary, having a voltage device, also known as a voltage machine and is mainly used for the construction of roads, embankments, aerodromes, It is a construction equipment to work on the road by work.

In the specification of the roller 863, the weight of the roller is expressed in tone, and when the standard of the roller 863 is 815 tons, the weight of the roller 863 is 8 ton and the load of the ballast is 7 ton. do.

The kind of the rollers 863 constituting the traffic transportation construction machine of the hull position moving construction machine of the mineral collection equipment unit 811 is separated into a voltage type by an impact type and a pressing type vibration type.

As shown in the above table, the mining equipment of the marine steelworks main body (1) having the double structure block tank, the hull position of the harvesting equipment part (811) ) Is an additional load that increases the voltage capability by loading an additional load when the voltage capability is small due to the weight of the roller itself. The additional load is more than twice its own weight,

The additional load constituting the construction machine includes iron, water and sand. The tire roller is provided with an injection as necessary for the water tank,

The machine, tandem, and tamping rollers increase the voltage capability by injecting an additional load on the wheels.

In the classification by the pressurizing system constituting the traffic transportation construction machine of the mining equipment 811,

The voltage type compaction machine constituting the construction machine is separated into a road roller, a tire roller and a tamping roller,

The impact type compaction machine constituting the construction machine is separated by a rammer and a tamper,

The vibration type compaction machine constituting the construction machine is separated into a vibration roller 863a and a soil compactor 863b.

The roller according to the static pressure according to the type and characteristics of the rollers constituting the transportation and construction machine of the hull position shifting construction machine of the mineral collection equipment 811 is made up of the road surface by the static self weight of the roller, It is suitable for initial compaction of crushed stone (gravel) base layer, road surface, roadbed and asphalt pavement,

It is a differential gear that uses a differential gear to slow down the speed of the inner ring for smooth turning when turning a curve. It is mounted at the center of the rear axle and drives both wheels at different speeds when the curve is turned.

The use of the tandem roller 863d constituting the traffic transportation construction machine of the hull locating and construction machine of the mineral collection equipment unit 811,

It is suitable for compaction of clay and clay soil. It is used for finishing the finishing work of asphalt pavement and the finishing work of the asphalt pavement. The order of power transmission is in the order of engine main clutch transmission, rear gear, differential gear type decelerator rear wheel. It can not be used, and it is possible to expand the compaction width by arranging the two drum tandem and the three shaft tandem as the cylindrical cylinder of the flat drum and injecting the heavy oil into the driving drum and separately operating the front and rear wheels.

As shown in FIG. 44, there is provided a mineral collecting facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, and is constructed inside the main body 1 of the marine steelworks, The use of the tamping roller 863e constituting the traffic transportation construction machine of the hull locating construction machine of the mineral collecting facility 811 connected to the marine steelworks dock hull deck upper part (SDU) of the machine facility control part 811a,

It is used to repair the weak soil. The tamping roller 863e is constituted by a foot roller, a turn-up roller and a tape foot roller. The feature of the tamping roller 863e is that a plurality of projections are attached to a forced cylindrical wheel, Provide compromise.

The tire roller (863f) equipment constituting the traffic transportation construction machine of the hull position shifting construction machine of the mineral gathering equipment unit (811)

The tandem roller is equipped with tires instead of iron wheels. It is used for towing and self-propulsion. The construction equipment is used to constantly pressure the road surface during airfield runway and highway asphalt pavement. Air pressure of tires is 1.510kg / cm < ² > and the characteristic was that the traveling speed was very high.

In this way, the roller by centrifugal force is used to concentrate the surface by centrifugal force on its own weight, and the vibrating roller is used for compaction of crushed stone, gravel, soil, asphalt and concrete by vibrating the compaction wheel by vibrator. .

Moving hull position of the mining equipment 811 The impact type compaction machine which constitutes the transportation construction machine of the construction machine is equipped for chipping free fall impact and the rammer is provided with the compaction foot on the two stroke cycle engine body of the small internal combustion engine And Tamper transforms the explosive force of the gasoline engine into torque and then changes it to the reciprocating motion of the crankshaft so that it is transmitted to the compaction board through the elastic body of the spring. It is suitable for narrowing the narrow place and the road,

The soil compactor 863b constituting the construction machine is a compaction machine having a small gasoline engine and a device for generating vibration and a flat plate vibrator combined with each other. It is suitable for sandy soil and is inappropriate for clayey soil.

It is a self-excavating and crushing operation. It provides a homogeneous mixture of all materials, and is a small, medium-sized and large-scale marine nuclear hydroelectric power plant of the marine steelworks which constitutes the hull- (593,594,595), which constitutes the upper tank barge hull (591) of the holding tank and the lower tank barge hull (592) of the holding tank of the floating marine plant (593,594,595) A facility control unit 811a of the floating picket hood position shifting construction machine included in the mineral collection facility 811 constituting the inside of the ship 1; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

45, the sprinkler system of the sprinkler system in the marine steelworks main body 1 according to the embodiment of the present invention, the sprinkler head 111 of the trench head of the trench head and the vibration alarm device 300 Manufacturing method of marine steelworks Construction of road,

As shown in FIG. 45, the mineral collecting facility 811 including the furnace for metal processing for marine capital materials and the equipment for lifting the metal, and the inside of the main body 1 of the marine steelworks, The marine steelworks dock of the facility control part 811a of the machine The hull position of the mineral collection facility 811 connected to the upper deck part of the hull deck (SDU) The outdoor fire hydrant which constitutes fire prevention of the construction machine The twin- · It is composed of an underground type fire extinguisher (179a) of a fire hydrant and an underground fire hydrant box manhole above the lower surface of a road surface of an underground fire extinguisher (179b). The fire extinguisher (161) and the fire extinguisher (A) a large-scale fire hydrant system of the indoor fire hydrant system, and (b) a fire hydrant system of the indoor fire hydrant system of the fire hydrant (179) in the water supply port (fire extinguisher extinguisher, 169) A small scale fire hydrant system is installed in a mining collection facility 811 including a sprinkler facility piping system sprinkler facility and a sprinkler head 111 of a trench head to constitute the interior of the main body 1 of a marine steel mill. A facility control unit 811a; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

46 is a partial side view showing a side view of the operation of the reciprocating pump piston pump 127 constituting the interior of the marine steelworks main body 1 according to the embodiment of the present invention and the partial side view of the plunger pump 148, Is a partial side view showing the partial plunger pump 148 operating configuration diagram showing the manner of operation of the turbine pump (253) and showing the sides of the turbine pump (140) and the block pump (311) The operation of the operation of a marine steelworks with side view of the state.

As shown in FIG. 46, the mineral collecting facility 811, which is provided inside the main body 1 of the marine steelworks, has a furnace for metal working for marine capital materials and equipment for lifting the metal, The hull position of the mining collection facility 811 connected to the marine steelworks dock hull deck upper part (SDU) of the machine facility control part 811a is determined by the electric motor 192 of the turbine pump 140 constituting the conventional rotary pump of the construction machine And the turbine pump 140 are connected to the rotating shaft 198 of the electric motor 192 by a pair of gears for replacing the rotating shaft 198 with the pair of gears 250, The viscous pump 343 and the impeller 143 of the viscous pump are connected to the axial flow pump 341 of the propeller pump 146, the mixed flow pump 342 and the viscous pump 343 of the self-priming pump 340 equipped with the discharge confluent pipe 4 and the priming 339, ) And a mineral constituting the inside of the main body (1) of the marine steelworks Seolbibu house 811 of stimulus regulating equipment sikdok Hull Construction machinery Location moving parts (811a) and including the; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

47, an integrated control valve 459 constituting the inside of the main body 1 of the marine steelworks according to the embodiment of the present invention and a water supply type common faucet 496 of a piping component, A method of manufacturing a marine steelworks,

As shown in FIG. 47, the mineral collecting facility 811 including the furnace for metal processing for marine capital materials and the equipment for lifting the metal, and the inside of the main body 1 of the marine steelworks, In the general type water faucet 512 constituting the transportation transportation construction machine of the hull position moving construction machine of the mineral collecting facility 811 connected to the upper part (SDU) of the dock hull deck of the marine steelworks of the machine facility control part 811a,

(811a) of the nuclear power plant of the nuclear power plant, the double tube structure block pipe line control shaft (238) for the control of the electromagnetic sensor valve screw and the disaster prevention prevention control Water type faucet (512) connected to the pre-fire and natural-fire natural disaster prevention control unit and the artificial tunnel fish-shell scattering control unit is provided,

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

As shown in FIG. 47, the mineral collecting facility 811 including the furnace for metal processing for marine capital materials and the equipment for lifting the metal, and the inside of the main body 1 of the marine steelworks, A transverse material receiver 514a constituting a transportation transportation construction machine of a hull position moving construction machine of a mining collection facility 811 connected to a marine steelworks dock hull deck upper part SDU of a machine facility control part 811a, The water supply 514b, the longitudinal material supply 514c, the Fomats type transverse material supply 514d, the medical water supply 514e, the lateral chemical water supply 514f, the lateral chemical water supply 514c, (514 g), a bivalve chemical tank (514 h), a neck long tank chemical tank (514i), and a jonghyok faucet (514j) Turn type valves 515a and 515a for the building equipment, A mixer valve 517a, a hand shower 518a, a hand shower 518a, and a syringe 515b for urinals, a urine clean water receiver 516, a mixing valve The main body 1 includes a head 519, a hand shower 520, and a plurality of valves connected to the water-type main faucet 512 connected to the shower set 521, A facility control unit 811a of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the facility; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 48, there is shown a main enlarged cross-sectional view of a main part of a marine steelworks main body 1 according to an embodiment of the present invention,

A plant control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, Of the marine steelworks dock The hull location of the mineral collection facility (811) connected to the upper deck (SDU) of the marine deck The construction of the mining collection facility (811) are provided,

The center vertical line PBCL of the centrifugal pump 308 constituting the position outside the collecting tank 34 is connected to the pump 192 of the Centrifugal Pump 308, (308) is connected to the rotating shaft (198) of the electric motor (192) by coupling a plurality of chains to a plurality of gears to perform a rotational motion of the pump. The outer wall surface of the manhole cover An automatic valve 259 coupled to a tee elbow 44 connected to a pipe 14 located at the center of the bed 152 and a collecting tank 34 are fixed to the bed frame 286 at the lower end of the collecting tank 34 In addition,

A plant control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, The electric motor 192 constituting the transportation and construction machine of the hull position moving construction machine of the mining collection facility 811 connected to the marine steelworks dock hull deck upper part (SDU) of the marine steelworks dock and the centrifugal pump (308) The switch 104 provides a coupling with a port 315 which operates according to the water level so that the port 315 is connected to the port 315 by means of a device 316 which pushes the port into the through- The switch input circuit 58 provided inside the louver cover 550 while the flange 28 coupled to the louver cover 550 is engaged with the bolt and the nut by a hand tool while pushing the flexible carriage 317, Off control The main switch button 66 and the auxiliary switch 318 which are the switches are connected to the suction / discharge switch 285, the flow rate check flow meter 105 and the motor control module 106 via the stop valve 114 and the water supply port 168 ) Is connected to the automatic valve 259,

A device including a metal 539 having a large thermal expansion and a metal 540 having a small thermal expansion is provided with a time comparator 541 and a high level alarm 542 with a baem compiler alarm 543 and a smoke relay alarm 544 to the alarm reset button 545 and the check 545 to the lower level switch 546 and the check nozzle 549 to the sound cap 548 and the float inserter switch 551 to the indication scale 552 and the overflow connection 553 are provided with a vent pipe connection 554 and a flange connection 555 to provide a water storage level adjustment to the water collection tank 34,

It is a connection structure between each instrument and switch and piping line. It is equipped with facilities to control the hull position movement of the small-sized, medium-sized and large-scale marine steelworks (593,594,595) And a connection structure between the switch and the pipe line. The connection structures of the collecting tank 34 constitute the individual collecting tank 34.

A plant control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, Of the mining collection facility 811 connected to the marine steelworks dock hull deck upper part (SDU) of the marine steelworks hull deck upper part (SDU) In a plurality of solenoid valve actuating assemblies constituting the pneumatic cylinder,

The connection structure of the mineral collecting facility 811 constituting the inside of the main body 1 of the marine steel mill for providing a plurality of solenoid valve operation assemblies constituting the hydraulic pneumatic cylinder is provided with the pressure air generated in the air compressor 80 When the solenoid valve pressure switch of each solenoid valve 76 and the solenoid valve start switch button main switch button 66 are pressed by hand on the main switch button 66, the butterfly valve 622 is opened and the main When the off-time main switch button 66 of the switch button 66 is manually depressed, the connection structure of the butterfly valve 622 is turned on and off of the main switch button 66 for the start switch button, When the main switch button 66 is manually depressed, the butterfly valve 622 connection structure is deployed to allow the pressurized air generated in the air compressor 80 to pass through the pipeline connection structure As you go to work and provide a connection structure and a construction machine and ship a plurality of hatch cover 153 and a plurality of door panel 154, the body,

A plant control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, (811) connected to the upper deck (SDU) of the marine steel deck The equipment of the sensor switch for detection, which constitutes the transportation and construction machinery of the construction machinery, constitutes the application method of oil, pneumatic and sensor technology While providing connection between the spool 559 and the spool 559, the spool packing 560, the pilot 561, the coil 562 and the connector 563, and a solenoid valve body 557 And a manifold 565. The manifold 565 and the manifold 565 constitute a plurality of types constituting the oil, air pressure, and sensor technology application methods, and the screw bolt 567 and the air hose coupling former coupling 568 constitute a plurality of types, And union car of body binding And the solenoid valve body 557 is provided inside the main body 1 of the marine steelworks having the marine ironworks facility,

Including a two-position single 570 and a two-position double 571 constituting a solenoid valve body 557 mounting configuration, a central vertical type 572, a vertical type 573 and a horizontal type 574, (575)

In the symbol of the solenoid valve body 557,

A direct tubing 582 providing a connection to the microswitch 581 with a single 576, a double 577, an end 578, an eye 579 and a jaw 580, And a damper spindle 584 of a fire damper 583 that controls the air flow rate of the air inlet 585a and the air outlet 585b of the marine steelworks main body 1 ) Connected structure inside the construction Belllater butterfly valve (622) of the construction machinery connection structure and diving control device connection structure Doctor ventilation (585) The connecting structure, which is provided with the compressed air generated by the compressor as a connection structure, The automatic pneumatic conveying device 916 is provided with a connection structure of a bellister butterfly valve 622 of a diving control device of a pipeline equipped with a connection structure,

Preventing disaster prevention at the Nuclear Hydroelectric Power Plant (811) of the marine nuclear power plant facility to control the hull position movement of the small-sized, medium-sized and large-scale marine steelworks in the ocean (593,594, 595) A plurality of solenoid valve actuating and assembling apparatuses constituting a hydraulic pneumatic cylinder to be connected to each other, and each of the apparatuses for adjusting the overcoming of water and the connection structure of the switch and the piping line,

A plant control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, A 5-port solenoid valve constituting a solenoid valve (76) constituting a transportation and construction machine of a hull position shifting construction machine of a mining collection facility (811) connected to a marine steelwork dock top deck (SDU)

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

In addition to the above-mentioned standard products, the three-position center cloth 577 and the three-position center presser 578 are provided as three-position center pick-up 579 in order-

575 and 576 in the form 577 and 578 of the product 577 and 576 are separated into the standard products by the various structures,

(579) is a mechanism of a fire damper opening / closing device of a ventilation device of a ventilation vent of a doctor ventilation and a ventilation device of a ventilation device when a fire occurs, and an air hose 109) and is widely used in buildings or other industries and marine vessels.

The manifold type of the manifold system consists of a 5-porter filament type (in units) (D M Q F 100 -M O O-S) and (D M Q F100-M O O-L).

A plant control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, (497) and fractional part (498) of the pipeline (14) constituting the transportation and construction machine of the construction machine of the marine steelworks dock connected to the upper part of the hull deck (SDU) In the plurality of strainer 392,

Type Y-type strainer 501a, a U-type strainer end face 502b, and a V-type strainer 503,

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

A connecting structure is provided between the supporting buckle support band 505 and the support band 506, the roller support band 507, the vertical pipe 500b, the steel spectacle band 509 and the bottom band 510 Type thermal trap 522, a straight thermal trap 523, a bucket trap 524 and a bottom-up bucket kit trap 525 are connected to the trap 511 constituting the connection structure with the bottom bands 510. [ The float trap 527 and the impulse steam trap 528. The mineral picking equipment unit 811 constitutes the interior of the main body 1 of the marine steelworks, A facility adjustment unit 811a of the construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

49, a method of manufacturing a marine steelworks of a fire pump and a plurality of valves formed in a marine steelwork main body 1 according to an embodiment of the present invention,

A plant control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, (811) connected to the upper part of the ship's deck (SDU) of the marine steelworks Docking of the hull of the construction equipment 811 of the construction of a fire pump connected to the construction machine and a plurality of slew valves (403) In the ball tap 499,

It is a self-contained valve used to supply water to the water tank. When the water in the water tank reaches a certain level due to the ball of copper or synthetic resin at the end of the lever, the valve is closed automatically by the buoyancy of the ball. To store a certain amount of water.

The bolt tab 499 has a small diameter and a large diameter and is equipped with a fastening and folding type according to the type of the bolt 499. The bolt 499 is used to adjust the equipment of a floating picking hood position shifting construction machine included in a mineral picking equipment unit 811, A portion 811a; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 50, there is shown a method of manufacturing an operation method of a marine steelworks according to an embodiment of the present invention,

As shown in FIG. 50, the mineral collecting facility 811 including the furnace for metal processing for marine capital materials and the equipment for lifting the metal, and the inside of the main body 1 of the marine steelworks, Each of the valve operating mechanisms connected to the transportation and construction machine of the hull position shifting construction machine of the mineral collection facility 811 connected to the marine steelworks dock hull deck upper part (SDU) of the machine facility control section 811a includes a strainer 392 A V-shaped strainer 503 is formed on the Y-shaped strainer 501 and the U-shaped strainer 502,

The strainer, which constitutes the valve-operated system,

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

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

The Y-type strainer 501 is provided with a cylindrical metal net in a Y-shaped body inclined at an angle of 45 [deg.] So that the resistance against fluid The fluid flows from the inside to the outside of the net, and the opening area of the metal net, in which impurities are removed by installing a plug at the bottom, is about three times the nominal diameter cross-sectional area, and the mesh is easily exchanged.

As shown in FIG. 50, the mineral collecting facility 811 including the furnace for metal processing for marine capital materials and the equipment for lifting the metal, and the inside of the main body 1 of the marine steelworks, The respective valve operation type facilities connected to the transportation and construction machine of the hull position moving construction machine of the mineral collection equipment unit 811 connected to the upper part (SDU) of the dock hull deck of the marine steelworks of the machine facility control unit 811a include U- (502)

Inside the cast iron body, a round barrel with a filter net is installed vertically, and the fluid flows from the inside to the outside of the net. Because the flow direction of the fluid changes perpendicularly to the structure, resistance to fluid is greater than that of Y-type strainer, but it is easy to repair and inspect. It mainly consists of oil strainer.

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

Since the fluid flows through the net and the dirt is filtered by the metal net in the body of the cast iron, the resistance against the flow velocity is less than that of the Y or U type because the fluid flows linearly through the strainer. Type bucket kit 525 to the bucket kit 524 and the bucket kit 524 to the straight type thermal trap 523 and the angled thermal flow trap 522 constituting the trap 511 of the piping accessories which are easy to replace or inspect, 526 and the float trap 527 with the impulse steam trap 528. The steam trap separates the condensed water and the air generated in the radiator or the steam pipe from the steam and discharges only 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 and emissions.

As shown in FIG. 50, the mineral collecting facility 811 including the furnace for metal processing for marine capital materials and the equipment for lifting the metal, and the inside of the main body 1 of the marine steelworks, The valve-operated equipment connected to the transportation and construction machine of the hull position moving construction machine of the mineral collection facility 811 connected to the marine steelworks dock hull deck upper part (SDU) of the machine facility control part 811a includes a thermal trap (523)

The trap is divided into an angled type and a straight type according to the type of use. The bellows is made of a thin sheet of bronze bronze, filled with volatile liquid (ether) inside the bellows, When the valve is closed and the drain (301) or the air is heated, the temperature is lowered, the bellows contracts to expand the valve, and the internal pressure Is less than 1 kg / ㎠ heat sink is used in the pipe end trap and air is passed through it, so it is used for steam piping of air liner type or vacuum return pipe type.

The buoyancy of the bucket is controlled by the steam pressure. Therefore, there should be a pressure difference between the steam pipe and the return pipe. When the pressure difference is 1 kg / ㎠, the theoretical Condensate can be pumped up vertically up to 10.33m, but it is actually less than 8m.

In addition, the low-pressure steam pipe which does not have sufficient pressure difference does not provide discharge of condensed water. Bukit trap is suitable for high-pressure steam pipe. The return pipe can be piped to the upper side of the trap. Bottom- have.

In the bottom-up bucket-trap 525 facility,

The bottom-up type bucket kit 525 is also referred to as an open trap. When condensate enters the trap, the bucket kit B is first floated on the outside of the bucket kit A, and the bucket kit B floats on the bucket kit B 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 top-down bucket-trap 526 facility,

The top down bucket kit trap (526) is located upside down when the bucket is upside down. When steam and condensate enter the bottom of the trap, the bucket is filled with steam, buoyant, floats 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 so-called multipass trap, and has a float buoyancy to provide valve opening and closing. The working pressure is a low pressure, medium pressure (about 4 kg / And it is not possible to discharge air. Therefore, when necessary, a thermal type is used together to provide a low temperature air discharge through the upper air discharge pipe.

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

In the drainage trap facility composed of a disk-shaped valve rod and a disk sheet,

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

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

The depth of the trap seal is 50 ~ 100mm. If it is lower than 50mm, gas and air may pass. When it is deeper than 100mm, the self-cleaning force is weakened, which causes debris on the bottom of the trap.

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

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

In the pipe fixing metal 504 of the fixed metal,

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

It is aimed to prevent the tube from moving with respect to the expansion and contraction of the pipe, and it is necessary to provide a rigid attachment to the building, a shape of the fixed metal to be suitable for the fixed place, A facility control unit 811a of a floating picket hood position shifting construction machine included in a mineral collection facility 811 constituting the interior of the main body 1; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

51, there is shown a perspective view of a plunger pump 148 of a reciprocating pump for each type of volumetric pump, which is constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention, and the operation of the diaphragm pump 144 And the operation of the wing pump 327 is similar to that of the operation of the marine steelworks in which the rotary pump 337 and the external gear pump 326 and the other rotary pump rotor 338 are partially operated. Manufacturing Method Construction Road,

A plant control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, (811) connected to the upper part of the ship's deck (SDU) of the marine steelworks The hull location of the hull deck structure (811) The operation mode of the diaphragm pump 144 constituting the connection of the discharge conjoint pipe 4 and the belt carver 261 to the electric motor 192 constituting the reciprocating pump plunger pump 148 of the diaphragm pump 148 and the suction merge tube 3, A rotary pump rotor 338 is provided inside the rotary pump 337 and the external gear pump 326 while the wing pump 327 is operated to form the discharge port 270 in the suction port 269 to move the water The (593,594,595) of small scale, medium and large scale marine steelworks equipped with a variety of types and types of marine vessels are installed in the main body of the marine steelworks (1) equipped with valves during the operation of the pump of the marine steelworks facility And the facility connection structures for each pump type of the marine steelworks constituting the disaster prevention preventive control section of the mineral collection facility 811 constituting the mining collection facility 811.

A plant control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 including a furnace for metal processing for marine capital materials and equipment for lifting the metal, A turbine pump 140 and an electric motor 192 constituting a turbine pump 140 connected to a transportation and construction machine of a hull position moving construction machine of a mining collection facility 811 connected to a marine steelworks dock hull deck upper part (SDU) A plurality of chain couplings are provided in a plurality of gears for replacing the connection with the feeder 250 on the rotary shaft 198 of the electric motor 192 so as to perform the pump rotational motion while the suction and confluence pipes 3 and 4 are connected to the discharge confluent pipe 4 The viscous pump 343 and the viscous pump impeller 143 are provided in the axial flow pump 341 of the propeller pump 146 and the mixed flow pump 342 in the self-priming pump 340 having the priming 339, In a volumetric pump constructed inside the steel mill body (1) The function of ensuring a full closing position and the pump definitely set the deployed position and has provided a certain amount of fluid shoveling,

The positive displacement pumps constituting the fixed amount of fluid shovel are equipped with a marine steelworks facility for controlling the movement of the hull of the small-sized, medium-sized and large-scale marine steelworks constructed in the ocean with the fluid delivery in the same manner (593,594, 595) The facility control section 811a of the floating pick-up hood position shifting construction machine included in the mining collection facility 811 which is provided for each type of pump constituting the inside of the marine steelworks main body 1, Wow; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

52 is a perspective view showing a turbine pump 140 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention. The prime mover 339 and the self- The diagram of the operation of the axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146 is shown in the block diagram. The viscous pump 343 and the viscous pump 343 are shown in a perspective view. A method for manufacturing a marine steelworks with a lateral operation,

As shown in FIG. 52, the mineral collecting facility 811 including the furnace for metal processing for marine capital materials and the equipment for lifting the metal, and the inside of the main body 1 of the marine steelworks, The turbine pump 140 and the priming 339 connected to the transportation and construction machine of the hull position moving construction machine of the mineral collection facility 811 connected to the marine steelworks dock hull deck upper part (SDU) of the machine facility control part 811a, ), An axial flow pump 341 of a self-priming pump 340 and a propeller pump 146, a mixing pump 342, a viscous pump and an impeller to collect minerals contained in the main body 1 of the marine steelworks A facility control unit 811a of the float-fed hood locomotion moving construction machine included in the facility unit 811; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Hereinafter, a detailed description of the hydroelectric power station equipment constituted inside the main body 1 of the marine steelworks will be described as follows.

Referring to FIG. 53, the hydroelectric power station equipment constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention includes a pressure head tank 189 positioned above the hydroelectric power plant, A plurality of inlet pipes 191 are connected to the suction port 269 at the upper portion of the hydroelectric power generating unit having the introduction pipe 191 connected to the pressure head tank 189 and the outlet 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 each hydroelectric power generator 213 located at the downstream side of the hydro-electric power generator 213. In addition, Which is a marine hydroelectric power plant 231 that converts kinetic energy of water into mechanical energy by using the flow rate of water and generates electrical energy by a multistage hydraulic power generator with a lead-in introducing pipe 191, Of manufacturing method of marine steelworks Straight configuration Road,

As shown in FIG. 53, the mineral collecting facility 811 includes a furnace for metal working for marine capital materials and equipment for lifting the metal, and is constructed inside the main body 1 of the marine steelworks. The marine steelworks dock of the equipment control unit 811a The hull position of the mining equipment 811 connected to the upper deck (SDU) of the hull deck The marine connected with the construction and transportation machinery of the construction machine is equipped with a pressure The flow of the flow rate of the suction port 269 in front of the pressure head tank 189 is adjusted so that the speed of the seaweed is changed by adjusting the size of the radyer at the inlet pipe 191 in the suction port 269 in front of the head tank 189 By converting the kinetic energy of water into mechanical energy, it is possible to rotate several a turbines and provide them with hydro-power generator equipment for power generation. As a multistage hydraulic power generator into the main body (1) of the steel mill, Occurring marine hydroelectric power station 231 comprising the mineral gathering seolbibu 811 that consists of the supporting equipment of the ship sikdok positioning construction machine control unit (811a) and; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Hereinafter, a description will be given of a marine steelworks facility constructed inside the main body 1 of the marine steelworks as follows.

54, a hull position moving construction machine constructed inside a marine steelworks main body 1 according to an embodiment of the present invention is constructed as follows. The marine vessel's upper barge hull 591 and the holding tank lower barge The hull 592 is connected to the center supporting tank 598 of the dual structure block tank 598 by a pin connecting shaft 606 for connecting the auxiliary supporting detachment portable lug 606 and the portable lug 607, Assembly process Hull position movement Constructive element Elementary floodgate showing regulation structure Construction method of marine steelworks with hull assembling method Partial enlargement Construction of road,

As shown in Fig. 54, in the facility control section 811a of the floating-picked-up hull position-locating construction machine included in the mineral collection facility 811,

And a hatch cover (153) constituted by safety equipment at the time of equipment replacement. The hydraulic cylinder (623) is provided for replacing the equipment, while a connection structure is formed in the distribution shaft constituting the inside of the main body It is a construction machinery equipment that constructs minerals collection process by hydraulic cylinder (623) device of hull position control that steel mill hull excludes natural disaster of the sea, fixes dual structural block tank pipe bridge pier (928) 877) and a wing crank (846) secured to the sea floor and a floating marine plant of a marine small, medium and large scale marine steelworks connected to a nuclear waste treatment double structural block tank marine tunnel traffic device (941) (593,594,595 And a valve for closing the valve when the switch is turned on and off when the switch is turned on and a valve for closing the valve are connected to the butterfly valve 622 and the solenoid valve 76) On the seabed by the devices provided to operate to provide a fixed connection of marine steel mill.

(593,594, 595) installations of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants at the upper part of the sea surface (SLL) having a connection structure to the distribution shaft constituting the inside of the main body (1) of the marine steelworks.

It has been designed with consideration of tensile strength and thickness dimension specification of welded improvement surface which is the shape of various welded joint grooves while providing butt joint welding with constant dimension of steel plate (597) of high tension with marine steel mill facility and steel mill facility adjustment process. We have a marine steelworks that makes up the design through manual work.

A first auxiliary steel pipe 600 for a block tank that is cut by a laser underwater cutting and a computer cut by connecting a design dimension of a marine ironworks facility with a laser underwater cutting computer control unit through a computer network input 68 constituting a memory 70, The second auxiliary steel plate 601 for the block tank, the snap hole 602, the block steel tower 116, the vertical partition wall 605, the portable lug 607, the horizontal partition wall 609, the partition wall manhole 610, The manhole manhole cover 152 and the machining hole 615 of the hatch cover 153 and the block tank large flange 614 and the elongated hole 616 of the portable lug 607, A marine steelworks facility is provided with a laser cutting machine that forms the same double pipe structure tank bridge bridge construction saddle formwork 617, the band guide 621 and the reinforcing steel plate 165, A high-strength steel plate 597 constituting a surface and a roll forming machine A double structure block tank 598, which is machined to a standard length of 500 m, is connected to a large flange 614 and a double structure block tank marine tunnel transport device 941 at one side of both the inner and outer parts, The generator 944 is a device for providing a connection structure to the distribution shaft of the floating ocean tractor (593, 594, 595) of a small-sized, medium-sized, and large-

An oil drilling machine (908) that constitutes a connection structure to a floating shaft (593, 594, 595) distribution shaft of a small-sized, medium-sized and large-scale marine steelworks constructed of the inside of a main body And a core drill 917 coupled to and separated from a pipe rack 854 for providing a drop connection at the crude oil making up the crusher 908, The sprocket wheel 185 of the sprocket crank 846 constituting an anchor bolt 133 replacing the anchor bolt 133 for providing a safe anchorage with the mooring devices 593, 594, 595 has a connecting structure at the lower end of the holding tank 590 of the barge hull. An anchor is provided by anchor replacement crank 846 for anchor replacement at the seabed which is connected to the hull constituting the hydraulic cylinder 623 located at the center of the idler bed 616 by the actuation 848 and the anchor replacement crank (846) Upon termination of the anchoring member is provided for fixing the wedge crank 846, a paper shredder thee 185 fixed to the surface of the sea floor wells attached to the pier column bottom to the hydraulic cylinder 623, the rate actuators 848 and,

(593,594,595) of marine small, medium, and large anchors that provide hull anchoring and anchoring control by adjusting the direction of the flywheel 185 with the hydraulic cylinder 623 actuator 848, The main body of the marine steel mill (1) is equipped with moving adjustment and disassembly assemblies of the hull position of the floating marine ironworks (593,594,595) of small, medium and large sized marine steelworks on each control shaft constituting the inside of the steel mill body (1) (593,594,595) of the marine small, medium and large scale marine steelworks to control the location of the steel mill facilities, and the construction machinery transportation system of the hull position control of the mineral collection facility (811).

As shown in FIG. 54, the disaster prevention apparatus equipment constructed inside the main body 1 of the marine steelworks includes a floating marine plant on the sea surface (SLL) provided with a connection structure to the distribution shaft, 593, 594, 595) Barge hull (591) Block pylon (116) which provides a position on the upper part of the deck deck The left and right sides of the center of each of the launching rods that mount the satellite launch pad (643) and the space rocket launch pad (646) (611) and space rocket (612), which are more robust than the atomic bombs that provide for global warfare and the destabilization of the international community, which are creating anxiety due to terrorism, nuclear tests and missile launches. The establishment of Photoshop in the surrounding areas of the Korean peninsula and the surrounding areas of the Korean peninsula and the establishment of Photoshop and the economic downturn, , And the elimination of the unemployment crisis to prepare a reconciliation between the great powers and the weak powers. In the land, all the commercial weapons for all human beings are prevented from producing without any reason or excuse between the countries. (955), which is more robust than nuclear bombs, and has been designed to provide a peaceful preservation type message photoshop (955), which is stronger than nuclear bombs, (593,594,595) of the marine small, medium and large sized marine steelworks that make up the position of the marine ironworks facility that adjusts and disassembles the hull of the ship (593,594,595) The construction of the hull position adjustment construction machine consists of transportation and construction machinery.

As shown in FIG. 54, in the disaster prevention apparatus equipment constructed inside the main body (1) of the marine steelworks, there is no dispute as to whether or not the inherent territory and the territorial sea that should be mutually respected regardless of whether it is a powerful country or a weak country The development of space science and the creation of a peaceful global village by taking into account the domestic circumstances of a dispute between the countries of the future Disaster prevention equipment to provide a flower to the future civilization Double structure block tank Maritime tunnel transport device (941) (811), which is composed of the inside of the main body (1) of the marine steel mill, while providing a dual structural block tank (941) On the deck of the deck deck at the upper part of the sea level surface (SLU) of the sea surface (811a), there is a construction machine for constructing the orchard, It is necessary to adjust the position of the hull to adjust the position of the hull to provide the water pressure of the marine water and the distribution of the load of the bridge bridges to the future civilization. (593,594,595) of the marine small, medium and large scale offshore steelworks, which are constructed to control the position of the reactor facility composed of the main body (1) of the marine steelworks for generating power for the generator and marine environment industry, (811a) construction machine of the construction machinery of the hull position shifting construction machine.

The double pipe structure control nozzle (10) of the net type constituting the harmful red tide blocking facility by the harmful tide blocking preventing and regulating unit (811d) of the mineral collecting facility (811) of the distribution shaft constituting the disaster prevention facility is constructed of a double pipe structure cleaning nozzle (593) deck deck of a small-sized marine steelworks at the upper sea level with a double pipe structure control nozzle (10) for joining the T-shaped elbow in the form of a cross, The fire fighting hose (9) is provided with a coupling by means of a thermal spraying nozzle (10), and the fire fighting vessel (40) which constitutes the connection with the control hose while spreading like a net at the bottom of the sea level to the side surface of the deck deck, The air conditioner of the present invention is provided with a fire prevention valve (40) for closing a predetermined amount of compressed and stored piping line while supplying air to the receiver tank (145) through the hose (109) In the control hose 9 as shown in FIG. 1, a high-pressure air pressure ejection nozzle is provided in the connected cross-shaped control nozzle 10 to prevent damage to marine products from harmful red tides, A nuclear power plant installed in the offshore steel mill and a nuclear power plant (1) inside the main body of the offshore steel mill for the development of the marine environment industry are provided with a position control device for adjusting the position of the hull, (811a) of a floating pick-up hood position shifting construction machine of a mining collection facility (811) composed of a marine small-sized, medium-sized and large-sized marine steelworks built in a floating ocean stand (593,594,595) And a marine steel mill.

The disaster prevention facility, which consists of equipment with marine cleaner function, is equipped with a flood control system (593,594,595) for the marine small, medium and large scale marine steelworks to block the brine inflow of the drinking water intake site downstream of the offshore, , And the control gate at the river mouth constituting the disaster prevention facility is equipped with a hydrometric control membrane device which replaces the gate for the up and down operation and always maintains the opening of the control gate, And a flood control device for controlling the flow rate of the distribution shaft constituting the inside of the main body 1 of the marine steel mill so as to realize an ecosystem restoration, to prevent damages from the harmful red tide and to prevent harmful red tide (593, 594, 595) of small, medium and large marine steelworks in the ocean can be retrofitted. (1) of the marine steelworks (1) for the operation of the marine power plant with the generator installed and the marine steelworks (1) for the marine environment industry development. (593,594,595) of the medium and large sized ocean steelworks (593,594,595), and the construction equipment of the facility control section (811a) of the moving machinery of the floating hull substation of the mining collection facility (811).

For the purpose of protection of marine fish and shellfish products, it is necessary to prepare the application in a very urgent situation and to prepare a marine ironworks with a disaster prevention facility for a series of measures to breathe and breathe, And the pre-removal of the harmful red tide before the occurrence of the harmful tidal breeze is provided by the float basket 842. The wire rope 19 and the trowel winch 137 are connected to each other and constituted between the land and the land, When the sea pirates return to the port, the net basket 842, the fishing net 932, and the net made of the wire rope are provided, so that the pirate ships pass through and pass through the anchorage 593 of the small marine steelworks (593) of the small-scale marine steelworks submerged in the water, and a barge The air is supplied from the air hose line of the submarine by pouring the water inside the sieve and equipped with the floating ocean readers (593) of the small marine steelworks to be raised to the upper part of the sea level (SLU) (1) of the marine steelworks for the operation of the generator of the marine steelworks and for the development of the marine environment industry by arranging the position of the marine steelworks by arranging the position of the marine steelworks (593,594,595) of the medium and large scale oceanic steelworks, and 811a of the mining equipment of the mining equipment (811) of the marine steelworks to construct the marine steelworks.

Pirates such as fish caught in the net constituting the facilities of the disaster prevention device are captured in the unmanned camera 184 by the peacekeepers captured in the amphitheater of the marine small, medium and large oceanic steelworks (593,594,595) The news that the pirates will be removed from the atmosphere by putting the pirates in space rockets with all those who are involved in territorial disputes and who are not involved in the reduction of the armed forces will be removed from the atmosphere. (955), which is stronger than nuclear bombs, even though we want to launch a war on the world. The willpower of peace will be set up, Double structure block tank The marine tunnel facility (941) is equipped with a ship within 1 day and the inside of the main body (1) of the marine steel mill, (593,594,595) Mineral collection facility (811) of the marine steel mill Moving posture of the hull Location of the construction machinery Equipment control unit (811a) Equipment of the mining collection facility (811 A facility control unit 811a of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 included in the mining collection facility 811; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

55, a hull position moving construction machine unit constituted by the inside of a marine steelworks main body 1 according to an embodiment of the present invention is a hull structure moving construction machine unit comprising a hull of a marine steelworks flotation receiver 593, 594, 595 constituting an upper part (SDU) Construction of crude oil drilling rig showing construction machine position control configuration of position control Two-piece block tank pipe pier (928), double structure block tank pipe bridge (937) and nuclear waste processing Ocean tunnel transport device (941) Drilling machines for drilling (908) Manufacturing method of marine steelworks for construction machinery connection structures Strabismus Construction of roads,

As shown in FIG. 55, both sides of the distribution shaft constituting the marine steelworks facility constituting the facility control section 811a of the floating pick-up hood position shifting construction machine of the mineral collection facility 811 are distributed, The marine steelworks facility, which consists of two structural block tanks, is equipped with pipe bridge pier (928), bridge bridge (937), A double structure block tank connected to the marine tunnel transportation device 941 is provided with a drilling machine 908 for crude oil to be installed as construction machine connection structures and a small, The floating dishes 593, 594 and 595 of the marine steelworks are connected to a hydraulic rotary cylinder 620 of a rack and pinion type (NRP) which is a rotary cylinder, a butterfly valve 622 for controlling the buoyancy of the band guide 621, A hydraulic oil pad 623, a hydraulic cylinder door 624, a marine ironworks facility, and a marine ironworks facility, and includes a vertical partition wall 605, a pin connection shaft 606 for a portable lug coupling, and a portable lug 607, And a large lug pin 608 and a large flange connection joint joint hole machining hole 615 and a construction machine link structure and a pipe bridge 928 and a pipe bridge 937 and a double structure block tank inside of a marine tunnel traffic device 941 The mining equipment 811 included in the mining equipment 811 constituting the inside of the main body 1 of the marine steel mill is provided with a hydroelectric power plant construction machine connection structure and disassembly coupling in the crude drilling drilling machine 908 connected to the mining equipment 811, A facility control unit 811a of the floating construction consignment hood position shifting construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

56, a hull position moving construction machine unit constituted by the inside of a marine steelworks main body 1 according to an embodiment of the present invention is provided with a steel plate bending method for a piping block of a marine steelworks floating attachment and a basic welding method A method of manufacturing a marine steelworks having a partial partial detail structure showing the front side surface of a steel structure inside a pipe having a double pipe structure and a subassembly dock assembly method showing a steel pipe manufacturing process configuration,

56, the dual pipe structure block pipe line adjustment shaft 238 for the nuclear waste disposal of the marine steelworks is connected to the facility control unit 811a of the floating pick-up hood position moving construction machine included in the mineral collection facility 811, And the control unit 811b of the marine hydro-nuclear power generation production control unit 811b of the mining collection facility 811 controls the equipment control unit 811a, And 811h are disposed to distribute both sides of a distribution shaft constituting a marine steelworks facility to provide marine steelworks facilities as a construction machine to the interior of a dual structure block tank, and a mining collection facility 811 ) Double Structure Block Tank Marine Tunnel Traffic Device Tube Manufacturing Process (705) In the marine vessel manufacturing department, which controls the production by connecting joints that can be disassembled and bonded at the marine vessel manufacturing factory The marine steelworks equipment of the small diameter electric resistance welded pipe 706 that constitutes the manufacturing includes the raw material 707 uncoil 708 and the ring leveling 709, the side trimming 710, the cut and the rough connection 711, And the welding heat treatment 715 constituting the reactor facility is provided with the air cooling 716 and the welding heat treatment 712 constituting the reactor installation are provided with the ultrasonic wave and the eddy current test 714 constituting the welding and the inner and outer surface bead removal 713, ) 717 and a water cooling 717 device to provide a cut 719 and a flattened ceiling 720 while having a round shape 718 and to provide an intermediate load (726), chamfering (727), hydrostatic test (728), ultrasonic and eddy current test (729), and weight and length measuring device (728) in an induction heating furnace (723) 730 are provided with a dimensional inspection 731 by naked eyes and are provided with screws 732 and shielding 733 for general piping 734 and zinc plating 735 and galvanized steel pipes 736 and boiler tubes 737 The steel mill is equipped with production control at the spring cooler stand (738) and production of small-sized electric resistance welded pipe (706), which is manufactured at the manufacturing facility of the marine steel mill.

The cage forming electric resistance welding pipe (739) equipment constituting the marine ironworks facility includes a cage forming device (742) provided with the coil mage iron plate raw material (740) and connected to the side trimming (741) (739) manufactured by the equipment manufacturing department of a marine steelworks to provide a control (744) and a test (744) for the manufacture of a steel mill. And an edge milling machine 748, a three-roll banding machine 749 and a post-banding machine 750 are installed in the large-diameter steel pipe 747 of the oil industry steel pipe 746 of the oil pipeline constituting the facility of the marine steelworks. (751), an inner surface weld (752), and a back fascia (753) to provide a welding cut, while providing an outer surface weld 754) (751), an X-ray test (757), a cold expanse (758), and a marking and packaging shipment (759) And the inner surface welding process and the spiral welded steel pipes 760 are used to construct the uncoiled ring 761 and the non-coated pipe 763 of the steel pipe pile 762, 763), a first coating 767 of the inner surface blast cleaning 765 and the inner surface coating 766, and a coating and coating 768 to provide a non-coating piping 763 facility process, 769) facility is configured to make the equipment for the non-coated pipe (763) with the production of the large diameter steel pipe (747) of the petroleum industry steel pipe (746) of the oil pipe via the ultrasonic wave and the X- Mooring devices and buoyancy control devices and marine vessels composed of floating marine ironworks (593,594,595) of small, medium and large scale marine steelworks built in the main body of steel mill (1) Configuration by having an iron cattle facilities pipe manufacturing process (705) connected to the structure is decomposed in a combined marine manufacturing plant linking shaft possible to achieve a marine steel mill and,

A double structure block tank constituting the facilities of the marine steelworks. The pipe manufacturing process distribution side 705 of the connection shaft constituting the connection structure for making the disassembly-connectable connection structure of the connection shaft of the marine tunnel transportation device (941) The inner block tank 596 positioned at the center of the double structure block tank 598 and the outer block tank 596 positioned outside the inner block tank 596 are provided on the body of the double structure block tank 598 constituting the inner block tank 596. [ ) Double structural block tank (598) with high strength stainless steel steel structure in double structure type and double structure block tank (598) manufactured and manufactured by cutting process, welding process and connection structure at industrial site Double structure block tank Marine tunnel communication device A first auxiliary steel pipe 600 for a block tank and a second auxiliary steel plate 601 for providing a connection of the double structure block tank 598, To stern connection position A large flange 614 which is positioned as a connection shaft connection structure and which is connected to a large flange connection flange joint part machining hole 615 of the large flange, A drill lathe and a cutter are provided to prepare a large flange connection connector manufacturing process and a marine steel mill is provided with a steel plate (625) of a certain size to form a marine steel mill, (811) of the hull are installed at the marine steelworks facility which distributes both sides of the distribution shaft constituting the hull position moving facility, and the transportation transportation of the construction machine which inserts the marine steel mill facility And the marine steelworks, which are connected by disassembly and coupling,

The double structure block tank (598) of iron structural metal constituting the offshore steelworks is provided with steel plate (597) of high-strength stainless steel and is made of high-strength stainless steel steel plate (597) And forming a conveying process sequence and forming a plate thickness of the steel plate 597 of the high-strength stainless steel while having a ceiling crane 861 and a conveyor 633 constituting the input to the double structure block tank 598, (597) of a high-strength stainless steel with foaming bending machines are composed of (a) straightening by a forming bending machine, (b) breaking with a V-type bending and (c) It is equipped with a press braking type bending type bending machine, a bending type roller bending machine and three bending roller bending machine. Tension is provided with a ceiling crane and a conveyor 633 by providing a bending process with a bending and bending machine of a stainless steel steel plate 597 and welding is provided to the banding joint portion of the high-strength stainless steel steel plate 597, Arrange transportation to ceiling crane and conveyor (633).

It is equipped with welder, cutting tool, drill lathe and cutter making up the offshore steel mill, welding process to the banding joint part of steel plate (597) of high tensile steel, and double structure block tank (598) A large scale flange 614 located at a connecting portion of the flange 614 is provided with a stopper steel plate 625 of a predetermined size to provide a marine steelworks for a manufacturing and shelving process,

The double structure block tank 598 of the inner block tank 596 and the outer block tank 599 constituting the position outside the inner block tank 596 is provided with the inner block tank 596, The welding process is completed while adjusting the position of the inner block tank 596 to the inner position of the outer block tank 599 by adjusting the position of the overhead crane 861 and the conveyor 633, (593,594,595) of marine small, medium and large scale offshore steelworks, which is composed of the connection structure of the double structure block tank pipe (928) and the double structure block tank tank (598) And a double structure block tank bridge pipe (929), a double structure block tank pipe bridge (937) and a double structure block tank marine tunnel traffic device (941). Axis and Dichotomies It constitutes achieve a nuclear power plant the movable block tank 598 to the tube manufacturing process (705) to configure equipment into the marine mill main body (1).

A plurality of outer block tanks 599, a first auxiliary steel pipe 600 for a block tank and a second auxiliary tank for a block tank 598 are connected to the outside of the inner block tank 596 of the double structure block tank 598, The first auxiliary steel pipe 600 for the block tank and the second auxiliary steel plate 601 for the block tank and the vertical auxiliary wall 603 for the block tank are provided in the vertical wall 605, the horizontal partition wall 609 and the steel beam 149, The horizontal partition 609, the steel beam 149, the snap hole 602, and the partition wall manhole 610 are separately cut by a computer laser cutter, A block tank 598 is provided to constitute a marine steelworks,

The traffic apparatus hydraulic cylinder door 624 and the emergency stairs step 631 constituted by the vertical partition wall 605 formed with the partition wall manhole 610 and the horizontal partition wall 609 are constituted by the traffic devices provided by the welding process The plurality of stopper steel plates 625, which are provided as a connection structure between the inside and the outside, having a double structure block tank facility, are provided with a press brake type bending machine and a bending type A roller bending machine and three bending roller bending machines of a high-strength stainless steel, bending by an iron plate (597) of a high-strength stainless steel, bending by a bending machine, 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 constituted by the stopper fitting assembly of the double structure block tank 598, Welded assembly assemblies of bolting assemblies provided in an egg-shaped form with large flange bolting connection assemblies provided by welding and welding processes, and welding process assemblies of plug-and-hold assemblies of plugged steel plates 625 without large flanges (593,594,595) Double structure block tank (598) Double structural block tank pipe bridge (928) and double structure block tank tank (598) Small and medium sized and large scale offshore steel mill in the offshore steel mill main body A plurality of distribution shafts provided as connection structures capable of disassembling coupling shafts connected to bridges 929, dual structure block tank pipe bridges 937 and double structure block tank marine tunnel traffic devices 941, So as to operate.

Mooring devices, diving buoyancy control devices, and marine tunnel transport devices installed at the oceanic small scale, medium and large scale marine steelworks (593,594,595) composed of double structure block tanks (598) Tube manufacturing process (705) It is possible to disassemble and connect buoyancy control system of ship and barge hull at 10 km depth at submarine marine vessel manufacturing factory. The marine hydroelectric power generator is composed of a marine hydroelectric power generator, and is equipped with a multi-stage inlet type, which is equipped with a marine hydroelectric power generator with a power generation capacity of 1 million kW / h, The mineral collection facility (811), which is composed of hydropower facility and reactor facility control, is composed of several generators, The production electric power is produced from the hydroelectric power generation production control unit 811b and the supply power is controlled by the power transmission control unit 811c of the submarine crossing railway substation for the treatment of nuclear waste to provide power transmission, A double structure block tank pipe bridge 928 and a double structure block tank pipe bridge 929 connected to a flood control console 593,594,595 of a small and medium sized and large oceanic marine steelworks built in the main body 1 of a marine steel mill, ) And a double structure block tank bridge bridge (937) and a double structure block tank marine tunnel traffic equipment (941). And a structural block tank.

Pressure substation 690 provided in the marine nuclear hydroelectric power plant, while being supplied with power (685) produced by a marine nuclear hydroelectric power plant constituting the coupling with the power transmission unit 811c constituting the inside of the main body 1 of the marine steelworks, A double structure block tank bridge 937 including a large plant 698 with the control of the voltage 684 of the transformer 96 via the primary substation 691 and the flooding of the marine small, medium and large sized marine steelworks A manufacturing plant and a steel beam 597 of a raw material high-tension steel plate, a steel beam 149, and an equilateral-angle steel plate 597 are connected to a connection shaft for supplying power 685 to a marine tunnel traffic apparatus pipe manufacturing process 705 connected to the dishes 593, (937) facility and dual structure block tank pipe pier (928) with a diameter of 5M while providing power (685) to the manufacturing plant (839) , And the joint portion is provided with a pipe pier diameter The marine steelworks facility constituting the input of the construction machine is provided with the semi-submerged operation line 637 and the large flange 614 of the large flange 614 provided on the upper part of the deck deck, The double bridge structure tank bridge bridge construction bridge saddle formwork 617 having the same configuration as that of the band guide bridge 621 for coupling site connection is constructed by disposing the bridge bridge saddle formwork 617 inside the main body 1 of the marine steelworks (928), double structure block tank bridge (929), double structure block tank bridge (937), double structure block tank and marine tunnel traffic equipment (941) connected to the marine ironworks lifeline And a plurality of distribution shafts provided as connection structures capable of disassembling and coupling the connection shafts to be connected, and the operation of the marine steelworks having the double structure block tanks is constituted by a dual structure block tank dust collector.

The joining portion of the bridge type saddle mold frame 617 constituting the facility of the marine steelworks is provided with welding by joining various types of jigs 22 in a symmetrical manner while arranging the breakwater 400 in the territory of the territorial dispute, And a plurality of jig coupling holes 615 and a plurality of jig folding shafts 185 are connected to the link stand 249 in the various types of jig bodies 22 to form a plurality of jigs 22 ) Crusher crank 846 for anchor replacement and a lower pedestal 851 for leveling foundation for piers are provided with disassembly and coupling of a plurality of processing holes 615 and a plurality of ground motors 185, A sprocket wheel 185 of a wrench crank 846, which is provided on the side and lower sides of the body and has an anchor bolt 133 as an inner part of the main body 1 of the marine steel mill, The barge hull has a connecting structure at the bottom of the holding tank (590) The marine steelworks facility which constitutes the operation by the actuator 848 connected to the hydraulic cylinder 623 with a position in the center of the jetting bed 616 is anchored to the sea floor by anchor replacement crank 846 And fixed to the borehole of the undersurface of the wedge crank 846 attached to the lower part of the pier of the pier when the hull is removed from the piercing hole is fixed by a hydraulic cylinder 623 actuating action 848 A double structure block tank pipe bridge 928 connected to the floating kitchen sink 593, 594, 595 of a marine small, medium and large scale marine steelworks having the direction adjustment of the grid screen 185, A double structure block tank pipe bridge 929 connected to the double structure block tank pipe bridge 937 and a double structure block tank marine tunnel transportation device 941 connected to the double structure block tank bridge 929, With a distribution axis of And is constructed to operate a marine steelworks having a dual structure block tank.

A marine steel mill facility to control the marine steelworks to provide movement control and disassembly of the hull position of the marine small scale, medium size and large scale marine steelworks (593,594,595) (593, 594, 595) of a small, medium and large sized marine steelworks, and tug lines (636) constituting the hull position control by a facility control unit (811a) ) To the offshore assembly site, and the offshore steelworks facility that constitutes the offshore assembly of the dual structure block tank 598 is provided with an assembling connection by underwater operation with the semi-diving work line 637 and the band guide platform 621 , And the double structure block tank (598) is moved, disassembled, and assembled to the hull position of the bridge bridge, pipe bridge, marine tunnel traffic device, floating marine small scale, medium and large scale marine steelworks (593,594,595) The tie line 636 is provided with a buoyant flag rubber balloon 628 and a rope 629 for confirming the position of the diving site which are connected to the ship by the rope knot hooks 630, The double structure block tank 598 includes an air injection port state attached to the outside of the double structure block tank 598 while the diaphragm rubber balloon 628 is medallion, (593,594,595) of the marine small and medium sized and large oceanic steelworks constructed inside the main body (1) of the marine steelworks while preparing the diving and the floating function inspection while preparing the pump hose condition check. Connected to the pier (928) and the marine steel dual structure block tank bridge bridge (929), double structure block tank bridge (937) and marine steel dual structure block tank marine tunnel traffic equipment (941) It is composed of a number of distribution shafts which can be solved as a jointed structure to construct a dual structural block tank marine steel mill with a dual structural block tank marine steelworks facility.

The semi-submerged operation line 637 constituted by the facilities of the marine steelworks is provided with the band guide 621 and the hydraulic cylinder key 623 for the safety work of the double structure block tank 598 and the barge hull 591) are exposed at the upper end of the sea level (SLL), and the sea assemblies constituted by the individual double structure block tanks (598) include buoyancy control butterfly (593,594,595) constituting the floating ocean readings A valve 622, a door 624 for a hydraulic cylinder, and a hatch cover 153 for a hydraulic cylinder, each of which has a discharge pump connected to the tug 636. The water in the block unit tank is discharged outside the tank while the cargo ship sinks And the emergency stairs 631 and the elevator 632 are provided with a block unit and the marine assembly 631 and the elevator unit 632 are provided with a block unit. The steel tower 116 of the marine steelworks, The block 631 and the elevator 632 are provided with an overhead crane lifter 861 while being laid down at the upper end of the barge hull deck deck at the upper end of the strut tank to provide a block steel tower 116, An emergency staircase 631 is provided inside the block steel tower 116 at the upper end of the center of the upper end of the barge ship hull deck deck at the upper end of the holding tank of the sea surface upper end portion SLU, And a lug-connecting bolt for connecting the elevator and the block-unit lug, and a lug-connecting shaft-coupling bolt for connecting the block unit block tower (116) with the lug- A double structure block tank bridge 929 and a double structure block tank pipe bridge 937 connected to a double structure block tank bridge pier 928 of a flood control console 593,594,595 of a steelworks, Amount tunnel is configured to fulfill a transport device (941) of the connecting shaft decomposition coupled with a plurality of distribution to marine mill dual structure block tank the operation of having the dual structure block tank having an axis provided with connection structure can be connected to.

The emergency stairs 631, the elevator 632 and the mooring tower 644, which are composed of facilities of the offshore steelworks, are installed at the position of the airship marine station. At the top of the block steel tower 116 constituted by the facilities of the marine steelworks, A lightning rod 500 having a pointed metal rod for preventing lightning from occurring in the event of a lightning strike is formed and a radio sonde 134 provided in an adventure balloon 77 of the weather observation equipment located at the upper end of the lightning rod 500 And the weather condition information transmitted from the satellite 611 of the communication system is received and the weather information is provided to the weather observing station while the harmful tidal blocking prevention and control unit 811d receives information such as a forest fire, a drought, a heavy snowfall, a typhoon, a flood and a drought, (811d) Establishment of a small-scale, medium-sized and large-scale offshore steelworks in the ocean (1) inside the main body of the offshore steel mill (593, 594, 595) double structure block tank bridge pier (928), double structure block tank pipe bridge (929), double structure block tank pipe bridge (937) and double structural block tank marine tunnel traffic device And a plurality of distribution shafts provided as a connection structure capable of disassembling the shafts, so that the operation of the marine steelworks having the dual structure block tanks is made up of the double structure block tanks.

In the harmful tidal blocking prevention / control unit 811d constituted by the inside of the main body 1 of the marine steelworks, there are provided in the lower part of the weather observation equipment constituting the marine ironworks facility the flood control process, The unmanned aerial camera 184 for landing and the burner boom 920 for adjusting the position of the advection 77 of the meteorological observation equipment are installed and the fuel gas supply is made to the fuel supply hose 694 of the marine ironworks facility The hose 694 of the gas transportation means which is lighter than air by the wire rope 19 and the shackle 23 and the lug 21 are connected to the disaster prevention hose 9, And the air generated by the air compressor (80) is supplied to the receiver tank (145) and the air storage tank, respectively. And the pants line at the top of the holding tank A hydraulic turbine boiler 920 located at the right side of the block block steel tower 116, a high pressure storage tank receiver tank 145 and a large hydroelectric power generator 944, Pressure hose 190 in the event of an emergency in the event of the generation of noxious gas during the collection of the natural gas 918, the natural gas 922 and the crude oil 841 from the storage tank and the storage tank, And the cement 931 and the cement 931 that are configured to fill the drilling space with the loess 158 and the cement 931 after the crude oil 841 is harvested and produced, The marine ironworks facility constituting the mixer machine 73 which is the equipment for mixing the loess 158 includes a helicopter station 619 to the left of the block pylon 116 constituting the nuclear power plant equipment, machine room A satellite launching platform 643 and a space rocket launching platform 646 for providing a satellite 611 and a space rocket 612 are provided on the left side of the safety control room of the marine steelworks, The placement of the satellite 611 and the space rocket 612 into the satellite launch pad 643 and the space rocket launch pad 646 constituting the marine steelworks equipment (593,594,595) double-structure block tank bridge pier (928) and double structure block tank bridge bridge (929) of a marine small-sized and medium-sized and large oceanic steel mill constructed within the main body A dual structure block tank pipe bridge (937) and double structural block tank marine tunnel traffic devices (941) are connected to the connection shaft, Achieve a tank with a double structure block is composed.

The air compressor 80 facility composed of the facilities of a marine steelworks is provided with a net hose 109 and a nozzle 923 constituting an air compressor 80 to prevent harmful red tide from breeding, The pipe rack (854) facility of the crude oil drilling machine (908) located in the drilling machine room and the small toothed sawteeth of the crude drill rod is provided with a connecting rotation operation and is located on the shelf of the drilling machine A drilling machine 908 is provided at the upper end of the lathe for providing a shackle with the crane boom 651 of the wire rope 19 of the overhead crane 861 for providing the movement control and for binding the tackle winch 137 A pipe rack 854 having a length of 15 meters and provided with a pipe rack 854 is provided with a stockpile of crude oil at the time of crude oil provided with a crude oil connection at the bottom of the holding tank 590 At the center of the barge hull (593,594,595) double-structured block tank pipe pier which is installed inside the main body of the marine steelworks (1) by providing the installation adjustment with the core drill (917) (928), a double structure block tank bridge bridge (929), a double structure block tank bridge bridge (937) and a double structure block tank marine tunnel traffic device (941). The operation of a marine steelworks with a dual structure block tank facility with a number of distribution shafts consists of a dual structure block tank.

(593,594,595) of a small, medium and large scale marine steelworks constructed to control marine steelworks facilities composed of the interior of the marine steelworks main body (1). (593,594,595) A band guide 621 provided with a hydraulic cylinder key 623 provided with a marine steelmaker facility adjustment process and a hydraulic rotary cylinder 620 constituted by a position adjusting device and a hand tool hammer and a wrench are provided so that a large flange- (593, 594, 595) of the marine small, medium and large sized marine steelworks, which provide the operation of the discharge pump and air compressor (80), which constitute the air pressure regulator and the water pressure regulator inside the block tank, A coupling is provided to the portable lug 607 processing hole 615 and the portable lug coupling pin coupling shaft 606 located at the respective block tank connecting portions while providing a repetition of the floating lug, A coupling lug 608 is provided at the end of the bolt thread to provide a coupling to the machining hole and the pin 608 is provided with a pin assembly. And the nut is fixedly coupled to provide a subsea wiring on the double structural block tank line and the power is supplied to the land, and the pump and the air compressor (80) operate before and after the occurrence of the harmful tide and before the harmful tide, And the water supply is provided by the flexible high-pressure hose 190 of the cross-shaped type at the seafloor, and the disaster prevention water of the water pressure inside the pump piping line hose is provided with the water mountain range while discharging the discharge jet water and the radial curtain water film through the nozzle gap (925) and a descending airflow (926), and by controlling the power of the typhoon and preventing global warming, a nuclear bomb (611) of a computer system combined with an information exchange communication means of the Internet network (50) for peacefully resolving international disputes, A double structure block tank of a marine small-sized, medium-sized and large-scale marine steelworks built up in the main body 1 of the marine steelworks 1 (593, 594, 595) A connection structure capable of disassembling and connecting the connecting shaft connected to the pipe bridge pier 928, the double structure block tank pipe bridge 929, the double structure block tank pipe bridge 937 and the double structure block tank marine tunnel traffic device 941 And a plurality of distribution shafts for providing a double structure block tank, and the operation of a marine steelworks having a double structure block tank is constituted by a double structure block tank.

(593,594,595) of small, medium and large scale offshore steelworks which are composed of marine steel mill facilities to control the marine steelworks facilities composed of the inside of the marine steelworks main body (1) Friendly and environmentally friendly energy hydroelectric generators equipped with a control system for marine ironworks facilities, which are composed of a position control system, to collect electricity from the seabed mineral resources and collect iron ore immediately after collecting power, (901), and a supply of iron ore, crude oil (841) and non-polluting natural gas (922) to the countries of the world. Marine train tunnel internal train (771) (593,594,595) of marine small and medium-sized and large-scale marine steelworks constructed with the equipment ) Double structure block tank pipe bridge 928 and double structure block tank pipe bridge 929 and double structure block tank pipe bridge 937 and double structure block tank marine tunnel traffic device 941 And a plurality of distribution shafts provided as coupling structures capable of being coupled to each other to constitute a dual structure block tank for operation of a marine steelworks having a dual structure block tank.

In addition to establishing a maritime steelworks to resolve the territorial disputes in the territory of the world, the government has set up a facility to cooperate with the international social and economic development, (184) according to the achievement of the seabed resource reserves, and to provide a display on the conversion monitor (52) after confirming the winner to the countries and individuals who have acquired the score through the unmanned camera (184) (146) and a skewer (147) wing while equipped with a pirate wreck removal device that emits in a specific area of the sea, And the ignitable materials and disaster prevention materials constituting the facilities of the offshore steel mill are closely related to each other And it is equipped with communication equipment of the Internet control system before and after the fire, a plurality of pumps and pumps, electronic control devices, high performance submersible pumps 36, air compressors 80, air storage tanks, wire ropes, A dual structure block tank pipe connected to a floating oceanic pond (593,594,595) of a small, medium and large oceanic marine steel mill with a connection structure including an equipment helicopter and an air balloon and an airship. 928, double structure block tank bridge 929, double structure block tank pipe bridge 937 and double structure block tank marine tunnel traffic apparatus 941, And the operation of a marine steelworks equipped with a double structure block tank is constituted by a double structure block tank.

In the fire fighting and disinfecting control device constituting the flushing control process of the marine steelworks facility, when the fire constituting the fire fighting and disaster control device is changed to liquid, the nozzle of the pipeline has a radiation-like nozzle gap 15 and a straight gap 15, A plurality of radiation-type curtain water films 39 and a plurality of linear straight-curtain film films 39 are provided in the flushing water of the nozzle gap 15 pipe nozzle, and a gas of death (163) And the horizontal and vertical curtain tanks that are provided with no obstacles to prevent the occurrence of the earthquake, and the pump and the valve connection structure of the electronic control device constituted to constitute the global village, Flood, drought, and landslide prevention together with disaster prevention Electronic disaster prevention system of electronic control pump composed of disaster prevention control device in the global village A double structure block tank pipe pier 928 connected to a floating ocean pond (593,594,595) of a small, medium, and large oceanic steelworks constructed in the main body (1) of a marine steelworks while providing energy power (685) A double structure block tank tank bridge 929 and a double structure block tank pipe bridge 937 and a double structure block tank marine tunnel transportation device 941. The distribution shaft A facility control unit 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 included in a mining collection facility 811 including a main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 57, a hull position moving construction machine part constituted inside the main body 1 of a marine steelworks according to an embodiment of the present invention includes a partial partial detail The structure of the assembly system showing the construction of a dual-structure holding tank and a lifting stand combination system for explaining the whole construction method of the marine steelworks lifting stand is shown in Fig. Block tank showing decomposition coupling in block tank Block tank of marine ironworks showing decomposition coupling structure in unit of tank Construction of hydroelectric power plant for flood control plant Construction of marine steelworks in hull assembly method Road,

As shown in FIG. 57, the equipment control unit 811a of the floating pick-up hood position moving construction machine included in the mineral collection facility 811 is provided with a double pipe structure block pipe line control shaft 238 ), And the marine hydro-nuclear power generation control unit 811b, which provides the power production,

Mineral collection facility divides both sides of the distribution shaft constituting the facilities of the marine steelworks and arranges the marine steelworks facilities that make up the inside of the dual structure block tanks with the hull position moving construction machines and the marine steelworks, A block tank provided with a horizontal and vertical type coupling structure at each part of a strut tank upper barge hull 591 and a strut tank lower barge hull 592 equipped with a diving operation preparation control device located inside the main body, A horizontal block tank hull disassembly portable lug pin connecting shaft 606 having a plurality of lug processing holes 615 constituting a portable lug 607 and an elongated hole 616 for a block tank block unit hull breaker position shifting regulating device ) And machining hole 615 and vertical block tank hull disassembly handheld lug pin connection shaft 606 and machining hole 615 and block tank block unit The elongated hole 616 for the position shift control device is provided so that the barge hull 591 at the upper end of each strut tank and the barge hull 592 at the lower end of the strut tank are connected to each other A plurality of lug pin connecting shafts 606 engaged with a plurality of processing holes 615 provided in the hydraulic tank 605 are connected to the lug processing holes 615. The block tank hull disassembly / And a hydraulic cylinder is provided on a portable lug pin connecting shaft 606 provided with a plurality of lug pin connecting shafts 606 engaged to form a double structure holding tank 598, The block unit block of the diving control unit consisting of connecting structure at the bottom of each part of the barge hull and providing the line distribution input and connecting structure to each part of the hull of the barge hull. Butterfly valve (622) The suction port 585a and the discharge port 585b of the doctor ventilation 585 of the apparatus and the hydraulic cylinder door 624 and the stopper plate 625 for the block tank hull traffic control apparatus and the double structure piping line automatic pneumatic valve transport apparatus 916 And a power motor control module 106 for engine control, respectively, to provide a diving preparation preparation operation to convert the horizontal holding tank 590 into a vertical holding tank 590. In the marine steelworks facility, A double structure block tank pier (928) of a flood control console (593, 594, 595) of a marine small, medium and large scale offshore steel mill which is composed of the main body (1) of the ocean mill with preparation for the diving to the lower sea level (SLD) And a double structure block tank bridge pipe (929), a double structure block tank pipe bridge (937) and a double structure block tank marine tunnel traffic device (941). Dual structure with shaft It is configured to fulfill the operation of a marine steel mill comprising a lock with a double tank structure, tank block.

A power motor motor body 192 constituting a distribution shaft of an adjusting shaft constituted by the inside of the main body 1 of the marine steelworks and a center portion circle of a rotating shaft 198 formed on the horizontal center line MBCL of the power motor electric motor body 192, A pump to which the guide vane 142 is not attached and a piston 127 to be attached to the rotary shaft 198. The impeller 142 is fixed to the impeller 143 by the guide vane 142, A main valve 265 on the side of the pump aberration 943a located under the large hydroelectric power generator 944 of the marine sheath hydroelectric power plant 943 provided with a pump and a large hydroelectric power generator 944 provided inside the power plant, The propeller pump 146 and the viscous pump 343 to the plunger pump 148 and the high pressure piston pump 127 to the balance nozzle and turbine 267 pump 140 in the Pelton aberration 943c and the Pelton aberration 943b, The pump is removably coupled to a rotary shaft (198) within each pump body casing (141) And a plurality of microcomputer-controlled multi-stage pumps 8 constituting a power motor motor body 192 of the present invention. The existing crude oil drilling rigs are provided inside the main body 1 of the marine steel mill, It is a marine steel mill constructed to be different from the operation in the continental shelf area within 200m depth and it is composed of anchor of the previous hull fixation in that the hull fixation is constituted by the crank crank (846) A facility adjustment unit 811a of the floating pick-up hood position shifting construction machine included in the mineral picking equipment unit 811 constituting the inside of the main body 1 of the marine steel mill with a difference; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 58, a marine steelwork lifting console (593, 594, 595) constructed on the upper part of a deck upper part (SDU) of a deck of a steel hull is connected to a hull position moving construction machine part constituted by the inside of a marine steelwork body 1 according to an embodiment of the present invention (928) showing the construction machine position control arrangement of the hull locomotion control, internal tunnel (937) and marine tunnel traffic facility (941) Marine tunnel internal transport train (771) Nuclear hydroelectric power plant Construction machine connection structure Of manufacturing method of marine steelworks Straight configuration Road,

As shown in FIG. 58, the equipment control section 811a of the floating pick-up hood position moving construction machine included in the mining collection facility 811 constituting the interior of the marine steelworks main body 1 is provided with The marine hydro-nuclear power generation control unit 811b, which shows the construction of the double-pipe structure block piping line control shaft 238 and provides power production, is connected to a floating pick- (811a) to an electronic sensor valve thread adjusting portion (811h) of the ship's steel mill, and the ship is equipped with hull locating construction machines to construct a double structure block tank, (593,594,595) of small, medium and large sized marine steelworks constructed on the upper part of the deck of the ship's hull deck (SDU) It is provided as a connection structure of the construction equipment of the marine tunnel transportation device internal train (771) inside the marine tunnel transportation device (941) to the pipe bridge pier (928) and the pipe bridge (937) (593,594,595) of the oceanic steel plant of the offshore iron and steel plant to provide a nuclear power hydroelectric power plant facility with the reactor facility for the nuclear waste disposal of the marine steelworks, and the hydraulic rotation of the rack and pinion type (NRP) The butterfly valve 622 for controlling the buoyancy of the cylinder 620 and the band guide 621 and the hydraulic cylinder 623 and the door for the hydraulic cylinder 624 and the distributing and inputting devices of the nuclear hydroelectric power plant adjustment machine A portable lug 607, a portable lug pin 608, and a large flange connection joint joining region processing hole 615. The vertical wall 605, the lug coupling pin 606, the portable lug 607, Development A pipe bridge 928 and a pipe bridge 928 are connected to an oil drilling drilling machine 908 constituted by a construction machine connection structure pipe bridge 928 and a pipe bridge 937 and an inside of a marine tunnel traffic device 941, 937) Nuclear waste treatment Double structural block tank Marine tunnel consisting of the interior of the marine tunnel transport device (941) Transport equipment Internal train (771) equipment includes marine tunnel transport device internal train (771) Construction machine connection (593,594,595) dual structure block tank bridge pier (928) of the marine small, medium and large scale marine steelworks with the structure and disassembly inside the main body (1) of the marine steel mill, A plurality of distribution shafts provided as connection structures capable of disassembling coupling shafts connected to the tank pipe bridge 929, the double structure block tank pipe bridge 937 and the nuclear waste disposal double structure block tank marine tunnel traffic equipment 941 The Marine mill main body (1) of equipment support sikdok hull positioning a construction machine comprising a mineral collected seolbibu 811 to configure into the control portion (811a) and; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

59, a hull position moving construction machine unit constituted inside the marine steelworks main body 1 according to the embodiment of the present invention is a block tank unit decomposition Construction of a hydroelectric power plant showing the construction of a combined system Construction of manufacturing method of a marine steelworks assembling hood assembly hull Construction of road,

59, the equipment control section 811a of the floating-fed octopus hull locating and construction machine included in the mineral collection facility 811 is provided with a double pipe structure block pipe line control shaft 238 for processing nuclear waste of the nuclear hydroelectric power plant ), And a marine hydro-nuclear power generation control unit 811b for generating power production is provided with a hull position shifting construction machine for distributing both sides of a distribution shaft constituting the interior of the main body 1 of a marine steelworks, In the reactor facility for nuclear waste disposal, which constitutes a double structure block tank dust collector for nuclear waste disposal, a plurality of reactor facilities are installed in the block tank dust collector, and a buoyancy control tank and a holding tank 590 The double block tank 598 of the facility includes an inner block tank 596 and a buoyancy control tank in an empty space of the outer block tank 599 and a small- (607) and a lug pin (608) are provided on the outer side of the marine steelworks of the marine steelworks located outside the flood control console (593, 594, 595) (593,594,595) barge hull installations of small, medium and large scale offshore steel mills of the ocean (593,594,595), and a floating ship of small-scale, medium-sized and large-scale offshore steelworks constructed of barge hull facilities (593,594,595) A hydraulic cylinder 620 and a hydraulic cylinder door 624 constituting an operation of freely tilting and extending the holding tank 590 of the barge hull at the sea level position A buoyancy control butterfly valve 622 and a solenoid valve 76 connected to the buoyancy control tank and connected to the buoyancy control tank of the barge hull, The operation of the on-off main switch button 66 of the main switch button 66 for the solenoid valve start switch button is provided to open the butterfly valve 622 and the operation of the main body 1 of the marine steelworks equipped with the nuclear reactor- (928) double structure block tank pipe bridge (593,594,595) of marine small, medium and large scale offshore steelworks built in the inner part and nuclear waste treatment double structure block tank pipe bridge (929) and double structure block tank pipe bridge And a plurality of distribution shafts provided as connection structures capable of disassembling and coupling the connection shaft connected to the nuclear waste disposal unit 937 and the nuclear waste treatment dual structure block tank marine tunnel traffic apparatuses 941. The nuclear waste disposal with double structure block tank dust collector The nuclear power plant of the marine nuclear power plant equipped with the nuclear reactor facility is composed of the dual structural block tank dust collector for nuclear waste treatment.

The stern tanks of the upper tank barge hull (591) connected to the marine steelworks are connected to the respective holding tanks (590) that are not connected to the barge hull. The stern section of the connecting shaft vertical to the top of the sea surface The submersible and semi-working submersible 637, the barge and the tug 636 are connected to the stern of the connecting column 590 of the holding tank 530 and the connecting shaft position of the upper tank barge hull 591, (877) construction equipment and marine tunnel transportation device position shifting control device and inflagration control device are equipped with docking prevention device, equipped with docking prevention lines, and fixed and terminated (593,594,595) of small-sized, medium-sized and large-scale offshore steelworks with sinking prevention type to provide automatic connection structure of nuclear power plants, A marine steel mill equipped with a nuclear power plant for nuclear waste disposal with input of a construction machine and a marine tunnel traffic facility,

(593,594,595) of a small, medium and large scale offshore steel mill in the offshore, constructed a marine nuclear hydroelectric power plant with a reactor facility for nuclear waste disposal with a double structure block tank dust collector for nuclear waste disposal, A holding tank 590 of a barge hull of a coupled connection structure is connected to one side of both sides of a holding tank having a block tank coupling portable lug 607 of a vertical type and a horizontal holding tank 590 which provides a buoyancy adjusting device in the body of a barge hull, A double structure block tank for nuclear waste disposal provided as a holding block tank capable of adjusting the positional movement of the hull at a constant angle from 0 ° to 350 °, and a nuclear reactor equipped with a nuclear waste disposal facility equipped with a dust collector, (593,594,595) of small, medium and large oceanic steelworks in the ocean. (593,594,595) dual structure block tank bridge pier (928) and a nuclear waste disposal structure (1) of a maritime small and medium-sized and large oceanic steel mill constructed within the main body of a marine steelworks while sequentially overcoming disasters. A plurality of distributions provided by a disassemblable connection structure of a connection shaft connected to a block tank bridge 929, a double structure block tank bridge 937 and a nuclear waste disposal double structure block tank marine tunnel traffic apparatus 941 And a double structural block tank dust collector for treating nuclear waste is constructed to operate a nuclear nuclear hydroelectric power plant having a nuclear reactor waste disposal reactor equipped with a double structure block tank dust collector with a shaft.

Barge ship hull (591) of marine nuclear hydroelectric power plant composed of the inside of the main body (1) of the marine steelworks The inside and outside of a plurality of inner block tanks (596) inside the hull deck center (SDM) The power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission is provided at each position and is provided with a double structure barge hull 591 at the upper end of a holding tank 590, A guide rail 618 located at the upper end SDU of the ship's deck is provided at the left and right positions of the deck deck and a crane 861 of 5000 ton capacity is provided on the guide rail 618, In a safe place where a crane (861) constituting a nuclear water hydropower plant renovation work is installed, a dual structure large-sized sliding hatch cover (153) is installed in a double or triple structure And a hydraulic cylinder (623) provided at one side of the air-conditioning adjustment shaft, the hydraulic cylinder (623) being provided as a connection structure for adjusting the position of the hull by the hydraulic cylinder (623) (928), double structure block tank bridge bridge (929), dual structure block tank bridge bridge (937) and nuclear waste treatment bridge (593,594,595) of small and medium and large scale ocean steelworks A waste water treatment double structure block tank, a nuclear waste disposal facility equipped with a dual structure block tank dust collector having a plurality of distribution shafts provided with connection structures capable of disassembling coupling shafts connected to marine tunnel traffic devices 941 The operation of the nuclear power plant of a marine nuclear power plant is composed of a dual structural block tank dust collector for nuclear waste disposal.

A marine nuclear power hydroelectric plant consisting of the inside of a marine steelworks main body 1 is equipped with a barge hull 591 at the top of a dual structure holding tank and a holding tank 590 at a barge hull 592 at the bottom of a dual structure holding tank, The lug 607, the lug connection shaft coupling bolt 603, the lug connection shaft coupling and disassembling nut 604, and the position of each of the adjustment shafts are connected to the disassembly-coupling portable lug coupling pin connection shaft 606 of the tank position- (593,594,595) of a small, medium and large sized offshore nuclear hydroelectric power station of the ocean, consisting of a control unit (811a) of a moving machinery, A plurality of distribution shafts constituted by connection structures capable of disassembly coupling the structural block tank pipe bridge (937) and the nuclear waste disposal marine tunnel transportation equipment (941) connection shaft, and a double structure barge Sector (591) The SDM is connected to a number of inner block tanks (596) through a connection structure. It is equipped with a reactor facility for nuclear waste disposal, (593,594,595) dual structure block tank bridge pier (928), dual structure block tank bridge (937) and nuclear waste disposal dual structure block tank (941) Disassembly of connection shaft The connection structure that can be disassembled and coupled with the floating posture 593 of a small marine steelworks provided with a joint structure capable of being coupled is a double structure block tank 598 formed on the circumferential surface of a floating ocean stand 593 of a small- A separation lug 607 and a portable lug pin connection shaft 606 and a floating marine dish 594 side portion of a midsize marine ironworks, a hull attachment detachment portable lug 607 and a portable lug pin connection shaft 606 ) To A hydraulic cylinder 623 is provided to provide a combination of a floating ocean reader 593 of a small oceanic steel mill with a floating ocean reader 594 of a medium sized ocean nuclear hydroelectric power plant and a side plate 594 of a floating ocean nuclear hydroelectric power plant, A hydraulic cylinder 623 constituting a floating attachment link 594 is connected to the hull attachment detachable portable lug 607 and the portable lug pin connection shaft 606 located at the respective positions, , A hull coupling separation portable lug 607 and a portable lug pin coupling shaft 606 located at respective locations and the hydraulic cylinder 623 is provided with a diving control and separation coupling for each of them, (928), nuclear waste treatment double structure block tank bridge (929) and double structure block tank (928) of the floating structure of the marine small size, medium and large scale offshore steelworks (593,594,595) The bridge bridge (937) and nuclear waste A water treatment dual structure block tank, and a nuclear waste disposal reactor having a double structure block tank dust collector having a plurality of distribution shafts provided with connection structures capable of disassembling coupling shafts connected to marine tunnel traffic devices 941 The operation of the nuclear power plant of a marine nuclear power plant is composed of a dual structural block tank dust collector for nuclear waste disposal.

The buoyancy control butterfly valve 622, which constitutes the suction and discharge of the disaster prevention water, is installed inside the flood control console (593, 594, 595) of the small, medium and large scale marine steelworks constituting the nuclear hydroelectric plant including the main body (1) And a solenoid valve (76) constituting an opening of a buoyancy control butterfly valve (622) having a connection structure to a solenoid valve (76). The main switch button (66) The door 624 for the hydraulic cylinder is opened by the operation of the hydraulic cylinder 623 in the empty space for diving control in the hull and the electrolytic water is filled in the empty space for controlling the diving so that the barge hull is slowly diving into the water while the buoyancy is lost, A plurality of vertical lugs (607) on both sides of the holding tank (590) constituting the block tank-engaging portable lug (607) of the barge hull are provided with a single vertical The lug fitting pin connecting shafts 606 are provided with a connecting structure so as to provide a connection by the operation of the hydraulic rotary cylinder 620 and the hydraulic cylinder 623 while the door 624 for the hydraulic cylinder is fully closed The hydrocracking unit is installed in the marine area in units of floating tank block units constituting a facility of a marine nuclear hydroelectric power plant that is submerged while controlling the location movement of the marine nuclear power station, and is provided with lug hinge sockets 613 located at respective portions of the holding tank 590 (593,594,595) of a small, medium and large scale offshore steel mill in the ocean (1) with a reactor facility for nuclear waste disposal, ) And Nuclear Waste Treatment Double Structure Block Tank Pipe Bridges (929), Double Structure Block Tank Pipe Bridges (937) and Nuclear Waste Treatment Double Structure Block Tanks Marine Tunnel Transportation Devices (941) A facility control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 having a plurality of distribution shafts provided as a connectable structure capable of being assembled into the main body 1 of the marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 60, a hull position moving construction machine unit constructed inside the main body 1 of a marine steelworks according to an embodiment of the present invention is provided with a double structure block tank 598 for a floating marine steelworks, A double structure block tank side connection structure having a marine safety tool band guide 621 at the upper part of the semi-submerging operation line and illustrating a cutting and underwater welding preparation process, a double structure block tank 598, (598) partial partial structural block tank (591) partially detailing a hydraulic power plant showing the construction of a unit partial side detail coupling system.

As shown in FIG. 60, the facility control unit 811a of the floating pick-up hood position moving construction machine included in the mineral collection facility 811 is provided with a double pipe structure block pipe line control shaft 238 ), And the hydrothermal power production control unit 811b of the hydro-hydro-nuclear power generation plant for generating power is provided with the hull position moving construction machines by distributing both sides of the distribution shaft constituting the nuclear reactor facility, Nuclear Power Plant Nuclear power plant facilities that make up the input of a number of nuclear reactor facilities and constitute reactor facilities include the nuclear waste disposal of small-sized, medium-sized and large-scale marine steelworks (593,594,595) Structural Block Tanks Double Structural Block Tanks for Marine Tunnel Traffic Devices (591) Separate Welding Connections for the Sea (621) of the marine safety equipment of the upper part to provide the welding joint method and the flange coupling method of the joining process of the small and medium and large sized marine steelworks (593,594,595) The double structure block tank 598 and the portable lug pin connection shaft 606 constituting the double structure block tank 598 are connected to each other by the pin connection shaft 606 at the sea level, The double structure block tank 598 is provided with a tool bar band guide 621 at the upper end of the semi-submerging operation line 637 for the marine operation of the unit, and the large flange 614 And the partial coupling of the double structure block tank 598 constituting the connecting flange 614 connecting connection is provided between the band guide 621 and the chain guide 621 while providing the linear combination with the lever block 123 and the chain blocks 648 Semi-diving work line (637) A double structure block tank of a marine tunnel transport device 941 connected to a marine nuclear hydroelectric power plant flood control station with welding and flange connection of a double structure block tank 598 with a welder, bolt, nut and assembly hand tools, (598) Double structural block tank pipe bridge pier (928) of the floodplain (593,594,595) of small scale, medium and large scale offshore iron works of ocean in the main body (1) And a nuclear waste treatment dual structure block tank bridge 929, a double structure block tank bridge 937 and a nuclear waste treatment dual structure block tank marine tunnel traffic apparatus 941, The nuclear waste disposal facility having a double structure block tank dust collector having a plurality of distribution shafts provided for the nuclear waste hydrothermal plant, It is configured to achieve tank block precipitator.

The double structure block tank 598 facility of the marine tunnel traffic device 941 connected to the floating marine steelworks of the marine small scale, medium and large scale marine steelworks constructed inside the main body 1 of the marine steel mill is connected to the floating structure block 593, (593,594,595) of a small, medium and large marine steelworks at the top of the sea above the upper part of the sea surface (SLU) that make up the tank (598) facility, and a floating oceanic And a tongue winch 137 inside the block pylon 116 for accommodating a number of emergency stairs 631 at the upper end to provide a block pylon tower 116 installation and a lug A block shaft pair joining bolt 603 joining the unit block steel tower joining joining hole 615 and a lug joining shaft joining nut 604 to form a block block tower 116, (116) Emergency stairs (631) around the inner top, And the emergency stairs 631 constituting the double structure block tank 598 are composed of the position of the mooring position of the airship 78 at the upper end portion of the mooring tower 644 and are connected to the pipe rack transporting crane 861 The installation is provided by the elevator 632 and the double structure block tank 598 is installed to disperse loads constituting the inside of the main body 1 of the marine steel mill, (1) A marine tunnel equipped with buoyancy-controlling marine tunnel traffic device (941) located at the lower 40 M position of the sea level surface (SLL) and equipped with a reactor facility for nuclear waste disposal for adjusting the installation position of the marine tunnel traffic device (941) In addition,

Double structure block tank of floating marine ironworks (593,594,595) of marine small scale, medium size and large scale marine built in main body (1) of marine steel mill equipped with reactor facility for nuclear waste treatment composed of main body (1) Disassembly of the connection shaft connected to the pipe bridge 928 and the nuclear waste treatment dual structure block tank bridge 929 and the dual structure block tank bridge 937 and the nuclear waste treatment dual structure block tank marine tunnel traffic apparatus 941 A dual structural block tank dust collector for nuclear waste disposal, comprising a plurality of distribution shafts provided with a coupling structure capable of being coupled to a nuclear waste water treatment plant having a nuclear waste disposal reactor having a dual structure block tank dust collector Consists of.

The construction machine consisting of the connecting structure of the reactor facility of the ocean steel mill which is composed of the main body of the marine steel mill (1) is equipped with the connection structure of the submersible docking position control mobile device composed of the connection structure of the marine tunnel traffic device (941) (907) for buoyancy control, and a manganese nodule (909) as a connection structure of the submersible docking position moving device of the barge hull. (593,594,595) hull of a small, medium and large sized marine nuclear hydroelectric power station of the ocean is provided as seafloor mineral resource manganese nodule (909) for buoyancy control, and it is provided as a connection structure for controlling buoyancy constituting manganese nodule (593,594,595) Upper part of the hull deck (SDU) Upper part of the hull deck (SLU) Upper part of the hull deck The offshore power plant is a crane boom to crane boom of each crane, and it is equipped with crane boom level level maintenance weight (107), and it is a connecting structure that continuously provides the production of offshore hydroelectric power by providing connection structure with mooring device and power generation equipment. (1) of a marine steel mill equipped with a reactor facility for nuclear waste disposal with a hydroelectric power production control unit (811b) for the production of a hydroelectric power plant for generating power, (593, 594, 595) hull locomotion facility construction machine equipment control units (811a) to control power production of a marine nuclear hydroelectric power plant having a reactor facility for nuclear waste disposal, The bottom oceanic manganese nuclide 909 constituting the manganese nodule 909 is connected to the outside of each part of the body of the holding tank lower barge hull 592 constituting the manganese nodule 909 A connection structure for providing a plurality of hatch cover 153 passages provided on the wall, a connection structure to the double structure piping line automatic pneumatic conveying device 916, and a buoyancy control butterfly valve 622) and connection structure Solenoid valve of solenoid valve (76) Pressure switch Solenoid valve Start switch Main switch button for button (66) Connection structure Power cable (71) The operation of nuclear power hydroelectric power plants with nuclear reactor facilities for waste treatment consists of a double structure block tank dust collector for nuclear waste treatment.

A connection structure is provided by a power transmission control unit 811c of a submarine crossing railway substation for nuclear waste disposal that provides power transmission to control power production of a nuclear hydroelectric power plant constituting the inside of a main body 1 of a marine steelworks, (593,594,595) dual structure block tank bridge pier (928) and a nuclear waste treatment duplex of a small, medium and large scale offshore steel mill, which is composed of a main body (1) of a marine steel mill equipped with a reactor facility for nuclear waste disposal, A plurality of building blocks provided with connection structures capable of disassembling coupling shafts connected to the structural block tank bridge bridge 929, the dual structure block tank bridge bridge 937 and the nuclear waste disposal double structure block tank marine tunnel traffic equipment 941 The operation of a marine steelworks with nuclear reactor waste disposal reactor facility equipped with a dual structure block tank dust collector with a distribution shaft is divided into a dual structure block tank Achieve a marine steel mill dust collector body (1) of equipment support sikdok hull positioning a construction machine comprising a mineral collected seolbibu 811 to configure into the control portion (811a) and; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

61, there is shown an alternative embodiment of a marine ironworks main body 1 according to an embodiment of the present invention, in which a dual structure block tank 598 of a marine steelworks foot care unit is provided, A connecting structure that winds up an anchor chain 640 with a tongue winch 958 by winding it around a rotary tongue winch 958 which is a connection structure inside the main body 1 of the marine steelworks, 959 and tugboats 636 and the tugboat 636 is provided with auxiliary support for operation of the marine steelworks while the double structure block tank 598 of 500m unit on one side of the nuclear waste treatment double structure block tank bridge bridge 929 is provided to the sea surface (929) The double-structured block tanks (598) are partly double-structured as shown in partial detail. The double-structured block tank (598)Rock Tank (598) double block structure for goods transportation unit section showing the detail of the side-coupled tank tube bridges 929 support sikdok method of assembling the hull of the marine steel mill road connection configuration,

61, the equipment control unit 811a of the floating pick-up hood position moving construction machine included in the mineral collection facility 811 is provided with a double pipe structure block pipe line control shaft 238 for processing nuclear waste of the nuclear hydroelectric power plant ), And the marine hydro-nuclear power generation control unit 811b, which provides the power production,

The nuclear power plant nuclear waste disposal unit 811a to the electronic sensor valve screw control units 811h included in the nuclear hydroelectric power generation facility unit 811 constituting the inside of the marine steelworks main body 1, In the nuclear reactor facility that constitutes the double structural block tank dust collector for the nuclear waste disposal, it is necessary to install the vessel for the construction of the marine steelworks facility, In case of long distance transportation of bridges, it is equipped with a tugboat to install a plurality of pipe bridge block tanks for disassembly of the raft line. Disassembly and transport in the area. Deformation method 500m unit block tanks are installed. Nuclear waste treatment double structure block tank provided with crankshaft (593,594,595) hull assemblies of small, medium and large sized marine steelworks of marine steelworks connected to bridge bridges (929) (590) formed in the main water tank main body (1) having a reactor system for treating nuclear waste with a liquefying method, A plurality of strut block tanks 590 formed outside the holding tank lower barge hull 592, a strut tank upper barge hull 591, and a connecting portion between upper and lower ends of the strut tank block tank formed in each of the barge hulls disassembly- (607), which is composed of a lug pin connecting shaft (606), a lug connecting shaft coupling bolt, a screw thread and a lug connecting shaft coupling / disassembling nut, a portable lug pin connecting shaft (606), and a portable lug pin And a process hole 615 and a long hole 616 formed in the portable lug 607 are formed in a horizontal and vertical building structure The marine steelworks facility comprising the portable lug pin connecting shaft 606 and the portable lug fins 608 is formed with floating guard 998 provided with a sink prevention function and the upper barge A plurality of pipe racks 854 formed on the undersurface ground surface GLD are formed by excavation equipment and mooring devices at the lower center of each of the vertical vertical holding tanks 590 on the outer circumferential surface of the inner circumferential surface of the holding tank, And the anchor replacement crankshaft 846 is connected to the hydraulic cylinder 620 and the hydraulic cylinder skewer bed 623 so that the upper portion of the pillar of each of the holding tanks And an anchor replacement crank 846 connected to the construction machine 970 is installed in a core drill drilling hole to operate the hydraulic cylinder 620. Thus, (846) is pushed in, The worm crank 846 compresses and expands inside the drilling hole and has a plurality of slit-like tool grinder fasteners 185 each having a sharp end and is fixed in the ground to fix the lower end portion of each strut tank, (593, 594, 595) of small, medium and large sized marine steelworks that constitute the anchor replacement worm crank (846) can be installed in the deep seabed and can be installed in the marine small, medium and large scale marine steelworks (593, 594, 595), to provide a connection with a marine nuclear power plant equipped with a boiling water reactor facility for nuclear waste disposal,

A mooring device for securing safety constituted by the interior of the main body 1 of the marine steelworks is provided in a shared marine landfill 944 and a shared water surface landfill 945 to be installed inside a marine steelwork main body 1 having a reactor facility for nuclear waste treatment (928), dual structure block tank bridge bridge (929) and double structure block tank bridge bridge (937) of floating marine small and medium sized marine steelworks (593,594,595) Nuclear waste treatment dual structure block tank Nuclear waste treatment facility with dual structure block tank dust collector having a plurality of distribution shafts provided with a connection structure capable of disassembly connection of connection shafts connected to marine tunnel traffic devices 941 To the mining collection facility 811 constituting the inside of the main body 1 of the marine steel mill so as to make the nuclear power plant operation of the marine nuclear hydroelectric power plant equipped with the nuclear waste hydro- And the facility control unit (811a) of the support sikdok Hull positioning construction machinery; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

A mineral collecting facility (not shown) provided as a connection structure of a hydraulic cylinder machine 624 connected to the marine tunnel transportation device 941 and a rocker bed 616 connected to the marine tunnel transportation device 941 in a lifesaving structure, 811), the facilities of offshore steelworks of floating and offshore marine power plants,

The material is KS D 3515 with a thickness of 24mm and the steel plate (597) with a high strength is welded to the welding area in the same manner as welding (713) The J-shape, the V-shape, the H-shape, the X-shape, and the V-shape to form the chamfer 727 and the welded joint And the double structure block tank 598 dust collector is provided in the area of the inner pipe 14 and the area of the outer pipe 14, The memory 70, which is designed in consideration of the tensile strength and the thickness of the steel sheet and designed by hand, is connected to the computer via the computer input 68. The underwater laser, which is a computer control panel, Underwater cutting machine and computer laser And the surface of iron plate (597) welded high-strength improvement of the cut by the short configuration at the manufacturing plant to gakgae,

The unmanned camera 184 of the control system configured to check the status of the worksite transmits the cutter and the cutoff status to the monitor 52 through the operation of the computer control server 51, And a computer laser cutting device, and the shape of various welded joints, which is a weld improvement surface constituted by the cutting device, by welding.

The table below shows the dependence of land and marine marine steelworks in the mineral collection facility (811), which is composed of the interior of the main body (1) of the marine steelworks with nuclear reactor waste treatment facility equipped with a conventional dual structure block tank dust collector The efficiency of the Japanese boiler standard welding in the structure of the conventional thermal power generator constituted in the stationary nuclear hydroelectric power plant will be described as the following table.

<Table 1-18 Welding Efficiency of Japanese Boiler Standards>

The type of welding method and the selection of welding machine are explained as the table below.

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 comparatively important ones, some of the methods considered to be particularly important for those who are engaged in welding job are as follows. As shown in Table 2-1, these are divided into three types of welding .

<Table 2-1 Welding method of metal>

Welding is also known as melting welding, in which the molten metal is supplied or melted and welded, in which case the welded material melts and no pressure is applied.

The pressure is applied to the lead portion and is heated as heat by the combustion flame or current of the gas, or is heated only by heating but is sucked as a function of the surface tension in the gap where the other molten metal is connected, The work force acts to bond.

For welding, various types of cutting methods are used for cutting of materials, processing of joints (joints), and gouging.

As a cutting method, there is a method using a gas flame and an arc as well as a mechanical cutting, but a method other than a mechanical cutting is particularly related to welding.

Of these, oxygen and acetylene welding are particularly popular among coated metal arc welding and gas welding methods.

Submerged arc arc welding and inert gas arc welding are also the main welding methods, so we will put more weight than other welding methods.

Secondly, in opening according to coated arc welding,

Coated arc welding is currently the most commonly used welding technique and is often referred to as electrical welding.

In this welding method, welding is performed by providing an arc of arc generated between the welding electrode 853e to be coated and the welding object to be welded.

When this welding method is displayed, an alternating current or direct current electric voltage is applied between the coated electrode welded to the holder and the parent material to be welded to generate an electric arc in the gap.

The welding rod 853e and the base material 853g are melted at a temperature of about 6,000 ° C which is the strong heat of the electric arc and the metal vapor or the volume of the welding rod 853e is melted by the molten metal, And combined with the mother material (853g) melted there to produce weld metal (853h).

When the two materials are welded, when the material (material) is thick, a groove is formed in the following portion, and the groove is filled as welding metal 853h and joined.

The bead surface of the weld line at this time shows a ripple shape due to the solidification of the weld.

The electrode 853e is coated with a coating agent 853f on the surface of the metal core wire 853i.

The coating agent 853f is decomposed by the arc heat and stabilized so that the arc does not get out well due to the role of the decomposed gas, and the generated gas or slag,

By covering the molten metal, molten metal is protected from the atmosphere to prevent oxidation and nitrification. The molten metal improves by proper chemical reaction and sometimes adds other elements required for the weld metal.

Since the gas generated by the covering agent does not protect the molten metal by protecting it from being adversely affected by the air, the welded portion weakens and weakens, so that the welding electrode is almost useless in Korea at present. Do not.

AC or DC welding power source is used as welding machine. Other welding devices include welding cables, welding rod holders, handles or helmets, and other tools that other welders require.

Thirdly, in the properties of arc (853k), a voltage is applied between the electrode and the base material, and once it is contacted, a little blue arc of electric arc arises.

A large current (about 50 to 400A) flows through this arc 853k. This current dissociates the metal vapor and various gaseous molecules around it to divide the electrons into electrostatic cathodes and negative electrons, Ions flow toward the cathode and the anode, respectively, so that the arc current flows.

First of all, for polarity welding, when arc welding is used, DC welding is used when DC welding power is used, and when AC welding is used, AC welding is used.

For DC welding, there are two polarities depending on whether a welding rod is connected to the anode of the welding machine.

When the polarity of the welder is connected to the anode of the welder (DCRP), the polarity of the welder and the reverse polarity of the welder when the electrode is connected to the cathode of the welder It is divided into polarities of opposite polarity.

In the early days of electric arc welding, the coating of the electrode was not well developed, so a DC welding machine was widely used. After that, a good coated arc welding rod was produced, so a low-cost AC welding machine was widely used. It is one of the remarkable advances.

There is a phenomenon in which, during arc welding, the arc is not directed in the right direction but is sideways. This is particularly so in the end or at the beginning of the weld that the arc is pushed into the weld as the wind is blowing, thereby preventing the weld from going to the desired spot without welding.

This phenomenon is called arc blow or self-deflection.

The phenomenon of this arc tip does not occur at the center of the welded part.

As a preventive measure against arc

The first is to use AC welding instead of DC welding

Secondly, the backing staple (15 cm Inde such as about ^two parent material and to use a method of welding daeeoseo off going to extend the welding lines at the beginning and end of the plate material, such as of the first method is the most effective.

For coated arc welding, for an arc welder, an arc welder (welder) 853,

There are DC arc welding machines and AC arc welding machines which are designed to allow a large current to flow as a low voltage suitable for welding. There is also a single welder for one welder and a multi-welder for more than two people.

First, there are two kinds of DC arc welding machine (853), DC arc welding machine and 2.2 degree DC arc welding machine (853n). AC motors (engine) rotate the DC generator to generate welding DC to be.

In arc welding, it is very important to adjust the welding current according to the welding object. In this type of welding machine, there is a control dial on the instrument panel to adjust the current.

In addition, since there is a changeover switch to match the positive polarity and the reverse polarity because it is a direct current, and the sign of the positive (+) (-) or the positive (+) and negative And the cathode are marked.

In addition, a three-phase induction motor (commonly referred to as a three-phase motor in many cases) is often used as a motor. When a welding machine is connected to a power source, the rotation direction of the motor may be reversed if the three power lines are connected incorrectly.

In this case, if only one line of 3 lines is exchanged with another line, whether the direction of rotation is right or wrong is indicated by the direction of rotation in the welding machine.

Selenium rectification type DC arc welding machine (853o). Inside this welding machine, it is rectified by direct current by rectifier rectifier with external AC. This serene rectification type DC welding machine has developed recently and has no rotating parts, little no load loss (power consumption when not welding), quiet, cheap and easy to repair, It is becoming popular in developed countries recently. However, compared to an AC welder, it is still expensive and inefficient.

Secondly, AC arc welder (853p) has been used very much since the stability of arc has been obtained by AC by the development of welding rod. AC welding machines are widely used because they are relatively simple, cheap, and easy to repair.

In addition, it is effective for prevention of subarcting.

In the AC welding machine 853p, the following three methods are mainly used according to the current adjusting method.

First, a movable linear AC arc welding machine 853r and a giant saturated wick type AC arc welding machine 853 are used in a movable iron core AC arc welding machine 853q

The current adjustment of the moving iron-core AC arc welder 853q is carried out,

The third iron core M ₃ is installed in addition to the iron cores M ₁ and M ₂ of the transformer, and the movable iron core M ₃ is moved so that the degree of the leakage current is changed to adjust the magnitude of the welding current.

In this case, the taps of the secondary windings n ₂₁ and n ₂₂ are usually changed to adjust the large range of the current, and the detailed adjustment is often made as the movable iron piece.

The current adjustment of the movable-pin type,

As shown in the diagram (853q) of the movable iron core AC arc welder, the primary coil is moved relative to the secondary coil to adjust the value of the leakage reactance.

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, even if the same current flows through the primary winding.

In the saturated-reactor-type AC arc welder 853t,

A method is adopted in which a reactor is directly inserted into a secondary circuit and excited as a different power supply (rectifier C) to change the degree of saturation of the magnetic circuit to change the effective rich tangent.

This method is not only easy to adjust the current, but also has another advantage,

Adjusting the current at a remote location from the remote control welder using the variable resistor C in the AC arc welder 853p).

Regarding the precautions for using the welding machine,

First of all,

The ratio of the time that the arc springs between the welding rod and the mother material on the secondary side of the welder in the welding plant is usually around 40%, so the remaining 60% is the time that the arc is resting without splashing.

The reason why I can not continue to use an unlimited number of welding machines is the temperature rise of the welding machine. When I think about 1 to 1.5 hours related to the temperature rise, the time for splashing of the arc is about 60%.

Next, let's think about whether or not a welder will be able to use a certain amount of welding machine when it is working with some welding machine.

This use efficiency is called the allowable use efficiency. The allowable use efficiency is expressed as follows. In other words

Here, the rated secondary current is shown on the name plate of the welder, and the rated duty rate is also indicated as a percentage of the duty cycle.

For example, assuming that a welder with a rated current of 300A is actually welded with a current of 200A,

However, the rated use efficiency of this welder is 50%.

Therefore, it can be seen that continuous use at this time does not interfere.

In the following,

It is necessary to investigate whether or not the welder has been thoroughly cleaned at least once a year, by measuring the insulation resistance or the first no-load current.

When using the welder in the following places, it is not good to specify this in advance when ordering the welder and do not use the specially manufactured one.

First of all, it should be applied to places that are exposed to windy weather from outdoors, places where harmful corrosive gas is present at a place where the ambient temperature is below -10 ℃, places where there is a lot of steam, There is usually a lot of places in the area, so the welder should not be used in such a place for a long time.

In the specification of 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 explains 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 can be performed by, for example,

It is a major welding method which is widely used for welding various metals which have been difficult to weld by conventional gas welding for coated arc welding.

In this welding method, as shown in Fig. 2, welding with a tongue stain rod or a metal electrode in a nude body of an inert gas (Inert-Gas) which does not react with a metal even at a high temperature such as argon or helium The arc is generated between the objects to be welded and welded with the heat.

There are two methods for this, teak welding (TIG; 853u) and MIG welding (MIG; 853v).

(T IG) welding is an inert gas tungsten-arc welding (T IG), which uses a tungsten rod as an electrode. Arc is melted and welded

(T IG) welding method (853v) of the bottom of an aluminum aluminum small motor runway (Runabout)

It is welding the bottom (T IG) of a small aluminum runner made of aluminum. It holds a torch in the right hand and a rod rod in the left hand.

However, in the thin plate, it is welded only with the arc heat without using the naked electrode.

Tungusuten,

Because it is not nearly consumed (mon consumable), this is also referred to as nut gas welding.

The product names are He li arc, He li weld, Argon arc, Argon weld, and so on.

(MIG, 853w) welding,

This metal gas arc arc welding (MIG after the head of the inert gas metal-arc welding) or the method of generating the arc by continuously (continuously) sending the electrode wire of the consumable material instead of the tungsten electrode Consumable (consumable) is also called nut gas arc welding.

In the MIG welding method diagram (853w) of the aluminum alloy tank,

It is MIG welding of aluminum alloy tank and Torch is in the right hand.

Carbon dioxide arc arc welding (C 0 ₂ arc welding)

It is known as a promising welding method which is recently used for testing carbon steel welding by using Co ₂ gas instead of this nut gas of MIG welding.

In the following advantages,

This nut gas arc welding,

The excellent welding method has the following advantages.

There is no need for first coat and flax.

In general arc welding or gas welding, it is necessary to use coating or flux to prevent oxidation and nitriding of molten metal. In this nut gas arc welding, however,

This is unnecessary because it is welded in the nut gas, or the work is very simple because no mechanical or chemical treatment is required to remove the slag or residual (used and remained) flux after welding.

In addition, there is no fear that the welded portion will be corroded by residual fluxes in aluminum, magnesium and stainless steel as in conventional welding.

This is because the nut gas arc welding is mainly used for light alloy or stainless steel.

The following is easy to weld in all positions and is efficient

In general, this nut arc arc welding arc is very safe, has little spatter and is relatively easy to operate.

Because it is welded in all posture and heat concentration and welding efficiency are good, when used in thin plate, welding speed is fast and there is a possibility that deformation after welding is small.

In addition, it is very advantageous for welding copper alloy or light alloy having good thermal conductivity (heat transfer efficiency).

Unlike submerged-arc welding, it can be seen directly on the arcane melting sheet and is advantageous in many ways.

The quality of the third welded item is excellent.

This nut gas arc welded part has ductility (strength), strength (strength), airtightness (dense metal corrosion), and corrosion resistance (corrosion resistance) compared to other arc welding or gas welding welding parts. This is generally excellent,

If this nut gas arc welding is a drawback, the facility cost is rather high and the nut gas is rather expensive. However, since welding work cost is rather low, it is widely used nowadays and is widely used for aluminum alloy, magnesium alloy, , Nickel alloy, copper alloy, carbon steel and low alloy steel. Especially titanium alloy, zirconium alloy, etc. In welding of metal which is likely to come into contact with oxygen or nitrogen in the atmosphere at high temperature and to be harmful, Only arc welding is used.

(T IG) welding is generally applied to a thin plate with a thickness of 0.6 to 3 mm , and to a thick plate with a thickness of about 3 mm or more.

That is, (MIG) welding is more efficient than (TIG) welding.

There are roughly the following types of nuts and gas arc welding and related welding methods.

T IG welding is a manual method in which a welder manually manipulates the electrode parts generating the arc, that is, the torch and the welding rod, and instead uses an automatic mechanism ), Semi-automatic (semi-automatic), in which the supply of the welding rod is done by motor (mo- tor) and only torch is hand-operated

In addition, there is an arc spot welding that welds as a spot instead of a continuous long weld, and a special (T IG) toroid is also used for cutting the arc, do.

The twin ar c method of generating arc arcs between two tungsten rods, such as atomic hydrogen arc welding, by using a twin arc method (T IG) welding, Is also being used.

On the other hand, in the characteristics of the inert gas tungsten arc arc (T I G) welding, alternating current or direct current is used, and the influence of the polarity on the welding result is very large.

In DC welding, the flow of electrons and ions flowing through arc in DC welding is as shown in the figure.

In the positive polarity, the metal vapor and the ions of this nut gas are directed to the electrodes, and the electrons strongly impact the substrate, so that the ions are concentrated deeply.

Since the electrode does not generate excessive heat as a collision of the gas ions having a slow velocity, the electrode can flow at least a large current (not described below).

Even though the speed is slow, if you have developed a nationally developed magnetic levitation trains more than 10 years ago, you may think that the magnetic levitation trains with a speed of more than 200 km may have become visible to the Gyeongbu Line or Honam Line.

Domestic conglomerates are now concentrating on semiconductors (1067), but the next unexplored area in the next 22nd century will be the superconductor (1062) industry, not the semiconductor (1067) industry.

The structure 1109 of the reciprocating engine constituting the airplane 1108 included in the mineral collection facility 811 constituting the inside of the main body 1 of the marine steelworks and the side view diagonal configuration of the airplane inspection 1110,

In the engine type rock drilling machine (847) facility, it is used as a rock drill when drilling a concrete structure easily by engine type at the site of collapse of various concrete structures. When crushing a concrete structure, It is a device that can be used for brakes. The specifications are as follows: Engine type: 75 c c 2 cylinders,

The capacity of the fuel tank is 1.1L and the weight is 15Kg. The power source is volatile, oil 12: 1, the inflow power is 14.3J, and the crushing capacity to control the electronic control regulator construction machine is 2.200 / min And an air compressor type reciprocating piston type. In the configuration, it is preferable that a number of striking bits 940 are formed in the rock drill 847,

A striking bit is formed in the jack body feature.

1) Maximum working diameter: ¢ 51mm 2) Working depth: 2.54m 3) Adjustable rotation speed

4) Underwater blast hole operation, no noise, non-vibration, shatter hole operation

In the specification of the rocker arm 847,

1) S t e l t y p e: 41/4 "× 1" h e x 2) Number of rotations: 0 to 300 RPM

3) Weight: 30k g 4) Length: 66cm 5) Width: 46c m

6) Pressure: 105-140 b a r 7) Flow rate: 26 ~ 34 L P M

In the structure of the reciprocating engine structure 1109 and the airplane inspection structure 1110 constituting the airplane 1108 facility, the reciprocating engine structure 1109 rotates the crankshaft by rotating the cylinder or piston, (593,594,595) mineral collection of small, medium and large sized marine steelworks, which are combined with the structures of the reciprocating engines (1109) to constitute the airplane (1108) facilities and to the upper part of the deck It is composed of an airplane (1108) facility which constitutes the SDU of the dock hull deck of the marine steelworks equipped with the electronic control regulating device of the equipment section 811, and is composed of a marine steel mill equipped with reactor facilities for nuclear waste disposal have.

At sea, there are many ways to get energy. Tidal power to obtain energy using ebb and flow of tides, Wave power to obtain energy using the power of waves, Sea-level temperature difference to obtain energy using the temperature difference of seawater, and Volcanic geothermal energy to obtain energy These methods are provided in the metalworking furnace for marine capital goods and in the body of the marine steelworks to salvage the metal, so that we can get unlimited pollution energy from the sea.

The present invention relates to a furnace for metal processing for marine capital materials and an equipment for lifting the metal, which is constituted by the interior of a marine steelworks of a marine steelworks having a blast furnace for metal smelting and a construction machine, It is equipped with a disaster prevention device so as not to be constrained by the weather condition and it is possible to construct the marine steelworks of the sea factory by providing a small amount of collecting process, , It is necessary to provide a large collection of capital goods by means of equipment, ships and marine tunnel transportation equipment to provide a rapid transportation process, and equipment for lifting the blast furnace and the metal to the upper deck (SDU) It is composed of metal furnace, electric furnace and solar electric furnace, It constitutes an ocean mill comprising a furnace and the present invention for a construction machine comprising a metal refining equipment and marine mill method of manufacturing lifting the furnace and the metal of the metal machining for Maritime capital goods constituting be provided.

The present invention has been made in view of the above-mentioned problems, and the present invention relates to a furnace for metal processing for marine capital materials and equipment for lifting the metal. More specifically, for marine capital goods, The construction of the metal construction of the deck upper part (SDU), which consists of the means of production, of the floating deck top deck (SDU) connected to the overland, goods, raw materials, construction machinery, vehicles, ships, A furnace and factories that provide the equipment for lifting the metal, but they are equipped with ores or metals, which are the resources of the sea that sleeps on the deep sea. The minerals of manganese, nickel, copper, cobalt, The manganese nodule is called a treasure, and crude oil and natural gas, which are other power resources, Manganese nodule particles are being produced in the 5000m seabed, which is more prevalent than the continental shelf area, and the marine capital goods mined from the sea floor are oil, gold, silver, glass, agate, amber, pearl, diamond natural gas It is possible to detect the distribution in various regions of the ocean,

The present invention relates to a marine steel mill furnished with a metal smelting furnace and a construction machine. More specifically, the present invention relates to a marine steel mill having a metal smelting furnace and a construction machine. More specifically, A construction machine, a vehicle, a ship, a marine tunnel transport device, a flood control dock connected to the upper part of the deck (SDU), and a plant for preparing equipment for lifting the metal, Floating docking dock The distribution of manganese nodules and oil, gold, silver, glass, agate, amber, pearl, diamond natural gas, etc. contained in the marine capital goods constituting the deck bottom part (SDL) The present invention relates to a marine steelworks having a metal smelting furnace and a construction machine constituting a collection process, a transportation process, a heat treatment process process,

The problem to be solved by the present invention is that all of the marine capital goods are used for capital goods according to classification of capital goods after passing through processes such as collection process, transportation process and heat treatment process, It is equipped with several sonar, and several sonar is installed in the deep sea, and the photograph is transmitted from space science development equipment and several sonar, and the result is to detect deep sea mineral resources and natural gas energy resources, In order to supply the production of mineral resources and natural gas energy resources, the production power of wind turbines and hydropower generators should be supplied to the global village with transformer and transmission line of substation. It is necessary to prepare a marine nuclear hydroelectric power plant with the connection structures of tunnel traffic devices, The development of maritime capital goods within the territorial waters of the world's unique natural gas carriers will be provided with a blast furnace for metallurgical works and marine facilities with construction equipment It is aimed to provide steelworks.

In addition, in order to maximize the development of the marine steelworks of the marine factories, it is necessary to establish the marine steelworks from the marine waters of the sea The Nuclear Hydroelectric Power Plant for the nuclear power plant operation of the nuclear power plant is installed at the top of the deck deck (SDU) of the floating deck hull deck at the upper 40M sea level (SLL) And a marine nuclear power hydroelectric power plant equipped with a double structure block tank dust collector constructed as a bridge block tank bridge pier at one place and constructed in a floating deck hull deck deck is installed in anchor and anchor chain of a mooring device. Bed and diving control for pumps and valves in drilling machines and buoyancy regulators And the anchor and anchor chain of the marine steelworks mooring unit equipped with the reactor facility for nuclear waste disposal that excludes the effect of earthquake and tsunami as disaster prevention device by adjusting the position of the marine nuclear hydroelectric power plant at the upper 40m above sea level, Drilling machine and buoy regulator pumps and valves are equipped with diving regulators for diving control. They are equipped with disaster prevention devices so that they are not restricted by weather conditions. They are equipped with hydraulic power generators by buoyancy and subsea flow to collect capital goods in bulk And to provide a marine steelworks equipped with a metal smelting furnace and a construction machine.

It is equipped with a ship mooring device for prevention of sinking and a marine tunnel transportation device to provide a rapid transportation process. It is composed in the upper part of deck (SDU) of a floating docking dock and has a metalworking furnace and an electric furnace. And a marine steelworks having a blast furnace for metal smelting and a construction machine having a furnace for metal processing for marine capital materials and equipment for lifting the metal.

      Technical Solution In order to achieve the above object, the present invention provides a marine ironworks having a metal smelting furnace and a construction machine,

A guide rail 618 located at the upper end portion SDU of the double structure barge hull 591 at the upper end of the holding tank constituting the inside of the marine steelworks main body 1 constituting the marine steelworks is installed to the left and right sides of the deck deck The crane 861 having the capacity of 5000 tons has the transportation crane 861 placed on the guide rail 618 at the upper end of the deck deck and the double and triple sliding hatch covers 153 are fixed to the clutching device Respectively,

The crane 861 is connected to the disassembly-type portable lug of the block tank position movement control device formed in the double structure block tank metal mineral collector 794 in which the lid of the stopper plate 625 of the semi-circular part is disassembled, A wire rope constituting the boom frame 651, a shackle and a crane boom hook 652 to engage with a portable lug formed in the double structure block tank metal mineral collector 794,

A deck deck configured to feed a plurality of metal smelting furnace facilities into the double structure barge hull 591 at the upper end of the holding tank is provided with several openings for opening and closing the crane 861, The positional movement of the tank metal mineral collector 794 constitutes a pre-loading so that the double structure block tank metal mineral collector 794 is positioned inside the double structure barge hull 591 inside the double structure barge hull 591 ;

A wire rope and a shackle and a crane boom hook 652 constituting a crane boom portion 651 of a construction machine crane 861 are mounted on disassembly and binding portable lugs of the block tank position movement control device to operate the crane 861, The deck is provided with a crane 861 in which several openings are located so that the blast furnace 948 is positioned inside the double structure barge hull 591 at the center of the double structure block tank metal mineral collector 794, &Lt; / RTI &gt;

After the integral assembly of the stopper plate 625 is completed, the two or three sliding hatch covers 153 are fixed to the opening and closing ports by the clutching device in a closed state,

The marine steelworks has a mining collection facility 811 located at an upper 40 m above sea level to exclude the weather condition of the earthquake and tsunami as a disaster prevention device, a blast furnace 948 that forms the safety of a sinking type barge 948, And a facility control unit 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituted by the interior of a main body 1 of a marine steelworks constituting a lifting plant of a marine steelworks;

A marine hydro-nuclear power generation control unit 811b for generating power production;

A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission;

A harmful red tide blocking preventive control unit 811d for excluding the weather condition restriction as a disaster prevention device;

A lifesaving structure and an anti-sunken ship control unit 811e;

A ship control unit 811f corresponding to the wind and waves;

A submarine resource transport unit 811g connected to the marine tunnel transport device 941;

An electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616;

(794), double blasted structural tank tanks (794), metal furnace for marine capital goods, and equipment for lifting the above metal, to constitute the metallurgical process of the marine steelworks. ,

The metal working furnace and the metal lifting equipment constituting the double structure block tank metal mineral collector 794 of the mineral collecting facility 811 constituting the inside of the main body 1 of the marine steel mill include the above- The metalworking furnace inserted outside the mineral sampler 794 and the equipment for lifting the metal,

      The minerals collecting marine capital goods containing minerals such as manganese, nickel, copper, chrome, and cobalt in the seabed mineral include a construction equipment including an engine generator, a crane, a vacuum aspirator, a conveyor, The collection process of crude oil and natural gas is equipped with petroleum drill rigs. The minerals collection line, petroleum drill rigs are used to collect marine capital goods, as well as inhalation collecting machines, submarine mining robots, crude oil drilling machines Rotary table lathing machine, double structure piping line automatic pneumatic valve transport device, mineral collecting trough, tower crane Seiso crane boom block, double structure block tank marine tunnel traffic device, blast furnace furnace with furnace bricks, A metal smelting furnace constituting the upper portion (SDU) of the food dock, the deck of the ship, and the mineral collecting line, After passing through the process of collecting, transporting and heat-treating the offshore steel mill, which forms an apartment-type structure combining blocks built up on the deep-sea basin, the marine steelworks is equipped with space science equipment and several sonar And installed a number of sonar in the deep sea, and received the photographs from space science development equipment and several sonar. As a result, it detected the deep sea mineral resources and natural gas energy resources, and then put the oil energy drilling equipment into the deep sea mineral We will provide resources and production of natural gas energy resources. We will also provide power to wind turbine generators and hydropower generators with transformers and transmission lines in substations,

      Double structural block tank bridge for nuclear waste treatment Marine nuclear power hydroelectric power plant is provided with connection structure of marine tunnel traffic device and battery for safety operation of traffic facility substituting for marine vessel is provided with electric energy line The development of marine capital goods within the territorial sovereignty line of each country in the world is the equipment for lifting metal constituting the inside of the main body (1) of marine ironworks with the blast furnace for metal processing for marine capital goods with the agreement of each country.

As shown in FIG.

Alternatively, the operation of the boiling water reactor (802) constructed in a marine nuclear hydroelectric power plant having a boiling water reactor for treating nuclear waste having a dual structural block tank dust collector constructed inside the main body of the marine steelworks ,

In the mineral collection facility 811 formed at the stage before and after the operation of the nuclear power plant of the nuclear hydroelectric power plant constituted by the combined connection structure of the boiling water reactor facility, nuclear fission is generated in the boiling water reactor facility 802, A steam turbine 267 for generating steam to rotate the steam turbine 267 to produce power,

A rotary shaft for a nuclear power generator installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the atomic power generator 772 for converting the power generated from the steam turbine 267; An electromagnet coil 774,

A nonrotating armature coil 773 for a nuclear power generator installed on the circumference of a rotating rotor electromagnet coil 774 for the nuclear power generator and a rotor 773 integrally formed with the nuclear power generator 772 and the rotary shaft 198 to the steam turbine 267, And a frame 775 for fixing the nuclear waste to the main body 1 of the marine steel mill equipped with the nuclear waste water treatment reactor facility for treating the nuclear waste and the nuclear and hydroelectric power plants of the land and ocean. A nuclear waste disposal pipe manufacturing process distributing shaft 705 composed of a mineral collecting facility 811 constituting the double structure block tank collector and a double structure block tank Including operation of the boiling water reactor facility of the marine nuclear hydropower plant equipped with a boiling water reactor facility for the treatment of nuclear waste connected to the process of manufacturing the dust collector nuclear waste treatment pipe. However,

Large-scale hydro-electric power plant (944) facilities included in the marine nuclear hydroelectric power plant constituted inside the main body of the marine steelworks (1)

The large hydroelectric power generator 944 of the hydroelectric power plant 943, which is a connection structure of the large hydroelectric power plant 944 of the marine hydroelectric power plant 943 constituting the marine hydroelectric power plant,

(593,594,595) nuclear power plant (672) of a small-scale, medium-sized and large-scale marine steelworks of the land and sea constituting the large hydroelectric power generator 944 of the hydroelectric power plant 943 and a nuclear waste The boiler water reactor for treating nuclear waste is provided in the power production and production unit 811b of the mineral collection equipment unit 811 constituted inside the main body 1 of the marine steelworks having the boiling water reactor for treatment, (811b) connected to the large-scale hydroelectric power plant (943) of the marine Seisoh hydroelectric power plant (943), which is a substitute for the power generation and power generation, in preparation for the renovation of the nuclear power plant facilities And a large hydraulic power generator 944 of a hydroelectric power plant 943, which is provided as a connection structure and constitutes a nuclear power alternative hydraulic operation for several generators,

A large hydroelectric generator Shiseo hydroelectric power plant 944 of a marine seesaw hydroelectric power plant 943, which replaces the power generation and power generation plant in preparation for the repair of a marine nuclear hydroelectric power plant having the boiling water reactor facility for treating the nuclear waste, The large-scale hydro-generator seesaw hydroelectric power plant 944 of the marine seesaw hydroelectric power plant 943,

A head tank 189 for a pressure tank located at an upper end of the barge line connected to a large hydroelectric power generator 944 of a marine seesaw hydroelectric power plant 943 constituting a nuclear power alternative hydroelectric power plant 944 of the barge, (191) in front of the inlet pipe (189) In the inlet of the cooling water, an introduction pipe (191) having a pressure reducing pipe shape of a reducer (35) is provided with a connection structure with the head tank (189)

A plurality of introduction pipes 191 are connected to the upper end of the marine sheath hydroelectric power plant 943 constituting the nuclear power alternative hydraulic operation and the discharge port at the rear of the head tank 189 to the respective large hydroelectric power plants 943 located inside the marine sheath hydroelectric power plant 943. [ The turbine 267 and the Pelton aberration 943b of the turbine 267 are connected to the suction port 269 in front of the Francis turbine 943c and the discharge port 270 in the rear of the turbine 267 to the lower portion of the generator seesaw hydroelectric power plant 944, Including hydroelectric power generation facilities in the ocean that make up hydropower generation,

(191) in the form of a hydraulic pipe reederator (35) for providing a flow velocity of the water to the mechanical energy and having a flow velocity of the ocean current constituting the nuclear hydroelectric power generation apparatus, A large hydraulic power generator seeside facility 944 having a seesy center shaft frame 673 provided with a seesaw crane boom base 942 for providing a vertical rotation operation, (593,594,595) nuclear power plant (672) of small scale, medium and large scale marine steelworks equipped with power generators, and a boiling water reactor facility for nuclear waste disposal with dual structure block tank dust collector (1) Including a large hydroelectric power plant alternative hydroelectric power plant that constitutes an additional nuclear hydropower operation inside,

The large hydraulic power generator seeside facility 944 constituting the nuclear hydroelectric power generation operation of the nuclear power plant is located at the top of the center of the rotation shaft 944q constituting the hydraulic power generator sheathing facility 944, And a DC generator exciter 944b for supplying a current to the motor field coil of the alternator located at the lower end of the hydrodynamic power generator rotation speed detector 944a, A device 944e for pushing the rotary bearing 944 and a stator coil 944f and a stator frame 944g and a center stator 944h and a low speed A large hydrostatic generator seesaw facility 944i in which the rotary bearing 944i of the cooler, the braking device ring 944j, the jack 944k of the braking device and the low-speed rotary shafts 9441 are located at the upper- And a turbine rotating bearing 944n and a casing 944o and a guide vane and a vane wheel 944q having a connection structure with the rotary shaft 944q, And an apparatus for lifting metal constituting the inside of the main body (1) of a marine steel mill with a furnace for metal processing for marine capital goods;

.

      Alternatively, the strut block tank 590 constituted by the marine water depth of a marine nuclear hydroelectric power plant having boiling water reactor facilities for nuclear waste disposal for the purpose of treating nuclear waste built in the main body 1 of the marine steelworks may be divided into a depth unit of the sea surface SLL And the marine nuclear power plant facilities are constructed inside the marine steelworks,

(593, 594, 595) nuclear power plants (672) and nuclear facilities of the small-scale, medium-sized and large-scale marine steelworks in the facility control section (811a) of the floating- Reactor System Consisting of a Main Body (1) of a Marine Steel Mill Having a Boiling Water Reactor Facility for Waste Treatment A rotary table lathing machine (908)

A boom boom of a crane boom of an overhead crane 651 located at the upper end of the drilling machine room with a crude oil at the time of crude oil connected to a plurality of pipe racks 854 constituting a rotary table lathe machine 908 of a drilling machine, A boom hook connection (652) and a wire rope (19) are connected to each other,

The pipe rack 854 in the excavation preparation standby state constituting the mooring device at the marine steelworks with the crude oil at the crude oil connection,

A plurality of pipe racks 854 provided as connection structures of the sea level lower end SLD of the sea level SLL constituting the pipe rack 854,

The core drill 917, which constitutes the pipe rack 854,

An anchor replacement crank 846 is installed at a location of an excavation hole 936 provided as a connection structure with a core drill 917 excavator while an excavator rotation body constituting a core drill 917 is installed at a marine steelworks, ), And a construction machine operation connection structure mounted on the upper barge hull of each strut block tank provided with a connection structure of the hydraulic cylinder machine (624) and the key bed (616). The mooring structure Anti-sunken retention line (634) of the device,

The rotary table lathe machine 908 of the crude oil-boring drilling machine, which is located in the connection structure inside the drilling machine machine room constituting the lower end of the overhead crane 651 constituting the sinking prevention retention line 634,

And a plurality of hydraulic cylinder keys 623 for drilling located at the center portion opposite to the circular table line constituting the rotating body of the rotary table lathe machine 908,

And a plurality of hydraulic cylinders 623 for drilling, which are connected to each other at a line center portion of the line, and are provided with several keys 623,

The rotary table lathe machine 908 of the drilling machine for crude oil making up the position shift control of the line-opposing central portion adjusts the positional movement of the connection structure, which is flipped to the position opposite the center line, And a rotary table lathe machine (908) for connecting the rotary table lathe,

      A plurality of pipe racks 854 are connected to a central position by the rotary connection structure constituting the rotary table lathe machine 908 and a plurality of pipe racks 854 arranged at a point of the crude oil borehole 936, (936) and a floating borehole (936), and a floating bore hole (916), which is provided as a connection structure for the borehole portion (854) Equipment for adjusting the position of the movable construction machine 811a, and a metal furnace for marine capital equipment, which is installed in the main body 1 of the marine steelworks, for lifting the metal;

.

      Alternatively, the peripheral equipment of the block pylon 116 included in the harmful side braking block prevention and regulating unit 811d that excludes the weather condition restriction of the mineral collection facility 811 constituting the inside of the marine steelworks main body 1 by the disaster prevention device A helicopter stop (619) located at a location near the top center of the deck deck comprising the connecting structure is provided at a marine steelworks,

A satellite launch pad 643 and a space rocket launch pad 646 of a space rocket 612 are provided to provide a positioning position for a safety control room left side connection structure constituting a deck deck peripheral equipment of the block pylon 116 The transfer of the nuclear waste treatment dual structure drums mounted on the forklift of the nuclear waste disposal around the satellite launch pad (643) and the space rocket launch pad (646) is provided with boiling water reactor facilities for nuclear waste disposal,

The space science production equipment of the marine steelworks at the top of the deck deck of the block pylon 116 and several sonar and submarines are equipped with metal detectors to install several sonar in the deep sea, (643) and a space rocket launch pad (646) so as to detect energy resources and natural gas energy resources of the deep sea by the result, and to construct an energy resource detection inside the main body (1) of the marine steelworks, The connection structure between the wiring 946 and the upper part of the floating deck deck deck which is located as a connection structure is provided with natural loess soil 158 to prevent the reproduction of harmful tidal microorganisms 921,

And a natural loess soil (158) of a loess mixture which generates toothpaste-form soap bubbles mixed with a fire extinguishing control product cooling water composed of a connecting structure provided at the top of a deck deck of the block steel towers (116) by a mixer machine, (921) breeding prevention,

The natural loess (158) of the loess mixture, which generates soap bubbles in the form of a dentifrice mixed with a fire control control supply coolant with a mixer machine, is fed to the top of the floating deck deck deck comprising the loess mixture (158) Respectively,

The countermeasure for preventing harmful red tide in the seabed constituting the harmful tidal microorganism 921 to prevent the propagation of the harmful tidal microorganisms 921 occurring in the seabed constituting the natural loess soil 158 of the loess mixture at the upper deck deck of the block pylon 116,

The natural ventilating lid 158 is provided inside the ventilating basin basket 951 of the harmful redeye suction dust collector constituting the harmful red tide to prevent propagation of the harmful tide, and the ventilating basket 951 constituting the introduction of the natural loess- Including,

The harmful redeye microorganisms 921 are stored in the detoxified sediment suction and dust collector constituting the atmospheric basket 951 and the marine steelworks facility 921 for removing the harmful tidal microorganisms 921 with the natural loess soil 158 is provided inside the ingot basket 951 Respectively,

At the lower end of the bottom of the body constituting the removal of the harmful tidal microorganism 921, the natural loess soil 158 is introduced into the sea floor at the upper end of the floating pick-

The harmful tidal microorganism 921 is replenished with natural loess soil 158 on the seabed by a moving tackle winch 137 constituting a position control,

A seesaw crane boom girder 942 of a tower crane for substituting for a quarrel constituting the tuna winch 137, a wire rope 19 and a wire rope chain 915, 135,

An apparatus for constructing a marine steelworks having a nuclear fuel cycle of a nuclear fuel industry connected to a nuclear waste disposal marine tunnel transportation device 941,

A construction machine equipped with nuclear waste disposal trucks,

Equipment for lifting the metal by furnace of metal processing for marine capital materials, which is composed of wind power generator, thermal power generator and hydro generators to be used for power generation and production,

.

Alternatively, the arrangement of the dual pipe structure block pipe line control shaft 238 for the nuclear waste disposal of the nuclear hydroelectric power plant is shown in the equipment control section 811a of the floating picket hood position shifting construction machine included in the mineral collection facility 811 In the marine hydro-nuclear power generation control section 811b for providing power production,

The nuclear power plant nuclear waste disposal unit 811a to the electronic sensor valve screw control units 811h included in the nuclear hydroelectric power generation facility unit 811 constituting the inside of the marine steelworks main body 1, The two sides are distributed to construct hull position moving construction machines to prepare the reactor installation into the double structure block tank dust collector,

Double structure block tank for nuclear waste disposal The reactor facilities constituting the dust collector are equipped with a tugboat and a plurality of pipe bridge block tanks for disassembling the raft line when transporting the pipe bridge constituting the marine steelworks facility. (593,594,595) of a small, medium and large sized marine steelworks connected to nuclear waste treatment double structural block tank bridge bridge (929) equipped with crankshaft crankshaft with connection method of 500m unit block tank connection method. A holding tank upper barge hull 591 located at the center of the marine steelworks main body 1 having a reactor facility for nuclear waste disposal with a hull assembly method, A plurality of column block tanks 590 formed outside the holding tank lower barge hull 592 and a holding tank upper barge hull 591, And a connection tank at the upper and lower ends of the holding tank. A block tank formed at each of the barges has a hull disassembly-type portable lug 607, and a lug connection shaft 606 and a lug connection shaft coupling bolt and a thread- A common water surface embedding process is provided to achieve disassembly of the marine steelworks comprising the portable lug pin connecting shaft 606 and the portable lug pins 608,

The processing hole 615 and the elongated hole 616 constituting the portable lug 607 function in the form of a horizontal vertical building structure and the portable lug pin connecting shaft 606 and the portable lug pins 608 In the marine steelworks facility,

And the bottom of the center of each of the vertical holding tanks 590 on the outer circumferential surface of the inner side of the center of the inner side of the holding tank 590, Drilling rigs are provided with a core drill 917 constituting several pipe racks 854 formed on the undersurface ground GLD and the anchor replacement worm crank 846 is connected to the hydraulic cylinder 620. [ (970) connected to the barge at the upper end of the pillar portion of each of the pillar holding tanks with connection to the hydraulic cylinder quick-setting bed (623)

Each of the anchor replacement worm cranks 846 connected to the construction machine 970 pushes the worm crank 846 by operating the hydraulic cylinder 620 in the core drill drilling hole and the worm crank 846 pushes the worm- And is inserted and fixed in the ground by fixing the lower end of each strut tank to prevent the barge ship from drifting, and the anchor replacement worm crank (593, 594, 595) of small, medium and large sized marine steelworks (846) constitute the seagoing seabed at the ocean floor, and the ocean is composed of small, medium and large oceanic steelworks, Tunnel transport equipment to provide a connection to a marine nuclear power plant equipped with boiling water reactor facilities for nuclear waste disposal,

      A mooring device for securing safety constituted by the interior of the main body 1 of the marine steelworks is provided in a shared marine landfill 944 and a shared water surface landfill 945 to be installed inside a marine steelworks main body 1 having a reactor facility for nuclear waste treatment (928), double structure block tank bridge bridge (929) and dual structure block tank bridge bridge (937) of floating marine small and medium sized marine steelworks (593,594,595) Nuclear waste treatment dual structure block tank Nuclear waste treatment facility with dual structure block tank dust collector having a plurality of distribution shafts provided with a connection structure capable of disassembly connection of connection shafts connected to marine tunnel traffic devices 941 To the mining collection facility 811 constituting the inside of the main body 1 of the marine steel mill so as to make the nuclear power plant operation of the marine nuclear hydroelectric power plant equipped with the nuclear waste hydro- (811a) of the construction machinery and the hydroelectric power production control unit (811b) of the marine hydro-nuclear power generation plant to provide power production, and the power of the submarine transverse railway substation The ship control section 811f corresponding to the storm surge and the waves, the transmission control section 811c, the harmful bellows blocking preventive control section 811d excluding the weather condition restriction by the disaster prevention device, the lifesaving structure and the sink prevention vessel control section 811e, A submarine resource transport unit 811g connected to the marine tunnel transportation device 941 and an electronic sensor valve screw control unit 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616 An apparatus for manufacturing a marine steelworks and a metal furnace for marine capital goods to lift the metal;

.

In other words, the marine ironworks (593, 594, 595) of the small, medium and large scale marine steelworks constructed to control the marine steelworks facility composed of the inside of the marine steelworks main body (1) ) Equipped with a hydraulic cylinder device key 623 and a hydraulic rotary cylinder 620 equipped with a marine ironworks facility adjustment process constituted by a hull position adjusting device, a hand tool hammer and a wrench are provided, and a large flange- A discharge pump for providing connection assembly and an air compressor 80 are provided,

(593,594,595) of small, medium and large sized marine steelworks in the ocean that make up the air pressure regulator and water pressure regulator inside the block tanks are equipped with portable lugs located at each block tank connection 607 are provided with a hole for connecting the processing hole 615 and the pin linking shaft 606 for the portable lug coupling and the connection lug pin 604 is provided with the lug connection pin 603, (608) to provide a coupling in the machining hole at the end of the bolt thread stud,

The pin 608 is folded and the nut is fixedly coupled to form a submarine wiring in the double structure block tank line. The power is supplied to the land, and the pump and the air compressor before and after the occurrence of the harmful tide, (80), the air supply is provided by the flexible high-pressure hose (190) of the cross-shaped type over the sea surface and the seabed,

The disinfection water of the water pressure inside the pump piping line hose is constituted by a regulating device of the upward flow 925 and the downward flow 926 by arranging the water mountain range while discharging the discharge jet water and the radial curtain water film through the nozzle gap. As the global warming is prevented and global warming is prevented, it is necessary to prepare the transition of the people of the nuclear bomb-producing Party, which is equivalent to harmful red tide, to the reconciliation mood,

The information provided to the unmanned camera 184 is provided to the wireless device radar of the computer system 611 of the computer system connected with the information exchange communication means of the Internet network 50 that peacefully resolves international disputes, (593,594,595) double-structure block tank pipe pier (928) and double structure block tank pipe bridge (929) and double structure block tank pipe of a marine small-sized and large-scale marine steelworks built inside the main body A plurality of distribution shafts provided as connection structures capable of disassembling and coupling the connection shafts connected to the bridges 937 and the double structure block tank marine tunnel traffic apparatuses 941 and the operation of the marine steelworks having the dual structure block tanks, Structured as a structural block tank;

(593,594,595) of small, medium and large scale offshore steelworks which are composed of marine steel mill facilities to control the marine steelworks facilities composed of the inside of the marine steelworks main body (1) Friendly and environmentally friendly energy hydroelectric generators equipped with the control system of the marine ironworks facility which is composed of the position control system and the power supply to the uninjured global village while collecting the seabed mineral resources and collecting the manganese nodule (909) processing is provided,

Dual structure block tanks that control supply of iron ore, crude oil (841) and pollution-free natural gas (922) to countries around the world Marine trench transport system Internal train (771) equipment includes marine trading volume control system 1) Double structure block tank bridge pier (928), double structure block tank bridge bridge (929) and double structure block tank bridge (593,594,595) of marine small and medium and large scale offshore steelworks 937 and a double structure block tank marine tunnel communication device 941. The operation of the marine steelworks having the double structure block tank is described as a double structure block A tank;

In addition to establishing a maritime steelworks to resolve the territorial disputes in the territory of the world, the government has set up a facility to cooperate with the international social and economic development, (184) according to the achievement of the seabed resource reserves, and to provide a display on the conversion monitor (52) after confirming the winner to the countries and individuals who have acquired the score through the unmanned camera (184) (146) and a skewer (147) wing while equipped with a pirate wreck removal device that emits in a specific area of the sea, ;

The fire-fighting materials and disaster prevention materials constituting the facilities of the marine steel mill are equipped with communication equipment of the Internet control system before and after the fire, a plurality of pumps, a pump electronic control device and a high-performance submersible pump 36, And an air compressor (80), an air storage tank, a wire rope, a plurality of frames, and a portable transport equipment. A small and medium sized marine vessel having a connection structure including a helicopter, (928), double structure block tank bridge (929), double structure block tank bridge (937) and double structure block tank connected to floating marine tunnel (593,594,595) A plurality of distribution shafts provided as connection structures capable of disassembling and coupling the connection shafts connected to the traffic devices 941, a marine steelworks having a double structure block tank To constitute a dual structure block tank;

In the fire fighting and disinfecting control device constituting the flushing control process of the marine steelworks facility, when the fire constituting the fire fighting and disaster control device is changed to liquid, the nozzle of the pipeline has a radiation-like nozzle gap 15 and a straight gap 15, A plurality of radiation-type curtain water films 39 and a plurality of linear straight-curtain film films 39 are provided in the flushing water of the nozzle gap 15 pipe nozzle, and a gas of death (163) And the horizontal and vertical curtain tanks that are provided with no obstacles to prevent the occurrence of the earthquake, and the pump and the valve connection structure of the electronic control device constituted to constitute the global village, Flood, drought, and landslide prevention together with disaster prevention Electronic disaster prevention system of electronic control pump composed of disaster prevention control device in the global village A double structure block tank pipe pier 928 connected to a floating ocean pond (593,594,595) of a small, medium, and large oceanic steelworks constructed in the main body (1) of a marine steelworks while providing energy power (685) A double structure block tank bridge bridge (929), a double structure block tank bridge bridge (937) and a double structure block tank marine tunnel traffic device (941);

A facility control unit 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 having a plurality of distribution axes inside the main body 1 of the marine steelworks, and a hydro- A power transmission control unit 811c of a submarine crossing railway substation for nuclear waste disposal to provide power transmission to the production control unit 811b and a harmful tidal stop prevention control unit 811d for eliminating the wake- A ship regulating section 811f corresponding to storm surges and waves, a submarine resource transport section 811g connected to the marine tunnel traffic apparatus 941, a hydraulic cylinder machine 624, And an electronic sensor valve screw adjusting part (811h) provided as a connection structure at a position of the freezing bed (616), including a method of manufacturing a marine steelworks, and having a furnace for metal processing for marine capital materials to lift the metal;

.

As described above, the present invention of the present invention provides a novel manufacturing means and a mounting means,

According to a feature of the present invention, the present invention relates to a furnace for metal processing for marine capital goods and equipment for lifting said metal, more specifically, for marine capital goods, A metalworking furnace and a metalworking furnace constructed on the upper deck (SDU) of the floating deck hull, connected with goods, raw materials, construction machinery, vehicles, ships, marine tunnel traffic devices, It is divided into factories that provide equipments, and ores or metals that are the resources of the sea that sleeps on the deep sea. The submarine mineral mass contains minerals of manganese, nickel, copper and cobalt metal. Manganese nodule is called treasure, and crude oil and natural gas, which are other power resources, Manganese nodule particles are generated in the 5000m seabed which is more than the continental shelf area and the marine capital resources mined from the sea floor are oil, gold, silver, glass, agate, amber, pearl, diamond natural gas, It is possible to detect the distribution formed in the &lt; RTI ID = 0.0 &

The present invention relates to a marine steel mill furnished with a metal smelting furnace and a construction machine. More specifically, the present invention relates to a marine steel mill having a metal smelting furnace and a construction machine. More specifically, A construction machine, a vehicle, a ship, a marine tunnel transport device, a flood control dock connected to the upper part of the deck (SDU), and a plant for preparing equipment for lifting the metal, Floating docking dock The distribution of manganese nodules and oil, gold, silver, glass, agate, amber, pearl, diamond natural gas, etc. contained in the marine capital goods constituting the deck bottom part (SDL) The present invention relates to a marine steelworks having a metal smelting furnace and a construction machine constituting a collection process, a transportation process, a heat treatment process process,

The problem to be solved by the present invention is that all of the marine capital goods are used for capital goods according to classification of capital goods after passing through processes such as collection process, transportation process and heat treatment process, It is equipped with several sonar, and several sonar is installed in the deep sea, and the photograph is transmitted from space science development equipment and several sonar, and the result is to detect deep sea mineral resources and natural gas energy resources, In order to supply the production of mineral resources and natural gas energy resources, the production power of wind turbines and hydropower generators should be supplied to the global village with transformer and transmission line of substation. It is necessary to prepare a marine nuclear hydroelectric power plant with the connection structures of tunnel traffic devices, The development of maritime capital goods within the territorial waters of the world's unique natural gas carriers will be provided with a blast furnace for metallurgical works and marine facilities with construction equipment The effect of providing steelworks can be seen,

In addition, in order to maximize the development of the marine steelworks of the marine factories, it is necessary to establish the marine steelworks from the marine waters of the sea The Nuclear Hydroelectric Power Plant for the nuclear power plant operation of the nuclear power plant is installed at the top of the deck deck (SDU) of the floating deck hull deck at the upper 40M sea level (SLL) And a marine nuclear power hydroelectric power plant equipped with a double structure block tank dust collector constructed as a bridge block tank bridge pier at one place and constructed in a floating deck hull deck deck is installed in anchor and anchor chain of a mooring device. Bed and diving control for pumps and valves in drilling machines and buoyancy regulators And the anchor and anchor chain of the marine steelworks mooring unit equipped with the reactor facility for nuclear waste disposal that excludes the effect of earthquake and tsunami as disaster prevention device by adjusting the position of the marine nuclear hydroelectric power plant at the upper 40m above sea level, Drilling machine and buoy regulator pumps and valves are equipped with diving regulators for diving control. They are equipped with disaster prevention devices so that they are not restricted by weather conditions. They are equipped with hydraulic power generators by buoyancy and subsea flow to collect capital goods in bulk And a marine steelworks having a metal smelting furnace and a construction machine.

It is equipped with a ship mooring device for prevention of sinking and a marine tunnel transportation device to provide a rapid transportation process. It is composed in the upper part of deck (SDU) of a floating docking dock and has a metalworking furnace and an electric furnace. The present invention provides a furnace for metal processing for marine capital materials and equipment for lifting the metal, and provides a marine steelworks having a metal smelting furnace and a construction machine.

1 is a side sectional view showing a side view of a manganese monolith, which is an undersea mineral resource buried in a conventional deep sea bed constructed inside the main body 1 of a marine steelworks according to an embodiment of the present invention. A diagram of how seabed development works.
FIG. 2 is a schematic view showing a state in which a furnace 948b and a furnace 948 of a domestic steel mill in a conventional marine steelworks main body 1 according to an embodiment of the present invention are melted and melting iron ores. Of the minerals smelting operation.
3 is a schematic view of a conventional furnace 948 of a domestic steel mill constructed in the interior of a marine steelworks main body 1 according to an embodiment of the present invention, a furnace brick 948a of a furnace, a blast furnace 948b of a steel mill, Coke 948e, 948f, hot gas, 948g, water cooling, 948h mat, and 948i, which show the internal structure of the furnace 948d of copper, ) Gas, a furnace 948b, and a furnace 948 to show the melting of the iron ore.
4 is a view showing a structure 948j of the furnace inside the marine steelworks main body 1 according to the embodiment of the present invention in which a flow 948k of blast furnace gas, a coke 9481 and an iron ore and limestone 948m And a slag 948q. The industrial electric furnace 948r is provided with the accessories 948s of the industrial electric furnace, (948t) of the furnace, 948u of the domestic environmental technology of the domestic steel mill (948u), 948v of the operation method of the old domestic steel mill furnace, 948w of the domestic domestic blast furnace operation method, A structure 948j of a furnace for metal working for marine capital materials and an interior of a main body 1 of a marine steel mill shown in side cross-sectional view of a kind of working method 948x of a furnace, A schematic view of the existing mining smelting operation side view showing one.
5 is a partial sectional view of an industrial electric furnace 948s of an industrial electric furnace 948r constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention 948r) of an industrial electric furnace (948s).
6 is a partial view of an industrial electric furnace 948s of an industrial electric furnace 948r of a conventional industrial electric furnace 948r constructed inside the main body 1 of a marine steelworks according to an embodiment of the present invention 948r) of an industrial electric furnace (948s).
7 is a schematic view showing an accessory 948s of an industrial electric furnace inside the main body 1 of a marine steelworks according to an embodiment of the present invention and an elemental industrial electric furnace 802c partially showing a cauldron and a lid 948t of the furnace, Lt; RTI ID = 0.0 &gt; 948t &lt; / RTI &gt;
8 is a schematic diagram showing a state-of-the-art environmental technology 948u of a domestic steel mill, which is a side view of a high-tech environmental technology 948u of a domestic steelworks constructed in the interior of a marine steelworks main body 1 according to an embodiment of the present invention, Of a partial strapless configuration.
FIG. 9 is a graph showing the state-of-the-art environmental technology (948u) of a domestic steelworks constructed inside a main body (1) of a marine steelworks according to an embodiment of the present invention, And a structure 948j of a blast furnace structure which constitutes a blast furnace working scheme 948w and a type 948x of a conventional foreign steel mill blast furnace as an elemental marine steelworks main body 1 shown in side cross- A diagram of the existing mining smelting operation side view showing the scene of melting.
FIG. 10 is a graph showing the relationship between the state-of-the-art environmental technology 948u of the domestic steelworks constructed in the main body 1 of the marine steelworks according to the embodiment of the present invention, the operation method diagram 948v of the domestic domestic steelworks furnace, And a structure 948j of a blast furnace structure which constitutes a blast furnace working scheme 948w and a type 948x of a conventional foreign steel mill blast furnace as an elemental marine steelworks main body 1 shown in side cross- Which shows a view of the melting process of the minerals.
FIG. 11 is a graph showing the results of a conventional German (948y) furnace, an American (948yb) furnace, and a free standing type (948z) furnace constructed in the interior of a marine steelworks main body 1 according to an embodiment of the present invention Type blast furnace blast furnace.
12 is a schematic view showing a conventional hot air path 1265 and a hot air duct 1265a of the cowork type hot air path 1265b constituting the interior of the marine steelwork main body 1 according to the embodiment of the present invention. A furnace 1265e, a clean gas pipe press burner 1265d, a combustion chamber 1265e, a blowing pipe 126 5f, and a flue pipe 1265g.
[Fig. 13] is a graph showing the results of a conventional mining smelting operation (see Fig. 13) showing a scene in which a melting furnace structure 948j of a conventional metalworking furnace constituted inside the marine steelworks main body 1 according to the embodiment of the present invention is melted, Side view perspective configuration.
[Fig. 14] is a graph showing an example of a conventional mineral smelting operation side showing a scene of melting a iron ore with a type 948y of a former foreign steel mill furnace constructed inside the main body 1 of a marine steel mill according to an embodiment of the present invention Method of strabismus configuration.
15 is a schematic view showing a coal conveyor 1266a, a coal mine vehicle 1266b, an uprising pipe 1266c, (1266), 1266e, 1266f, 1266g extruder, coke guide 1266h, fire extinguisher 1266i, main pipe 1266j, and main air pipe 1266k. A schematic view of the existing mineral smelting operation side view showing the melting scene.
FIG. 16 is a diagram showing a conventional mineral smelting operation side view showing a scene in which iron ores are melted with a recent coke furnace (DKH type, 1267) constructed inside the main body 1 of a marine ironworks according to an embodiment of the present invention Methodology diagram.
17 is a view showing a conventional sintering machine 1268 constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention is divided into a Deweyroid formula 1268a and a grid or wattage type 1268b, The parts constituting the deworthole type mold 1268a include a bag mill top chute 1268c, a second stage bag mill 1268d, an air and gas blower 1268e, a submerged lower chute 1268f, A cooling device 1268k, a shaking conveyor 1268l, a light distribution conveyor 1268m, a light guide 1268g, a crusher 1268j, a cooling device 1268k, a shingling conveyor 1268l, A main exhaust pipe 1268p, a spool 1268q, a pramper 1268r, a sinking 1268s, a spout 1268t, And Fig. 12 (b) shows a view showing a case where iron ores are melted by being equipped with a sintered pot 1268v, a primary damper 1268w, Shah (1268 x 2), a secondary vibration damper 1268y, a half light hopper 1268z, an aerator 1268aa, an apron conveyor 1268ab, a belt conveyor 1268ac, an exhaust introduction pipe 1268ad, (1268ae) to show the scene of melting iron ore.
18 is a side view showing a part of a conventional flat furnace 1269 constituting the interior of a marine steelworks main body 1 according to an embodiment of the present invention is provided with a small ceiling 1269a and a knuckle 1269b, A rising wall 1269f, a hearth 1269g, a strong color room 1269h, a regenerating type 1269i, a pantel 1269j, a hearth 1269d, a burner 1269e, an elevation 1269f, A view showing a scene in which iron ores are melted with a front wall 1269k, a bow inlet 1269l, a regenerative lattice box 1269m, a year 1269n, a changing plate 1269o and a damper 1269p Showing the previous minerals smelting working side-by-side configuration diagram.
19 is a schematic view showing the structure of a conventional electrolytic apparatus constituted inside the marine steelworks main body 1 according to the embodiment of the present invention in which a stoker 1270a, a hoist 1270b, a gas cooler 1270c . The emergency stoker 1270d, the spray chamber 1270e, the venturi school lever 1270f, the primary separator 1270g, the PA venturi 1270h, the secondary separator 1270i, 1270j, an LD converter 1270k, and a suction fan fan 1270l to dissolve iron ore.
20 is a view showing a part of a conventional crack furnace 1271 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention in a regenerative type plan view 1271a in which a regenerative chamber 1271b and a crack chamber 1271c ), A skeleton 1271d and a bogie 1271e to dissolve iron ore, and a burner 1271g constituting the upper dual flame combustion floor plan 1271f, ), A gas 1271h, a duct waste 1271i, a reboiler 1271j, and preheating air pipes to dissolve iron ore. The waste gas 1271p, the preheated air 1271q, the cold air 1271r, and the cold air 1271d constituting the upper two-emission indoor elevation 1271l, the wastewater 1271n, the working water 1271o, , A steel ingot (1271s), and a scrap iron (1271t) to dissolve iron ore. The combustion plan view 1272 shows a conventional mineral smelting process showing the scene of melting the iron ore with the exhaust gas port 1272a, the lower dual flue gas combustion front view 1272b, Operation side view.
[Fig. 21] is a schematic view of a conventional steel material heating furnace 1274 constructed in the interior of a marine steelworks main body 1 according to an embodiment of the present invention, which can be opened simultaneously on the first to third surfaces constituting the batch type heating furnace 1274a Showing a scene in which the continuous iron door 1274b, the subsidiary annulus 1274c, the cold air inlet 1274d, and the end faces 1274e of the double row indoor exhaust gas passage are melted and iron ores are melted, The continuous type 1274g, the three-piece molding machine 1274h, the two large upper molding machine 1274i, the two-piece molding machine 1274j, and the two- Two flame dividing equipments 1274k, two flame dividing equipments 1274m, an upper heating type 1274n, two upper heating type ones 1274o and an upper heating type multiples 1274p, Which shows the scene of melting iron ore with the iron ore.
22 is a sectional view of a conventional small furnace 1275 constructed in the interior of a marine steelworks main body 1 according to an embodiment of the present invention and is divided into a direct type ball mold 1275a and a radiant tube type 1275b And an outer cover 1275a is provided with an outer cover 1275c, a cavity 1275d, a cylinder, an inner cover 1275e, a wire coil 1275f, (1275g), a burner (1275h), and a recirculating fan (1275i) to dissolve the iron ore, and a blanket forming a radiant tube type (1275b) A heat transfer tube 1275k, a radiator tube 1275l, a fan 1275m, an atmospheric gas outlet 1275n, an atmospheric gas inlet 1275o, a radiant tube burner 1275b, (1275p) to dissolve iron ore. FIG. 12 is a perspective view of a first embodiment of the present invention. FIG.
23 is a diagram showing the structure of the electric arc furnace 1276a and the furnace body 1276b in the conventional arc-type electric furnace 1276 constituted inside the marine steelworks main body 1 according to the embodiment of the present invention An electrode 1276c constituting an electric furnace structure 1276a, a secondary wire 1276d, an electric furnace 1276e, a transformer 1276f, a tilting mechanism 1276g and a rotating mechanism 1276h An electrode type 1276i constituting a furnace body 1276b, an open furnace 1276j, an furnace 1276k, a refractory 1276l, Which shows a scene in which iron ore is melted by a ladder 1276m, an actual level 1276n, an outlet 1276o, a stamp 1276p and refractory bricks 1276q, A side view of the manufacturing method of FIG.
24 is a sectional view showing the structure of a tunnel furnace 1277 constituted inside the main body 1 of the marine steelworks according to the embodiment of the present invention in which a preheating portion 1277a, a heating portion 1277b, a cooling portion 1277c, Combustion vane 1277d is an elemental prior art side-face configuration showing a side view in one embodiment.
25 is a diagram showing the heat sensitivity diagram 1278 of the conventional tunnel furnace constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention in the preheating chamber 1278a, the combustion heating chamber 1278b, A cooling chamber 1278c, a flue gas heating furnace 1278d, a firing furnace 1278e, and a heated column 1278f of a heated object and a wagon to dissolve iron ore.
26 is a schematic view showing an example of a conventional cement fired rotary furnace 1279 constructed in the interior of a marine steelworks main body 1 according to an embodiment of the present invention in which primary air 1279a and fine coal particles 1279b, 1279e, 1279c, 1279c, 1278b, 1279c, 1279c, 1279d, 1279c, 1279c, 1279c, 1279c, 1279c, 1279c, Side structure showing a scene in which iron ores are melted by being equipped with a boiler 1279k, a flue gas discharge 1279l, an electrostatic precipitator 1279m, a dry trondomel 1279n, and a chestnut raw material 1279o. Degree.
[Figure 1] through [Figure 26] are diagrams illustrating an embodiment of a marine steelworks having a conventional metal smelting furnace and construction machine according to the present invention.
FIG. 27 is a perspective view of an electric motor pump for supplying diesel engine and generator production electric power according to the operation of a hydroelectric power plant constituted inside the main body 1 of a marine steelworks according to an embodiment of the present invention by respective compressors and pumps.
[Fig. 28] Fig. 28 is a schematic diagram showing the construction of a conventional hydroelectric power generation control unit constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention. Inside the hydroelectric generator inside the hydroelectric power plant showing the pump aberration in the Francis aberration, Pelton aberration, and turbine and guide vane internal assembly model and pump aberration model.
FIG. 29 is a model construction view showing a diesel engine external shape constructed inside the marine steelworks main body 1 according to the embodiment of the present invention and internal disassembly and assembly of the motor. FIG.
30 is a front sectional view and front view of a mouth type multi-stage pump constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention and a control block diagram showing the construction of the concept of a mouth type multi- Model; Speed control method, and 3-pump direct injection start-up method.
FIG. 31 is a partial perspective view of a plurality of compressor moving compressors, a stationary compressor, and a multi-stage screw compressor constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention, Fig. 2 is a schematic view of a side-by-side operation showing the side of a compressor-moving compressor, a stationary compressor and a multi-stage screw compressor, showing a plain section operation.
32 is a perspective view showing a turbine pump 140 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention and includes a priming 339 and a self- In which the axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146 are operated and the viscous pump 341 and the impeller 342 are shown in the perspective view of the viscous pump 343, Fig.
FIG. 33 is a structural view of a side view operation of a manufacturing method of a marine steelworks, showing a side view of an operation mode of an automatic collecting tank constructed inside a marine steelworks main body 1 according to an embodiment of the present invention. FIG.
FIG. 34 is a view showing a configuration of an embodiment showing a plurality of solenoid valve operation assemblies attached to a hydraulic pneumatic cylinder constituting the inside of a marine steelwork main body 1 according to an embodiment of the present invention, A schematic view of manufacturing method of marine steelworks applying oil, air pressure and sensor technology by sensor configuration.
35 shows a plurality of construction machine bulldozers 855 (see FIG. 35) showing a configuration of a construction machine position control showing a transportation transportation part construction machine of a hull position moving construction machine constituting the interior of a marine steelworks main body 1 according to an embodiment of the present invention. ) Manufacturing method of marine steel works in operation.
[Fig. 36] shows a forklift 858 and a dump truck 860 showing a construction of a transportation transportation part construction machine of a hull position moving construction machine constituted inside the marine steelworks main body 1 according to the embodiment of the present invention, A manufacturing method of a marine steelworks for operation of a concrete batching plant 865 and a trailer 894 on a tamping roller 891 and a tire roller 892 on a mercaptan roller 889. FIG.
[Fig. 37] is a diagram showing a construction of a transportation transportation section construction machine of a hull position moving construction machine constituting the interior of a marine steelworks main body 1 according to an embodiment of the present invention. A view showing a manufacturing method of a marine steelworks for operation of a seam device 861r on a device 861q and a piling device 861v on a scraping device 861t on a shovel device 861s and a pillar 861v on a metering device 861u.
[Fig. 38] is a diagram showing a construction of a transportation transportation section construction machine of a hull position moving construction machine constituted by the inside of a marine steelworks main body 1 according to an embodiment of the present invention. [Fig. 38] A method of manufacturing a marine steelworks having a crusher (874) and a dredger (879) showing the construction of a transportation control part of a construction machine of a hull position shift control of a power plant flood control station (593,594,595).
[Fig. 39] Fig. 39 is a schematic view showing the construction of a transportation transport section construction machine of a hull position moving construction machine constituted by the inside of a marine steelworks main body 1 according to an embodiment of the present invention. An excavator 856 showing a construction machine position adjustment arrangement of the hull position movement control of the power station floating picker 593,594,595 and a hydraulic pump 819 having a connection structure are connected to the four- Radial plunger pump (148c) Manufacturing method of marine steelworks of construction machinery connection structure.
FIG. 40 is a view showing the construction of a transportation transportation section construction machine of a hull position moving construction machine constituted by the inside of a marine steelworks main body 1 according to an embodiment of the present invention. A crawler-type dozer 855a of a bulldozer 855 showing a construction machine position adjustment structure of a hill position shift control of a power plant float rest 593,594,595 and a straight dozer 855c and a derter The angle reducer 855e and the hinge 855d are connected to the trellis 855g at the bottom 855d and to the heavy machinery 855i at the height 855h. Construction method of marine steelworks of structure.
FIG. 41 is a schematic view showing the construction of a transportation transportation section construction machine of a hull position moving construction machine constituted by the inside of a marine steelworks main body 1 according to an embodiment of the present invention. Construction method of a marine steelworks of a construction machine connection structure showing a construction machine position adjustment structure of a hull position movement control of a power plant floating picker (593,594,595).
[Fig. 42] is a diagram showing the construction of a transportation transportation part construction machine of a hull position moving construction machine constituted by the interior of a marine steelworks main body 1 according to an embodiment of the present invention. [Fig. 42] A file driver 882 is mounted on the excavator 856 and the skimmer 856f on the crawler type ditcher 855a and the wheel dumpster 855b showing the construction machine position adjustment arrangement of the hull position movement control of the power plant docking stations 593,594,595, Construction method of marine steelworks of construction machinery connection structure.
[Fig. 43] Fig. 43 is a view showing a transportation transportation part construction machine of a hull position moving construction machine constituted by the interior of a marine steelworks main body 1 according to an embodiment of the present invention. (861b) on the reactor and luther (856g) showing the construction machine position control arrangement of the hull displacement control of the marine hydropower lifting dock (591) and the SDU 861p) and a deck cranes (887) Construction method of a marine steel mill of a construction machine connection structure.
44 is a view showing a transportation transportation part construction machine of a hull position moving construction machine constituted by the inside of a marine steelworks main body 1 according to an embodiment of the present invention. SDU) of a fork lift truck 858 and a trailer 860a of a dump truck 860 to a loader 857 showing a construction machine position adjustment arrangement of a hull locomotion control of a marine hydroelectric power station floating picker 593,594, Manufacturing method of marine steelworks connected to structures.
[Figure 45] Figure 45 is a schematic view of a sprinkler fire pipe piping system sprinkler system constructed inside a marine steelworks main body 1 according to an embodiment of the present invention and a marine structure of a sprinkler head 111 of a trench head and a vibration alarm device 300 Diagram of manufacturing method of steelworks.
46 is a partial side view showing a side view of the operation of the reciprocating pump piston pump 127 constituting the interior of the marine steelworks main body 1 according to the embodiment of the present invention and the partial side view showing the operation of the plunger pump 148 as a partial side 253 is a partial side view showing the side view of the block pump 311 and the turbine pump 140 of the rotary pump and shows the installation state of the septic pump 309 A side view of the manufacturing method of a marine steelworks.
[Fig. 47] Fig. 47 is a schematic diagram showing the construction of a water tank and an offshore reactor facility of a general type faucet 496 of a hydroelectric type of an integral part of an adjustment valve 459 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention. And a method of manufacturing a marine steelworks,
[Fig. 48] is an enlarged cross-sectional view of a substantial part during pump driving provided with main problem solving during driving of a pump constituted inside the marine steelworks main body 1 according to the embodiment of the present invention.
FIG. 49 is a perspective view showing a manufacturing method of a marine steelworks having a plurality of valves formed in a fire pump and a prime mover constructed inside a marine steelworks main body 1 according to an embodiment of the present invention. FIG.
FIG. 50 is a block diagram of a manufacturing method of a marine steelworks in which an operation of each of the valves constituted inside the marine steelworks main body 1 according to the embodiment of the present invention is performed.
[Fig. 51] is an isometric view of the plunger pump 148 of the reciprocating pump according to the positive displacement type pump type, which is constituted inside the marine steelworks main body 1 according to the embodiment of the present invention, The operation of the wing pump 327 is shown in the operating configuration of the rotary kiln 337 and the external gear pump 326 and the other rotary pump rotor 338 in the operation of a marine steelworks Methodology diagram.
FIG. 52 is a perspective view showing a turbine pump 140 constructed inside the marine steelworks main body 1 according to the embodiment of the present invention. The prime mover 339 and the self- The illustration of the operation of the axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146 is shown in the drawing of the viscous pump 343 and the operation of each pump is shown in the view of the viscous pump and impeller Side view Construction diagram of a marine steelworks with one side operation.
[Figure 53] Figure 53 is a schematic diagram of a hydro-electric power station facility constructed inside the main body of a marine steelworks according to an embodiment of the present invention, including a pressure head tank 189 located above the hydro-power plant, 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, (231), which converts the kinetic energy of water into mechanical energy by using the flow velocity and generates electric energy by a multistage hydroelectric generator with the induction pipe 191, Manufacturing method of steel mills.
54 is a hull position moving construction machine constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention. The upper portion of the stranded tank upper barge hull 591 and the lower portion of the holding tank lower barge hull (592) to the secondary structural block tank (598) central holding tanks and the auxiliary support coupling separating portable lug coupling pin connection shaft (606) and the portable lug (607) A process for constructing a marine steelworks with a hull assembly method.
[Figure 55] is a hull position moving construction machine unit constituted inside the marine steelworks main body 1 according to the embodiment of the present invention. It shows the hull position of the marine steelworks marine ironing board (593, 594, 595) (2) Construction of crude oil drilling rig to show the construction machine position control structure of movement control Double structure block tank pipe pier (928), double structure block tank pipe bridge (937) and nuclear waste processing Ocean tunnel transport system (941) Drilling machine (908) Manufacturing method of marine steelworks of construction machinery connection structure.
[Figure 56] is a hull position moving construction machine part constituted by the inside of a marine steelworks main body 1 according to the embodiment of the present invention, which is a dual structure providing steel plate bending method and welding basic method for a pipe block of a marine steelworks A detailed view of the partial section showing the front side of the steel structure inside the pipe structure of the pipe structure and a view showing the manufacturing method of the marine steelworks of the subassembly type hull assembly method showing the construction of the steel pipe manufacturing process.
[57] FIG. 57 is a partial view of a side view of a connection structure of a double structure block tank of a marine steelworks lifting console according to an embodiment of the present invention, The assembly structure showing the construction of a dual-structure holding tank and a lifting stand combination system for explaining the entire construction method of a floating dishwasher for a marine steel mill is shown in FIG. A schematic view of the manufacturing method of a marine steelworks of a marine steelworks buoyant reconditioning plant equipped with a buoyant reading console showing the disassembly and disassembly of tank units.
[Fig. 58] is a hull position moving construction and mechanical part constituted inside the marine steelworks main body 1 according to an embodiment of the present invention. Fig. 58 is a schematic view of the marine steelworks marine ironing board (593, 594, 595) (928) showing the construction machine position control arrangement of the displacement control, and the internal tunnel of the marine tunnel transportation device (771) inside the pipe tunnel (937) and the marine tunnel traffic device (941). Manufacturing method of marine steelworks.
[Figure 59] is a hull position moving construction machine part constructed inside the main body 1 of a marine steelworks according to an embodiment of the present invention. Figure 59 is a block diagram of a marine steelworks, A schematic view of a manufacturing method of a marine steelworks assembled in a hydroelectric power plant showing the construction of a system.
[0064] FIG. 60 is a schematic view of a marine vessel moving structure construction unit constructed in the interior of a marine steelworks main body 1 according to an embodiment of the present invention. A double structure block tank side connection structure configuration showing a marine safety tool band guide 621 at the upper part of a semi-submerged operation line and a cutting and underwater welding preparation process, and a double structure block tank 598 and a band guide band 621) partially shown in partial detail in a partial double structure block tank (598) showing the construction of a unit partial side detail connection system.
61 is a side view of the marine ironworks main body 1 according to the embodiment of the present invention. The marine steel mill countertop ship sails 959 and the tug boat 636 and the connecting structure inside the main body 1 of the marine steel mill to wind the wind turbine 958 and release the anchor chain 640 with the tumbler winch 958. [ ) And tugboats 636 while the tugboat 636 is provided with a support for operating the marine steelworks and a double structure block tank 598 of 500m unit at one side of the nuclear waste treatment double structure block tank bridge bridge 929 is installed at sea level The process for the combined operation is sailed to a connecting structure. Nuclear waste treatment is provided while providing a provisional passage to the ship. The double-structure block tank bridge pipe (929) is connected to a double structure block tank (598) Tank( 598) Dual structural block tank bridge pipe (929) connection for transporting material showing the construction of the unit part side detail connection method Floating floodgate hull assembly method Construction diagram of the ocean steel mill.
62 is a schematic view showing the structure of a marine steelworks with a dual structure of a marine steelworks in a facility control section 811a of a floating pick-up hood position moving construction machine included in a mining collection facility 811 constituted inside the marine steelworks main body 1 according to an embodiment of the present invention. A method of manufacturing a marine steelworks having a marine steelworks provided in a marine hydro-nuclear power generation production control unit 811b that provides power production for producing power production showing the construction of the pipe structure block pipe line adjustment shaft 238 (593,594,595) of small, medium and large scale marine steelworks (593,594,595) constructed at the upper part of the deck of the hull deck (SDU) (1) Small-sized, medium-sized and large-scale marine steelworks built-in flood control station (593,594,595) Space development, showing the mechanical positioning configuration And a satellite control unit for preventing radioactive contamination of the hull. The control unit (811a) of the hull structure moving construction machine is connected to the satellite control unit. 592 to the secondary structure block tank 598 central supporting tanks and the auxiliary supporting coupling detachable portable lug coupling pin connection shaft 606 and the portable lug 607 at the same time, (811a) Hull position transfer Elementary floodgate showing the control of the construction machinery. (8) The pipe bridge (928), which constitutes the enlargement of the main part of the marine steelworks, , A dual structure holding tank and a floating tank to explain the entire construction method of the marine steelworks flood control consortium consisting of the bridge bridge (937) and the inside of the marine tunnel traffic device (941) , Which shows the structure of the marine steelworks floating structure, showing the construction of the whole structure showing the decomposition and connection of the marine steelworks, A schematic view of manufacturing method of a marine steelworks assembled in a hood assembly.
FIG. 63 is a schematic diagram showing the construction of a facility control section 811a of a floating pick-up hood position shifting construction machine included in a mineral collection facility 811 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention. A method for manufacturing a marine steelworks having a marine steelworks in a marine nuclear hydroelectric power production control unit 811b for providing power production showing a configuration of a double pipe structure block pipe line control shaft 238 for nuclear waste treatment. (593,594,595) of small, medium and large scale marine steelworks (593,594,595) constructed at the upper part of the deck of the hull deck (SDU) (1) Small-sized, medium-sized and large-scale marine steelworks built-in flood control station (593,594,595) A boom 882a and a diesel pile hammer 883 in a pit stopper 876 and a pile driver 882 on an asphalt finisher 871 and an asphalt spreader 872 on a runner safety device 864 showing a machine position control arrangement, Manufacturing method of marine steelworks of mechanical connection structure.
FIG. 64 is a schematic view showing the structure of a marine steelworks with a dual structure of a marine steelworks in a facility control section 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 constituted inside the marine steelworks main body 1 according to an embodiment of the present invention. A method of manufacturing a marine steelworks having a marine steelworks in a marine nuclear hydroelectric power production control unit 811b that provides power production showing the construction of a pipe structure block pipeline control shaft 238, (1) Inside the steelworks main body (1) showing the construction of the hydroelectric power plant for controlling the position of the hull of the small-sized, medium-sized and large-scale marine steelworks floating ship (593,594,595) constituting the upper part of the steel deck hull deck (SDU) (593,594,595) Hull Location Moving Construction Machinery Equipment Controls (811a) Moving Controlled Construction Machinery Locations Marine Works Construction machinery crusher (874) composed of maritime perspective preparation steelworks in connection construction diagram showing the section.
FIG. 65 is a schematic view showing the structure of a marine steelworks with a dual structure of a marine steelworks in a facility control section 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention. The marine steelworks power production control unit 811b for providing power production showing the construction of the pipe structure block pipeline line control shaft 238 includes an elemental marine steelworks dock hull deck upper part (SDU (593,594, 595), which is composed of small, medium and large sized hydroelectric power plants, which constitute a small, medium and large sized hydroelectric power plant. (593,594,595) Shipbuilding location control equipment of construction machinery (811a) Ship building of marine steelworks showing control arrangement of construction machine And a manufacturing method of a marine steelworks of a construction machine connection structure of a radial plunger pump (148c) and a biaxial plunger pump (148b) of a plunger pump (148).
FIG. 66 is a schematic diagram showing the structure of a marine steelworks in which a marine ironworks is installed in a facility control section 811a of a floating picket hull position shifting construction machine included in a mineral collection facility section 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention. The marine nuclear hydroelectric power production control unit 811b that provides power production showing the construction of the tubular structure block piping line control shaft 238 includes an elemental marine steelwork dock hull (593, 594,595) of small, medium and large sized marine steelworks constructed on the deck upper part (SDU) is constituted inside of an elemental marine steelwork main body (1) (593,594,595) Shipbuilding location control equipment for construction machinery (811a) Shipbuilding machinery and equipment for control of movement Dispute resolution adjusting unit space development A portable lug 607 is attached to the vertical partition 605 for disassembling and assembling the pin assembly shaft 606 for connection to the portable lug 603, And a large lug pin (608) to the large-sized flange connection connection joint hole machining hole (615) Construction method of the marine steel mill Construction of a small-sized, medium-sized and large-scale marine steel deck upper part (SDU) Cylinder (126) showing the configuration of the construction machinery and the piston motor (885a) of the hydraulic crane (885). Construction method of the marine steelworks of the connection structure of the construction machine. Diagram.
[Figure 67] shows a manufacturing process of a marine steelworks showing a scene in which a furnace 948b and a furnace 948 of a domestic steel mill constituting the inside of a marine steelworks main body 1 are melted, Method Mineral smelting operation method diagram.
[Figure 68] is a partial view of a marine steelworks of an elemental marine steelworks high-tech environmental technology 948u showing a high-level environmental technology 948u inside the marine steelworks main body 1 according to an embodiment of the present invention, Of the manufacturing method.
69 is a view showing a structure 948j of a furnace inside a marine steelworks main body 1 according to an embodiment of the present invention in which a flow 948k of blast furnace gas, a coke 9481 and an iron ore and limestone 948m And a slag 948q. The industrial electric furnace 948r is provided with the accessories 948s of the industrial electric furnace, (948t) of the blast furnace, 948u of the advanced environmental technology of the domestic steel mill, 948v of the operation method of the ocean steel mill furnace, 948w of the domestic blast furnace operation method, 948w of the old blast furnace furnace And a structure 948j of a blast furnace constituting the inside of the main body 1 of the marine steel mill with a blast furnace for metal processing for marine capital goods, Construction of marine ironworks showing the illustration Mineral smelting operation Side view Construction view.
[Fig. 70] Fig. 70 is a top view of a domestic steelworks included in a facility control section 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention (948u) of an elementary marine steelworks showing a side view in section of an environmental technology (948u).
[Figure 71] is a diagram showing a blower or a cooling system included in a facility control unit 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention. A fan 641, and a heater fan 642 for keeping the air.
[Fig. 19] to [Fig. 71] are diagrams illustrating an example of a marine steelworks having a metal smelting furnace and a construction machine according to the present invention.
[Figure 72] is buried in the deep sea bed included in the equipment control section 811a of the floating pick-up hood position shifting construction machine of the mining collection facility 811 constituting the inside of the marine steelworks main body 1 according to the embodiment of the present invention (1) showing a side view in section of a scene in which natural gas or crude oil energy at the bottom of the ocean floor with a bottom crest and manganese monoliths as a submarine mineral resource are produced at an isocrane boom zone (942) A tower crane that shows the construction of a floating docked submarine development operation structure that is internally provided with an iso crane boom zone 942 and an electronic sensor control screw construction unit 811h of an electronic sensor valve screw control unit 811h A method of manufacturing a marine steelworks comprising a control unit.
[Figure 73] is a graph showing the relationship between the amount of the mineral picked up equipment 811 used in the onshore of the marine steelworks main body 1 according to the embodiment of the present invention, A hydraulic cylinder 623 showing that the excavating equipment is constituted by an excavator 845 equipped with a skicycle drill and configured to be disassembled and disassembled into a hydraulic cylinder 623 and a excavator 845 by a crane 861, After the digging machine 845 is disassembled, a construction machine for building a foundation pier of the submarine by using a bolt hammer for disassembling bolt nuts for pier foundation post work, Construction method of marine steelworks of construction machine constructed on top of deck.
[Figure 74] is buried in the deep sea floor included in the equipment control section 811a of the floating pick-up hood position shifting construction machine of the mining collection facility 811 constituting the inside of the marine steelworks main body 1 according to the embodiment of the present invention (1) showing a scene in which a natural gas or crude oil energy at the bottom of the seabed and a manganese nodule as a submarine mineral resource are produced at an isocrane boom zone (942) And a facility control unit 811a of a floating pick-up hull position shifting construction machine equipped with an electronic control adjustment unit of a mineral collection facility unit 811 for providing the production of seabed mineralized manganese nodules showing the configuration A schematic view of the manufacturing method of a marine steelworks.
FIG. 75 is a view showing a state in which the rescue force for lifesaving structure included in the lifesaving anti-sailing ship regulating section 811e in the mining facility 811 of a marine steelworks constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention A hatch cover 153 provided on a ship 1078, a lifting rope 629, a rope knot claw 630, an emergency staircase 631, an elevator alibault 632, The ship is provided with a conveyor 633, a bollard 638, an anchor 639, an anchor chain 640 and a helicopter 647 so that the life structure sinking prevention vessel control unit 811e A method of manufacturing a marine steelworks having a rescue force for rescue force for rescue sinking prevention device A side view diagonal view of a rubber balloon (914) of a ship (1078).
[Figure 76] is buried in the deep sea floor including the facility control section 811a of the floating pick-up hood position shifting construction machine of the mineral collection facility section 811 constituting the inside of the marine steelworks main body 1 according to the embodiment of the present invention (1), which consists of a submarine natural gas or crude oil energy resource and a subsea mineral resource (manganese nodule production), which is a side view of the submarine mining submarine. Manufacturing process of marine ironworks to produce manganese nodule production.
[Fig. 77] Fig. 77 is a schematic view showing a configuration of a marine steelworks including a facility control section 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention A schematic view of the manufacturing method of a marine steelworks of a disaster prevention system at a marine steelworks showing the construction of a disaster prevention device constituting a plurality of elementary marine steelworks showing the side of the disaster prevention device showing the construction of the disaster prevention device.
78 is a view showing a marine power plant dock hull 811a including a facility adjustment portion 811a of a floating pick-up hull hull position shifting construction machine of a mining collection facility 811 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention. (593,594,595) showing the mooring structure of the marine steelworks with the construction machinery of the marine hydroelectric power plant floating structure installed in the upper deck (SDU). Vertical partition wall (605) for disassembling and assembly of the portable lug A construction machine connection structure of a marine steelworks having a large-sized flange connection joint joining portion processing hole 615 in a portable lug 607 and a portable lug pin 608 on a shaft 606. A method of manufacturing a marine steel- Degree.
[79] FIG. 79 is a diagram illustrating a power generation process including a facility control unit 811a of a floating pick-up hood position shifting construction machine of a mineral picking equipment unit 811 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention (593,594, 595) at the marine power plant deck upper part (SDU) of the marine power plant with the control of the marine hydro-nuclear power generation production control section (811b) of the marine steelworks Diagram of the manufacturing method of the marine steelworks of the pump dredging line 879a of the dredger 879 and the bucket dredging line 879b.
80 is a view showing a marine power plant dock hull 811a including a facility adjustment part 811a of a floating pick-up hull position shifting construction machine of a mining collection facility 811 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention. A concrete mixer truck 868 is connected to the concrete batching plant 865 of the marine steelworks and the concrete finisher 866 showing the construction machine position adjustment structure of the hull locomotion control of the marine steelworks floating posture 593,594,595 constituting the upper deck section (SDU) Construction method of marine steelworks of construction machinery connection structure.
FIG. 81 is a schematic view showing the structure of a floating pick-up hood hull structure including a facility control section 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention The marine nuclear hydroelectric power production control unit 811b, which provides the power production showing the construction of the double pipe structure piping line control shaft 238 of the manufacturing method of the marine steelworks, Docking of an elementary marine steelworks showing the construction of one embodiment of the manufacturing method of a steel mill Hydraulic power plant construction machine of a small, medium and large scale marine steelwork lifting plant (593,594,595) arranged on the upper part of a deck of a ship hull (SDU) (593,594,595) Small-sized, medium-sized, and large-sized marine steelworks built inside the main body of the marine steelworks (1) Portion (811a), a piston motor (885a) The method of marine steel mill for a construction machine connection structure perspective diagram of a mobile construction machine control positioning configuration marine mill cylinder 126 and the hydraulic cranes (885) for showing in Fig.
FIG. 82 is a schematic view showing an example of a harmful vortex blocking prevention system including a facility control unit 811a of a floating picket hull position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention. A computer using a vacuum tube constituted by a power transmission control section 811c of a submarine-to-submarine transverse railway substation for nuclear waste disposal to provide power transmission to the regulating section 811d is referred to as a first generation, The third generation, LSI, or VLSI is used as the fourth generation. It is the fourth generation, and it is the computer that constitutes the fifth generation of computers that will be equipped with artificial intelligence to judge and construct the calculation and processing. The IC, which is a moving heart, is composed of a semiconductor, a new material, and a rotary kiln (rack and pinion type -NRP, 620) (Rack & Pinion type -N R P, 620) devices, which are used in the manufacture of a marine steelworks.
FIG. 83 is a schematic view showing the structure of a marine steelworks main body 1 according to an embodiment of the present invention. And the combustion chamber 961a constituting the liquid fuel rocket 961 included in the spacecraft and the satellite 611 of the lunar journey and the space rocket 612 constituting the satellite control section for preventing radioactive contamination of the nuclear material are provided with a nozzle 961b, A gas generator 961c for generating a gas for operating the turbine in the propellant injection 961c, the control valve 961d, the fuel pump 961e, the fuel tank 961f, the oxidant pump 961g and the oxidant tank 961h 962i constituting the solid fuel rocket 962 and the igniter 962b and the combustion chamber 962c constitute the liquid fuel rocket 961 and the heat insulating material 962d And the spacecraft 611 and the space rocket 612 in the mineral collection facility 811 constituting the interior of the marine steelworks main body 1 constituting the solid fuel rocket 962 with the nozzles 962e, The earth 1112 and the Mars lander 1115 constituting the Mars 1113 and the orbit of the sun 1116 Sensing configuration method for producing the side perspective of the marine configuration diagram mill.
FIG. 84 is a schematic view showing the structure of a marine steelworks main body 1 according to an embodiment of the present invention. An ion rocket 612a, an ion rocket 612b, a plasma rocket 612c, and a photon rocket 612d included in a spacecraft and space rocket 612 of a lunar journey constituting a satellite control unit for preventing radioactive contamination of the nuclear radioactivity, ) And a nuclear rocket (612e), which constitute a nuclear power hydroelectric power plant (811) showing a conventional configuration illustrating an embodiment of the apparatus of the nuclear rocket (612e) Fuel rocket 961 and solid fuel rocket 962 to the ion rocket 612b, the plasma rocket 612c, the photon rocket 612d and the nuclear rocket 612e, And a rocket 612a included in a spacecraft and a space rocket 612 of a lunar landing in a nuclear hydroelectric power plant 811 constituting the interior of the nuclear reactor main body 1 with a multipurpose hot gas for nuclear waste disposal, An ion rocket 612b, a plasma rocket 612c, a photon rocket 612d, FIG. 8 is a side view perspective view showing a manufacturing method of a marine steelworks constituting a device of a liquid fuel rocket 961 and a solid fuel rocket 962 in a rocket 612e. FIG.
[85] FIG. 85 is a schematic diagram of a multi-purpose high-temperature gas furnace including a facility control section 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention. The reactor installation (805) is composed of a construction machine. The side view shows the operation of the nuclear reactor. The reactor is composed of a multi-purpose high temperature gas reactor for processing nuclear wastes. (805) as a construction machine, and a floating nuclear power plant (672) of a small, medium and large scale marine steelworks showing the construction of a marine steelworks. The reactor consists of a multi-purpose hot gas reactor (805) Manufacturing method of marine steelworks in operation mode.
[86] FIG. 86 is a schematic view showing the construction of a marine steelworks including a facility control section 811a of a floating pick-up hull position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention METHODS One embodiment is to construct a multi-purpose hot gas reactor (805) as a construction machine at a floating plant (593,594,595) nuclear power plant (672) of a small and medium and large oceanic steel mill of land and ocean among a plurality of nuclear reactor installations (1) of the elementary marine steelworks (1), which shows a side view of the nuclear power plant operation scene. Among the plurality of nuclear reactor facilities, a multi-purpose high temperature gas reactor 805 is constructed as a construction machine. (593,594,595) Nuclear power plant (672) with multi-purpose high-temperature gas reactor (805) as a construction machine The method of marine steel mill side cross-sectional perspective diagram.
87 is a view showing a production power central control room including a facility control section 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention. A method of manufacturing a marine steelworks having a cutter and a robot 912 by a remote control of a furnace apparatus provided inside a worksite 781 of a mining collection facility 811. In the method of manufacturing an elementary marine steelworks, A method of manufacturing a marine steelworks having a furnace apparatus constituted by a central control chamber 781 and provided with a cutter and a robot 912 by remote control is shown as a side view and a sectional view of an essential mineral collection facility 811, A manufacturing method of an ocean steel mill having a cutting machine and a robot (912) by the same remote control as that of the nuclear waste disposal apparatus constituted inside the control room (781).
[FIG. 72] to [FIG. 87] are diagrams illustrating an example of a marine ironworks having a metal smelting furnace and a construction machine according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Therefore, the present invention is not limited to the embodiments described below, but may be embodied in other forms. In the drawings, the width, length, thickness, and the like of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

The main component of the marine steel mill furnished with the metal smelting furnace and the construction machine is firstly selected as K SD 3705 hot rolled stainless steel material and the use of the dual structure firefighting nozzle nozzle device formed on the upper surface of the sea surface and the upper surface of the earth surface,

In the marine steelworks facility which constitutes the ocean steel mill furnished with metal smelting furnace and construction machine,

KSD 3705 Double-structure block tank holding tank and double structure block tank with cylindrical shape with hot-rolled stainless steel pipe Steel plates to support inner block tank and outer block tank installed on the outer side of the circumferential surface of the holding tank on the barge hull KS D 3705 steel material (KS symbol: S TS x HP, S TS steel less S-Steel H-Hot P-plate) constituting nuclear hydroelectric power plant facilities,

The size of the floodplain, which constitutes a number of marine steelworks,

Small floodgates that make up a small floatation restraint stand block block tank top barge hull size,

Width × length × height × thickness of steel plate (Tie), 600M × 800M × 40M × 30mm,

Medium-sized floats that make up the mid-float floodplain In the upper barge hull size,

Width × length × height × thickness of steel plate (Tie; mm), 2 km × 3.2 km × 40 M × 32 mm,

Large-scale floatation consecutive pillars that make up a large floodplain The block top tank barge hull size,

Width × length × height × thickness of steel plate, 10km × 12km × 40M × 35mm in three forms of the distance of the standard crossing the earth,

Nuclear waste treatment of 40.000km standard constituting the crossing of the earth Double structure block tank pipe bridge In the marine tunnel traffic equipment,

40.000km Nuclear waste treatment Double structure block tank pipe bridge Marine tunnel equipment,

The standard specifications of the above-

It is composed of marine steel mill facilities consisting of 4 sides of width × length × corner thickness × thickness of steel plate × production unit length (15M × 15M × π 15M × 35mm × 0.5km).

Nuclear waste treatment consisting of steel smelting blast furnace and marine steelworks equipped with construction machinery Double structural block tank pipe bridge Marine tunnel transportation of marine tunnel construction equipment (15M × 15M × π15M × 35mm × 0.5km) The pipe bridge of the equipment facility,

5m in diameter and 5m in depth of 5m at the depth of the sea floor,

A double pipe structure tank pipe which composes a marine tunnel traffic facility. Several bands for construction of a pier bridge and several construction machines are installed. The pipe bridge is installed at a height of 300m above sea level,

It is designed to be built with several band guides and several construction machines for the installation of anti-sinking rescue vessels that make up the steel smelting furnace and construction machinery, and then the height of the top of the sea level (SLL) To provide all maritime vessels as safety navigation vessels to prevent sinking,

In the marine tunnel transportation device of the control shaft for controlling the nuclear hydroelectric plant constituting the main body of the marine steelworks,

×핀 몸체 직 경∮;500×2×10∮mm)을 접속하면서 핀 연결축 끝단 부위로 가공된 나사 산 위치에 너트로 분해결합을 마련하고 예인선에 이송된 이중구조블록탱크는 반 잠수 작업 선에 탑재되는 밴드 지그대에 의해서 조립되는 지주탱크 상단의 바지선선체(가로×세로×높이×철판두께;600M×800M×40M×18mm)와,External tank tanks in the holding tanks and inner block tanks The lengths of the connecting shafts for connecting the portable luggers to the inner and outer walls of the respective tanks are 800 mm, the diameter is 300 mm, the thickness of the iron plate of the portable rhea is 150 mm, (Diameter x 30 mm) of the connection pin connecting shaft is connected with a connecting rod pin (length x

× 500 × 2 × 10 ∮ mm), while the double structure block tank transferred to the tugboat is provided with a nut at the screw thread position machined to the end of the pin connection shaft, (Width × length × height × thickness of steel plate: 600 M × 800 M × 40 M × 18 mm) at the upper end of the holding tank to be assembled by the band guides mounted on the barge ship,

The barge hull at the bottom of the holding tank is constructed on the circumferential surface of the holding tank and the inner block tank at the pipe bridge (width × length × 4 corner radius × thickness × production unit; 15M × 15M × π 15M × 24m × 1Km) (Width × length × height: 2Km × 3.2Km × 2Km) to a small-sized marine steel-fired floating kitchen set (width × length × height: 600M × 800M × 800M) (Length × width × height; 10Km × 10Km × 10Km), and the portable lug pin is bolted to the machining hole of the lug connection shaft, and the lug pin is prevented from escaping. The marine steelworks, which is equipped with a hole-cutting excavator and drilling equipment equipped with a key bed and a core drill (350 Ø or 400Ø diameter) for the barge hull at the bottom of the holding tank,

Injection nozzles composed of upper and lower deck deck tops at the top of the barge hull at the top of the holding tank, assembled at sea by anti-sinking buoyancy control device, have a nozzle hole diameter of 3 mm or 7 mm nozzles, Type nozzles and 490 nozzle openings Inside the nozzle and piping nozzle body (B) The fire water with the water pressure in the fire hose discharges into the gap of the spray nozzle and discharges the number of the spray jet and the curtain wall. And a flood control system of the flood control facility including the control of the flow of the typhoon and the tornaded air currents while eliminating at the moment of the operation of the shipbuilding plant. A marine steel mill equipped with machinery is provided,

      According to an aspect of the present invention, there is provided a marine ironworks including a metal smelting furnace and a construction machine,

A guide rail 618 located at the upper end portion SDU of the double structure barge hull 591 at the upper end of the holding tank constituting the inside of the marine steelworks main body 1 constituting the marine steelworks is installed to the left and right sides of the deck deck The crane 861 having the capacity of 5000 tons has the transportation crane 861 placed on the guide rail 618 at the upper end of the deck deck and the double and triple sliding hatch covers 153 are fixed to the clutching device Respectively,

The crane 861 is connected to the disassembly-type portable lug of the block tank position movement control device formed in the double structure block tank metal mineral collector 794 in which the lid of the stopper plate 625 of the semi-circular part is disassembled, A wire rope constituting the boom frame 651, a shackle and a crane boom hook 652 to engage with a portable lug formed in the double structure block tank metal mineral collector 794,

A deck deck configured to feed a plurality of metal smelting furnace facilities into the double structure barge hull 591 at the upper end of the holding tank is provided with several openings for opening and closing the crane 861, The positional movement of the tank metal mineral collector 794 constitutes a pre-loading so that the double structure block tank metal mineral collector 794 is positioned inside the double structure barge hull 591 inside the double structure barge hull 591 ;

A wire rope and a shackle and a crane boom hook 652 constituting a crane boom portion 651 of a construction machine crane 861 are mounted on disassembly and binding portable lugs of the block tank position movement control device to operate the crane 861, The deck is provided with a crane 861 in which several openings are located so that the blast furnace 948 is positioned inside the double structure barge hull 591 at the center of the double structure block tank metal mineral collector 794, &Lt; / RTI &gt;

After the integral assembly of the stopper plate 625 is completed, the two or three sliding hatch covers 153 are fixed to the opening and closing ports by the clutching device in a closed state,

The marine steelworks has a mining collection facility 811 located at an upper 40 m above sea level to exclude the weather condition of the earthquake and tsunami as a disaster prevention device, a blast furnace 948 that forms the safety of a sinking type barge 948, And a facility control unit 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituted by the interior of a main body 1 of a marine steelworks constituting a lifting plant of a marine steelworks;

A marine hydro-nuclear power generation control unit 811b for generating power production;

A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission;

A harmful red tide blocking preventive control unit 811d for excluding the weather condition restriction as a disaster prevention device;

A lifesaving structure and an anti-sunken ship control unit 811e;

A ship control unit 811f corresponding to the wind and waves;

A submarine resource transport unit 811g connected to the marine tunnel transport device 941;

An electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616;

(794), double blasted structural tank tanks (794), metal furnace for marine capital goods, and equipment for lifting the above metal, to constitute the metallurgical process of the marine steelworks. ,

The metal working furnace and the metal lifting equipment constituting the double structure block tank metal mineral collector 794 of the mineral collecting facility 811 constituting the inside of the main body 1 of the marine steel mill include the above- The metalworking furnace inserted outside the mineral sampler 794 and the equipment for lifting the metal,

      The minerals collecting marine capital goods containing minerals such as manganese, nickel, copper, chrome, and cobalt in the seabed mineral include a construction equipment including an engine generator, a crane, a vacuum aspirator, a conveyor, The collection process of crude oil and natural gas is equipped with petroleum drill rigs. The minerals collection line, petroleum drill rigs are used to collect marine capital goods, as well as inhalation collecting machines, submarine mining robots, crude oil drilling machines Rotary table lathing machine, double structure piping line automatic pneumatic valve transport device, mineral collecting trough, tower crane Seiso crane boom block, double structure block tank marine tunnel traffic device, blast furnace furnace with furnace bricks, A metal smelting furnace constituting the upper portion (SDU) of the food dock, the deck of the ship, and the mineral collecting line, After passing through the process of collecting, transporting and heat-treating the offshore steel mill, which forms an apartment-type structure combining blocks built up on the deep-sea basin, the marine steelworks is equipped with space science equipment and several sonar And installed a number of sonar in the deep sea, and received the photographs from space science development equipment and several sonar. As a result, it detected the deep sea mineral resources and natural gas energy resources, and then put the oil energy drilling equipment into the deep sea mineral We will provide resources and production of natural gas energy resources. We will also provide power to wind turbine generators and hydropower generators with transformers and transmission lines in substations,

      Double structural block tank bridge for nuclear waste treatment Marine nuclear power hydroelectric power plant is provided with connection structure of marine tunnel traffic device and battery for safety operation of traffic facility substituting for marine vessel is provided with electric energy line The development of marine capital goods within the territorial sovereignty line of each country in the world is the equipment for lifting metal constituting the inside of the main body (1) of marine ironworks with the blast furnace for metal processing for marine capital goods with the agreement of each country.

As shown in FIG.

Preferably, the operation of the boiling water reactor facility 802 constituting the marine nuclear hydroelectric power plant having the boiling water reactor facility for nuclear waste disposal having the double structure block tank dust collector constructed inside the main body 1 of the marine steelworks In addition,

In the mineral collection facility 811 formed at the stage before and after the operation of the nuclear power plant of the nuclear hydroelectric power plant constituted by the combined connection structure of the boiling water reactor facility, nuclear fission is generated in the boiling water reactor facility 802, A steam turbine 267 for generating steam to rotate the steam turbine 267 to produce power,

A rotary shaft for a nuclear power generator installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the atomic power generator 772 for converting the power generated from the steam turbine 267; An electromagnet coil 774,

A nonrotating armature coil 773 for a nuclear power generator installed on the circumference of a rotating rotor electromagnet coil 774 for the nuclear power generator and a rotor 773 integrally formed with the nuclear power generator 772 and the rotary shaft 198 to the steam turbine 267, And a frame 775 for fixing the nuclear waste to the main body 1 of the marine steel mill equipped with the nuclear waste water treatment reactor facility for treating the nuclear waste and the nuclear and hydroelectric power plants of the land and ocean. A nuclear waste disposal pipe manufacturing process distributing shaft 705 composed of a mineral collecting facility 811 constituting the double structure block tank collector and a double structure block tank Including operation of the boiling water reactor facility of the marine nuclear hydropower plant equipped with a boiling water reactor facility for the treatment of nuclear waste connected to the process of manufacturing the dust collector nuclear waste treatment pipe. However,

Large-scale hydro-electric power plant (944) facilities included in the marine nuclear hydroelectric power plant constituted inside the main body of the marine steelworks (1)

The large hydroelectric power generator 944 of the hydroelectric power plant 943, which is a connection structure of the large hydroelectric power plant 944 of the marine hydroelectric power plant 943 constituting the marine hydroelectric power plant,

(593,594,595) nuclear power plant (672) of a small-scale, medium-sized and large-scale marine steelworks of the land and sea constituting the large hydroelectric power generator 944 of the hydroelectric power plant 943 and a nuclear waste The boiler water reactor for treating nuclear waste is provided in the power production and production unit 811b of the mineral collection equipment unit 811 constituted inside the main body 1 of the marine steelworks having the boiling water reactor for treatment, (811b) connected to the large-scale hydroelectric power plant (943) of the marine Seisoh hydroelectric power plant (943), which is a substitute for the power generation and power generation, in preparation for the renovation of the nuclear power plant facilities And a large hydraulic power generator 944 of a hydroelectric power plant 943, which is provided as a connection structure and constitutes a nuclear power alternative hydraulic operation for several generators,

A large hydroelectric generator Shiseo hydroelectric power plant 944 of a marine seesaw hydroelectric power plant 943, which replaces the power generation and power generation plant in preparation for the repair of a marine nuclear hydroelectric power plant having the boiling water reactor facility for treating the nuclear waste, The large-scale hydro-generator seesaw hydroelectric power plant 944 of the marine seesaw hydroelectric power plant 943,

A head tank 189 for a pressure tank located at an upper end of the barge line connected to a large hydroelectric power generator 944 of a marine seesaw hydroelectric power plant 943 constituting a nuclear power alternative hydroelectric power plant 944 of the barge, (191) in front of the inlet pipe (189) In the inlet of the cooling water, an introduction pipe (191) having a pressure reducing pipe shape of a reducer (35) is provided with a connection structure with the head tank (189)

A plurality of introduction pipes 191 are connected to the upper end of the marine sheath hydroelectric power plant 943 constituting the nuclear power alternative hydraulic operation and the discharge port at the rear of the head tank 189 to the respective large hydroelectric power plants 943 located inside the marine sheath hydroelectric power plant 943. [ The turbine 267 and the Pelton aberration 943b of the turbine 267 are connected to the suction port 269 in front of the Francis turbine 943c and the discharge port 270 in the rear of the turbine 267 to the lower portion of the generator seesaw hydroelectric power plant 944, Including hydroelectric power generation facilities in the ocean that make up hydropower generation,

(191) in the form of a hydraulic pipe reederator (35) for providing a flow velocity of the water to the mechanical energy and having a flow velocity of the ocean current constituting the nuclear hydroelectric power generation apparatus, A large hydraulic power generator seeside facility 944 having a seesy center shaft frame 673 provided with a seesaw crane boom base 942 for providing a vertical rotation operation, (593,594,595) nuclear power plant (672) of small scale, medium and large scale marine steelworks equipped with power generators, and a boiling water reactor facility for nuclear waste disposal with dual structure block tank dust collector (1) Including a large hydroelectric power plant alternative hydroelectric power plant that constitutes an additional nuclear hydropower operation inside,

The large hydraulic power generator seeside facility 944 constituting the nuclear hydroelectric power generation operation of the nuclear power plant is located at the top of the center of the rotation shaft 944q constituting the hydraulic power generator sheathing facility 944, And a DC generator exciter 944b for supplying a current to the motor field coil of the alternator located at the lower end of the hydrodynamic power generator rotation speed detector 944a, A device 944e for pushing the rotary bearing 944 and a stator coil 944f and a stator frame 944g and a center stator 944h and a low speed A large hydrostatic generator seesaw facility 944i in which the rotary bearing 944i of the cooler, the braking device ring 944j, the jack 944k of the braking device and the low-speed rotary shafts 9441 are located at the upper- And a turbine rotating bearing 944n and a casing 944o and a guide vane and a vane wheel 944q having a connection structure with the rotary shaft 944q, And an apparatus for lifting metal constituting the inside of the main body (1) of a marine steel mill with a furnace for metal processing for marine capital goods;

As shown in FIG.

       Preferably, the strut block tank 590 constituted by the marine water depth of a marine nuclear hydroelectric power plant having a boiling water reactor facility for nuclear waste disposal constituted inside the main body 1 of the marine steelworks is connected to the depth of the sea surface SLL The unit of the marine nuclear hydroelectric power plant, which consists of units, is installed inside the marine steelworks,

(593, 594, 595) nuclear power plants (672) and nuclear facilities of the small-scale, medium-sized and large-scale marine steelworks in the facility control section (811a) of the floating- Reactor System Consisting of a Main Body (1) of a Marine Steel Mill Having a Boiling Water Reactor Facility for Waste Treatment A rotary table lathing machine (908)

A boom boom of a crane boom of an overhead crane 651 located at the upper end of the drilling machine room with a crude oil at the time of crude oil connected to a plurality of pipe racks 854 constituting a rotary table lathe machine 908 of a drilling machine, A boom hook connection (652) and a wire rope (19) are connected to each other,

The pipe rack 854 in the excavation preparation standby state constituting the mooring device at the marine steelworks with the crude oil at the crude oil connection,

A plurality of pipe racks 854 provided as connection structures of the sea level lower end SLD of the sea level SLL constituting the pipe rack 854,

The core drill 917, which constitutes the pipe rack 854,

An anchor replacement crank 846 is installed at a location of an excavation hole 936 provided as a connection structure with a core drill 917 excavator while an excavator rotation body constituting a core drill 917 is installed at a marine steelworks, ), And a construction machine operation connection structure mounted on the upper barge hull of each strut block tank provided with a connection structure of the hydraulic cylinder machine (624) and the key bed (616). The mooring structure Anti-sunken retention line (634) of the device,

The rotary table lathe machine 908 of the crude oil-boring drilling machine, which is located in the connection structure inside the drilling machine machine room constituting the lower end of the overhead crane 651 constituting the sinking prevention retention line 634,

And a plurality of hydraulic cylinder keys 623 for drilling located at the center portion opposite to the circular table line constituting the rotating body of the rotary table lathe machine 908,

And a plurality of hydraulic cylinders 623 for drilling, which are connected to each other at a line center portion of the line, and are provided with several keys 623,

The rotary table lathe machine 908 of the drilling machine for crude oil making up the position shift control of the line-opposing central portion adjusts the positional movement of the connection structure, which is flipped to the position opposite the center line, And a rotary table lathe machine (908) for connecting the rotary table lathe,

      A plurality of pipe racks 854 are connected to a central position by the rotary connection structure constituting the rotary table lathe machine 908 and a plurality of pipe racks 854 arranged at a point of the crude oil borehole 936, (936) and a floating borehole (936), and a floating bore hole (916), which is provided as a connection structure for the borehole portion (854) Equipment for adjusting the position of the movable construction machine 811a, and a metal furnace for marine capital equipment, which is installed in the main body 1 of the marine steelworks, for lifting the metal;

As shown in FIG.

       Preferably, the peripheral equipment of the block steel tower 116 included in the harmful tidal block prevention / control unit 811d that excludes the gaseous state restriction of the mineral collection facility 811 constituting the inside of the marine steelworks main body 1 by the disaster prevention device A helicopter stop 619 located at a location near the top center of the deck deck,

A satellite launch pad 643 and a space rocket launch pad 646 of a space rocket 612 are provided to provide a positioning position for a safety control room left side connection structure constituting a deck deck peripheral equipment of the block pylon 116 The transfer of the nuclear waste treatment dual structure drums mounted on the forklift of the nuclear waste disposal around the satellite launch pad (643) and the space rocket launch pad (646) is provided with boiling water reactor facilities for nuclear waste disposal,

The space science production equipment of the marine steelworks at the top of the deck deck of the block pylon 116 and several sonar and submarines are equipped with metal detectors to install several sonar in the deep sea, (643) and a space rocket launch pad (646) so as to detect energy resources and natural gas energy resources of the deep sea by the result, and to construct an energy resource detection inside the main body (1) of the marine steelworks, The connection structure between the wiring 946 and the upper part of the floating deck deck deck which is located as a connection structure is provided with natural loess soil 158 to prevent the reproduction of harmful tidal microorganisms 921,

And a natural loess soil (158) of a loess mixture which generates toothpaste-form soap bubbles mixed with a fire extinguishing control product cooling water composed of a connecting structure provided at the top of a deck deck of the block steel towers (116) by a mixer machine, (921) breeding prevention,

The natural loess (158) of the loess mixture, which generates soap bubbles in the form of a dentifrice mixed with a fire control control supply coolant with a mixer machine, is fed to the top of the floating deck deck deck comprising the loess mixture (158) Respectively,

The countermeasure for preventing harmful red tide in the seabed constituting the harmful tidal microorganism 921 to prevent the propagation of the harmful tidal microorganisms 921 occurring in the seabed constituting the natural loess soil 158 of the loess mixture at the upper deck deck of the block pylon 116,

The natural ventilating lid 158 is provided inside the ventilating basin basket 951 of the harmful redeye suction dust collector constituting the harmful red tide to prevent propagation of the harmful tide, and the ventilating basket 951 constituting the introduction of the natural loess- Including,

The harmful redeye microorganisms 921 are stored in the detoxified sediment suction and dust collector constituting the atmospheric basket 951 and the marine steelworks facility 921 for removing the harmful tidal microorganisms 921 with the natural loess soil 158 is provided inside the ingot basket 951 Respectively,

At the lower end of the bottom of the body constituting the removal of the harmful tidal microorganism 921, the natural loess soil 158 is introduced into the sea floor at the upper end of the floating pick-

The harmful tidal microorganism 921 is replenished with natural loess soil 158 on the seabed by a moving tackle winch 137 constituting a position control,

A seesaw crane boom girder 942 of a tower crane for substituting for a quarrel constituting the tuna winch 137, a wire rope 19 and a wire rope chain 915, 135,

An apparatus for constructing a marine steelworks having a nuclear fuel cycle of a nuclear fuel industry connected to a nuclear waste disposal marine tunnel transportation device 941,

A construction machine equipped with nuclear waste disposal trucks,

Equipment for lifting the metal by furnace of metal processing for marine capital materials, which is composed of wind power generator, thermal power generator and hydro generators to be used for power generation and production,

As shown in FIG.

Preferably, the arrangement of the dual pipe structure block pipe line control shaft 238 for the nuclear waste disposal of the nuclear hydroelectric power plant is provided in the facility control section 811a of the floating pick-up hood position moving construction machine included in the mineral collection facility 811 In the marine hydro-nuclear power generation control unit 811b that provides power production,

The nuclear power plant nuclear waste disposal unit 811a to the electronic sensor valve screw control units 811h included in the nuclear hydroelectric power generation facility unit 811 constituting the inside of the marine steelworks main body 1, The two sides are distributed to construct hull position moving construction machines to prepare the reactor installation into the double structure block tank dust collector,

Double structure block tank for nuclear waste disposal The reactor facilities constituting the dust collector are equipped with a tugboat and a plurality of pipe bridge block tanks for disassembling the raft line when transporting the pipe bridge constituting the marine steelworks facility. (593,594,595) of a small, medium and large sized marine steelworks connected to nuclear waste treatment double structural block tank bridge bridge (929) equipped with crankshaft crankshaft with connection method of 500m unit block tank connection method. A holding tank upper barge hull 591 located at the center of the marine steelworks main body 1 having a reactor facility for nuclear waste disposal with a hull assembly method, A plurality of column block tanks 590 formed outside the holding tank lower barge hull 592 and a holding tank upper barge hull 591, And a connection tank at the upper and lower ends of the holding tank. A block tank formed at each of the barges has a hull disassembly-type portable lug 607, and a lug connection shaft 606 and a lug connection shaft coupling bolt and a thread- A common water surface embedding process is provided to achieve disassembly of the marine steelworks comprising the portable lug pin connecting shaft 606 and the portable lug pins 608,

The processing hole 615 and the elongated hole 616 constituting the portable lug 607 function in the form of a horizontal vertical building structure and the portable lug pin connecting shaft 606 and the portable lug pins 608 In the marine steelworks facility,

And the bottom of the center of each of the vertical holding tanks 590 on the outer circumferential surface of the inner side of the center of the inner side of the holding tank 590, Drilling rigs are provided with a core drill 917 constituting several pipe racks 854 formed on the undersurface ground GLD and the anchor replacement worm crank 846 is connected to the hydraulic cylinder 620. [ (970) connected to the barge at the upper end of the pillar portion of each of the pillar holding tanks with connection to the hydraulic cylinder quick-setting bed (623)

Each of the anchor replacement worm cranks 846 connected to the construction machine 970 pushes the worm crank 846 by operating the hydraulic cylinder 620 in the core drill drilling hole and the worm crank 846 pushes the worm- And is inserted and fixed in the ground by fixing the lower end of each strut tank to prevent the barge ship from drifting, and the anchor replacement worm crank (593, 594, 595) of small, medium and large sized marine steelworks (846) constitute the seagoing seabed at the ocean floor, and the ocean is composed of small, medium and large oceanic steelworks, Tunnel transport equipment to provide a connection to a marine nuclear power plant equipped with boiling water reactor facilities for nuclear waste disposal,

      A mooring device for securing safety constituted by the interior of the main body 1 of the marine steelworks is provided in a shared marine landfill 944 and a shared water surface landfill 945 to be installed inside a marine steelworks main body 1 having a reactor facility for nuclear waste treatment (928), double structure block tank bridge bridge (929) and dual structure block tank bridge bridge (937) of floating marine small and medium sized marine steelworks (593,594,595) Nuclear waste treatment dual structure block tank Nuclear waste treatment facility with dual structure block tank dust collector having a plurality of distribution shafts provided with a connection structure capable of disassembly connection of connection shafts connected to marine tunnel traffic devices 941 To the mining collection facility 811 constituting the inside of the main body 1 of the marine steel mill so as to make the nuclear power plant operation of the marine nuclear hydroelectric power plant equipped with the nuclear waste hydro- (811a) of the construction machinery and the hydroelectric power production control unit (811b) of the marine hydro-nuclear power generation plant to provide power production, and the power of the submarine transverse railway substation The ship control section 811f corresponding to the storm surge and the waves, the transmission control section 811c, the harmful bellows blocking preventive control section 811d excluding the weather condition restriction by the disaster prevention device, the lifesaving structure and the sink prevention vessel control section 811e, A submarine resource transport unit 811g connected to the marine tunnel transportation device 941 and an electronic sensor valve screw control unit 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616 An apparatus for manufacturing a marine steelworks and a metal furnace for marine capital goods to lift the metal;

As shown in FIG.

Preferably, the lifting plant of the small-scale, medium-sized and large-scale offshore steelworks constructed to control the marine steelworks facility composed of the inside of the main body (1) of the marine steelworks (593,594,595) A band guide 621 provided with a hydraulic cylinder key 623 and a hydraulic rotary cylinder 620 equipped with a marine ironworks facility adjustment process composed of a hull position adjusting device by a hull and a wrench and a wrench are provided, A discharge pump for providing a bolting connection assembly and an air compressor (80)

(593,594,595) of small, medium and large sized marine steelworks in the ocean that make up the air pressure regulator and water pressure regulator inside the block tanks are equipped with portable lugs located at each block tank connection 607 are provided with a hole for connecting the processing hole 615 and the pin linking shaft 606 for the portable lug coupling and the connection lug pin 604 is provided with the lug connection pin 603, (608) to provide a coupling in the machining hole at the end of the bolt thread stud,

The pin 608 is folded and the nut is fixedly coupled to form a submarine wiring in the double structure block tank line. The power is supplied to the land, and the pump and the air compressor before and after the occurrence of the harmful tide, (80), the air supply is provided by the flexible high-pressure hose (190) of the cross-shaped type over the sea surface and the seabed,

The disinfection water of the water pressure inside the pump piping line hose is constituted by a regulating device of the upward flow 925 and the downward flow 926 by arranging the water mountain range while discharging the discharge jet water and the radial curtain water film through the nozzle gap. As the global warming is prevented and global warming is prevented, it is necessary to prepare the transition of the people of the nuclear bomb-producing Party, which is equivalent to harmful red tide, to the reconciliation mood,

The information provided to the unmanned camera 184 is provided to the wireless device radar of the computer system 611 of the computer system connected with the information exchange communication means of the Internet network 50 that peacefully resolves international disputes, (593,594,595) double-structure block tank pipe pier (928) and double structure block tank pipe bridge (929) and double structure block tank pipe of a marine small-sized and large-scale marine steelworks built inside the main body A plurality of distribution shafts provided as connection structures capable of disassembling and coupling the connection shafts connected to the bridges 937 and the double structure block tank marine tunnel traffic apparatuses 941 and the operation of the marine steelworks having the dual structure block tanks, Structured as a structural block tank;

(593,594,595) of small, medium and large scale offshore steelworks which are composed of marine steel mill facilities to control the marine steelworks facilities composed of the inside of the marine steelworks main body (1) Friendly and environmentally friendly energy hydroelectric generators equipped with the control system of the marine ironworks facility which is composed of the position control system and the power supply to the uninjured global village while collecting the seabed mineral resources and collecting the manganese nodule (909) processing is provided,

Dual structure block tanks that control supply of iron ore, crude oil (841) and pollution-free natural gas (922) to countries around the world Marine trench transport system Internal train (771) equipment includes marine trading volume control system 1) Double structure block tank bridge pier (928), double structure block tank bridge bridge (929) and double structure block tank bridge (593,594,595) of marine small and medium and large scale offshore steelworks 937 and a double structure block tank marine tunnel communication device 941. The operation of the marine steelworks having the double structure block tank is described as a double structure block A tank;

In addition to establishing a maritime steelworks to resolve the territorial disputes in the territory of the world, the government has set up a facility to cooperate with the international social and economic development, (184) according to the achievement of the seabed resource reserves, and to provide a display on the conversion monitor (52) after confirming the winner to the countries and individuals who have acquired the score through the unmanned camera (184) (146) and a skewer (147) wing while equipped with a pirate wreck removal device that emits in a specific area of the sea, ;

The fire-fighting materials and disaster prevention materials constituting the facilities of the marine steel mill are equipped with communication equipment of the Internet control system before and after the fire, a plurality of pumps, a pump electronic control device and a high-performance submersible pump 36, And an air compressor (80), an air storage tank, a wire rope, a plurality of frames, and a portable transport equipment. A small and medium sized marine vessel having a connection structure including a helicopter, (928), double structure block tank bridge (929), double structure block tank bridge (937) and double structure block tank connected to floating marine tunnel (593,594,595) A plurality of distribution shafts provided as connection structures capable of disassembling and coupling the connection shafts connected to the traffic devices 941, a marine steelworks having a double structure block tank To constitute a dual structure block tank;

In the fire fighting and disinfecting control device constituting the flushing control process of the marine steelworks facility, when the fire constituting the fire fighting and disaster control device is changed to liquid, the nozzle of the pipeline has a radiation-like nozzle gap 15 and a straight gap 15, A plurality of radiation-type curtain water films 39 and a plurality of linear straight-curtain film films 39 are provided in the flushing water of the nozzle gap 15 pipe nozzle, and a gas of death (163) And the horizontal and vertical curtain tanks that are provided with no obstacles to prevent the occurrence of the earthquake, and the pump and the valve connection structure of the electronic control device constituted to constitute the global village, Flood, drought, and landslide prevention together with disaster prevention Electronic disaster prevention system of electronic control pump composed of disaster prevention control device in the global village A double structure block tank pipe pier 928 connected to a floating ocean pond (593,594,595) of a small, medium, and large oceanic steelworks constructed in the main body (1) of a marine steelworks while providing energy power (685) A double structure block tank bridge bridge (929), a double structure block tank bridge bridge (937) and a double structure block tank marine tunnel traffic device (941);

A facility control unit 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 having a plurality of distribution axes inside the main body 1 of the marine steelworks, and a hydro- A power transmission control unit 811c of a submarine crossing railway substation for nuclear waste disposal to provide power transmission to the production control unit 811b and a harmful tidal stop prevention control unit 811d for eliminating the wake- A ship regulating section 811f corresponding to storm surges and waves, a submarine resource transport section 811g connected to the marine tunnel traffic apparatus 941, a hydraulic cylinder machine 624, And an electronic sensor valve screw adjusting part (811h) provided as a connection structure at a position of the freezing bed (616), including a method of manufacturing a marine steelworks, and having a furnace for metal processing for marine capital materials to lift the metal;

As shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

62, a facility adjustment unit 811a of a floating pick-up hood position shifting construction machine included in a mineral pick-up facility 811 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention includes A method of manufacturing a marine steelworks for providing a marine steelworks in a marine hydro-nuclear power generation control unit 811b for providing power production showing the construction of the double-pipe structure block piping line control shaft 238, (1) Inside the marine steelworks (1) showing the construction of the hydroelectric power plant construction machinery to control the position of the hull of the marine ironworks (593,594,595) of the small, medium and large scale marine steelworks constructed at the upper part (SDU) (593,594,595) Shipbuilding location control equipment for construction machinery (811a) Construction equipment location control for moving equipment Space development showing the composition of the temple And a satellite control unit for preventing radioactive contamination of the hull. The control unit (811a) of the hull structure moving construction machine is connected to the satellite control unit. 592 to the secondary structure block tank 598 central supporting tanks and the auxiliary supporting coupling detachable portable lug coupling pin connection shaft 606 and the portable lug 607 at the same time, (811a) Hull position transfer Elementary floodgate showing the control of the construction machinery. (8) The pipe bridge (928), which constitutes the enlargement of the main part of the marine steelworks, , A dual structure holding tank and a floating tank to explain the entire construction method of the marine steelworks flood control consortium consisting of the bridge bridge (937) and the inside of the marine tunnel traffic device (941) This is a marine steel mill that shows the structure of the marine ironworks floating structure that shows the total structure showing the combined structure. A method of manufacturing a marine steelworks assembling a flood control hood,

62, the facility control unit 811a of the floating pick-up hood position moving construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks is provided with The marine hydro-nuclear power generation control unit 811b, which shows the construction of the double-pipe structure block piping line control shaft 238 and provides power production, is connected to a floating pick- The distribution shaft constituting the marine steelworks facility constituted by the facility control section 811a to the hydraulic cylinder machine 624 and the electronic sensor valve screw control section 811h provided as a connection structure of the position of the key bed 616, The boiler water reactor system of the nuclear hydroelectric power plant with the hull position moving construction equipment is provided with the input into the double structure block tank dust collector,

A dual structure block tank for nuclear waste disposal A nuclear hydroelectric plant constituting a dust collector is equipped with a boiling water reactor facility for treating nuclear waste and is equipped with a floating collection console included in a mineral collection facility (811) Hull Positioning The equipment control section (811a) of the construction machinery controls the position of the hull structure of the marine small and medium sized and large scale marine ironworks (593,594,595) at the upper part of the dock hull deck A portable lug 607 and a portable lug pin 608. The vertical partition wall 605 for disassembling and assembling the small-sized and medium-sized and large-sized oceanic marine lifting platform 593, 594, A large flange connection joint joint portion processing hole 615 and a construction machine connection structure,

(593,594,595) of small, medium and large scale oceanic steel mills (593,594,595) constituting the nuclear hydroelectric plant are installed in a hydraulic rotary cylinder of a rack and pinion type (NRP), which is a rotary cylinder constituting a floating kitchen 620 and a butterfly valve 622 for controlling the buoyancy of the band guide 621 and a hydraulic cylinder door 624 for a hydraulic cylinder and a hydraulic cylinder 623, 605, a portable lug coupling pin connection shaft 606, a portable lug 607, a portable lug fin 608 and a large flange connection joint joint hole processing hole 615, Respectively,

(593,594,595) Double structural block tank (598) Double structural block tank pipe bridge (928) and nuclear waste treatment dual structural block tank (598) Small- and medium-sized and large oceanic marine iron- A double structure of a plurality of distribution shafts provided as connection structures capable of disassembling coupling shafts connected to the pipe bridge 929, the double structure block tank pipe bridge 937, and the nuclear waste disposal double structure block tank marine tunnel transportation equipment 941 A structure block tank and a nuclear plant hydroelectric power plant having a boiling water reactor plant for treating nuclear waste is installed in a mineral collecting facility 811 to be a dual structure block tank dust collector for nuclear waste disposal, A facility adjustment unit 811a of the construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

63, a facility control unit 811a of a floating pick-up hood position moving construction machine included in a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention includes a nuclear power plant A method for manufacturing a marine steelworks having a marine steelworks in a marine nuclear hydroelectric power production control unit 811b for providing power production showing the construction of a double pipe structure block pipe line control shaft 238 of a nuclear waste treatment (593,594,595) of small, medium and large sized marine steelworks constructed at the upper part of the deck (SDU) of the hull deck to show the structure of the marine steelworks. (593,594,595) Small-sized, medium-sized, and large-scale marine steelworks floating inside the main body (1) A boom 882a and a diesel pile hammer 883 to a pile driver 876 and a pile driver 882 on an asphalt finisher 871 and an asphalt spreader 872 on a hearth safety device 864 showing a construction machine position adjustment structure Manufacturing method of marine steel mill of steel mill construction machinery connection structure Straight configuration Road,

As shown in FIG. 63, the equipment control unit 811a of the floating pick-up hood position moving construction machine included in the mineral collection equipment unit 811 is provided with a double pipe structure block pipe line control shaft 238 ) In the hydro-power generation control unit 811b of the hydro-hydro-nuclear power generation plant. A nuclear power plant with a double structure block tank dust collector is provided with a power generation unit for the hydro-hydro power production control unit 811b constituting the power production of the double pipe structure block piping line control shaft 238 for the nuclear waste treatment of the ocean steelworks, An elemental marine steelwork dock that constitutes the nuclear power plant operation of a nuclear hydroelectric plant with a boiling water reactor facility for waste water treatment. A small, medium, and large marine steelworks floating on the upper deck (SDU) (593, 594, 595) of the hull,

(593,594,595), which consists of a small, medium and large scale marine steel construction ship, which consists of a construction machine in the ocean, and a dual structural block tank dust collector in the marine nuclear power plant, The facility control unit 811a of the floating pick-up hull position shifting construction machine included in the mineral collection equipment unit 811 includes a nuclear waste processing marine tunnel transportation control unit 238, which is a double pipe structure block pipe line control shaft 238, And a dual structural block tank dust collector for distributing both sides of the distribution shaft constituting the inside of the main body 1 of the marine steel mill with the apparatus 941 and the dual structure block tank dust collectors and is equipped with boiling water reactor equipment of nuclear waste disposal, The hydroelectric plant is provided with a donor for insertion into the dual structure block tank dust collector,

(593,594,595) of nuclear power plants of small, medium and large sized oceanic hydroelectric power plants with boiling water reactor facilities equipped with dual structure block tank dust collectors,

(811a) of a floating pick-up hood position shifting construction machine included in a mineral picking equipment unit (811) constituting the inside of a main body (1) of a marine steel mill, The asphalt finisher 871, the asphalt spreader 872 and the perforator 876, which constitute the position control of the construction machine of the hull locomotion control of the medium and large scale marine steelwork lifting consoles 593 and 594,595, A file driver 882, an asphalt mixing plant 870 consisting of a boom 882a and a diesel hammer 883 construction machine connection structure,

Asphalt Mixing Plant (870) An aggregate feeder consisting of a facility, a dry heating device and a mixer asphalt feeder, and the movable type having a prime mover is not only used for road pavement but also for asphalt The apparatus is a device for manufacturing mixed materials and its equipment. The exhaust dust collector is a device that constitutes the centrifugal separation using water vapor, dust, combustion gas or dust generated from the vibration screen generated in the dryer drum. The standard mark is asphalt mixed material (ascon) Of production per hour (ton / hr).

The equipment of the concrete spreader (867) constituted by the construction machine is a packing machine for uniformly laying the raw concrete sprayed on the packed bedrock. The application is to convey the concrete from truck mixer or dump truck while laying in front of the concrete finisher, The size of the asphalt pavement machine is classified as screw type and box type. The type of the asphalt pavement machine is classified into the asphalt mixing plant 870), an asphalt finisher (871), an asphalt spreader (872), an asphalt cover and an asphalt spray while separating the mining equipment (811) The facility control section (811a) constitutes the upper part of the ship's deck (SDU) (593, 594, 595), and the construction machinery of the hull locomotion control.

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 semi-automatic type. Usage is asphalt heating in combination with aggregate drying and asphalt. Hopper and aggregate drying device, exhaust dust collector and hot elevator, vibration screen, mixer and weighing devices in asphalt cake.

As shown in FIG. 63, the asphalt finisher 871 equipment constructed inside the main body 1 of the marine steelworks is equipped with a sorting and sizing device. The gravel sand is boiled in an asphalt mixing plant at an angle of 160 ° or more, It is used for spreading asphalt on asphalt pavement of airfield runway and highway, and it is used for chopping and sizing. The standard marking is indicated with maximum packing width (m) and packing capacity (ton / hr) The screed constituting the mechanism of the dump truck 871 is a plate for smoothing the mixed material sprayed on the road surface and the living hopper constituted by the construction machine is provided with a hopper of 5 tons or more on the front side of the equipment, (Asphalt), and the feeder composed of the construction machine is installed on the bottom of the hopper, The one that will send ruro bumper is the one to lay the pavement with a thickness that is installed on the front of the screed needs a honhapjae sprayed on the road surface.

Asphalt spreader (872) equipment consisting of construction machinery is equipment that boils the asphalt and sprays it on the road surface first. In other words, it is a sprayer that blows asphalt on the road surface. The type is self-propelled, gear pump type, solution pressurized type and mounted type, and the specification mark is expressed by maximum spraying width (m) and tank capacity (m ³ ).

The asphalt cover is a construction equipment that continuously cuts the asphalt mixture material for the highway. The asphalt spray is the equipment to heat and dissolve the asphalt, asphalt emulsion and tar by the oil burner and pressurize the road surface. It is the equipment to perform various work, add the binder and water, and to adjust the surface and tighten. The standard display is indicated by the capacity (m ³ ) of the fluid tank. It is characterized by good working efficiency, good maneuverability, It was good and easy to adjust the depth of digging the ground.

The diesel pile hammers (883), which are classified as hogging and anti-launching machines (877), which consist of basic construction equipment and construction machinery, are equipped with explosive power of 2 cycle diesel engine, This means that the injection device when the ram is raised and dropped by the starter acts, and when the ram is injected into the concave surface of the anvil and the ram hits the anvil, the explosive force and the explosion force The striking force of the ram is transmitted to the pile, and the ram is repelled by the repulsive force. At this time, the exhausting and sucking action is performed, and the falling, hitting and explosion are repeated again.

Its structure consists of a ram that moves up and down the cylinder in the cylinder, an anvil inserted in the lower part of the cylinder, and a fuel pump and a fuel injector as starting devices, and the cylinder cooling water tank devices.

As shown in Fig. 63, the construction machine constituted inside the marine steelworks main body 1 has a structure,

A starter 903 is attached to a lead 896 on the left side of the diesel pile hammer 883 constructed by a construction machine and a ram 895 is fixed to a lower portion of the cylinder 126 at a right upper portion of the starter 903, A fuel pump 900 and a heel 899 are formed below the cam 901 in the fuel tank 902 and the fuel pump 900 and a pile 899 is attached to the bottom of the heel 899 The file operation proceeds.

Its standard marking is indicated by the weight of the ram (t o n), which is used to stamp wood, concrete and steel pipe files and its characteristics are shown in the table below

A column hammer (= column file hammer) is a machine that sends steam or compressed air into a cylinder and continuously repeats upward and downward movement of the piston to put the column with the ram at the bottom of the piston rod. In the type of column hammer composed of the construction machine, Steam Hammer is a machine that drives the pistons by using the expansion energy of steam. The specification mark is expressed by the weight of the piston (ton), which is characterized by its complicated structure, difficult maintenance and maintenance, and high maintenance cost It is used to put piles in hard and densely hard soil. It is guided to leads and 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 display is expressed by the output (kW) of the motor and the excitation force, and the drop hammer is represented by a metal block It was suitable to drop the equipment cost and operation cost in the case of the same conditions in a small amount of construction in the remote place among the basic use machines,

The advantages and disadvantages of the construction equipment of this construction machine are as follows.

The first advantage was that the operation of the hammer was simple and the equipment was small in size, so the cost was low, and the adjustment of the drop height made it possible to increase the striking energy.

Second, the disadvantage was that the piling of files was slow and there was a danger of damaging the files, and it was easy to damage the surrounding buildings due to vibration during work and it was impossible to work underwater.

As shown in Fig. 63, the construction machine constituted inside the marine steelworks main body 1 has a structure,

The wire rope 19 and the striker 135 on the adapter 906 and the front boom 904 are formed on the crane boom 651 on the lead 896 of the pile driver 882 body, (905) was attached.

The file driver 882 comprising the construction machine mounts on the upper deck deck of the barge hull 591 and fixes the equipment to the deck deck working position to prepare the file 898 work.

As shown in FIG. 63, a construction machine constructed inside the marine steelworks main body 1 is a diesel hammer constructed by a construction machine. The steam hammer and the drop hammer are collectively referred to as a drop hammer. The diesel hammer is used and the work equipment is installed on the crane boom.

As shown in Fig. 63, in the distribution and input device construction machine constituted by the inside of the marine steelworks main body 1, the pile 898 constituted by the construction machine is fixed to the lower base post portion of the deep sea floor, The car pile 898 is attached to the saddle form frame 617 so that the concrete pier can be easily installed on the upper floor of the seabed.

As shown in FIG. 63, in the construction machine constituted by the interior of the marine steelworks main body 1, the air compressor 875 constituted by the construction machine sucks and compresses air in the air to make compressed air, Which is used for various purposes in various construction works. It is composed of driving device, compression device and other accessories.

Here, the drive device is a gasoline or diesel engine that supplies the power for operating the compressor. In addition, the volume construction type compressors were mainly used for construction,

For this purpose, the quarrying work was to drill and split the rock using a rock drill, and the clay excavation work was to excavate the hard rock on the hard clay, The job is to break concrete, asphalt with brake.

As shown in Fig. 63, the construction machine constituted inside the marine steelworks main body 1 has a structure,

Painting in concrete vibration and logging operations, tire inflation and equipment cleaning, and construction air compressors are large.

As shown in Fig. 63, the construction machine constituted inside the marine steelworks main body 1 has a structure,

Compressors in this category are classified into reciprocating piston type rotary compressors and rotor type compressors by screw type compressors and centrifugal type turbo type compressors. And the portable system can be used while simply moving the compressor.

As shown in FIG. 63, the construction machine constructed inside the main body 1 of the marine steel mill is indicated by the air discharge amount (m ³ / min) per minute for the air cleaner low pressure cylinder intermediate cooler high pressure cylinder air tank, 210 cfm is the output of 210 cubic feet of compressed air per minute (ft ³ / min). The components of the air compressor consist of a piston, a cylinder, and a pressure regulating valve on the intake and exhaust valves.

As shown in Fig. 63, the construction machine constituted inside the marine steelworks main body 1 has a structure,

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

As shown in Fig. 63, the construction machine constituted inside the marine steelworks main body 1 has a structure,

A detailed description of the puncturer 876 equivalent to a rock drill is described as follows.

The perforator 876 constituted by the construction machine is a machine for punching a rock or a ground, and is operated by an air compressor or hydraulic pressure. The impact type is excavated by the impact energy of the blade, and the excavation speed is fast but its depth is low .

Mostly compressed air is used, and this shocked rod is operated by this compressed air, and the rock is crushed by the impact force. The structure is simple, easy to handle, and compressed air is easy to use, And the excavation speed is slow or deep.

In the standard specification, the big roller type shows the weight of the rock drill and the air consumption per minute (m ³ / min), and the jumbo type of crusher is expressed by the number of roll rolls and the number of rock drums (end) k W) and the tunnel excavator is indicated by the maximum excavation dimension (mm).

As shown in Fig. 63, the construction machine constituted inside the marine steelworks main body 1 has a structure,

In its kind, sinker is the latest type of rock drill with soundproofing, suitable for hole drilling in rock, various swing cuts, and semi-downward operation of the tunnel. That is, it is a small machine that can be operated by manpower and 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, and the drifter constituted by the construction machine is a powerful perforator, It is suitable for drilling large holes in drilling, quarrying, and dam excavation. It can be drilled by drilling a bit with appropriate pressure by manual or automatic conveying device,

In a feed device composed of a construction machine,

It is a chain type and a screw type, and the stopper is a machine that punches from the horizontal to the sky and is suitable for cutting vertical gang up.

Brakes, which are composed of construction machinery, are used for crushing concrete roads, building materials, and strong foundation breaks. They have strong crushing power with low consumption of air, and they are mainly used by attaching them to hydraulic backhoe excavators.

A rock cracker made up of a construction machine is a device that crushes rock and concrete with hydraulic pressure in places where gunpowder can not be used.

As such, the hand hammer is effective for narrowing and secondary crushing operations, and is easy to use because it is soundproofed. It is also called a jack hammer. It is a small type of rock drill that is movable and maneuverable by manpower. It is mainly used to drill holes downward.

Construction of the drill drill consists of drilling drill, crawler drill, wagon drill and pick hammer. It is equipped with mineral picking equipment (811) inside the main body (1) of the marine steel mill. The equipment control section (811a) of the machine controls the construction machine position control structure of the hull locomotion control of the small and medium and large oceanic marine ironwork levitation stand (593,594,595) constituting the deck upper part (SDU) A boom 882a and a diesel pile hammer 883 in the pile driver 872 and the pile driver 882 in the asphalt spreader 872 and the construction machine connecting structure in the asphalt finishing machine 864, A facility control unit 811a of a floating picket hood position shifting construction machine included in a mineral collection facility 811 including a dust collector and a boiling water reactor facility for treating nuclear waste, and constituting the interior of the main body 1 of the marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

64, a facility adjustment unit 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 constituted inside the main body 1 of a marine steelworking plant according to an embodiment of the present invention, The marine nuclear hydroelectric power production control unit 811b that provides the power production showing the construction of the dual pipe structure block piping line control shaft 238 is a constituent of the marine steelworks, (1) Inside the marine steelworks (1) showing the construction of the hydroelectric power plant construction machinery to control the position of the hull of the marine ironworks (593,594,595) of the small, medium and large scale marine steelworks constructed at the upper part (SDU) (593,594,595) Shipbuilding location control equipment for construction machinery (811a) Construction equipment location control for moving equipment Showing the configuration Marine Works Construction machinery crusher (874) A method for producing marine steel mill in perspective of the connection structure configured Road,

As shown in FIG. 64, the facility control unit 811a of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 inside the main body 1 of the marine steelworks is provided with In the marine nuclear hydro-hydroelectric power production control unit 811b that provides the power production constituting the double-pipe structure block piping line regulation shaft 238,

The mining collection facility 811 including the construction machine of the hull locomotion control of the small scale, the medium and large scale marine steelworks pile picker (593,594,595) constituting the construction machine in the ocean, and the inside of the main body (1) (811a) of the construction machinery, the nuclear waste disposal, the marine tunnel, and the main body (1) of the marine steel mill. The two sides of the distribution shaft are distributed, and the nuclear reactor hydroelectric power plant reactor facility equipped with the nuclear waste disposal boiler water reactor facility is inserted into the dual structure block tank dust collector,

Nuclear waste treatment A floating control unit (811a) of the floating construction hull position moving construction machine included in the mineral collection facility (811) constituting the inside of the main body (1) of the marine steelworks equipped with boiling water reactor facilities, A construction machine crusher 874 of a marine small-sized and medium-sized and large-scale offshore steelworks floating cargo stand 593, 594, 595 constituting the SDU, and a crusher 874 constituting a connecting structure,

As shown in Fig. 64, a feeder hopper 874c and a vibrating grease repeater 874d are connected to a gyration crusher 874a and a chassis frame 874b constituting a construction machine crusher 874, And a crusher 874 as a connection structure of a vibration screen 874g and a drum elevator 874h in a second jaw crusher 874f located at the rear of the shredding chamber to form an aggregate layer 874e in road and concrete construction, Used for compaction.

It is used for crushing and grinding. It is used mainly for the production of aggregate. It is going to go through the process of screening the mining ore for mining of underwater.

Thus, the types of crushers are separated into primary, secondary, and tertiary crushers. Explanations of the respective parts of the primary crusher will be described as follows.

Jaw crusher composed of construction machine is a machine that is crushed by compressive force. When rocks are inserted between Jaws on both sides, they are fixed and one side is fixed and the other side is operated to crush the price pressure The stone is pulled down by the gravitational force and pushing force.

The construction (J a w) composed of such a construction machine is made with a structure that can crush any hard rock pomegranate with strong force.

As shown in Fig. 64, the construction machine included in the mineral collection facility 811 is constituted of a construction machine. The gyretor crusher is made of cast iron or steel, and is composed of a frame lower eccentric shaft and a drive gear. There is a crushing chamber of a cone shape.

The crusher is a crusher which has a hard crushing head on the vertical crushing shaft and is first crushed while rotating and then discharged to the bottom crushing chamber.

Construction machine crusher has less vibration than continuous jaw crusher and has the advantage of continuous crushing. It has the upper part of the machine as the discharge port and the lower part as the discharge port, so that the grit input hopper is installed, There is an advantage that it can be loaded as it is.

The hammer crusher of the impact crusher is provided with a large number of discs on one rotating shaft, and when a rectangular hammer is hung around the hinges to rapidly rotate the hammer crusher, the stones are struck to be crushed by the striking force at this time will be.

The concrete crusher of the second crusher constructed by the construction machine is constructed by putting an umbrella-shaped con- mantle head on a short vertical spindle, striking between the concave balls installed in the frame by eccentric motion of the frame, and then crushing the under- do.

This structure is somewhat complicated because it is crushed by the impact action, and there is almost no slip (S l i p) in which the crushed stone flows down as it is, and the crushing ratio is relatively large. Impact force and compressive force are used.

Compared to the Zaireetori crusher, it has the advantage that the cone is short, the dimension of the supply port is small, and the outlet gap size is the largest size of the crushed stones.

The hammer mill crusher's double-roll crusher has two light-hardening rolls fixed on separate horizontal shafts, and the gap 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.

The rod mill of the third crusher 874 constituting the construction machine was to produce fine aggregate of 5 mm or less and the ball mill constituted by the construction machine was used for producing rod mill and ball mill as aggregate of crushed stone As a machine, a rod of a short round rod is inserted into a forced round drum, fine aggregate is continuously supplied with the water, and the drum is rotated, pulverized and then discharged, and relatively uniform particle size is obtained. If it is small, it is crushed finely. If there is a lot of water, roughness of grain size is large. Wheat with water is wet, and dry without water is generally wet.

A ball mill composed of a construction machine is different from a rod mill in that a steel ball is rotated in a cylinder instead of a rod to obtain a new aggregate.

Its standard specification is to display the crushing capacity per hour in tonnes [TPH (tonper hour)]].

As described above, a crusher is used as a machine for crushing and reducing crushed stones, and is used for all crushing operations. It is mainly used for aggregate production. The power source 46 of the engine generator 226 serves as a marine tunnel transport device 941 The construction control unit 811a of the floating pick-up hood position shifting construction machine included in the mineral picking equipment unit 811 constituting the interior of the main body 1 of the marine steelworks is provided with a plurality of construction machine connection structures to be used temporarily, ) To the seaweed mineral intake machine 911 and the submarine mineral collection robot 912 to the submarine mineral deposit net 910 and the drilling machine 908 for crude oil when connected to the upper part SDU of the marine steelworks dock hull deck ) And rubber balloon (914) with wire rope chain (915) and double structural pipeline line automatic pneumatic valve transport device (916) and core drill (917) submarine mineral manganese nodule (909) Come on and cracking consists of making small machines,

The rod mill of the crusher 874 constituted by the construction machine is a machine for crushing and reducing crushed stone contained in the mineral collection facility 811 constituting the inside of the main body 1 of the marine steelworks, And is configured to be used for a limited period of time before completion of the marine tunnel traffic apparatus 941, which is used for crushing operation and is mainly composed of the power sources 46 of the engine generator 226 used for aggregate production,

(811a) of a floating pick-up hood position shifting construction machine included in a mining collection facility (811) having a plurality of construction machine connection structures and constituting the interior of a main body (1) of a marine steelworks, SDU in the periscope 913 and the rubber balloon 914 to the submarine mineral intake collecting machine 911 and the seabed mineral collection robot 912 to the crude oil drilling machine 908 and the undersea mining trough net 910 connected to the SDU (915) and double structural pipeline automatic pneumatic valve transport device (916) and core drill (917) Submarine mineral manganese nodule (909) collected by construction machinery connection structures. Crushing machine ) Rod mill constitutes the production of fine aggregate of 5 mm or less,

The ball mill is a machine for producing the rock mill and the ball mill as aggregate of crushed stone as a new aggregate crush stone, and is installed in the mining collection facility 811 inside the main body 1 of the marine steel mill, A machine facility adjustment unit 811a; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

65, a facility control unit 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 constituting the interior of a marine steelworks main body 1 according to an embodiment of the present invention includes a The dual steel pipe block piping line control shaft 238 is shown in the drawing and the marine steelworks power production control unit 811b for producing the power production includes an elemental marine steelworks dock hull deck upper part (593, 594, 595) of small, medium, and large sized marine steelworks (SDU) to construct a hydroelectric power plant to control displacement of the hull. (593,594,595) Shipbuilding location control equipment of construction machinery (811a) Marine steelworks showing control structure of moving machinery Cylinder 126 and the plunger pump 148 of the screw shaft type plunger pump (148b) and the radial plunger pump (148c) The method of marine steel mill for a construction machine connection structure configured perspective road,

As shown in FIG. 65, in the facility control section 811a of the floating pick-up hood position shifting construction machine included in the mineral collection facility section 811 constituting the inside of the main body 1 of the marine steelworks.

At the marine nuclear hydroelectric power production control section (811b) constituting the control shaft (238) of the double pipe structure block pipe line of the marine steelworks facility, the nuclear waste water treatment boiler water reactor facility of the marine nuclear hydroelectric power plant having the double structure block tank dust collector In the marine nuclear hydro-hydroelectric power production control unit 811b constituting the double-pipe structure block piping line regulation shaft 238,

(593, 594,595) of small, medium and large sized marine steel decks (593, 594,595) on the deck upper part (SDU) of elemental marine steelworks making up the equipment of the reactor facility for nuclear waste disposal. An elementary marine steelwork dock that constitutes a boiling water reactor facility for nuclear waste disposal to control the position of a construction machine. The hull position of a small, medium and large scale marine steelwork lifting plant (593, 594, 595) Transport control and Nuclear Hydroelectric Power Plant Nuclear waste treatment that constitutes control of construction machinery location Elementary marine steelwork dock that constitutes boiling water reactor facility Small-sized, medium-sized, and large-scale marine steelworks floodplain (593,594,595 ) To control the position of the ship's hull and to control the position of the construction machinery of the nuclear hydroelectric power plant Nuclear waste treatment Boiling water reactor equipment Marine and ruthless including nuclear hydroelectric power plants,

As shown in FIG. 65, a hull position shift of a small, medium, and large scale marine steelwork lifting plant (593,594,595) constituting a marine steelworks facility of a small-sized, medium-sized and large- (811a) of the marine steelworks main body (1) having the reactor facility of the marine nuclear hydroelectric power plant of the controlled marine nuclear power plant, A boiling water reactor for the treatment of nuclear waste having a double structure block tank dust collector by distributing both sides of the distribution shaft constituting the inside of the main body (1) of the marine steel mill with the nuclear waste disposal marine tunnel transportation device (941) It is equipped with facilities to insert the nuclear reactor hydro-electric power plant nuclear reactor facility into the dual structure block tank dust collector, to control the hull position movement and to construct the nuclear hydroelectric power plant Provided to step, and

(593,594,595) of small, medium and large scale marine steelworks which constitute the construction machinery of the hull position movement control and nuclear hydroelectric power plant, are constructed inside the cylinder (126) used as the construction vehicle or the conveying machine The shaft bar

A high pressure pump in front of the cylinder 126 constituting each seal 156, a crank 248 connected to the high pressure hose 190, the coupling 29 and valve devices, The facility control unit 811a of the floating pick-up hood position shifting construction machine included in the mineral picking equipment unit 811 constituting the inside of the main body 1 of the marine steelworks while being assembled with the link stand 249 used as a connecting device, It constitutes the position control with the construction machine of the hull position movement control of the marine small, medium and large scale marine steel lifting stand (593,594,595) constituting the upper part of the hull deck (SDU)

The cylinder and the piston constituting the hydraulic cylinder 623 body, which includes the construction machine connecting structure of the disassembly coupling of the previous cylinder 126 as the heavy construction machines,

The load ring piston 822 constituting the hydraulic cylinder 623 and the slide ring 826 and the di bushing 827 to the bush seal 824 and the wed ring 825 to the piston seal 823 To the back seal 830 in the O-ring 828 and the load seal 829 and to the multistage seal 832 in the load seal & back seal 831 and the multistage seal 832 in the pin seal 832. [ 834 and a bushing 835 are provided with a rubber ring made of a piston ring 836 and a piston ring 837 so as to surround the piston 127 and the inside of the cylinder 126. The high pressure valve of the hydraulic pump and the low pressure valve And hydraulic hoses to provide a water storage tank for nuclear waste disposal and marine tunnel transportation equipment as a construction equipment for a marine hydroelectric dam facility, and a double structure block tank dust collector And the hydraulic cylinder 623 constituting the inside of the main body 1 of the marine steel mill is provided with a boiling water reactor Castle and

The cylinder body is provided with a pressure pipe 14, a reed 35, an elbow elbow 44 and a flange 28, which are parts of a connecting device, 474 and the hydraulic hose 190 while the coupling 29 constitutes a male and female threaded engagement,

Moving the hull of the marine earthenware hull, which is included in the mineral collection facility (811) inside the main body (1) of the marine steelworks. Moving the hull of the control unit (811a) of the construction equipment. Controlling the nuclear power plant facilities. A boiling water reactor apparatus for treating nuclear waste having a dual structure block tank dust collector constituted by a main body 1 of a marine steelworks having a reactor 941 and a nuclear waste treatment boiling water reactor equipped with a dual structure block tank dust collector, The marine ironworks facility is allocated to the inside of the double structure block tank dust collector by the construction vehicle or the transportation machine,

(593,594,595) of small, medium and large scale marine steelworks (593,594,595) that make up a construction vehicle or a conveying machine furnace, There are

A high pressure pump in front of the cylinder 126 constituting each seal 156, a crank 248 connected to the high pressure hose 190, the coupling 29 and valve devices, (811), which is provided with a construction vehicle or a conveying machine while being assembled with a link stand (249) used as a connecting device, and is constructed inside the main body (1) of the marine steelworks. (811a) constitutes the control of the position of the construction machinery in the small-sized, medium-sized, and large-scale marine steelwork lifting consoles (593,594,595) of the ocean at the upper part of the deck of the ship's dock,

As shown in FIG. 65, in a hydraulic construction machine constituted by the interior of the marine steelworks main body 1,

With respect to the definition of hydraulic pressure, the hydraulic pressure is the mechanical energy that is converted into the pressure energy of the fluid by the hydraulic pump using the power and stored in the hydraulic oil. The pressure is controlled by the control valve, the flow rate The advantage of hydraulic pressure, which means an apparatus or a system for converting three basic control elements of switching (directional control) into mechanical energy again through a hydraulic cylinder or an actuator of a hydraulic motor according to purposes, (Force, direction, speed) and controllability and excellent heat dissipation due to precise position control and start-up under a large load condition, precise movement independent of the load, and quiet operation and reversal Can be detected.

The disadvantage of this hydraulic pressure is that it is susceptible to contamination of the surrounding environment by the waste oil and constitutes the hydraulic device with low efficiency due to the danger due to the use of high pressure and the change of the working condition according to the temperature change.

The hydraulic system constituting the hydraulic device may be first divided into a power supply and control and an output portion, and the power supply portion supplies a flow rate to the system,

The most important components of the hydraulic system are a prime mover and pumps, which provide the mechanical power necessary to drive the pump. In industrial systems, the prime mover is usually used by an electric motor. In the case of the same vehicle, the prime mover is an engine of the automobile, and the pump obtains mechanical power from the prime mover and converts it into a flow of fluid with pressure.

The hydraulic system constituting the hydraulic device may be first divided into power supply and control and output parts, and the power supply part supplies the flow rate to the system. The prime part, which is provided with prime movers and pumps, In the case of a vehicle such as an excavator or an agricultural machine, a prime mover is an engine of an automobile, and a pump obtains a mechanical power from a prime mover, Into the flow of the fluid with.

The output device of the hydraulic system includes an actuator (actuator) and a load, and the actuator serves to move the load by converting the power of the fluid into mechanical power, while the actuator is a cylinder (linear actuator) And a hydraulic system output device for the case of a hydraulic motor (rotary actuator) that generates the hydraulic pressure.

The control unit is located in the middle of the hydraulic system, and the components include a directional control valve, a pressure control valve, and a flow control valve.

For example, the direction of motion of the actuator can be adjusted by directional control of fluid flow, such as when the cylinder advances or retracts.

As described above, controlling the pressure of the fluid is controlling the force of the output, while controlling the flow rate constitutes the control of the velocity of the actuator.

The pressure source consists of a tank for collecting the required amount of oil, a hydraulic pump for pumping the oil from the tank to the inside of the circuit, and safety valves for protecting the power source. However, Pump to gear and vane Piston pump to motor and tank Relay valve to Shut-of f Valve to heat-exchange thermometer Filter to suction line with pressure line While the control unit is configured as shown in the following table.

As shown in Fig. 65, there are constituted a pressure control valve for regulating the pressure of the oil, a direction switching valve for switching the flow direction of the oil and switching the operating direction of the actuator, and a flow control valve for adjusting the operating speed The pressure control valve is a counterbalance valve for the relief valve and the relief valve and the non-load valve for the sequential valve. The directional control valves are 2/2 and 3/2 to 4/2 and 4/3 to the 5/2-way valve And the flow control valve consists of the orifice and the operating speed control,

The configuration of the hydraulic device is explained as shown in the following table.

Included in the mineral collection facility (811) consisting of the inside of the main body (1) of the marine steel mill equipped with a marine steelworks facility to control the hull position movement of a small, medium and large scale marine steelworks floating cargo ship (593,594,595) (811a) Nuclear waste disposal, which is the control shaft of the hull locating facility, Nuclear waste water treatment reactor (941) with double structure block tank dust collector (1) of the offshore steelworks main body (1) having a dual structural block tank dust collector and a boiler water reactor for nuclear waste disposal equipped with a double structure block tank dust collector is installed in a double structure block tank The insertion into the dust collector is provided by a construction machine,

The marine ironworks facilities of the small, medium and large oceanic ironworks (593, 594, 595)

The actuating part is a rocking motion in the linear motion and the rotation motion and is described as the following table.

First, the cylinder of linear motion is linearly pressed or pulled.

Secondly, the motor of the rotary motion profits the heavy object with the wire.

Third, the swing motors of the swing motion rotate at a certain angle. Table 1-2 explains the operation of power and pressure oil in the hydraulic system as shown in the following table.

The units of mass and force and the pressure and power of the main physical quantity and the physical quantity of the unit are described in detail in the following table.

First, in the physical quantity, the physical quantity is a characteristic of the object, that is, a state or process that can be measured,

Speed (speed), pressure, time, temperature are physical quantities, color is not physical quantities, length is meter (m), mass is kilo gram (kg)

The time is standardized to Second (s), temperature is Kelvin (K) or Celsius (℃), and the main physical quantities in hydraulic pressure, ie, force, area, flow, volume, pressure and speed, have.

S I defines kg as a unit of mass.

Secondly, for mass, mass is generally used in terms of weight, and cubic steel with a weight of 1 kg on earth has a mass of 1 kg.

Third, in terms of force, mass describes the mass unit with its own properties, regardless of gravitational acceleration. The unit of force is determined in relation to gravitational acceleration (New to n, 1643-1729) Acceleration ( F = m ㅧ α ), force = kg ㅧ m / s ² This is simply called [N] and is defined as 1N = 1k g m m / s ² .

A pressure Fourth, the pressure is the "pressure to be applied to the unit area of the object, the force" is the unit to the far metric engineering units of [kg _f / cm ^2] or [kg _f / m ^2] has been mainly used in the future You will have to write SI units [N / m ² ], P a.

As described above, the facility adjustment portion 811a of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the inside of the main body 1 of the marine steelworks is configured in the SDU of the marine steelworks hull deck A conventional cylinder 126 showing a construction machine position adjustment structure of a marine small-sized and large-scale oceanic steel marine lifting feeder 593, 594, 595, and a four-axis plunger pump 148b of a plunger pump 148, Radial plunger pump (148c) Construction machinery connection structure Dual structure block tank Installed in the mining collection facility (811) with the dust collector inside the main body (1) of marine mill 811a); A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

66, a facility control unit 811a of a floating pick-up hood position shifting construction machine included in a mineral collection facility 811 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention includes a The marine nuclear hydroelectric power production control unit 811b that provides power production showing the configuration of the dual tubular building block pipeline control axis 238 includes an elemental marine steelworks dock (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants constructed at the upper part of the hull deck (SDU) (593,594,595) Shipbuilding location control equipment of construction machinery (811a) Movement control of construction machinery Location control Resolving territorial conflicts, showing the castle adjusting unit space development A portable lug 607 is attached to the vertical partition 605 for disassembling and assembling the pin assembly shaft 606 for connection to the portable lug 603, And a large lug pin (608) to the large-sized flange connection connection joint hole machining hole (615) Construction method of the marine steel mill Construction of a small-sized, medium-sized and large-scale marine steel deck upper part (SDU) (126) and the piston motor (885a) of the hydraulic crane (885) Construction of the marine steelworks of the construction machinery connection structure of the marine steelworks of the steel mills (593,594,595) ,

As shown in Fig. 66, in the facility control section 811a of the floating picket hood position shifting construction machine included in the mineral collection facility section 811,

This shows the structure of the double pipe structure block pipe line control shaft 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, and the nuclear water nuclear power generation control unit 811b for preparing the power production is provided with the double structure block tank collector The hydro-nuclear power generation control unit 811b, which shows the construction of the double-pipe structure block piping line control shaft 238 for nuclear waste disposal of a marine steelworks equipped with a boiling water reactor facility for waste disposal, Nuclear waste treatment with dual structure block tank dust collector An elemental marine steelwork dock that constitutes a nuclear reactor plant with a boiling water reactor facility Small, medium and large scale marine ironworks installed on the upper deck (SDU) 593, 594, 595) hydroelectric power plant for control of hull position movement Small, medium and large marine The hull position shifting of the equipment control unit 811a of the floating construction hull position shifting construction machine included in the mineral collection facility 811 constituting the boiling water reactor facility for controlling the hull position movement of the iron flood restorer 593,594,595, (941), which is the control shaft of the marine steelworks facility, and the distribution shaft, which is composed of the inside of the main body (1) of the marine steelworks equipped with the nuclear waste disposal boiler water reactor facility, are distributed and the double structure block tank dust collector A nuclear plant reactor facility equipped with boiling water reactor facilities equipped with a nuclear waste disposal facility is provided with a construction machine for inserting into a double structure block tank dust collector,

In the nuclear power plant facilities of small, medium and large scale oceanic iron-burning consoles (593, 594, 595)

The cylinder body has a pressure relief type safety valve 474 having a high pressure piping 14, a reed 35, an elbow elbow 44 and a flange 28, ) And the hydraulic hose (190), and at the same time the coupling part (29)

(593,594,595) Mineral collection facility (811) of marine small scale, medium size and large scale marine steel mill which is composed of inside of marine steel mill body (1) (811a) of the marine steelworks is composed of a small-sized, medium-sized and large-scale offshore steelworks floating ship consortium consisting of the upper part of the deck hull deck (SDU) of the marine steelworks and the lower deck part (SDL) (593, 594, 595), which constitute the construction machine position control of the hull locomotion control system, and a nuclear plant waste disposal plant reactor facility equipped with nuclear waste disposal boiler water reactor plant, Elementary marine steelworks dock Hydroelectricity of hull locomotion control of small, medium and large scale marine ironworks (593,594,595) on the upper deck (SDU) (593,594,595) of small, medium and large scale marine steelworks (593,594,595), which constitute the elemental ocean of the facility construction machinery, and control the hull position of the marine steelworks 1) Moving the hull position of the equipment control section (811a) (811a) of the moving construction machinery of the floating navigation stand included in the mineral collection facility section (811) constituting the internal nuclear waste disposal facility. (941) and a nuclear power plant (1) having a nuclear waste treatment boiling water reactor facility are distributed to a marine steelworks equipped with a nuclear waste disposal boiler water reactor equipped with a dual structure block tank dust collector The reactor installation is provided with a construction machine inserted into the dual structure block tank dust collector,

(593,594,595) Mineral collection facility (811) of marine small scale, medium size and large scale marine steel mill which is composed of inside of marine steel mill body (1) (811a) of the marine steelworks is composed of a small-sized, medium-sized and large-scale offshore steelworks floating ship consortium consisting of the upper part of the deck hull deck (SDU) of the marine steelworks and the lower deck part (SDL) A cylinder 126 constituting a construction machine position adjustment of the hull position movement control of the marine steelworks main body 1 with the construction machine connection structure of the disassembly coupling, A facility control unit 811a of the reading hull position moving construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

67, there is shown an embodiment of the present invention in which a marine ironworks 948b and a blast furnace 948 of a domestic steel mill constituting the interior of a marine steelworks main body 1 are shown to be used for melting iron ores Manufacturing method Mineral smelting Operation method Construction Road,

68, there is shown a side view of a cutting-edge environmental technology 948u constructed inside the main body 1 of a marine steelworks according to an embodiment of the present invention, Manufacturing method of steelworks Straight configuration Road,

69, a blast furnace structure 948j constructed inside a marine steelworks main body 1 according to an embodiment of the present invention is provided with a blast furnace gas flow 948k, a coke 9481 and an iron ore and limestone 948m, a hot air stream 948n, a fresh iron 948o, a hot air tube 948p and slag 948q. The industrial electric furnace 948r is provided with accessories 948s of an industrial electric furnace, (948t) of the furnace, 948u of the advanced environmental technology of the domestic steel mill, 948v of the operation method of the ocean furnace furnace, 948w of the domestic blast furnace operation method, A structure 948j of a blast furnace constituting the inside of the main body 1 of a marine steel mill with a blast furnace for metal processing for marine capital materials as shown in side cross-sectional view of a type 948x of the working mode of the blast furnace, A method of manufacturing a marine steelworks showing that a mineral smelting operation side method Configuration Road,

Referring to FIG. 70, in a mining collection facility 811 of a marine steelworks main body 1 according to an embodiment of the present invention, (948u) of the elemental marine ironworks showing the side view in a side view,

As shown in FIG. 67 to FIG. 70, the furnace is a kiln used to melt ore and extract metal. Usually, refractory bricks are built up in cylindrical form. Ore fuel (liquid used to dissolve the material) into a furnace and send hot air from below to burn ore. The debris floats up and the pure metal sinks down. Depending on the metal, there is an iron furnace, a copper furnace, and a soft furnace, and it is mostly used for the smelting of iron copper.

A furnace used in a process (metal smelting refining) in which a gangue is separated from a metal ore to obtain a molten metal. It is an upright pile made of refractory bricks.

The ore fuel is injected from the upper part of the furnace and the hot air is blown from the lower part to burn it. The sagging is carried out on the upper surface of the furnace, and the metal is smelted and separated downward.

The attached equipment includes hot air (air heating furnace), preheating device for preheating, and dust remover.

The furnace that produces pig iron in iron ore is called a blast furnace due to its high height.

The furnace for nonferrous metal is relatively small in size and has a rectangular cross section. The other is the floating pick-up hull position in the mineral collecting facility 811, which is provided inside the main body 1 of the marine steel mill with an electric furnace, A facility adjustment unit 811a of the mobile construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Hereinafter, a test list according to the model of the cooling fan 641 will be described in detail.

Referring to FIG. 71, a blower or a cooler included in a facility control unit 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention, The ring fan 641, and the heater fan 642 for keeping the air,

As shown in FIG. 71, a facility control section 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 constituted inside the main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And a plurality of blower units 941 mounted on the inside thereof, which are constituted of electronic sensor valve screw adjusting portions 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616 position.

A connection structure at the position of the facility control section 811a to the hydraulic cylinder machine 624 of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks, And an electronic sensor valve screw adjusting unit 811h provided in the inside of the air conditioner 811d. The air conditioner restriction preventing unit 811d includes a plurality of blowers 941 mounted inside the air conditioner, The impeller 143 of the body of the blower 941 and the rotary shaft 200 are assembled to the rotary shaft 198 as shown in the following figure.

A connection structure at the position of the facility control section 811a to the hydraulic cylinder machine 624 of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks, And an electronic sensor valve screw adjusting unit 811h provided in the inside of the air conditioner 811d. The air conditioner restriction preventing unit 811d includes a plurality of blowers 941 mounted inside the air conditioner, It is a test list according to the model of the cooling fan (641) as shown in the following figure.

A connection structure at the position of the facility control section 811a to the hydraulic cylinder machine 624 of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks, And an electronic sensor valve screw adjusting unit 811h provided in the inside of the air conditioner 811d. The air conditioner restriction preventing unit 811d includes a plurality of blowers 941 mounted inside the air conditioner, As shown in the above figure, it is a position explanatory view of the operating method of the press (switch) of the cooling machine auto system and manual control system.

A connection structure at the position of the facility control section 811a to the hydraulic cylinder machine 624 of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks, And an electronic sensor valve screw adjusting unit 811h provided in the inside of the air conditioner 811d. The air conditioner restriction preventing unit 811d includes a plurality of blowers 941 mounted inside the air conditioner, The figure shows manual and auto switch operation method as shown in the above figure.

(2) Treatment of Nuclear Waste Having a Double Structure Block Tank Dust Collector In the mining collection facility (811) inside the main body (1) of a marine steel mill equipped with a multipurpose hot gas reactor facility, And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616 in the form of a plurality of blowers 941 mounted on the inside thereof A vacuum pump (Vaccum pump, 635) is connected to the lower condenser manifold valve of the condenser as shown in the following figure, which is composed of a harmful red tide blocking preventive control unit 811d for eliminating the vapor state restriction by a disaster prevention device, And injecting the gas again.

The figure below shows the external and internal cross section of a small air conditioner (DP-5KV) capacity.

A connection structure at the position of the facility control section 811a to the hydraulic cylinder machine 624 of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks, And an electronic sensor valve screw adjusting unit 811h provided in the inside of the air conditioner 811d. The air conditioner restriction preventing unit 811d includes a plurality of blowers 941 mounted inside the air conditioner, Sectional view showing a medium-sized air conditioner mounted on the inside as shown in the following figure.

A connection structure at the position of the facility control section 811a to the hydraulic cylinder machine 624 of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks, And an electronic sensor valve screw adjusting unit 811h provided in the inside of the air conditioner 811d. The air conditioner restriction preventing unit 811d includes a plurality of blowers 941 mounted inside the air conditioner, As shown in the figure below.

A connection structure at the position of the facility control section 811a to the hydraulic cylinder machine 624 of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks, And an electronic sensor valve screw adjusting unit 811h provided in the inside of the air conditioner 811d. The air conditioner restriction preventing unit 811d includes a plurality of blowers 941 mounted inside the air conditioner, The impeller 143 of the body of the blower 941 and the rotary shaft 198 are mounted on the rotary support 200 as shown in the following figure.

A connection structure at the position of the facility control section 811a to the hydraulic cylinder machine 624 of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks, And an electronic sensor valve screw adjusting unit 811h provided in the inside of the air conditioner 811d. The air conditioner restriction preventing unit 811d includes a plurality of blowers 941 mounted inside the air conditioner, It is a test list according to the model of the cooling fan (641) as shown in the following figure.

A connection structure at the position of the facility control section 811a to the hydraulic cylinder machine 624 of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks, And an electronic sensor valve screw adjusting unit 811h provided in the inside of the air conditioner 811d. The air conditioner restriction preventing unit 811d includes a plurality of blowers 941 mounted inside the air conditioner, As shown in the above figure, it is a position explanatory view of the operating method of the press (switch) of the cooling machine auto system and manual control system.

A connection structure at the position of the facility control section 811a to the hydraulic cylinder machine 624 of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks, And an electronic sensor valve screw adjusting unit 811h provided in the inside of the air conditioner 811d. The air conditioner restriction preventing unit 811d includes a plurality of blowers 941 mounted inside the air conditioner, The figure shows manual and auto switch operation method as shown in the above figure.

A facility control section 811a to a hydraulic cylinder machine 811a of the floating construction hood position shifting construction machine included in the mineral collection facility 811 constituting the interior of the main body 1 of the marine steelworks having the reactor facility as a multipurpose hot gas for nuclear waste treatment, And a plurality of blower units 941 mounted on the inside thereof, which are constituted by an electronic sensor valve screw adjusting unit 811h provided as a connection structure of the position of the dog bed 624 and the position of the dog bed 616, As shown in the figure below composed of the harmful red tide blocking preventive control unit 811d which is excluded, the vacuum pump (Va c cum pump) 635 is connected to the condenser lower gauge manifold valve valve to re-inject the freon gas FIG.

FIG. 19 to FIG. 71 are schematic diagrams illustrating an embodiment of a marine steelworks having a metal smelting furnace and a construction machine according to the present invention.

72, it can be seen that the mineral collection facility 811 constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention has a facility in the facility control part 811a of the floating cargo hull position moving construction machine, And a main body 1 of the elementary marine steelworks showing a scene in which the production of the natural gas or crude oil energy at the bottom of the seabed and the manganese monolith as a submarine mineral resource are produced at the isocrane boom zone 942 at the tower crane ). The tower crane is equipped with an isocrane boom zone 942 to provide an electronic control valve control unit 811h of an electronic sensor valve screw control unit 811h, which provides for the production of seabed mineralized manganese nodules. A method of manufacturing a marine steelworks comprising a mechanical control part,

As shown in FIG. 72, the submarine burial position of the mining facility 811 constituting the interior of the main body 1 of the marine steelworks 1, Gas or crude oil energy resources and manganese nodules as an underwater minerals resource are provided at the isocrane boom zone 942 of the tower crane,

It shows the structure of the floating operation of the submarine submarine development operation composed of the inside of the main body (1) of the marine steel mill. It has an isocrane boom zone (942) at the tower crane, A facility control unit 811a of the floating pick-up hood position shifting construction machine included in the mineral collection facility 811 constituting the facility; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 73, it can be seen that it is used on the land included in the equipment control unit 811a of the floating pick-up hood position shifting construction machine of the mineral picking equipment unit 811 constituted inside the marine steelworks main body 1 according to the embodiment of the present invention The hydraulic cylinder 623 and the excavator 845 are connected to each other by a hydraulic excavator 845 equipped with a squeak drill and connected to a hydraulic cylinder 623 and a excavator 845 by a crane 861, After the excavator 845 is disassembled, a construction machine for building a foundation pier of a submarine by using a bolt hammer for disassembling a bolt nut for joining a pier foundation column is used to disassemble the excavator 845 to construct a barge hull 591 of a marine steelworks, Manufacture of marine steelworks of construction machinery constructed on top of deck deck Construction of lateral straits Construction of roads,

As shown in FIG. 73, a facility control unit 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 constituted inside the main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and includes a manufacturing method of a marine steelworks, (848) of the motor.

A facility control unit 811a of a floating picket hood position shifting construction machine included in a mining collection facility 811 constituting the inside of a main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And the electronic sensor valve screw adjusting portions 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616 as shown in the following figure.

Referring to FIG. 74, in a facility 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention, (1) showing a side view of a scene in which natural gas or crude oil energy at the bottom of the seabed and a manganese nodule as a submarine mineral resource are produced at an isocrane boom zone 942 at the tower crane And an electronic control unit of the mineral collection equipment unit 811 for providing the production of seabed mineralized manganese nodules showing the construction of the floating oceanic dredging submarine development operation system constituted by the facility control unit 811a The present invention relates to a method of manufacturing a marine steelworks,

74, a plurality of anchors and mooring device anchor bolts 133 for replacing anchors are provided at the respective corner portions of the outside of the ship bottom at the inside of the main body 1 of the marine steelworks, A hatch cover 153 with a hydraulic controllable safety control unit at a predetermined distance from the lower end of the hull bottom 614 and a double bed structure tank frame 616, An excavator 845 for a central position holding tank at the upper end of the upper part of the hull deck having a plurality of hull anchoring bollards 638 at a predetermined distance from the upper end of the hull deck upper part (SDU) at the upper end of the hull bottom, A piping line for a connecting carver to protect the pipe rack 694 and a drilling machine 908 for use in crude oil,

A pipeline constituting the prevention of harmful gas, a plurality of electronically controlled valves of the internal safety control device, a central position holding tank integrally provided with the natural gas and crude oil drilling equipment, and an external wall outside the holding tank, The facility 911 includes a net 910 and a coking coal 184 inside and outside the tank to control the equipment of the floating pick-up hood position moving construction machine included in the mineral collection facility 811 constituting the inside of the marine steelworks main body 1 A portion 811a; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 75, the rescue force for life structure included in the life structure sinking prevention vessel control unit 811e in the mining facility 811 of a marine steelworks constructed inside the main body 1 of the marine steelworks according to the embodiment of the present invention A pair of lifting rods 629, a rope knot claw 630, an emergency staircase 631 and an elevator alibault 632 provided on the ship 1078 provided on the ship 1078, And a conveyor 633, a bollard 638, an anchor 639, an anchor chain 640 and a helicopter 647 to be housed in a mining collection facility 811 as a lifesaving submerging ship control unit 811e Lifesaving preventive anti-disaster device Lifesaving method for manufacturing a marine steel mill with restoring power Rubber balloon (914) of a ship (1078)

A main body 1 of a marine steelworks having a nuclear waste disposal double structure block tank dust collector constructed by a power transmission control section 811c of a submarine crossing railway substation for treatment of nuclear waste for providing power transmission, (593,594,595) of a small, medium and large scale marine steelworks installation of nuclear power generation facilities to be connected to the inside of the building,

(2) Nuclear waste treatment with dual structure block tank dust collector constituting facility of disaster prevention device The flood control site included in mining collection facility (811) inside the main body (1) of the marine steelworks equipped with multi- A facility adjustment unit 811a of the mobile construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; After a harmful red tide blocking preventive control unit 811d for eliminating the meteorological condition restriction by a disaster prevention device, the pipeline is connected to the fuel supply pipeline composed of the flood control process and the gas disposal material piping line, A lower end portion C of the injection nozzle body which constitutes a firefighter nozzle 10 which is a nozzle composed of a hose of a pipe nozzle and a pipe body in a double pipe structure type and an upper end portion C of the injection nozzle body (25 mm x 2500 mm x 2000 mm) made of a wire rope or a rope to the top of the body (B) with a spray nozzle body (B) And inside the basket 42,

The torch burner 173 facility, which receives the fuel supplied from the gas fuel supply piping line and constitutes an emergency,

A gas burner 173 for cooking, which is attached to the lower part of the burner 173 constituting the torch burner 173 (the vinyl tent formed as a double structure in the form of a circle with the size of 10M x 10M x 10M, The uninhabited igniter 187 is installed and the outer circumferential surface of the adverbon is wrapped with the wire rope 19 or the rope 131 like a net and bound to the lower portion of the adobe with the rope 131, A camera 184 mount is provided,

A radiosonde 134, which is a meteorological observing instrument for observing diurnal conditions farther away from a higher position constituting the mount of the unmanned camera 184, is mounted, and the multi-stage pump control system A multi-stage multi-stage pump 8 composed of equipments of an air conditioner 150 and a disaster prevention pipe line 89, a disaster prevention water passage 17, a double tube structure collecting tank 34, a fire extinguisher 40, )Wow,

An electronic control device includes a plurality of valves and an air compressor (80), a generator (124), an engine (144), and a cylinder (138) configured in doctor ventilation for interrupting the flow of the internal flow of the communication equipment constituting the microcomputer system A fire tank 190 and a high pressure hose 190 are connected to a tug boat winch 137 and a fire hydrant 179 and a fire hydrant 179 are connected to a lifting structure 185 and a tube 188, The impeller (143), the other pyrotechnic material, the smothering gas (163), and the whole area where the fire, flame and pillar are generated, was called a fire sensor pump body and was equipped with nuclear waste processing multi- A facility control unit 811a of the floating picket hood position shifting construction machine included in the mineral collection facility 811 constituting the inside of the ship 1; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 76, it can be seen that, in the mineral water collecting facility 811 constituted inside the main body 1 of the marine steelworks according to the embodiment of the present invention, (1), which is composed of a main body (1) of an oceanic marine steelworks having a side view in which a natural gas or crude oil energy source of the seabed and a production of manganese nodule as a submarine mineral resource are provided, Mineral resources Manufacturing method of marine ironworks to produce manganese nodule Construction of strabismus road,

As shown in FIG. 76, in a disaster-prevention facility for flood control that is adjusted by a construction machine of a small-sized, medium-sized, and large-sized marine steelworks foot restraints 593, 594, and 595 of a mineral collection facility 811,

The fire sensor pump constituting the flushing control process is firstly made of KSD 3507, a plastic coating on the rolled steel for general piping, and a connection coupling to the nozzle body is made of K SD 2331 aluminum alloy for die casting and a heat- Or KSD 3699 hot rolled stainless steel strip. The temperature sensor is replaced by a bimetal or bourdon tube type to paraffin sensor type. It can be used as a solenoid solenoid valve for diesel engines, fire pumps, and other standardized hose pipes The size of the pipe nozzle supplying the liquid and the gas at the same time in the double pipe structure type according to the size,

The tube nozzle 1 type is classified into 7 kinds and the shape of the tube nozzle 1 is manufactured in the order of 200m, 180m, 150m, 130m, 100m, 80m and 50m in diameter,

(200 × 180) mm, (180 × 150) mm, (150 × 130) mm, (130 × 100) mm, (100 × 80) mm, (80 × 50) (50 × 25) mm It consists of 14 types of standard, tube nozzle connected to hose part and tube nozzle of many linear straight-hole processing hole. The working line of the truce line is composed of various types and sizes of specimens, and it is evolved from the fire of the fire and forest fire of the combustible material or the large fire of the neighborhood area in the wood, forest, paper, The minerals collecting facility 811 comprising nuclear waste disposal multi-purpose high-temperature gas reactor facilities and the inside of the main body 1 of the marine steel mill, ) To include Equipment control unit (811a) of the support sikdok ship positioning and construction machinery; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

77, a marine steelworks including a facility control unit 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention A manufacturing method of a marine steelworks of a disaster prevention device of a marine steelworks showing a construction of a disaster prevention device constituting a plurality of elementary marine steelworks showing a side view of the disaster prevention device showing the constitution of a disaster prevention device,

As shown in FIG. 77, in the installation of a disaster-prevention apparatus for flood control in which the position of a small-sized, medium-sized, and large-scale marine steelworks footrest reader 593, 594, 595 of the mineral collection facility 811 is adjusted by a construction machine,

The firepipe nozzle 10 used as a plurality of pipe nozzles inside the marine power plant constituting the flushing control process of the disaster prevention apparatus is provided with a thickness of 3 mm and the pipe body constituting the flushing control process of the fire-

In the case of the one type, when the nozzle is vertically disposed above the height of the main pole, the nozzle joint portion is divided into seven stages, and the name of the fire pipe nozzle of the above one type of fire pipe nozzle is referred to as " The firefighter nozzle 10 is divided into the "name 50" 10e, the "name 40" 10f, and the "name 25" 10g in the name 75 "10c" and the name 65 "10d" The elbow and tee elbow 44 and the fire-fighting nozzle 10 are attached to a plurality of fire-fighting disaster prevention piping lines 168 formed along the mountainous form of the crest, and the piping line (diameter: φ350 mm, 60 "), and" 50 × 40 "(10 mm) is attached to the" nominal 100 × 90 "(10h)," nominal 90 × 75 "(10i)," nominal 75 × 65 "(10j) The firefighting nozzle constituting the flushing control process of the disaster prevention apparatus is constructed such that when the firefighting nozzle is constituted at a position higher than that of the first embodiment,

A plurality of eight-sided gap 15 machining holes 20 at the normal position of the injection nozzle are formed by the reducer 35 having the above-described dimensions, and the gap of the eight-sided nozzle in the flange 28 joint portion is constituted by seven- The shackle 23, the bolt 24, and the nut 24 are disposed at two positions of the tee elbow 44 flange machining hole 20, which is a portion connected to the disaster prevention pipe connected to the joint portion at the lower end of the flange 28, The rope 131 is pulled up to the upper end of the body of the nozzle 10 from the opposite sides of the shackle 23 in the direction opposite to the binding position while the rope 131 is fastened with the bolt At the same time, the worker does not go up to the height of the telephone main body while dismantling the rope 137 bound together, and the rope 137 is disassembled and the safety work is terminated. At the same time, a tongue winch 137 is provided, The nozzle 10 is provided,

The installation of the fire-fighting nozzle 10 includes a 1-km, 2-km, and 3-km-long fire-fighting nozzle 10, which comprises a plurality of 15-m fire-fighting hose nozzles 10,

Fire-fighting nozzles (10) are provided as disaster-controllable fire-fighting apparatuses,

A facility control unit 811a of a floating picket hood position shifting construction machine included in a mineral collection facility 811 having a firefighting nozzle 10 installed inside the main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting part 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616 to construct a marine ironworks.

78, a marine steelworks dock including a facility control section 811a of a floating pick-up hood position shifting construction machine of a mineral picking facility section 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention (593,594,595) showing the mooring structure of a marine steelworks with a construction machine that controls the displacement of a marine steel ship's floating cargo ship installed at the upper part of the ship's deck (SDU). Vertical bulkhead (605) Construction machine connection structure of a marine steelworks having a large lug 607 at the shaft 606 and a large flange connection connector joint area 615 at the lug pin 608 Manufacturing method of the marine steelworks of the mooring type ,

As shown in FIG. 78, a high-pressure piston type disaster prevention pump (8) is provided as a disaster prevention hose (9) for providing disaster prevention water (7) The disaster prevention water supply system 7 is provided with water supply to the seesaw crane boom 651 nozzles 10 and the disaster prevention nozzles 10 provided between the fire hose connection units and the water supply pipe connection fixed type disaster prevention nozzles 10, And a weather line observing equipment adnone 77 and a radiosonde 134 which are provided at the normal position of the floodplain by the connection line wire rope 19 for providing the hose and the nozzle support and the shackle 23 and the disaster prevention nozzle connection flange 28, The lower pyllet is connected to the bottom of the basket 42 on which the lower pylon is to be mounted, 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 in a double structure, Get equipment It is also possible to prepare the flood control facilities as individual sets,

(593,594,595) of small, medium and large sized marine iron and steel plants equipped with multi-purpose high temperature gas reactor facilities for nuclear waste disposal, It is preferred that the conditioning process is configured.

In the facilities of the balloon 77 and the airship 78 constituting the flood control process,

The facility hose 109 and the high-pressure hose 190 constituting the advertisement balloon 77 and the airship 78 are equipped with a fire protection function such as forest fires and large-sized fires as well as forest protection, typhoons, Compressed air generated by the air compressor is used for disaster prevention. The air supply is provided while separating cold air and hot air, which are always compressed and mixed,

It is equipped with the wire rope and the frame which constitute the adventure balloon (77) and the airship (78) as an alternative method, and the disaster prevention material is controlled by the equipment inside the body of the pump extinguisher having the double structure according to the weather condition, (174) gas tank (171) as a te-elbow coupling gas inlet, while the active and passive disaster prevention device is equipped with a disaster-controlled disaster prevention device that is connected to the fire- The carbon dioxide constituting the gas is composed of the gas inlet mix mixer 191 with the gas container 171 storing the halon gas 175 while ensuring the function of the initial evolution as a powder and a compressed liquid gas at a speed 15 times faster than the fire water Pressure piping line 89 at the tail end of the multi-stage pump of the high pressure and uses a normal port injection system, Sean scheme

(811), which is composed of the interior of the main body (1) of a marine steel mill equipped with a multi-purpose high-temperature gas reactor facility for nuclear waste disposal, which is the same as injecting injections into vessels inside the human body. And a power transmission control unit 811c of the submarine crossing railway substation which is provided with a water treatment regulating process.

A suction pipe and a discharge pipe (3,4) for suctioning the pressure to the left and right sides around the suction port around the impeller (143) inside the protective cover of the multi-stage disaster prevention pump (8) The head tank 189 is referred to as a head tank 189, and the water pressure of the fire water is raised in a state of a very high pressure. The head tank is compressed and stored at pressures that allow it to withstand 8 liters of capacity and 16 bars. Respectively,

When a certain pressure is reached, it is equipped with a large sized pipe (14) of a certain size and a pipe connection connecting elbow and a tee elbow (44), which are provided at the front of the head tank, And a power transmission control unit 811c of a submarine crossing railway substation that provides preventive disaster prevention power transmission to the mineral collection facility 811 constituting the inside of the main body 1 of the marine steel mill while providing an accurate setting of the installation position It is preferable that the sea water disposal control process is constituted.

Next to the water supply pipe 14 constituting the flood control step, a spray nozzle connecting portion connected to the disaster prevention pipe 14 for disaster prevention is provided,

(10a), "Nominal 90" (10b) "for each of the seven types of the standard specifications of the standard specification formed by the piping body whose specifications are adjusted by the piping body which is made by the piping connection part (35) (10e), "nominal 40" (10f) and "nominal 25" (10g) are mounted on the injection nozzle body The spray nozzles are connected to a pipe line of a predetermined length and connected to the piping 14 of the injection nozzle body by one set in the middle, and connected to the rear of the bottom surface of the machine room floor, The flange 28 is separately manufactured for each designation and is connected to the piping 14 through the piping connection reducer 35 and then to the piping 14 of the disaster control nozzle body and then to the piping connection reducer 35 As a result,

In the disaster prevention piping system constituting the disaster prevention system, the disassembly and piping system constituting the disaster prevention piping system is provided in the reverse order with bolts 24, nuts 25 and washers 26 for connecting the injection nozzles, The flange 28 and the flange 28 are connected to the flange connection processing hole 20 and a nozzle gap 15 is provided at the intermediate portion of the flange 28 and the flange 28,

In the disaster prevention piping system constituting disaster prevention, the nozzle body (B)

A facility control unit 811a of a floating picket hood position shifting construction machine included in a mineral collection facility 811 having two types of connection structures and configured inside the main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting part 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616 to construct a marine ironworks.

79, the power production including the facility control unit 811a of the floating pick-up hood position shifting construction machine of the mineral collection facility 811 constituting the inside of the marine steelworks main body 1 according to the embodiment of the present invention (593,594,595) of marine hydroelectric power station (SDU) constructed at the marine power plant dock's upper deck (SDU) of the marine hydro-nuclear power generation production control section (811b) Pump dredging line (879a) of dredger (879) and bucket dredging line (879b) Manufacturing method of marine steelworks of construction machine connection structure Straight configuration Road,

79, in the power production control section 811b of a marine steelworks for providing power production,

The construction of hydroelectric power plant construction machinery of hull position movement control of small, medium and large scale marine ironworks pile installation (593,594,595) which is composed on the upper part of the deck of the marine steelwork hull deck (SDU)

Construction of a small, medium and large scale marine steelworks (593,594,595) that constructs the construction machinery in the ocean, equipped with a construction machine to control the movement of the hull. Nuclear waste disposal with dual structure block tank dust collector Multipurpose high temperature gas reactor installation Double structure block tank with marine ironworks facility Nuclear waste disposal facility with dust collector Multi-purpose high temperature gas reactor facility equipped with marine ironworks Main body (1) (811a) Nuclear waste treatment as a control shaft of a marine steelworks facility Nuclear waste disposal with a marine tunnel transportation device (941) and a dual structure block tank dust collector A marine steelworks main body (1) equipped with a multi- ) And distributing both sides of the distribution shaft constituting the inside of the reactor, A construction machine provided with an insertion crane nuclear waste treatment reactor equipped with multi-purpose high-temperature gas into the dual structure, the tank block constituting the dust collector into the marine mill main body (1) provided with a, and

79, as shown in FIG. 79, a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constructed inside a main body (1) of a marine steel mill equipped with a multipurpose hot gas reactor facility for nuclear waste disposal, The construction and use of the grab dredger (879d), which is composed of the distributing and inputting device of the reactor facility of the nuclear hydroelectric plant of floating dependency (593,594,595)

This equipment is used to dredge small ships or anchorage by using a special crane equipped with a clam shell on the ship. The standard marking is indicated by the grab bucket flat capacity (m ³ ) As shown in the table,

As shown in Fig. 79, a construction machine constituted by the interior of the marine steelworks main body 1,

(593,594,595) The grab dredger (879l), which constitutes the construction machine position control of the hull position movement control of the upper part of the dock hull deck (SDU), is composed of a small, The structure and purpose of the ship are dredging equipment by means of a special crane equipped with a clamshell on the ship. It is used for dredging of small-scale routes and anchorage. The standard mark is expressed as grab bucket capacity (m ³ ) Are described as the following table.

79, the collection of the undersea mining manganese nodule 909 constituting the interior of the main body 1 of the marine steelworks is carried out by a plurality of construction machinery connecting structures, and the marine mining, (593,594,595) A submarine mineral intake sampling machine (911) and a submarine mineral collection robot (912) are connected to a periscope mining robot (912) and a periscope mining robot (912) on a crude drilling machine (908) 913 and the rubber balloon 914 as a connection structure of a wire rope chain 915 and a dual structure pipeline automatic pneumatic valve transport device 916 and a construction machine of a core drill 917 to form a submarine mineral manganese nodule 909, And an interior of the main body 1 of the marine steelworks having collection.

As shown in Fig. 79, the structure and use of the grab dredger 879d constituting the interior of the main body 1 of the marine steelworks,

It is used to dredge a small-sized lane or anchorage by using a special crane equipped with a clam shell on the ship. The standard mark is indicated by the grab bucket capacity (m ³ ) Explain as follows.

As shown in FIG. 79, the marine steelworks facility constructed inside the main body 1 of the marine steelworks,

Construction of the construction machine position adjustment of the hull position movement control of the marine small size, medium size and large scale marine steel docking station (593,594,595) constituting the upper part of the dock hull deck of the marine steelworks The construction and use of the grab dredger 879l,

This equipment is used to dredge small ships or anchorage by using a special crane equipped with a clamshell on the ship. The standard marking is indicated by the grab bucket capacity in cubic meters (m ³ ) Explain as follows.

As shown in Fig. 79, a construction machine constituted by the interior of the marine steelworks main body 1,

The collection of submarine mineral manganese nodules (909)

Dual structure block tank A marine steelwork dock made up of a multi-purpose high-temperature gas reactor facility for nuclear waste disposal with a dust collector inside the main body of a marine steel mill (1) A crude drilling machine (908) connected to the upper deck (SDU) And a wire rope chain 915 to the periscope 913 and the rubber balloon 914 on the undersea mining net collecting machine 911 and the undersea mining collecting robot 912 on the undersea mining net 910 and the double structure piping line automatic pneumatic (916) and the core drill (917) construction machines. It is composed of the construction machinery connection structures to construct seabed mineralized manganese nodules (909).

The submarine mineral intake sampling machine 911 and the submarine mineral collection robot 912 are connected to the periscope 913 and the submarine mineral intake harvesting machine 911 on the crude oil drilling machine 908 and the undersea mining trough net 910 connected to the upper part of the marine steelworks dock, It consists of a wire rope chain (915) on rubber balloon (914) and a connection structure of double structure pipeline line automatic pneumatic valve transport device (916) and core drill (917) construction machine. Dual structural block tank for the adjustment of hull position movement of marine ironworks (593,594,595) Treatment of nuclear waste with dust collector Marine steelworks equipped with multi-purpose high temperature gas reactor facility and multi-purpose high temperature gas reactor facility constituting marine steelworks facility The two sides of the distribution shaft constituting the inside of the main body 1 of the marine steel mill having the reactor facility of multipurpose hot gas connected to the nuclear waste disposal marine tunnel traffic apparatus 941 constituted inside the main body 1 It is equipped with a multipurpose high temperature gas reactor facility for nuclear waste disposal at a marine steel mill with a dual structure block tank dust collector,

(593,594,595) of small scale, medium and large scale oceanic steel mills (593,594,595), equipped with facilities of nuclear nuclear hydroelectric power plant equipped with reactor facilities for multipurpose hot gas for mineral waste collection facility 811, a facility control unit 811a for a floating cargo hull position moving construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

80, a marine steelworks dock including a facility adjustment section 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention A concrete mixer truck (865) and a concrete finisher (866) are connected to a marine steelwork concrete batching plant (865) and a concrete finisher (866) showing the construction machine position control arrangement of the hull locomotion control of a marine hydroelectric power plant floating posture (593,594,595) 868) Manufacturing method of marine steelworks of construction machinery connection structure Straight configuration Road,

As shown in FIG. 80, the dual pipe structure block pipe line adjustment shaft 238 for the nuclear waste disposal of the marine steelworks is connected to the equipment control unit 811a of the floating picket hood position shifting construction machine included in the mineral collection equipment unit 811, (593,594,595) of the marine small-sized and large-scale marine steelworks installed on the upper part (SDU) of the dock hull deck of the marine steel mill, the marine hydro-nuclear power generation production control section (811b) In the concrete bending plant 865 constituting the construction machine position adjustment of the position shift control,

The concrete hopper 865a constituting the concrete batching plant 865 and the symmetry hopper 865e and the scale frame 865f and the storage bin 865f to the water tray 865d and the regulating plate 865c to the conveying apparatus charging chart 865b 865g to the cementing chute 865k and the bucket elevator 865j to the turnhead 865i and the cement silo 865d to the transporting cement chute 865k and the recording device 865m and the circular mixer 865n to the conveying cement chute 865k, 865o) and sculler conveyors (865p) to provide a platform for movement control, disassembly and assembly of small, medium and large oceanic marine ironworks (593,594,595)

(593,594,595) Double structural block tank (598) Double structural block tank pipe bridge (928) and nuclear waste treatment dual structural block tank (598) Small- and medium-sized and large oceanic marine iron- A plurality of distribution shafts of distribution shafts provided with a bridge structure 929, a double structure block tank bridge 937 and a disengageable coupling structure of a connection shaft of a nuclear waste disposal double structure block tank marine tunnel transportation device 941 It consists of a dual structure block tank dust collector for the nuclear waste disposal for the operation of marine ironworks facility.

It is convenient for conveying concrete in a limited space such as bridges in a tunnel and inside of a building with concrete pump (869) equipment consisting of construction machinery. The pump is mechanical and liquid pressure type. It is easy to handle, easy to repair, and economical because it has less impact or vibration due to the combination of hydraulic or hydraulic pressure. It is provided for transportation of high-rise building and long-distance concrete.

Concrete pumps (869) are movable and mechanically hydraulic and truck-mounted. Diaphragm type is used for high-rise buildings (more than 100m). The standard indication is expressed in terms of delivery capacity per hour (m ³ / hr) Consists of concrete injection hopper, suction and discharge valve, piston, cylinder.

Concrete pump (869) composed of construction machine is movable and mechanically liquid pressure type and truck loading type. Diaphragm type is used for high rise building (more than 100m). The standard indication is expressed in hourly delivery capacity (m ³ / hr) The components of a concrete pump consist of a concrete injection hopper, suction and discharge valves, pistons, and cylinders.

A concrete pouring machine constituted by a construction machine is a concrete finisher 866. The concrete pouring machine 866 is a finishing machine for pouring concrete into a concrete pouring machine. The pouring machine is used as a pouring machine. To finish the concrete slab surface.

The concrete finisher is designed to finish the surface of the pavement while vibrating the front and back of the surface. Standard marking is a standard that can be applied. And the interior of the main body (1) of the marine steel mill equipped with a metal smelting furnace and a construction machine while being displayed in a width (m)

(593,594,595) Double structural block tank pier (928) of double structure block tank (598) and nuclear waste treatment dual structure block tank bridge bridge (929) and nuclear waste treatment duplex Structure block tank A marine tunnel transmission device (941) is connected to the connection shaft of the disassembly-connectable structure, which is provided with a plurality of distribution shaft distributing and inputting devices, and is constructed within the main body of the marine steelworks (1) 811, a facility control unit 811a for a floating cargo hull position moving construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

81, a mineral picking facility 811 constituting the interior of the main body 1 of a marine steelworks according to an embodiment of the present invention includes a facility control unit 811a of a floating cargo hull position moving construction machine, The marine nuclear hydroelectric power generation control unit 811b that provides the power production showing the construction of the double pipe structure block pipe line control shaft 238 of the method of manufacturing the marine steelworks is provided in the facility control unit 811a of the position- Construction of hydroelectric power plant of hull locomotion control of small-sized, medium-sized and large-scale marine steelworks floating ship (593,594,595) constituting the upper part of deck hull deck (SDU) of elemental marine steelworks showing constitution of one embodiment of manufacturing method of marine steelworks A small, medium and large scale marine steelworks equipped with an internal marine steelworks main body (1) that shows the mechanism position adjustment configuration (593,594,595) Equipment control unit (811a), a piston motor (885a) The method of marine steel mill for a construction machine the structure of the connection cylinder 126 of marine steel mill showing the construction machine position control configuration of a mobile crane and a hydraulic control (885) configured perspective road,

As shown in FIG. 81, the hydroelectric power plant for controlling the hull position movement of a small, medium and large scale marine steelwork lifting console (593, 594, 595) constituting the upper part of the deck (1) of the marine steelworks (1) The marine ironworks of the small and medium scale and large scale marine ironworks (593,594,595) The marine docking facility of the collection facility (811) The cylinder 126 constituting the construction machine position adjustment of the hull locomotion control of the marine small and medium and large oceanic marine lifting platforms 593,594,595 located at the upper part SDU and the piston motor 885a of the hydraulic crane 885 ) The value of the pressure of the construction machinery connection structure is generally compared to the atmospheric pressure.

The construction machinery of the nuclear waste treatment reactor facility composed of the main body (1) of the marine steelworks,

Atmospheric pressure is the atmospheric pressure, which is called the atmospheric pressure.

1a tm = 760m m H g (water temperature main height) = 10332k g _f / m ² = 1.0332kg _f / cm ²

= 10.332m A q (height of water) = 101325N / m ² = 1.0 1325b ar

The gauge pressure is the pressure measured by the gauge and the pressure measured relative to the local atmospheric pressure.

The absolute pressure is the pressure measured based on the full vacuum.

The construction machine, which consists of the interior of the main body of the marine steelworks,

Work is defined as the amount of energy consumed and is calculated as the product of the distance traveled because of the applied force and force ( W = F S ). Suppose you need 300 N of force to move an object 40 m. In this case, the work is W = 300N ㅇ 40m = 1200N ㅇ m [J]. However, the idea of work alone can not tell how fast the object has moved. Was this done in 10 or 5 seconds? That is, power takes into account how fast energy is consumed. By dividing a work by the time it took to work, you form a method for power.

For example, one of N o m and the time is seconds (s) speaking, power is N o will be in m / s in general, the symbols of the power, whereas the use of P in upper case, lower case p has the symbols of the pressure , Where s / t is replaced by speed υ in the above equation.

For example, if the force is N and the speed is m / s, then the unit of power is N ㅇ m / s. Power is also expressed by horsepower. The conversion relation between these two units is as follows.

The mining equipment 811, which is composed of the interior of the main body 1 of the marine steelworks which constitutes the construction machine for controlling the hull position movement of the small-sized, medium-sized and large-scale marine steelworks foot care plant (593,594,595) (811a) Movement of the hull in the control section of the construction machinery (911a) Nuclear waste disposal, which is the control shaft of the nuclear power plant facility (941) and the marine vessel equipped with the multipurpose hot gas reactor facility for nuclear waste disposal Nuclear waste disposal by distributing both sides of the distribution shaft constituting the inside of the steel mill body (1) The multi-purpose high temperature gas reactor unit is inserted into the double structure block tank dust collector.

As shown in FIG. 81, when a liquid is put in a sealed container and a force F is applied thereon, the liquid has a property of not decreasing the volume even when compressed, so that the liquid has a force against the force pressing it from above. This is called the reaction force, and the reaction force of this liquid is called the pressure ( p ).

The pressure in the vessel is the force F divided by the area A of the piston.

단, 실린더 내 액체의 높이 차에 의한 압력의 차이는 p값에 비해 매우 작으므로 무시할 수 있다.The principle of pressure transfer is that there is no friction between the piston and the cylinder due to these forces when the liquid is filled in the cylinder and forces F ₁ and F _{2 on} the piston cross-sectional areas A _{1 and} A ₂ are applied If there is no leakage from this part and there is no energy loss due to the transfer, the pressure generated in the two cylinders can be expressed by the following equation.

However, the difference in pressure due to the height difference of the in-cylinder liquid is negligible as it is very small compared to the p value.

From the above equation

Is obtained. That is, the force is proportional to the cross-sectional area of the piston. Since A ₁ is smaller than A ₂ , a force F _{2 which} is sufficiently larger than F ₁ is obtained. Hydraulic presses and hydraulic presses use this principle.

Embodiment of the hydraulic intensifier, the surface area is in connection by the rod to the other two pistons when the action of the pressure p ₁ on the piston area A ₁ is transmitted to the small piston force F ₁ is via the load acting on the force the cross-sectional area A ₁ Therefore, the pressure p ₂ is increased and the friction loss is neglected.

The pressure in the pressure intensifier is inversely proportional to the area of the piston.

Nuclear waste treatment in the main body of a marine steel mill (1) Multi-purpose hot gas furnace reactor equipment In a construction machine, the flow of a fluid is called an internal flow in which all interfaces of a fluid flow are solid surfaces. Laminar flow and turbulent flow are the dominant forces of the laminar flow, which is a dominant flow over the inertial force. The Reynolds number is small, that is, the velocity is small and the viscous flow satisfies Newton's viscosity law. Conversely, the inertial force is dominant than the viscous force. The larger the speed, the larger the speed. In general, the flow in the hydraulic system is a laminar flow.

Advantages of the advantages and disadvantages of a hydraulic motor include:

It is able to stop quickly and easily compared with an electric motor, and it is able to obtain a wide range of continuously variable speed, and it is small, light and powerful, and it has good resistance to high speed due to excellent resistance to breakdown. It can be easily controlled by a type pump or metering (a valve that improves the flow rate of the throttle valve). It is convenient for the torque control machine such as the winding machine used for the paper and the wire, Lt;

As described above, the marine nuclear power hydroelectric power production and control construction machinery hydraulic motor facilities are provided, and the mining collection facility 811 included in the main body 1 of the marine steelworks includes An adjusting unit 811a; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 82, there is shown a harmful vortex blocker 811a including a facility adjustment unit 811a of a floating picket hull position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention. A computer using a vacuum tube constituted by a power transmission control unit 811c of a submarine-to-submarine transverse railway substation for nuclear waste disposal that provides power transmission to the preventive control unit 811d is referred to as a first generation, The third generation, LSI, or VLSI is used as the fourth generation. Now, the fourth generation is the fifth generation computer that will be equipped with the artificial intelligence that determines the calculation and processing by itself. (IC), which is a core part of the marine steel mill, consists of semiconductor, new materials, and rotary cylinders (rack and pinion type -NRP, 620) A method of manufacturing a marine steelworks comprising several semiconductors, new materials, and rotary cylinders (rack and pinion type -NR P, 620) in the equipment part 811,

82, a facility control unit 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 constituted inside the main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; The IC, which is the heart of a computer, which is composed of a harmful bell-jam shutoff prevention and control unit 811d that excludes a weather condition restriction by a disaster prevention device, can be made not by a semiconductor. Even if it is not silicon, it is possible to have an on / off function when an external signal is input.

For Josephson devices using superconductors,

Josephson devices using niobium, lead, and the like are based on a superconducting phenomenon with a resistance of zero, and can work much faster and with less power than current integrated circuits.

● In molecules and electrontronics,

It is trying to make a computer resembling a human brain by using the fact that the state of a molecule changes or the state of an organism cell changes by slight movement in a molecule.

Fifth, in Optronics and Electronics,

Optoelectronics refers to electronics using devices related to light, specifically optical communications and laser discs.

Current telephone lines use a thin copper wire to transmit signals. In optical communication, a laser beam is passed through an optical fiber made of quartz glass to transmit a signal.

The center of optoelectronics is a light emitting device such as a semiconductor laser or a light emitting diode. However, since silicon can not make light emitting devices, compound semiconductors are used instead of silicon.

The material depends on the color of light emission (wavelength). Gallium arsenide and indium phosphorus are used for infrared rays, gallium aluminum and arsenic are used for red, and gallium phosphorus is used for green for visible areas.

Finally, regarding the development of new materials,

How will new materials be developed in the future? Obviously, the era of simply synthesizing materials is coming to an end. Once upon a time, alchemy was the reason for this, because there was no knowledge of electrons, atoms, etc. about the material.

However, now, knowledge of the molecular structure and properties of the material has increased. From now on we will be able to develop new materials by controlling the fine structure of the material, specifically the structure of the atomic size.

In order to do this, the semiconductor, metal, and organic materials must not be admitted to specific materials, and they must be restructured at the atomic level. A surprising number of new materials will be born again as we experiment with atomic composition methods that will add tens of thousands or even tens of thousands of atoms.

82, a facility control unit 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 constituted inside the main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; In the rotary cylinder (rack and pinion type -NRP, 620) constituted by the harmful red tide blocking preventing and regulating portion 811d for excluding the weather condition restriction by the disaster prevention device,

It is an excavator used on land, but with an excavator (845) equipped with a skew drill.

The hydraulic cylinder 623 and the excavator 845 are coupled and disassembled by a crane 861.

After disassembling the hydraulic cylinder 623 and the excavator 845 after the excavation work, the construction machine is used to build a foundation pier of a submarine by using a bolt hammer for unlocking a bolt nut for pier foundation post work, (591) a facility control unit (811a) of a floating picket hood position shifting construction machine included in a mining collection facility (811) having an equipment to be mounted on a deck deck and configured inside the main body (1) of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

83, there is shown a schematic view of a space harvesting apparatus including a facility control section 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention. And the combustion chamber 961a constituting the liquid fuel rocket 961 included in the spacecraft and the satellite 611 of the lunar journey and the space rocket 612 constituting the satellite control section for preventing radioactive contamination of the nuclear material are provided with a nozzle 961b, A gas generator 961c for generating a gas for operating the turbine in the propellant injection 961c, the control valve 961d, the fuel pump 961e, the fuel tank 961f, the oxidant pump 961g and the oxidant tank 961h 962i constituting the solid fuel rocket 962 and the igniter 962b and the combustion chamber 962c constitute the liquid fuel rocket 961 and the heat insulating material 962d And the spacecraft 611 and the space rocket 612 in the mineral collection facility 811 constituting the interior of the marine steelworks main body 1 constituting the solid fuel rocket 962 with the nozzles 962e, And the mars lander 1115 constituting the mars 1113 and included in the bin 1116 of the sun 1116, An exploration perspective configuration method to configure aspects of marine steel mill road,

83, the types of spacecraft and artificial satellites 611 that constitute the nuclear waste disposal and dispensing apparatus are as follows. First, the communication satellite 611a constituting the communication satellite 611a is provided with an altitude of 35.900 At the location of the ㎞, it broadcasts such as TV.

Secondly, the weather satellite 611b constituting the weather satellite 611b is photographed like a cloud and sent to weather stations around the world.

Third, the geodetic satellite 611c constituting the geodetic satellite 611c plays a role of forming an accurate world map or preventing natural disasters.

The communication satellite 611a and the weather satellite 611b are the former practical satellites that are used most frequently. The spacecraft of the lunar journey constituting the nuclear waste disposal and dispensing apparatus,

I fired a Saturn rocket on the ground and then I turn to the moon. The mother ship separates the lunar lander. The mothership and the lander go to the moon. It goes into orbit of the moon. It leaves the mothership and enters the moon. After docking with the mothership, discard the moon lander. It rises to the orbit of the earth. At this time, the lander launches a drop line.

83, a space rocket 612 of a lunar journey constituting a marine steelworks equipped with a metal smelting furnace and a construction machine is provided with an ice rocket 612a constituting a space rocket 612, The rocket fuel 612b, the plasma rocket 612c, the photon rocket 612d, and the nuclear rocket 612e, and is burned with the oxidizing agent.

The rockets are slow and take too much time to travel in space.

So, to study these chemical rockets and other fast rockets, nuclear rockets 612e and ion rockets 612b.

Therefore, the development of a nuclear rocket (612e) is essential to go to Mars and Venus.

Thus, it is natural to install the space station installed to leave the space with little force in the ocean.

In the structure of the liquid fuel rocket 961 for the lunar journey constituting the ocean steel mill having the metal smelting furnace and the construction machine,

The fuel pump 961e, the fuel tank 961f, the fuel tank 961d, the fuel injection valve 961d, the fuel injection valve 961d, the fuel injection valve 961d, An oxidant pump 961g, an oxidizer tank 961h and a gas generator 961i for operating the turbine, and is constructed as a connection structure capable of being disassembled into a liquid fuel rocket 961 structure.

In the structure of the solid fuel rocket 962 for the lunar journey constituting the ocean steel mill having the metal smelting furnace and the construction machine,

The combustion chamber 962c, the heat insulating material 962d, and the nozzles 962e constituting the solid fuel rocket 962 and the solid fuel rocket 962 are provided as the propellent 962a, the igniter 962b, the heat insulating material 962d, As a connection structure capable of being decomposed and coupled to the substrate,

The mixture of fuel and oxygen in the rocket is called propellant (propellant fuel; 962a), and the propellant fuel is classified into liquid propellant and solid propellant.

On the other hand, the liquid fuel rocket 961 constituting the liquid propellant fuel,

It is a rocket that puts a well-burning liquid and a liquid oxygen to burn it into a tank, pumps it into a combustion chamber, and bursts to burst gas.

In addition, the solid fuel rockets 962, which constitute the solid propellant fuel,

(811) consisting of the inside of the main body (1) of the marine steelworks where the fuel and the oxidizing agent burning it are mixed and hardened in the shape of a large cylinder is stored in the combustion chamber. A portion 811a; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 84, a space harvesting apparatus 811a of a marine steelworks main body 1 according to an embodiment of the present invention includes a facility adjustment unit 811a of a floating pick- An ion rocket 612a, an ion rocket 612b, a plasma rocket 612c, and a photon rocket 612d, which are included in the spacecraft and space rocket 612 of the lunar journey constituting the satellite control unit for preventing radioactive contamination of nuclear radiation, ) And a spacecraft and space rocket 612 constituting a disaster prevention preventive control unit constituting the mineral collection facility 811 showing a conventional configuration illustrating an example of the apparatus of the nuclear rocket 612e Fuel rocket 961 and solid fuel rocket 962 to the ion rocket 612b, the plasma rocket 612c, the photon rocket 612d and the nuclear rocket 612e, An ion rocket 612b included in the spacecraft of the lunar and space rocket 612 and an ion rocket 612b contained in the space rocket 612 are connected to the mineral collection facility 811 constituted by the inside of the main body 1 of the marine steel mill, A rocket 612c, a photon rocket 612d, a liquid fuel rocket 961 and a solid fuel Manufacturing method of a marine steelworks constituting a device of rocket 962 Lateral diagonal construction Road,

As shown in FIG. 84, when launching the rocket toward Mars, first, the satellite 611 which revolves around the earth is shot, and then the speed of 11.9 km per second or more is given to the rocket and directed toward Mars. (611) and space rockets (612) equipped with Mars surface, Viking probe and Mars surface seen from Mars lander, photographed by Viking 1 near to Mars, Consists of.

And a block steel tower (116) of a block-unit volume coupling which is provided as a connecting structure at the upper end of the floating deck deck to constitute a reactor facility of a floating nuclear power plant, ,

And a safety control room constituting a position as a left-side connecting structure at the upper center of the upper deck of the floating deck deck deck constituting the block steel tower 116, and a plurality of nuclear-

Nuclear Weapons Dispensing and Discharging Devices Consisting of Nuclear Waste Disposal Devices Consisting of Nuclear Waste Treatment Facilities and Nuclear Waste Disposal System for the Nuclear Waste Treatment Facilities Comprising a nuclear waste disposal dispensing apparatus,

Prevention of flood drought control Preventing the damage of volcanic ash before and after the explosion of natural disaster, earthquake, tsunami and wildfire and dust and volcanic eruptions constituting disposal unit of nuclear waste disposal device And a peripheral equipment of a block pylon 116 of a nuclear waste disposal and dispensing apparatus constituting the equipment management room of the forecasting station 958 inside the marine steelworks main body 1,

And a helicopter stop 619 located at a position near the deck deck upper center constituting a peripheral facility of the block steel tower 116. The helicopter stop 619 is installed in the mineral pick-up facility 811 inside the main body 1 of the marine steelworks, A facility control unit 811a of the reading hull position moving construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 85, a multi-purpose hot gas including a facility control unit 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting the inside of a marine steelworks main body 1 according to an embodiment of the present invention (805) as a construction machine. The side view shows the scene of operation of the nuclear power plant. (805) As a side view, the nuclear power plant is composed of a multi-purpose high temperature gas reactor (805) as a construction machine, a multi-purpose high-temperature gas reactor (805) is installed in a floating plant (593,594,595) nuclear power plant (672) of a small, medium and large scale marine steelworks, Manufacturing method of offshore steelworks in the nuclear power plant scenario Side Sagittal Construction Construction of road,

As shown in FIG. 85, a fire control control equipment arrangement for protecting the marine environment is provided, and a connection structure composed of a nuclear power plant of a small, medium and large scale marine ironworks (593,594,595) and an ocean steel mill body A marine small-sized and large-scale marine steel lifelines (593,594,595) with marine environment protection facility connection structure located under the submarine line wiring (946) and composed of connecting structures to protect marine environmental facilities around the deck deck A facility control unit 811a of a floating picket hood position shifting construction machine included in a mineral collection facility 811 having a nuclear power plant and configured inside the main body 1 of a marine steelworks; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

86, a marine steelworks including a facility adjustment unit 811a of a floating pick-up hood position shifting construction machine of a mineral collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention A method of manufacturing a multi-purpose high-temperature gas reactor (805) for a floating nuclear power plant (672) of a marine steelworks (593,594, 595) of a small and medium-sized and large- (805) as a multi-purpose high-temperature gas among a plurality of nuclear reactor equipments constituting the inside of the main body (1) of the elementary marine steelworks, (593,594,595), a nuclear power plant (672), a multi-purpose high-temperature gas reactor (805) as a construction machine, and a nuclear power plant Expression method of producing marine steel mill scene side cross-sectional configuration deviation road,

As shown in FIG. 86, an embodiment of a nuclear waste treatment reactor facility coupling method for providing a reactor facility input by multipurpose hot gas included in a mineral collection facility 811 constituted inside the main body 1 of a marine steelworks is constituted Multi-purpose high-temperature gas furnace reactor facility for nuclear waste disposal at a marine steel mill equipped with multi-purpose high-temperature gas reactor facility for processing nuclear waste at a marine steel mill with a dual structure block tank dust collector is composed of a construction machine.

The multi-purpose high-temperature gas furnace reactor 805 of the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant of the connection shaft constituting the reactor facility 805 with the multi-purpose high-

(593,594,595) nuclear power plant (672) and a mineral collection facility (811) composed of the inside of the main body (1) of the marine steel mill making up the reactor facility (805) The multi-purpose hot gas furnace reactor 805 constituting the double structure block tank dust collector 794 for treating the nuclear waste of the connecting shaft includes:

A nuclear waste disposal and dispensing apparatus having a nuclear radiation leakage control dual structure block tank dust collector 794 constituted by a nuclear mill main body 1 constituting a nuclear reactor facility 805 with a multipurpose hot gas and a nuclear fuel 683 explosion control Dispensing Apparatus comprising a plurality of reactor installations on the barge of an anti-sunken dual structure block tank of the ocean,

(811) located at the uppermost 40 m of the sea surface excluding the weather condition of the earthquake and tsunami constituting the reactor facility (805) by multi-purpose hot gas. (811a) includes a nuclear reactor facility which is equipped with a setting position of a connecting shaft, and which forms a reactor-plant safety before and after a safe operation of a barge-

(805) with multi-purpose high-temperature gas. A dual-structure block tank dust collector (794) equipped with a nuclear radiation leak control for preventing explosion of a plurality of nuclear reactor facilities of a nuclear power plant of a marine steel mill, (811a) installed in a mining collection facility (811) constituting the inside of a main body (1) of a marine steel mill having a reactor facility with a multipurpose hot gas for a multi-purpose high- The nuclear reactor 805 is operated with high temperature gas to operate the nuclear reactor of the connecting shaft,

The multi-purpose high-temperature gas furnace 805 constituting the interior of the connecting shaft of the equipment control unit 811a of the floating pick-up hood position shifting construction machine included in the mineral collection equipment unit 811 constituting the reactor facility 805 with the multi- ),

Graphite is provided as the moderator 819 constituting the reactor facility 805 with the multi-purpose high-temperature gas, helium gas 176 is provided as the coolant 816,

The fuel constituting the reactor facility 805 with the multipurpose hot gas is supplied with enriched uranium 812 and thorium and the heat of the helium gas 176 is transferred to the water to generate the steam 780 from the steam drum 792 Water and steam (780) separate and provide for transferring the steam (780) to the turbine (267)

(593, 594, 595) for the treatment of nuclear waste by providing a power generation within the generator (772) by rotation of the turbine (267) constituting the reactor facility (805) And a double structure block tank dust collector 794 having a connecting shaft inside the main body 1 of the marine steel mill having a reactor facility with high temperature gas,

A nuclear waste locating passage is provided by a double tube structure block piping line 74 constituting a nuclear reactor facility 805 by a multipurpose hot gas,

A multi-purpose high-temperature gas is used to constitute a nuclear reactor (805). A plurality of nuclear radiation pollutants are detected by a temperature sensor. A temperature sensor of a safety valve detects the temperature of the reactor. The temperature inside the reactor is 700 to 800 degrees. The temperature and pressure sensor includes an alarm message for preparing a transmission to the safety control room computer,

The explosion nuclear waste is passed through the internal block piping line 74a of the pressure vessel 813 of each of the individual units while providing a plurality of openings for each of the plurality of temperature pressure sensor safety valves constituting the reactor facility 805 by multi- And a safety valve 472 for storing the nuclear waste at the bottom of the structural block tank precipitator 794 and providing an opening to the temperature pressure sensing sensor connected to the inner double structure block tank at the lower end of the pressure vessel 813,

As the outer block piping line 74b constituting the reactor facility 805 with the multi-purpose high-temperature gas, an explosion-proof control material fuel explosion-preventing control article stored in the inner block tank 683 is connected to the automatic injector flashing warning lamp 99 A thermostat thermometer sensor switch 103 having a connection structure with a pressure gauge 101 and a temperature sensing sensor bimetal 102, a level pressure switch 104 for flow rate check operation, a flow rate meter 105 for flow rate check, And a connection structure provided with safety valves 472 of the automatic pneumatic valve transport device 916,

A plurality of through holes are formed at an angle of 45 degrees at an upper end of the reactor building 688 constituting the nuclear reactor facility 805 by the multi-purpose high-temperature gas, the through holes are machined by a cutting machine and a construction machine drilling machine,

The block piping line 74 and the plurality of safety valve 472 facilities are provided in the plurality of through holes constituting the reactor facility 805 with the multipurpose hot gas to form the double pipe structure block piping line 74, And a flange that forms a connection connection with the nut (25) and the gasket (32)

86, on the outer wall surface of the reactor building 688 constituting the inside of the double structure block tank dust collector 794 constituting the reactor facility 805 with the multipurpose hot gas,

The double structure block tank dust collector 794, which is twice as large as the reactor building 688 constituting the reactor facility 805 with the multi-purpose high temperature gas, is equipped with an outer block tank 599 for storing nuclear waste treatment, (683) explosion control dispensing device combined with a nuclear waste disposal dispenser combined with a form connection structure and the reactor facility is installed inside the reactor core (681) and outside the reactor core (681). The nuclear fuel (683) And a plurality of reactor facility connection structures including an interior of a main body (1) of a marine steel mill having nuclear reactor facilities for multipurpose hot gas for the treatment of nuclear waste of land and sea,

A multi-purpose high-temperature gas is used to prevent the detonation of nuclear fuel in the main body (1) of a marine steel mill equipped with nuclear fuel explosion-proof control materials constituting the nuclear reactor facility (805) (794) for the control of the nuclear radiation leakage of the nuclear reactor waste disposal shielding device and the nuclear reactor waste disposal control facility (794), and the dual structure Block tank dust collector (794) Includes a multipurpose hot gas furnace reactor (805) structure,

Mooring devices and diving buoyancy control devices and nuclear reactor waste disposal equipment and reactor facilities of nuclear marine ironworks plant (672) constituting reactor facility (805) with multi-purpose high temperature gas Safe harvesting of minerals before and after operation A dual structure block tank dust collector 794 equipped with a nuclear radiation leakage control of the nuclear reactor facility in the facility unit 811 and a floating structure block tank dust collector 794 installed inside the nuclear reactor facility to control the mineral collection facility 811 included in the main body 1 of the marine steelworks, A facility adjustment portion 811a of the hull position moving construction machine; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

Referring to FIG. 87, a production power center including a facility control unit 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituting an interior of a marine steelworks main body 1 according to an embodiment of the present invention, A method for manufacturing a marine steelworks having a cutter and a robot 912 by a remote control of a furnace apparatus provided inside a control chamber 781. The method of manufacturing a marine steelworks according to an embodiment of the present invention includes the production of a mineral collection facility 811 A production method of a marine steelworks having a furnace apparatus constituted inside a power control central chamber 781 and provided with a cutter and a robot 912 by remote control is shown as a side view and a sectional view of an essential mineral collection facility 811, A method of manufacturing a marine steelworks having a cutting machine and a robot (912) by the same remote control as the nuclear waste disposal apparatus constituted inside the central control room (781)

As shown in FIG. 87, in the repair facility for a failure in the nuclear reactor with the multi-purpose high temperature gas constituting the nuclear power plant 672,

The piping line of the reactor installation is shut off by the safety valve 472 in preparation for a period when the inspection work period is longer than three months,

The boiler 783 of the thermal power generation is operated to supply the high-temperature and high-pressure steam to the mineral collecting facility 811 so that the emergency power generation operation is further provided. In the case of failure in the reactor facility, To ensure the safety of nuclear power generation facilities by safe and continuous operation of nuclear power plants inside nuclear power plants,

At the time of renovation of reactor facilities,

A nuclear waste disposal device remote control cutter and a robot 912 device are provided in the production control central control room 781 of the mineral collecting facility 811 during operation of the nuclear power plant of the nuclear power plant. A dual structure block tank A nuclear waste disposal unit of a nuclear power plant included in a mineral collection facility (811) constituting the inside of a main body (1) of a marine steelworks having a dust collector is provided with a multi-purpose high- A facility control unit 811a of the floating picket hood position shifting construction machine included in the mineral collection facility 811 constituting the inside of the ship 1; A marine hydro-nuclear power generation control unit 811b for generating power production; A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission; A harmful red tide blocking preventive control unit 811d that excludes the meteorological condition restriction by a disaster prevention device, a lifesaving structure and sinking prevention vessel control unit 811e, A ship control unit 811f corresponding to the wind and waves; A submarine resource transport unit 811g connected to the marine tunnel transport device 941; And an electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616, and the manufacturing method of the marine steelworks.

72 to 87 are schematic diagrams illustrating an embodiment of a marine steelworks having a furnace for smelting metallurgy and a construction machine according to the present invention.

In a preferred pure hydraulic control exercise,

The examples were conducted five times.

[Embodiment 1] In basic training

First,

First, the process of forming the pressure can be explained using the hydraulic hand pump.

Second, the pressure relief valve pressure setting method can be performed.

Third, it is possible to check the cracking pressure of the hydraulic pressure relief valve.

The following exercises follow

First, in the hydraulic hand pump practice

First, the parts necessary for the training are selected and fixed on the fixed plate.

Second, piped parts are arranged like a circuit diagram.

을 닫힘 상태로 전환한다.Third, the shut-off valve of Figure 6-1

To a closed state.

에 기름을 1.5ℓ 정도 채운 후 유압 셋을 오 프(Off) 시킨다.Fourth, the power of the hydraulic set is turned on,

Fill the oil to 1.5 liters and turn off the hydraulic set.

와

를 완전 개방 상태로 전환 후 핸 드 펌프를 일정하게 회전시키면서 압력 게이지 p 0의 상태를 관찰한다.Fifth shut-off valve

Wow

After the pump is turned to the fully opened state, observe the state of the pressure gauge p 0 while rotating the hand pump constantly.

를 서서히 닫힘 상태로 전환하면서 핸 드 펌프를 회전시킬 때 압력 게이지 p 0의 상태를 관찰한다.Sixth shut-off valve

Observe the state of the pressure gauge p 0 when turning the hand pump while slowly switching to the closed position.

를 어느 정도 닫힘 상태로 유지하고

는 완전 개방 상태로 전환 후 핸 드 펌프를 회전시킬 때 펌프 흡입 측의 변화를 관찰한다.Seventh shut-off valve

To a certain degree in a closed state

Observes the change in the suction side of the pump when the hand pump is rotated after switching to the fully opened state.

Discuss the results of the fifth, sixth and seventh sessions after arranging the eighth exercise device.

The following is a hydraulic pressure relief valve exercise.

First, select the parts needed for the exercise in Figure 6-2 and place it on the fixed plate and fix it.

The following parts are piped as shown in the circuit diagram.

를 열림 상태로 전환한다.The shut-off valve

To the open state.

의 조정나사를 반 시계 방향으로 완전히 돌린다.Fourth, the pressure relief valve

Turn the adjusting screw of the screw fully counterclockwise.

Fifth, the power of the hydraulic set is turned on (O n).

Sixth, the pressure of a pressure gauge p 1 until 50 kg _f / cm ² and turn the adjusting screw of the pressure reels re-program the valve in a clockwise direction.

를 닫힘 상태로 전환한다.Next, turn off the power of the hydraulic set, and then shut off valve

To the closed state.

를 서서히 개방시키면서 압력 릴 리 프 밸브가 열려 액 주 관

로 기름이 떨어질 때의 압력을 압력 게이지 p 1로 확인한다.Next, after the power of the hydraulic set is turned on, the shut-

The pressure relief valve is opened and the liquid pipe

Check the pressure when the oil is dropped by the pressure gauge p 1.

The working pressure of the eighth pressure relief valve is discussed in the ninth.

The final pressure gauge p 1 at 40 kg _f / cm ² 30 kg _f / cm ² after re joseonghan a pressure relief valve so that the repeating (7), (8), (9) a process for each case to create a Table 6-1.

Discuss the final result.

The following flow-pressure characteristics of the hydraulic pump are shown below

First, select the parts necessary for the exercise in Figure 6-3 and place it on the fixing plate and fix it.

Second, piped parts are arranged like a circuit diagram.

를 열림 상태로 전환한다.Third, the shut-off valve

To the open state.

를 시계방향으로 조정하여 완전 폐쇄 상태로 전환한다.Fourth, the flow control valve

To the fully closed state.

Fifth, the power of the hydraulic set is turned on (O n).

을 시계방향을 돌려 p 1 게이지의 압력을 50kg_f/cm² 되도록 조정한다.Sixth, the hydraulic relief valve

Turn clockwise to adjust the pressure of p 1 gauge to 50 kg _f / cm ² .

를 반 시계 방향으로 돌려 p 1 게이지의 압력을 10kg_f/cm²이 되도록 조정한다.Seventh, the flow control valve

Turn counterclockwise to adjust the pressure of p 1 gauge to 10 kg _f / cm ² .

의 셧-오 프 밸브를 폐쇄 상태로 전환한다.Eighth, the power of the hydraulic set is turned off and the flow meter

The shut-off valve of the shut-off valve is closed.

Ninth, the power of the hydraulic set is turned on (O n).

에 1.5ℓ의 기름이 채워질 때까지의 시간을 측정하여 표 6-2에 기록한다.In the tenth, using a stopwatch,

Is measured in 1.5 liters of oil and recorded in Table 6-2.

To eleventh, When the pressure of the pressure gauge _{p1 20, 30, 40kg f /} cm 2 il repeats the processes of (8), (9), respectively.

For the twelfth, discuss the results.

The fluid flow practice below is shown in the circuit diagram below.

In Step 1, select the parts necessary for the exercise in Figure 6-4 and place it on the fixing plate and fix it.

In the second step, piped parts are arranged like the circuit diagram.

를 열림 상태로 전환한다.In the third step, the shut-off valve

To the open state.

In the fourth step, the hydraulic pressure set is turned on (O n).

을 조정하여 p 1 게이지의 압력을 40 kg f/㎠ 되도록 셋 팅 한다.In the fifth step, the hydraulic relief valve

To set the pressure of p 1 gauge to be 40 kg f / cm 2.

In step 6, power off the hydraulic set.

는 오리 피 스 투명블록 P포트와 A포트에 유압 배관을 한다.Step 7 is a step-

To the orifice clear block P port and A port.

In step 8, the hydraulic pressure set is turned on (O n).

In step 9, the pressure before and after the orifice clear block is measured with p 1 and p 2 gauge, and the flow state of the fluid is observed.

를 오리 피 스 투명블록 P-B, 슬로 틀 투명블록의 P-A, P-T에 각각 유압배관을 한 후 8단계, 9단계 과정을 반복하여 표 6-3에 기록한다.Step 10 is a step-

To the orifice transparent block PB and to the sloped transparent block PA and PT, respectively. Repeat steps 8 and 9 to record in Table 6-3.

Step 11 discusses the results.

[Embodiment 2] In the control of the hydraulic single cylinder,

For the next exercise goal

Step 1 can understand the structure of a single cylinder and explain its function.

In the second step, the functional relationship between the velocity and the force of the piston can be understood and calculated to calculate the value.

It is to be understood that the present invention is not limited to the above-described embodiments, but various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention. The scope of the present invention is not limited to the embodiments described above and should be determined by the equivalents of the appended claims, as well as the appended claims.

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""

"자 형태의 지 그),(23)샤 클,(24)볼트,(25)너트,(26)와 샤,(27)외부블록탱크 외부 위치로 결합 분리 해지용 힌지,(27a)힌 지 용 ㄱ 형의 러 그 핀 연결축,(27b)힌 지 용 장축의 연결축,(28)플랜지 또는 선체의 벨 러 스 터 바라 싱 탱크 흡입구 이물질 접근 차단용 플랜지 마개철망,(29)카플 링,(30)카플 링 암 나사 산 몸체,(31)카플 링 수 나사 산 몸체,(32)가스 켓 트 또는 고무패킹,(33)노즐호스 장비 거치대,(34)집수정 탱크 또는 안전 탱크,(35)레 듀 사,(36)고성능 수중펌프,(37)펌프 수차,(38)토 출 분사 수,(39)물 막 또는 커 텐 물 막,(40)소방정,(41)감지노끈,(42)바스켓,(43)이중비닐텐트 또는 봉지,(44)엘 보 또는 티 이 엘 보,(45)소방용 펌프,
(46)동력 전원 공급장치 전원,(47)인버터,(48)인버터 브 이오,(49)억 세 스 포인터,(50)인터넷 망,(51)입 형 다단펌프 또는 관제 서버,(52)모니터,(53)펌프 제어 보드 또는 타 구어 윈치 콘 트 롤 박스,(54)근거리 무선통신안테나,(55)근거리 무선통신장치의 무선통신제어모듈,(56)디스플레이,(57)전자제어장치 에이 디 이씨,(58)스위치 입력회로,(59)전자제어장치 엠 씨 유,(60)전자제어장치 디 이에 이씨,(61)과전류차단기 브레이크,(62)전원부,(63)디스플레이 화면,(64)아날로그입력,(65)디지털입력,(66)각 펌프의 온 오 프 제어를 위한 스위치 메인스위치 버 턴,(67)보조스위치 버 턴,(68)컴퓨터 전산망 입력,(69)현재 압력 값 압력설정수치의 설정압력 값 인식명판,(70)메모리, (71)동력전선,(73)방재물질 혼합기 믹서,(74)이중 관 구조 블록배관라인,(74a)내부블록배관,(74b)외부블록배관,(75)헝겊 꺼즈,(76)솔레노이드밸브(77)애드벌룬,(78)비행선,(79)가스통,(80)공기압축기,(81)모바일서비스,(82)휴대용단말기,(83)저압차단밸브,(84)비상밸브,(85)감압밸브,(86)제1압력체크센서,(87)제2압력체크센서,(88)전자제어유닛,(89)양수 관,(89a)수직 하향 관,(89b)수직 상향 관,(90)볼 밸브핸들,(91)드 렌 처 헤드,(92)밸브 내부디스크,(93)비상 싸 이렌,(94)최초발화원인물질 스파크 또는 낙뢰,(95)전신주,(96)변압기,(97)레 듀 사 붓 싱 소켓,(99)점멸 경고등,(100)파라핀노즐마개 또는 양초,(101)압력계,(102)감지센서바이메탈,(102a)열전대의구성방식,(102b)열 전류 발생,(102c)열기전력 발생,(102d)측정점,(102e)기준점,
(103)감지센서 열전 대온도계 스위치,(103a)열 전대 온도계의 구성방식,(103b)측 온 한계,(103c)온도 1,(103d)전류계 온도의 눈금,(103e)금속A,(103f)금속B,(103g)전위차가 발생,(103h)열 전대와 보상도선,(103i)측 온 접점,(103j)열 전쌍,(103k)보상접점,(103l)보상도선,(103m)기준접점,(103n)열전대의종류,(103o)보호관이 없음,(103p)보호관,(103q)고온물체,(103r)보호관이 있음,(103s)시 스 형,(103t)측 온 단자,(103u)측 온 접점,(103v)스 텐 금속 시 스,(103w)보호관 부착 백금 측 온 저항체,(103x)마 이 카,(103y)백금선,(103z)자기,
(104) 레벨 또는 압력스위치,(105)방 유량 체크용 유량계,(106)동력모터제어모듈,(107)밸브스위치작동용 추 또는 크레인 붐 대 레벨 유지 웨 이 트 용 추,(108)과대 압력 방지스위치 또는 스위치박스,(109)공기호스,(110)공기호스 연결장치의 닛 플,(111)스프링 쿨 러 헤드,(112)반사 관,(113)가용금속용 퓨 우즈,(114)정지밸브 또는 수도밸브,(115)지하매설관,(116)주 탑 또는 철탑 또는 블록 철탑,(117)부자,(118)부자회로개폐기,(119)벨,
(120)경보밸브,(121)시험밸브,(122)고압수도펌프,(123)레버 블 럭,(124)소화기(소화기a, 소화기b, 소화기c, 소화기D, 소화기e, 소화기f) (125) 체인,(126)실린더,(127)피스톤 또는 피스톤펌프,(128)소화기 고정용 핀,(129)빗장 장 금 장치,(130)인명구조 용 튜브,(131)로프,(132)컨테이너,(133)앙 카 볼트,(134) 라디오존데,(135)구동바퀴 로라 용,도 루레,(136)레 귤 레 이 트,(137)동체에 감긴 밧줄이나 쇠사슬로 수문개폐 조절장치용 타 구어 윈치,(138)시린 더,(139)철 개 망태,(140)터빈펌프,(141)케 싱,(142)베인 펌프 또는 가이드 베인,(143)임 펠 러,(144)다 이어 후 렘 펌프,(145)고압저장탱크,
(146)프로펠러펌프 또는 프로펠러,(146a)가변익 프로펠러,(146b)리더 프로펠러,
(147)다단식나사 공기 압축기 그리고 나사펌프,(148)플 런 저 펌프,(148b)사 축 식 플 런 저 펌프,(148c)레 이 디 얼 플 런 저 펌프,(149)철재 빔,(150)방재펌프 제어시스템 또는 관제시스템,(151)오일 냉각기,(152)맨홀 덥게,(153)해치 카 버,(154)방화문,(155)글 랜드 패킹,(156)매 커 니 컬 시일 또는 각개의 시일,(157)제트펌프,(158)황토,(159)방화사,(160)옥내소화전상자,(161)자동소화전,(162)호스걸이,(163)질식 가스,(164)불연성 가스의 이산화탄소, (165)보강 철판,(166)성냥불(a) 또는 발화물체(화재유형별의 A급, B급과 C급으로 분류함),(167)나사 탭, (168)송수구 또는 소방방재 배관 라인,(169)방수 구,(170)내부냉각기,(171)배기가스,(172)인명구조겸용 침대노즐,(173)가스 렌 지 또는 버너,(174)탄산가스,(175)하론 가스,(176)핼 륨 가스,(177)발화물질 파라핀테이프,(178)비 발화물질 철사,(179)소화전(단구형a,쌍 구 형b),(180)비닐포대,(181)방재공기배관라인,(182)후미냉각기,(183)리밋스위치 또는 리 미트 스위치,(184)무인카메라,(185)끝이 뾰족한 틈새 결합공구 지 그대 쇄기,(186)스프링,(187)무인점화기 스파크라이터,(188)구명정,(189)압력탱크용 헤드 탱크,(190)플 렉 시 블 고압호스 또는 유압호스,(191)도입 관 또는 수압관,
(192) 동력모터인 전동기 몸체,(193)후드,(194)스냅 링,(195)팬,(196)몸체프레임,(197)몸체전방 보강 철판,(198)회전축,(199)회전자조립,(200)전방회전 축 받 이,(201)고정자조립,(202)모터 보호용 주물 프레임,(203)단자박스,(204)인양볼트,(205)단자박스 카 버,(206)후방회전 축 받 이,(207)후방 보강 철판,(208)공극,(209)팬 카 버 또는 보호 카 버,(210)회전자 철심,(211)고정자 철심,(212)고정자 권선,
(213) 활성 막 식 가스 홀드 업 장치,(214) 필터,(215) 배기 탑,(216)방사능 핵폐기물 저장탱크,(217)여과기 또는 여과 재,(218)방사능 측정기,(219)모니터 링 포스트,(220)이중 관 구조 드럼통,(221) 등변 산 형 강,(222)우라늄 광산,(223)옐 로 케 인 크,(224)핵폐기물[＜＜＜,＞＞＞],(224a)고체 핵폐기물,(224b)액체 핵폐기물,(224c)기체 핵폐기물,(225)철근 콘크리트 매트,(226)엔진발전기,(277)터빈회전 축 받 이,(228)재처리공장,(229)전환공장,(230)농축공장,(231)전환·가공공장,(232)탐조등,(233)제련공장,(234)에어 드라이어,(235)불씨,(236)불꽃,(237)불기둥,
(238)공유수면 매립지의 조절 축,(239)재순환펌프,(240)압력 제어 풀,(241)급수펌프,(242)순환수펌프 또는 1차 주 냉각계통 순환펌프,(243)냉각재 펌프 또는 2차 주 냉각계통 순환 펌프,(248)크랭크,(249)링크대,(250)푸 레,(251)감속기, (252)브 이 밸 트,(253)플 런 저,(254)고정핀,(255)타임 머,(256)케이블 카 아,(257)공기밸브,(258)안전밸브,(259)자동밸브,(260)드 레인 밸브,(261)밸 트 카 버,(262)흡입필터,(263)압축기 본체,(264)펌프 수차,(265)메인밸브,(266)산림,(267)터빈 또는 회전날개,(268)플라이 휠,(269)흡입구,(270)토출구,(271)공 운전 방지장치,(272)펌프전원,(273)제어 전원,(274)비상운전회로,(275)직류파워공급회로,(276)마이크로 콘 트 롤 유니 트,(277)디 아이피 스위치설정회로,(278)디스플레이회로,(279)M/C 구동신호 접점출력회로,(280)모터 과부하 신호입력회로,(281)인버터 운전 데이트 입출력회로,(282)압력감지회로,(283)외부상태 입력회로,(284)토 출 압력 트랜스 미 터어,(285) 흡입/토 출 스위치,(286)베 드 프레임,
(287)냉각수 또는 냉각수 입구,(288)유 분리탱크,(289)흡입밸브,(290)기어드라이븐,(291)건조기,(292)이중 관 구조 물 저장탱크,
(293)수문,(293a)데 인 터 게이트,(293b)롤링 게이트,(293c)설계수위,(293d)수면,(293e)앵커부문 고정부,(293f)고정부,(294)수로 또는 회전수로,(295)수조 탱크,(296)게이트 밸브,(297)리 턴 밸브,(298)부시 또는 트로틀 부시,(299)드 렌 처 헤드(a,b,c,d)의 종류,(300)진동경보장치,(301)드 레인,(302)역 정지 밸브,(303)고압 볼 탱크,(304)양수펌프,(305)유량제어용 버터플라이밸브,(306)중탄산소다,(307)재유입구,(308)센 튜 리 퓨 우 걸 펌프,(309) 오수펌프,(310)스파이 럴 케 싱,(311)블류우트 펌프,(312)후드 밸브,(313)양수 구,(314)펌프 본체,(315)플 로 트,(316)볼 밀어넣기 기기,(317)플 랙 스 블 카프 링,(318)플 로 트 스위치,(319)뒷날개,(320)퍼올림 밸브,(321)빨아올림 밸브,(322)분출 수면 계,(323)실제 양정,(324)분출 양정,(325)제트펌프,(326)기어펌프,(327)윙 펌프,(330)분리 실,(331)마그넷 스위치,(332)핵폐기물건물,(333)빌딩 또는 대형건물,(334) 밸런스,(335) 언밸런스,(336)옥내 소화용 펌프,(337)로터리펌프,(338)로터리 회전자,(339)프라이 밍,(340)자 흡 식 펌프,(341)축 류 펌프,(342)혼 류 펌프,(343)점성펌프,
(344)원자력발전소의 이중구조 블록탱크 제조설치 공정의 연결축,
(344a)가(AB)변의 블록탱크,(344b)나(BC)변의 블록탱크,(344c)다(AC)변의 블록탱크,(344d)라(AR)변의 블록탱크,(344e)마(AQ)변의 블록탱크,(344f)바(AP)변의 블록탱크,(344g)사(AO) 변의 블록탱크,(344h)자(AM) 변의 블록탱크,(344i)아(AN) 변의 블록탱크,(344j)갑(ABC),삼각형 블록탱크,(344k)을(AB "C),삼각형 블록탱크, (344l)병(ARS),삼각형 블록탱크,(344m)무(AQT),삼각형 블록탱크,(344n)갑 자(AOB),삼각형 블록탱크,(344o)을 축(ANW),삼각형 블록탱크,(344p)병인(AMX),삼각형 블록탱크,(344q)차(DE)변의 블록탱크,(344r)카(BD)변의 블록탱크,(344s)타(CE)변의 블록탱크,
(345)글 랜드,(346)주 액 랜턴 링 부착패킹,(347)랜턴패킹,(348)2중 글 랜드 형 패킹,(349)드 로 틀 부시 부착패킹,(350)냉각수출구,(351)봉 수,(352)냉각수입구 또는 냉각수배관라인,(353) 슬리 이브 내면 냉각병용 워 터 재킷부착패킹,(354)슬리이브의 내부 냉각 실,(355)보조 글 랜드,(356)누설액의 냉각 실,
(357)공유수면 매립지의 분배 축,(358)글 랜드 패킹 여덟 가닥 짜기,
(359)봉지 짜기,(360)격 자 짜기,(361)플 래 싱 구멍,(362)O링,(363)스 톱 더,(364)중동 링,(365)밀봉 단면,(366)시 이 트 링,(367) 피동 링,(368)퀀 칭,(369)쿠 울 링,(370)되 돌림 관,(371)핸들(Handle),(372)격벽, (373)축 방향의 드 러 스 트 하중,(374)임 펠 러 전면에 작용하는 압력,(375)임 펠 러 뒷면에 작용하는 압력,(376)밸런스 호울,
(377)흡입압력,(378)배면 압력,(378)밸런스구멍,(380)전면 웨 어 링,(381) 토출압력,(382)배면 베어링 링,(384)뒷날개,(385)뒷날개 설치로 인한 압력분포와 임펠러,(386)다단펌프의 임 펠 러 배치,(387)수주분리,(388)수주결합,(389)수격작용,(390)축 봉 부,(391)냉각방식의 매 커 니 컬 시일,(392)스 트레이너,(393)수격펌프,(394)옥상 소방 운전실 또는 크레인운전실,(395)높고 낮은 산,(396)폴 저엔 코 드(Pulse Encoder),(397) 스 피 드 콤 멘 드(Speed Command),(398)모터 스 피 드 또는 변속기,(399)디스크 브레이크(DISC Brakes),(400)방파제 겸용 방제탱크,(401) 안전로프그물망, (402)공기 압축 실(Air Chamber),
(403)슬 루 우 브 밸브,(404)밸브몸통,(405)밸브 덥 개,(406)슬 루 우 스 밸브,(407)패킹 누르게,(408)패킹 누르게 너트,(409)밸브,(410)핸들,(411)핸들 너트,(412)패킹,(413)웨 지 게이트 밸브,(414)단체밸브,(415)플 렉 시 블 밸브,(416)패럴렐 슬라이드밸브, (417)더블 디스크 게이트 밸브,(418)스 톱 밸브,(419)플랜지형 글로 우 브 밸브,(420)플랜지형 앵글밸브,(421)몸통,(422)본 네트 덥 개,(423)디스크,(424)덥 개 붙임 밸브 시트,(425)밸브대,(426)밸브 누르개,(427)핸들,(428)덥개 끼움 링,(429)패킹 누르개 링,(430)패킹 누르개,(431)나사 끼움 형,(432)덥 개 볼트,(433)패킹 누르개 볼트,(434)핀,(435)덥 개 볼트용 너트,(436)패킹 누르개 보울트용너트,(437)핸들 너트,(438)멈춤 나사,(439)와셔,(440)패킹,
(441)가스 킷,(442)밸브 누르게,(442a)평면 누르게,(442b)원뿔 누르게,(442c)구면누르게,(442d))스 터 트 누르게,
(443)콕 1형 (444)콕 2형,(445) 청동나사 넣기 메인 콕,(446)주철 플랜지형 글랜드 형,(447)청동 나사 넣기 글 랜드 콕,(448)삼 방 콕,(449)사방 콕,(450)핸들 콕,
(451)첵 밸브,(452)스윙 형 첵 밸브,(453)리프트형 첵 밸브,(454)첵 밸브몸통,(455)덥게,(456)디스크,(457)디스크 핀,(458)플러그,(459)조정밸브,(460)감압밸브,(461)파이로 트 작동 자력 식 감압밸브,(462)2차 측 감지구멍,(463)다 이어 프 램,(464)파이로 트 밸브,(465)배기연돌,(466)메인밸브,(467)메인밸브스프링,(468)조정스프링,(469)오 토압력조절밸브,(470)나사형 오 토 압력조절밸브(a),(471)플랜지형 압력조절밸브(b),
(472)안전밸브,(473)스프링식 안전밸브,(474)리리 이 프 식 안전밸브,(475) 증기용 포 프 스프링식 안전밸브,(476)포 프 식 안전밸브,(477)온도조절밸브,(478) 오토 급수기,(479)오 토 급수기(a),(480)오 토 수준 조정기,(481)공기빼기밸브,(482)오 토 열 동 형 증기용 공기 배기밸브,(483)바 켓 트 온수형 오 토 공기 배기밸브,(484) 냉매배관용 밸브,(485)냉매 스 톱 밸브,(486)팩 드 밸브,(487)팩 레 스 밸브,(488)팩 레 스 밸브,(489)팽창밸브,(490)다 이어 후 렘 형 팽창밸브,(491)벨로 우 스 형 팽창밸브,(492)부자 밸브,(493)냉매용 압력조정밸브,(494)전자밸브,(495)오 토 급수밸브,(496)수전용 수도꼭지,(497)지수 선,(498)분수 전,(499)볼 탭,
(500)해양제철소의 선체안전 보존용 피뢰침,
(501)나사 이음 형 Y형 스 트레이너 외형도(a) 단면도(b),(502)U형 스 트레이너,(503)V형 스 트레이너,(504)관 고정금속,(505)터 언 버클 부 지지밴드,(506)지지밴드,(507)롤러 부 지지밴드,(508)수직 관 매몰용 밴드,(509)철재 안경밴드,(510)바닥밴드,(511)트랩,
(512)일반형 수전용 수도꼭지,(512a)동체가 긴 횡(橫) 수전,(512b)포 마 쓰 식 동체가 긴 횡(橫) 수전,(512c)동체가 긴 만능 수전, (512d)동체가 짧은 횡(橫) 수전,(512e)포 마 쓰 식 동체가 짧은 횡(橫) 수전,(512f)종 수전,(512g)만능 식 종 수전,(512h)카프 링 횡 수전,(512i)산 수전,(512j)위생 수전,(512k)탕 수 혼용 전,
(513)위생 플래시 밸브,(514)병렬 형 목욕 수전,(514a)횡 자재 수전,(514b)횡 자재 수전,(514c)종 자재 수전,(514d)포 마 쓰 식 횡 자재 수전,(514e)의과 용 수전,(514f)횡 화학 수전(단구),(514g)횡 화학 수전(양구),(514h)종 화학 수전(단구),(514i)목이 긴 종 화학 수전,(514j)종 화학 수전(양구),
(515)건축 설비용 수전의 후래 시 밸브(푸 시 버 턴 식),(515a)건축 설비용 수전의 후래 시 밸브(A형),(515b)건축 설비용 수전의 후래 시 밸브(소변기 용),
(516)소변기 세정 수전,(517)믹 싱 밸브(3구;매물용),(517a)믹 싱 밸브(노출형),(518)핸 드 샤워,(519)사와 헤드,(520)핸 드 샤워,(521)샤워 셋 트,
(522)앵글형 열 동 식 트랩,(523)스트레이트 열 동 식 트랩,(524)버 키 트 트랩,(525)상향식 버 키 트 트랩,(526)하향식 버 키 트 트랩,(527)플 로 우 트 트랩,(528)임 펄스 증기트랩,(529)수도꼭지몸통,(530)패킹 상자,(531)패킹 누르게,(532)꼭지대,(533)핸들,(534)디스크,(535)디스크패킹,(536)내수패킹,(537)내 노화 성 패킹,(538)테 프론 막,
(539)열팽창이 큰 금속,(540)열팽창이 작은 금속,(541)타임 머 또는 레벨스위치,(542)하 이 레벨 알람,(543)베 이 컴 페 일 루 어 알람,(544)스 멀 릴레이 알람,(545) 알람 리 셋 트 버 턴,(546)로 워 레벨스위치,(547)플 랩(flap;밸브의 혀),(548)사운 드 캡,(549)첵 노즐,(550)루 버 카 버,(551)플 로 이 트,인 셔 어 트 스위치,(552)지시눈금스케일,(553)오버 플 로 워 콘 넥 션,(554)벤 트 파이프 콘 넥 션,(555)플랜지 콘 넥 션,(556)이중비닐 개방형 침 바늘,(557)솔레노이드밸브 몸체,(558)카 버,(559)스 폴,(560)스 플 패킹,(561)파이로 트,(562)코일,(563)콘 넥 터,(564)메니 폴 드(L;P T Y 8"대유량형),(565)매니 폴 드(S;M 5 소유량 형),(566)나사볼트,(567)공기호스 결속 구 유니온 카플 링,(568)유니온 몸체결속 카플 링,(569)2위치 싱글,(570)2위치 더블,(571)L L; 중앙 수직형,(572)L; 수직형,(573)수평형; M,(574)F;피 팅 포함,(575)도시기호 싱글,(576)더블,(577)에이 취,(578)아이,(579)제이,(580)마이크로 스위치,(581) 직접 배관형,(582)베이스 배관형,(583)파 이어 댐 퍼,(584)댐 퍼 스핀들,(585)닥터 벤 츄 레이션,(585a)닥터 벤 츄 레이션 흡입구,(585b)닥터 벤 츄 레이션 배출구,(586)몽골 피에의 열기구,(587)블 량 샤 르 의 열기구,(588)켈 리의 열기구,(589)증기비행선,
(590)교각겸용 이중구조 지주 블록탱크,
(591)지주탱크 상단의 바지선 선체,
(592)지주탱크 하단의 바지선 선체,
(593)소형의 해양제철소의 부양식독,
(594)중형의 해양제철소의 부양식독,
(595)대형의 해양제철소의 부양식독,
(596)이중구조 내부블록탱크,
(597)고장력 스 테인 레 스 강의 철판,
(598)이중구조블록탱크,(599)이중구조 외부블록탱크,(600)블록탱크용 제1보조 형 강,(601) 블록탱크용 제 2보조 철판,(602)제 1보조 형 강과 제2보조철판의 모서리부위 용접 결함을 해소하기 위해 절단된 부위 스냅 홀,(603)블록탱크 선체 분해결합 휴대용 러 그 연결축 볼트,(603a)볼트의 나사 산,(604)블록탱크 선체 분해결합 휴대용 러 그 연결축 분해결합 너트,(603b)너트의 나사 산,(605)블록탱크 선체 분해결합용 제2보조철판 수직격벽,(606)블록탱크 선체 분해결합 휴대용 러 그 핀 연결축,(607)블록탱크 선체 분해결합 휴대용 러 그,(608)블록탱크 선체 분해결합 휴대용 러 그 핀,(609)블록탱크용 선체 분해결합용 제 2 보조철판 수평격벽,(610)블록탱크 선체 교통장치용 격벽맨홀, (611)인공위성,(612)우주로켓,(613)블록탱크 블록단위 선체 분해결합용 러 그 힌 지 소켓,(614)블록탱크 블록단위 선체 분해결합용 대형플랜지,(615)대형플랜지 접속연결구 접합부위 가공 홀 또는 러 그 가공 홀 작 키 베 드 가공 홀,(616)계류장치 부양 식 독 바지선 선체 균형 조절장치용 작 키 베 드,(616a)블록탱크 블록단위 선체 분해결합 위치이동 조절장치용 러그 장 공 홀,(617)블록탱크 선체 분해결합 이중 관 구조 탱크교각 건설용 부 교 식 새들 형틀,(618)블록탱크 선체 교통장치용 가이드레일,(619)헬리콥터 정류장,(619)블록탱크 블록단위 선체 분해결합조절장치용 유압회전실린더기계 또는 블록단위 선체의 드릴 선반 로터리 실린더기계의 랙＆ 피니 언 형(N R P) 실린더기계,(620)유압회전실린더(로터리 실린더[랙＆피니 언 형-N R P ]),(621)블록탱크 블록단위 선체 분해결합조절장치용 밴드 지 그대,(622)블록탱크 블록단위 선체 부침조절장치용 벨 러 스 터 버터플라이밸브,(623)블록탱크 블록단위 선체 분해결합조절장치용 유압실린더 유압 작 키,(624)블록탱크 선체 교통조절장치용 유압 실린더 도어 또는 블록탱크 블록단위 선체 분해결합조절장치용 유압실린더기계.(625)마개철판,(626)원자력발전소 또는 화력발전소,(627)엔진제어시스템용 엔진제어모듈,(628)부 이 깃대 고무풍선,(629)밧줄용 로프,(630)로프 매듭갈고리,(631)비상계단,(632)승강기용 앨 리 베 이 트,(633)컨베이어,(634)인양선 또는 침몰방지 체류 선,(635)진공펌프,(636)예인선,(637)반 잠수작업선,(638)볼 라 드,(639)앙 카,(640)앙 카 용 체인,(641)송풍기 또는 쿨 링 팬,(642)공기 보온용 히터 팬,(643)인공위성발사대,(644)계류탑,(645)전기자석 마그넷,(646)우주로켓발사대,(647)헬리콥터,(648)체인 블 럭,(649)황토 세멘트 혼합장비 믹서기계,(650)애 자,(651)크레인 붐 대,(652)크레인 붐 걸 고리,
(690)초고압 변전소,(691)1차 변전소,(692)송전소 내부 중심에 7가닥의 강철선,(693)54가닥의 알루미늄선,(694) 연료호스,(695)송전선,(696)해양터널 횡단철도 변전소,(697)중간 변전소,(698)대단위 공장,(699)중 단위 공장,(700)2차 변전소, (701)소단위 공장,(702)가정(태양열 주택이 포함됨),(703)스 탭 발판 걸 고리,(704) 전선 균형용 케 인 크 의 초고압 전선 균형 애 자,
(705)핵폐기물처리 관 제조공정 분배 축,(706)소구경 전기저항 용접 관,(707)원재료,(708)언 코일 링,(709)레벨 링,(710)사이드 트리 밍,(711)절단과 대강 연결,(712)성형,(713)용접과 내외면 비 드 제거,(714)초음파와 와류 탐상시험,(715)용접부열처리,(716)공 냉,(717)수 냉,(718)진원성형,(719)절단,(720)평 평도 시험,(721)구조 관,(722)교정,(723)중간적재,(724)유도가열로,(725)에 스 알엠(S R M),(726)열간 절단,(727)면 취,(728)수압시험,(729)초음파와 와류탐상시험,(730)무게와 길이측정기,(731)육안 및 치수검사,(732)나사,(733)도 유,(734)일반 배관용,(735)아연도금,(736)아연도 강관,(737)보일러 튜브,(738)냉각 대,
(739)중 구경 케 이지 성형 전기저항 용접 관,(740)코일 마게 철판 원재료,(741) 사이드 트라 밍,(742)케 이지 성형,(743)송유관,(744)초음파 탐상시험,(745)진원성형,(746)송유관(석유산업용 강관),(747) 대구경 강관,(748)엣 지 밀 링 기계,(749)3롤 밴 딩 기계,(750)포스트 밴 딩 기계,
(751)가 용접,(752)내면용접,(753)백가 후 징,(754)외면용접,(755)관 단 싸 이 징,(756)관 단,면 취,(757)X-선시험,(758)냉 간 익 스 팬 딩,(759)마 킹.포장.출하,(760)스파이랄 용접강관,(761)언 코일 링,(762)구조 관과 강관말뚝,(763)비 도복 배관용,(764) 외면 브라스트 크리 닝,(765)내면 브라스트 크리 닝,(766)내면도장,(767)1차 도장, (768)도장과 도복,(769)도복 장 강관,(770)초음파와 X-선검사,
(771)해양터널장치용 내부 전동차,
(772)원자력발전기 또는 터빈발전기,
(794)이중구조 블록탱크 금속광물 채집기 또는 이중구조블록탱크집진기,
(795) 중유탱크, (796) 중유,
(797) 유조선 또는 화물선,
(811)광물채집 설비부,
(811a)부양식독 선체위치이동 건설기계의 설비조절부, (811b)동력 생산을 마련하는 해양수력원자력발전 동력생산조절부, (811c)동력 전달을 마련하는 핵폐기물처리를 위한 오대양 육대주 횡단철도 변전소의 동력전달조절부, (811d)기상상태 제약을 방재장치로 배제하는 유해적조차단예방조절부, (811e)인명구조와 침몰방지 선박조절부, (811f)풍랑과 파도에 대응하는 선박조절부, (811g)해양터널교통장치(941)에 연결되는 해저자원운송부, (811h) 유압실린더기계(624)와 작키베드(616) 위치의 연결구조물로 마련하는 전자센서밸브 나사조절부,
(812) 농축우라늄 또는 우라늄 235,
(813)원자로압력용기,
(813a)압력 용기 덥 개,(813b)압력용기 상단 덮개 하부,(813c)압력용기 원통 덥 개,(813d)압력용기 원통 덥 개 상단,(813e)압력용기 원통 덥 개 상단부,(813f)입구노즐,(813h)디 플 렉 토 철판,(813i)공기 쳄 버실,(813j)버 플 철판,(813k)물,(813l)스 프 레이션 풀,(813m)밴 트 파이프,(813n)연료조립,(813p)압력용기 원통 덥 개 상단,하단조립부,(813q)드라이 벽,(813s)압력용기 원통 덥 개 하단조립부,(813t)압력용기 원통 덥 개 상단조립부,(813v)연료봉 철판,(813w)출구노즐,(813y)노심 지지조립,(813z)제어봉 안내관 조립 대,
(814) 가압기,(814a)스프레이노즐,(814b)가압보호용기,(814c)가압조절밸브,
(814d)스팀경계,(814e)가압용기 몸체,(814f)냉각수입구,(814g)가열기히터,
(815) 원자핵,(815a)핵 자, (815b)핵 력,
(816) 냉각재 또는 1차 계 나트륨 또는 2차 계 나트륨,(816a)냉각재입구 노즐, (816b)냉각재출구 노즐,
(817) 소음기,
(818) 기수분리기,
(819)유압탱크,(819a)열판,(819b)유면계(오일 포트 장),(819c)드 레 인(배 유 구),(819d)탱크 밑판,(819e)격판(버 플 플레이어),(819f)석 션 스 트레이너,(819g)위판 패킹(내 유 고무),(819h)흡입구 패킹,(819i)흡입구 뚜껑,(819j)탱크위판,(819k)에어 블 리 저 겸 주유구(콤비네이션 에어 블 리 저),(819l)탱크각판,(819m)청소 창 패킹(내 유 고무),(820)유압모터,(821)유압펌프,(822)로드 앤드 피스톤 시일,(823)피스톤 시일,(824)부 프 시일,(825)웨 어 링,(826)스 라 이 드 링,(827)디 유 부시,(828)오 링,(829)로드 시일,(830)백업 시일,(831)로드 시일 ＆ 백업시일,(832)다스 트 시일,(833)핀 다스 트 시일,(834)다스 트 위 프 시일,(835)부프링,(836)피스톤 링,(837)다스 트 링,
(839)등 변산 형 강 또는 부 등 변 산 형 강,(840)기상관측장비 레 이다,(841)원유(기름),(842)해저광물뜰채바스켓,(843)심해저탐색 수중조명,(844)버킷 또는 빠 레 트,(845)스 큐 르 드릴의 심해저 굴착장비용 굴착기,(846)앙 카 대체용 쇄기 크랭크,(847)착암기 또는 네트,(848)엑 츄 레 이 트,(849)해저광물 뜰채용 공기주머니,(850)턴 박 클,(851)교각용 레벨기초 밑 받침대,(852)고정용 쇄기 받침목,(853)아 아크 용접기 또는 아르곤용접기,(853a)용접연결선,(853b)용접 각 장,(854)파이프 랙,
(855)불도저,(855a)크 롤러형,도 저,(855b)휠 형,도 저,(855c)스트레이트,도 저,(855d)딜 터,도 저,(855e)앵글,도 저,(855f)힌 지,도 저,(855g)트리 도 저,(855h)레 이 크 도 저,(855i)하 이 드 릭 리 퍼,
(855j)도 저의 동력전달장치,
(855k)캠 기타 장치용 흡입펌프,(855l)기관,(855m)냉각계통,(855n)최종기어장치,(855o)기동 륜의 스프로킷, (855p)유동 륜의 아이 들러,(855q)조항클러치,
(856)굴 삭 기,(856a)백호,(856b)파워 셔 블,(856c)드래그 라인,(856d)어 스 드릴,(856e)크 램 셸,(856f)스키 머,(856g)리 퍼와 루터,
(857)로 더,
(858)지게차,
(859)스 크 레 이 퍼,(859a)견인 식 스 크 레 이 퍼,(859b)동력 식 스 크 레 이 퍼,(859c)에어 프 런,(859d)이 젝 트,(859e)볼,(859f)커 팅 테지,
(860)덤프트럭,(860a)트레일러,
(861)크레인 또는 기중기,(861a)기중기 구조의 각부명칭,(861b)익 스 턴 트 케이블,(861c)하중 계,(861d)브 리 들,(861e)붐 벡 스 들,(861f)메 이 로프,(861g)붐호이스트로프,(861h)상부프레임,(861i)하부프레임,(861j)호 이 스 트 로프,(861k)전방드럼,(861l)중간드럼,(861m)후방드럼,(861n)균형추,(861o)케이블 크레인,
(861p)기중기의 6개 전부장치,
(861q)갈 쿠 리 (Hook)장치,(861r)조개(Clamshell)장치,(861s)삽(Shovel)장치,(861t)긁어 파기(Drag line)장치,(861u)도량파기(Trench hoe)장치,(861v)기둥 박기(Pile driver) 장치
(862)모터 그 레이더,(862a)머플러,(862b)기관 플라이 휠,(862c)냉각팬,(862d)전후 전달 러 치,(862e)트랜스 러 치,(862f)고정기어식 변속기,(862g)주차브레이크,(862h)차등기어,(862i)트랜스 퍼 카 아 중성기어감속기,(862j)디스크 브레이크,
(862k)그 레이더의 외부구조,
(863)롤러,(863a)진동 롤러,(863b)소일 콤 팩 터,(864)노상 안전기,
(865)콘크리트 배 칭 플랜트,(865a)콘크리트 호 퍼,(865b)운반장치 차 징 차트,(865c)조정판,(865d)물 멧 처,(865e)대칭 호 퍼,(865f)스케일 프레임,(865g)저장 빈,(865h)종합벨트 컨베이어,(865i)턴 헤드,(865j)버킷 엘 리베이트,(865k)운반 시멘트 차드,(865l)조정판,(865m)기록장치,(865n)원형믹서,(865o)시멘트 사일로,(865p)스 쿠 르 컨베이어,(865a)콘크리트 호 퍼,(865b)운반장치 차 징 차트,(865c)조정판,(865d)물 멧 처,(865e)대칭 호 퍼,(865f)스케일프레임,(865g)저장 빈,(865h)종합벨트 컨베이어,(865i)턴 헤드,(865j)버킷 엘 리베이트,(865k)운반 시멘트 차드,(865l)조정판,(865m)기록장치,(865n)원형믹서,(865o)시멘트 사일로,(865p)스 쿠 르 컨베이어,
(866)콘크리트 피니 셔,(866a)스 쿠 르 스프레이,(866b)제1 스 크 리드,(866c)진동기,(866d)피니 싱 스 크 리드,(866e)가이드 롤러,(866f)가이드레일,(866g)마무리면,
(867)콘크리트 스 프 레 더,(868)콘크리트믹서트럭,(869)콘크리트펌프,(870)아스팔트 믹 싱 플랜트,(871)아스팔트 피니 셔,
(872)아스팔트살포기,(872a)동력 피동펌프,(872b)밸브제어,
(872c)분무 바,(872d)버니,(872e)버림 관,(873)골재 살포기,
(874)쇄석기,(874a)자 이레 토리 크러 셔,(874b)새시프레임,(874c)피 더 호 퍼,(874d)진동 그리스 리 피터,(874e)파쇄 헤드 부의 1차 조 크러 셔, (874f)파쇄 실 후미의 2차 조 크러 셔, (874g)진동스크린,(874h)드럼엘리베이터,
(875)공기압축기,
(876)천공기,
(877)항 타와 항 발기,
(878)사리 채취기,
(879)준설선,
(879a)펌프준설선,(879b)버킷준설선,(879c)스 팟 드 시어,(879d)운전실 또는 조정실,(879e)레 드 시어,(879f)스 팟 드,(879g)블 러 스 트 탱크,(879h)블 러 스 트펌프,(879i)레 드,(879j)기관실,(879k)디 퍼 준설선,(879l)그래 브 준설선,(879m)버킷구동장치,(879n)후부 스 팟 드,(879o)스 팟 드 윈치,(879p)버킷,(879q)좌우의전부스 팟 드,(879r)디 퍼,(879s)윈치,(879t)닻줄창고,(879u)벨트 컨베이어,(879v)그래 브,
(880)별도의 지정 건설기계,(881),(882)파일드라이버,(882a)붐, (883) 디젤파일 해머, (884)증기 해머, (885)유압크레인,(885a)피스톤 모터,
(886)타워크레인,
(886a)가 이 데릭 구조의 각부명칭,
(886b)가 이 데릭,(886c)주 측,(886d)붐,(886e)붐 호일,(886f)턴 버클,(886g)공망,(886h)3각 데릭,(886i)주 측,(886j)붐,(886k)붐 호일,(886l)레 크,
(887)드 레 그 크레인,
(887a)드 레 그 크레인의 구조,
(887b)호 이 스 트 케이블,(887c)덤 프 케이블,(887d)버킷,(887e)하부 붐,(887f)레 터 렉 트 케이블,(887g)케이블 롤러,(887h)붐 케이블,(887i)케이블 롤러,(887j)붐 호 이 스 트 케이블,(887k)케이블드럼,(887l)케이블드럼,(887m)평행 추,
(888)클 램 셀 부착물을 가진 크레인,(888a)홀딩 라인,(888b)개폐라인, (888c)클램 셀 버킷,(888d)상부프레임,(888e)하부프레임,(888f)랙 라인,(888g)로프가이드,(888h)붐 탠 던 트,(888i)브 리 들,(888j)붐 호 이 스 트 로프,(888k)전방드럼,(888l)후방드럼,(888m)평행 추,
(889)머 캐 덤 롤러,(890)탠덤 롤러,(891)탬 핑 롤러,(892)타이어 롤러,(893)트랙터,(894)트레일러,(895)램,(896)리드,(897)냉각수 냉 크,(898)파일,(899)헬밋,(900)연료펌프,(901)캠,(902)연료탱크,(903)기동장치,(904)붐 전 핀,(905)캐 드 워 크,(906) 어댑터,
(907)군사 용 탐지기 소나,
(908) 원유시추용 드릴 링 머 신의 로터리 테이블선반기계,
(909)망간 단 괴,
(910)뜰채그물,(911)흡입채집기계,(912)해저광물채취로봇,
(913) 잠망경,(914)고무풍선,(915)와이어로프 체인,
(916)이중구조 배관라인 자동 공 압 식 밸브운송장치,
(917)코 아 드릴,
(918)비이오 피 이 스키 드,(919)고무타이어,(920)버너 붐,
(921)유해적조 미생물,(922)무공해의 천연가스,
(923)공기노즐,
(924)광물채집 뚜 레 박,(925)상승기류,(926)하강기류,(927)황사먼지 또는 비누거품용 황토혼합물,
(928)이중구조블록탱크 관 교각,
(929)핵폐기물처리 이중구조블록탱크 관 교량,
(930)화학물질,(931)시멘트,(932)어족자원 확보용 그물,
(933)방재 선 또는 방제 선,(934)원유시추선,(935)시 이소 핸들용 지렛대,
(936)시추공,
(937)이중구조블록탱크 관 교량,
(938)전극 판 아노 드,(939)냉각공기방울,(940)비트,
(941)핵폐기물처리 이중구조블록탱크 해양터널 교통장치,
(942)타워크레인 시 이소 크레인 붐 대.
(943)해양 시 이소 수력발전소,
(943a)수력발전 장치용 펌프 수차,(943b)대형수력발전 장치용 펠 톤 수차,(943c)대형수력발전 장치용 프란시스 수차,
(944)대형수력발전기 시 이소 수력발전설비,(944a)수력발전장치용 회전속도 검출기,(944b)교류발전기의 전동기 계 자 코일에 전류를 공급하는 직류발전기용 여자기,(944c)고리 관 깃을 밀어 넣는 기기,(944d)상부 회전 축 받 이,(944e)회전 축 받이를 밀어넣는 기기,(944f)고정자 코일,(944g)고정자 프레임,(944h)중심부 고정자,(944i)저속냉각기,(944j)제동장치 링,(944k)제동장치 또는 잭,(944l)저속 회전축 받 이,(944m)엔진발전기,(944n)터빈 회전 축 받 이,(944o),(944p)회전 축 받 이,(944q)날개바퀴,
(945)지중선로 방재노즐 또는 공유매립지,
(946)해저선로배선 또는 공유수면매립지,
(947)부침조절장치용 컨테이너 내부용의 공기투입용 고무 튜브,
(948)용광로,(948a)용광로의 노 재 벽돌,(948b)제철소의 용광로,(948c)제철소 내부의 용광로,
(948d)구리의 용광로,(948e)광석과 코크스,(948f)고온가스,(948g)수랭,(948h)매트,(948i)가스,
(948j)용광로의 구조,(948k)고로 가스의 흐름,(948l)코크스,(948m)철광석과 석회석,(948n)열풍의 흐름,(948o)신 철,(948p)열풍 관,(948q)슬래 그,(948r)산업전기 용광로,(948s)산업전기 용광로의 부속품,(948t)용광로의 가마솥과 뚜껑),(948u)국내제철소의 첨단환경기술,(948v)종전의 국내제철소 용광로의 작업 방식도,(948w)종전의 국내용광로 작업 방식도,(948x)종전의 외국제철소 용광로의 작업 방식의 종류,(948y)종전의 외국제철소 용광로의 종류,(948z),
(949)선체의 잠수 위치조절 이동장치와 잠수 부력 조절용의 납덩이 추,
(950)온도 자동감지센서용 열전 대 온도계 스위치,
(951)유해적조 흡입 집진기용의 뜰채 바스켓 또는 빠 레 토,
(952)물의 위치에너지조절장치용 무동력펌프의 수격펌프,
(953)군사장비 잠수함,
(954)레이저 컴퓨터 절단기,
(955)핵 폭탄보다 더 강한 무기의 평화 보존형 이미지 포 토 샵,
(956)수해조절장치,
(957)해양 풍력발전소,(957a)풍력발전기와 풍력발전기풍차,(958)기상예보관측,(959)삿대 대체 사용 품 돛,(960)해양터널교통장치 또는 인공위성 일기예보 정보 수집기계,(961)우주로켓,(962)인공위성,
(963)평화주권선,(964)석유,(965)다이아몬드,(966)철,(967)주석,(968)석탄, (969)농기구,
(970)일체의 건설기계,(971)군수물자,(972)국경지역,(974)함선,(975)잠수함, (976)전투기,(977)함정,(978)핵 항공모함,(979)유류송유관,
(980)가스배관,(981)금과 은,(982)핵연료,(984)유리,(985)마노,(986)호박, (987)진주,(988)위령탑,(989)국제연합국가 또는 신한국연방국가,
(990)국제연합기구,(991)원폭,(992)수소폭탄,(993)침몰선박,(994)스위치 작동용 추와 감지센서용의 무게감량용 납덩이 추에 잠수원 잠수 부력 조절용의 납덩이 추,(995)잠수정,(996)바지선,(997)토석채집 장의 토석매립 체,(998)연안선수역,(999)공유지 및 공유수면 매립처리 조절장치,
(1000)한반도 중심지 또는 기준점,(1001)원형 3000 칸 형태로 형성한 공유지 및 공유수면매립설계장치,(1002)군사분계선,(1003)휴전선,(1004)휴전 원,
(1005)증기발생기의 증발기 구조,(1006)증기 출구 관,(1007)증기 출구 실 동체 외관,(1008)습도계 관,(1009)증기 출구 관,(1010)액면 계 관,(1011)나트륨 냉각 계 입구 관,(1012)상부 평판,(1013)연결 봉,(1014)냉각수 누설 검출 관,(1015)2차 아르곤가스관,(1016)스커트,(1017)나선형 열교환 세관,(1018)나트륨 냉각재 출 구관,(1019)반구형 하부동체,(1020)익 수 관,(1021)덥 개,(1022)동체 외관,(1023)나트륨 통로,(1024)나트륨-물 반응 생성물 방출 관,(1025)내관,(1026)모니터 링 입구 관,(1027)급수 입구 관 판,(1028)급수 입구 관,(1028a)급수 입구 실 외관,
(1041)국경선,(1042)남방한계선,(1043)북방한계선,(1044)베타 적 경제수역, (1045)한중 잠정조치 수역,(1046)중국이 주장하는 직선기선,(1047)한국이 주장하는 E E Z,(1048)일본이 주장하는E E Z ,(1049)화물선,(1050)직 경 2400 k m,(1051)한일 중간 수역,(1052)미래의 지구촌 공유지 및 공유수면매립설계,
(1053)한반도 중심지의 1°에서부터 360°의 360 칸으로 세분하여 각개의 필지,(1054),(1055)어패류산란장,(1056)엔 엘 엘(N N L),
(1057)연안선 수역 갯 뻘 지역의 조간대,(1058)월 창(MOON),(1059)핵분열,(1060)초전도발전기,(1061)초전도발전선,(1062)초전도체,(1063)전자기력,(1064)자기력,(1065)자기부상 고속도로,(1066)자기부상 열차,(1067)반도체,(1068)신소재,
(1070)이산화우라늄,(1071)연구로,(1072)동력 로,(1073)원자로 증기 취 출 계통,(1074)드 레인 펌프,(1075)가열장치,(1077)핵연료공업주기,(1078)인명구조용 복원력을 구비한 선박,(1079)전자기 추진 선의 방식도,(1080)신소재의 팽 창 압 파쇄 제,(1081)고 흡수성 수지,(1082)아이 씨 이(I.C)회로,반도체와,신소재와,로 타리 실린더(랙＆ 피니 언 형 -N R P, 620),
(1083)반경 1200 km,(1083a)남북도로연결 북한착공식 건설현장,(1083b)남북도로연결 남한착공식 건설현장,
(1084)지뢰 탐지기,(1084a)지네 형태의 지뢰 탐지기,
(1085)지뢰 제거기,(1086)지뢰,(1086a)대전차지뢰,(1086b)M 14 대인지뢰,(1086c)M 16 A1대인지뢰,(1086d)수 총류탄 및 포탄,(1086e)소구경탄,(1086f)철도관련 부수기재,(1086g)M 15 대전차,(1086h)M 16 대인(도약 식),(1086i)폭풍지뢰(발목 지뢰),(1086j)M 19 대전차,(1087)동물 이동통로,(1088)지뢰제거 폭(58m),(1089)지뢰제거 제1공병여단,(1090)용지보상 서울지방국토관리청,(1091)포장도로 서울지방국토관리청,(1092)육군건설단,(1093)리 노,(1094)마인 브레이크,(1095)불(화력),(1101)거센 풍랑 파도,(1102)티베트 고 원,(1103)몽 고 사막,(1104)만주벌판,(1105)텐 진 산맥,
(1106)제트기관의 구조,(1106a)공기 흡입구,(1106b)연료 공급 구,(1106c)관, (1106d)압축기,(1106e)연소실,(1106f)터빈,(1106g)노즐,
(1107)제트기관이 나르는 작동방식,(1108)비행기,(1109)왕복운동 기관의 구조,(1110)비행기 점검모습,(1111)바이킹 1호 탐사기,(1112)지구,(1113)화성, (1114)우뭇가사리,(1115)화성 착륙선,(1116)태양,(1117)여객선,(1118)선박의 설계방식,(1119)고속 정,(1120)구상선수,(1121)구축함,
(1122)빌지 킬,(1122a)빌지 킬 의 단면 모습,(1122b)빌지 킬 의 이음 용접선,(1122c)용접선,(1122d)수서 하부 안 곡 부의 외판,(1122e)이음 덮 판,
(1123)스 크 류,(1124)5인치 자동속사포,(1125)20㎜ 패 랭 크 스,(1126)헬기갑판,(1127)MK 32 어뢰 발사 관, (1128)하 푼 미사일,(1129)도크 장,(1130)돛단배,(1131)충 각,
(1132)파도에 의한 배의 여러 가지 흔들림 운동,(1132a)히 빙,(1132b)핏 칭,
(1132c)롤링,(1132d)스 웨 잉,(1132e)써 징,(1132f)요 잉,
(1133)파도에 의한 선체의 여러 가지 변형,(1133a)싸 검 상태,(1133b)호 깅 상태,(1133c)트 위 스 팅 상태,(1133d)선수와 선미가 서로 비 툴 린 상태,
(1134)공기 프로펠러 추진선,(1135)워 터 젯 트 추진선,
(1136)인 티 롤링 탱크,(1136a)세미 액티브 형의 인 티 롤링 탱크,(1136b)액티브 형의 인 티 롤링 탱크,
(1137)내장형 스 테 비 라 이 져 배의 구조,(1137a)배의 내부,(1137b)배의 외부,(1137c)구동 모터 및 유압펌프,(1137d)외판,(1137e)핀,
(1138)리더,(1138a)베 카 리더,(1138b)콜 트 노즐 플 랩,(1138c)프로펠러, (1138d)콜 트 노즐 또는 콜 트 노즐 리더,(1138e)쇼 텔 리더프로펠러의 외형, (1138f)아 저 폿 트 프로펠러의 외형,(1138g)머 에 이 드 폿 트 프로펠러의 외형,
(1139)조 파 저항,(1140)선미의 방향타,(1141)스 큐 르,(1142)와류 저항, (1143)마찰저항 또는 점성저항,(1144)공기저항,
(1145)116G/T 급 선 망 선 어 탐 기기,(1146)초음파 어 탐 기기,(1147)수직 어탐,(1148)어군,(1149)기록지,(1150)해저,
(1151)어선,(1151a)타선,
(1152)수 파기,(1153)송파 기,
(1154)수직어군의 구성 및 기록,(1155)지향 각,(1156)맹점,(1157)송수파기, (1158)기록 펜,(1159)와 이 드 어 탐,(1160)등 선,(1161)다면 식,어 탐의 구성, (1162)청음,(1163)기록 표시부,(1164)조작 부,(1165)송수신부,(1166)승강 선회 장치,(1167)서치라이트 소 너,(1168)서치라이트 소 너의 탐색 빔,(1169)음성 굴절에 의한 무 음역,
(1170)북해도 근해 어장,(1171)스캐닝 소 너(360°) 탐지 빔과 영상,(1172)스캐닝 소 너(180°) 탐지 빔과 영상,(1173)스캐닝 소 너의 기본회로,
(1174)스캐닝 소 너의 구성도,(1174a)기록기,(1174b)배전반,(1174c)표시 장치,(1174d)청음,(1174e)정상장치,(1174f)송신장치,(1174g)제어장치,(1174h)송수파기 상하장치,
(1175)스캐닝 소 너와 서치라이트 소 너의 비교,(1175a)스캐닝 소 너에 의한 탐색,(1175b)서치라이트 소 너에 의한 탐색,(1175c)탐색누락 해역선속,
(1176)항적에 의한 어군탐지 불능,
(1177)항적 방해로 인한 기록의 실시 예,
(1178)초음파,(1179)송 수 절 환,(1180)전 영 증폭가공,(1181) 송신기 군,(1182)송신 팔 스,(1183)타이어, (1184)스캔 제어,(1185)스 위 프 제어,(1186)스 파 이 럴 전압 발생기,(1187)전자 스캐너,(1188)전자스위치 군,(1189)밤 형 성기 지연회로,(1190)비 데오 증폭기,(1191)편향코일, (1192)송수파기,(1193)브라운 영상,(1194)기포 층,(1195)어군발견접근,(1196)집어,(1197)투망,(1198)투망 중의 망,(1199)어군중심과 수심,(1200)자선 현위치,(1201)침 노선,(1202)네트 브 이, (1203)어군속도 및 이동방향, (1204)본선 항적,(1205)본선 속도,(1206)어군까지의 거리,(1207)본선 진행 방위,
(1208)시 투 에이 션 디 스 플레이 영상실 예,(1209)멀티 빔 스캐닝 컬러 소 너의 구성,(1210)망 탐 도계의 시스템,(1211)발진기,(1212)표시기,
(1213)발신기 부착위치,(1213a)침 자 망에 결부한다,(1213b)발신기,
(1214)망 탐 도계의 기록실 예,(1215)텔 레 사운드 시스템,(1216)텔 레 사운드의 기기 구성,(1217)어 탐 1,(1218)어 탐 2,(1219)S C N A R,(1220)전원,
(1221)무선제어,(1222)수직 다 브 렛 트 1/2 파장,(1223)본선,(1224)게르마늄,(1225)플 랭 크 톤,
(1226a)선체 측면도,(1226b)선미 현 호,(1226c)취수 선,(1226d)선수 현 호,
(1227a)선체 정면도,(1227b)캠 버,(1227c)선체 중심선,(1227d)기선,(1227e)텀 블 홈,(1227f)쥬 리 어,(1227g)용골,(1227h)선체 기울기,(1227i)빌지,(1227j)빌지 반지름,(1227k)선수,(1227l)상 갑판,(1227m)선 저,
(1228)선체의 연돌.(1229)선미의 키 추진기,(1230)선수의 형상,(1231)선수와 선미의 우현,좌현,(1232)만 재 홀수 선,(1233)선미 기선,(1234)선수 기선,(1235)제 2갑 판,(1236)원호 캠 버,(1237)직선 캠 버,(1238)늑골,(1239)정판,(1240)만 곡 부 외판,(1241)추나 용골,(1242)평판 용골,(1243)중심선 내 용골,(1244)배수 구멍,(1245)선 저 외판,(1246)만 곡 부 용골,
(1247)횡단면을 변형시키는 힘,(1247a)호 깅,(1247b)새 깅,(1247c)누르려고 하는힘,(1247d)래 깅,(1247e)횡요,(1247f)동요,(1247g)선수동요,(1247h)전후 동요, (1247i)좌우동요,(1247j)상하동요,
(1248)횡 식 구조,(1248a)보,(1248b)외판,(1248c)내정판,
(1249)종 식 구조,(1249a)특설 보,(1249b)총 농 보,(1249c)선 측 총 농 보,
(1249d)특설늑골,(1249e)내저 총 늑골,(1249f)늑 판,(1249g)선 저 총 늑골,
(1250)방형 용골의 구조,(1250a)콕 센 의 방형 용골과 선수 재,(1250b)선 저 외판,(1250c)방형 용골,(1250d)용접,
(1251)평판 용골,(1251a)중심선 거리,(1251b)늑 판,(1251c)측 거리,(1251d)선 저 기울기,
(1252)만 곡 부 용골의 구조,(1252a)구 평,형 강,(1252b)내실,(1252c)싯 실,
(1253)단 저 구조,(1253a)측 내 용골,
(1254)횡 식 이중 저 구조,(1254a)선 측 외판,(1254b)선창늑골,(1254c)이중 저 외 측 브래킷,(1254d)마진 판,(1254e)내저 판,(1254f)중심선 내저 판,(1254g)부 늑 재,(1254h)성 늑 재,(1254i)받침 재,(1254j)중심선 거 더,(1254k)중심 브래킷,
(1254l)측 거 더,(1254m)조립 늑 판,(1254n)선 측 브래킷,(1254o)실체 늑 판,
(1255)종 식 이중 저 구조,(1255a)이중 저 외 측 브래킷 또는 늑골 브래킷,
(1255b)거 싯 판,(1255c)선 저 종 늑골,(1255d)만 곡 부 외판,(1255e)보강재,(1255f)내저 종 늑골,(1255g)A 외판,
(1256)횡 식 선 측 늑골의 형상,(1256a)횡 식 선 측 늑골,(1256b)갑판보,(1256c)갑판 사이 늑골,(1256d)보 늑골,
(1257)갑판의 구조,(1257a)갑판,(1257b)붐 취 판,(1257c)붐 취 판 스케이,(1257d)보 브래킷,(1257e)선 측 외판,(1257f)선 측 늑골,(1257g)창구 외판,(1257h)거 더,(1257i)창구 판 보,(1257j)창구 구멍,(1257k)창구 판 거 더,
(1258)갑판의 측면 구조,(1258a)선미 루 갑판,(1258b)보트 갑판,(1258c)A보 갑판,(1258d)리 피 숍 갑판,(1258e)M 선교 갑판,(1258f)선교 루 갑판,(1258g)기관 터널,(1258h)선수 루 갑판,(1258i)제 4 갑판 선 저 갑판,(1258j)창구 갑판 부, (1258k)지면 갑판,(1258l)제 2 갑판,(1258m)상 갑판 진동 갑판,(1258n)제 2 갑판 부분 갑판,
(1259)선수의 형상,(1259a)콜 리 퍼 형 선수,(1259b)서랍 형 선수,(1259c)경사 형 선수,(1259d)구상형 선수,(1259e)램 형 선수,
(1260)선미의 형상,(1260a)타원형 선미,(1260b)카운터,니 콜 타원형 선미,(1260c)상부와 하부,니 콜 타원형 선미,(1260d)타원형 선미의 형상,
(1260e)순양함형 선미,(1260f)카운터,
(1261)각 선체의 속력증가,(1261a)배수 광 형선,(1261b)활주 형선,(1261c)수주 익 선,(1261d)공기 부양 선,(1261e)위 그 선,(1262)수중어뢰,(1263)퍼 블 젯 트,(1264)광물 채집선,
(1265)열 풍로,(1265a)마클 식 열 풍로,(1265b)카 우 버 식 열 풍로,(1265c)열풍 관,(1265d)청정 가스관 프레스 버너,(1265e)연소실,(1265f)송풍 관,(1265g)연도관,
(1266)코크스로 배치도,(1266a)석탄 콘 베어,(1266b)조탄 차,(1266c)상승 관,(1266d)드라이 멘,(1266e)섹션 멘,(1266f),(1266g)압출기,(1266h)코크스 가이드,(1266i)소화차,(1266j)관 가스 본관,(1266k)공기 본관,
(1267)최근의 코크스로(D K H 식),
(1268)소결 기,(1268a)드 와이 드 로이드식,(1268b)그리나 왈 트 식,(1268c)바그밀 상부 슈트,(1268d)제 2단 바 그 밀,(1268e)공기 및 가스 송풍기,(1268f)배 그 밀 하부 슈트,(1268g)우인 드 복 스,(1268h)방진:케 싱 스 피 레지 슈트, (1268i)로타리,(1268j)크 레셔,(1268k)냉각기,(1268l)세 킹 콘 베어,(1268m)배광 콘 베어,(1268n)전동식 댐 퍼,(1268o)주 배 풍 기,(1268p)주 배 기관,(1268q)스 프 로켓트,(1268r)프 라 파,(1268s)스 잉 킹,(1268t)스 파 우 트,(1268u)파 젯 트, (1268v)소결냄비,(1268w)1차 제진기,(1268x)크 레셔,(1268y)2차 제진기,(1268z)반광 호 파,(1268aa)배 풍 기,(1268ab)에프론 콘 베어,(1268ac)벨트 콘 베어, (1268ad)배기 도입 관,(1268ae)크리 즈 리 도입 관,
(1269)평 로,(1269a)소 천 정,(1269b)나 클,(1269c)상 욕,(1269d)막다른 벽, (1269e)버너,(1269f)승강도,(1269g)노상,(1269h)강 색 실,(1269i)축 열 식, (1269j)판텔,(1269k)노상 전 벽,(1269l)장 입구,(1269m)축열 식 격자 적,(1269n)연도,(1269o)변경 판,(1269p)댐 퍼,
(1270)전로 설비,(1270a)스 토 카,(1270b)후 우드,(1270c)가스 냉각기.
(1270d)비상용 연돌,(1270e)스프레이 실,(1270f)벤 쥬 리스 쿨 레버,(1270g)1차 분리기, (1270h)P-A 벤 쥬 리,(1270i)2차 분리기,(1270j)수 봉 피트,(1270k)LD 전로,(1270l)흡인 팬 팬,
(1271)균열로,(1271a)축열 식 평면도,(1271b)축열 실,(1271c)균열 식,(1271d)스 켈,(1271e)대차,
(1271f)상부 2방 연소식 평면도,(1271g)버너,(1271h)발 가스,(1271i)닥 트 소제혈,(1271j)복 열 실,(1271k)예열 공기관,
(1271l)상부 2방 연소식 입면도,(1271m)카 리 카 바 에이 지,(1271n)노 개,
(1271o)작업상,(1271p)배 가스,(1271q)예열공기,(1271r)냉풍, (1271s)강괴,
(1271t)소제 혈,
(1272)하부 2방 연소식 평면도,(1272a)배 가스 포트,
(1272b)하부 2방 연소식 정면도,(1273)저 부 연소식,
(1274)강재 가열로,(1274a)바 치 형 가열로, (1274b)1-3면 동시에 열 수 있는 연속,도 어,(1274c)부 주,(1274d)냉풍 입구,(1274e)복 열 실내 배 가스 통로의 단면,
(1274f)압 형 가열로의 분류,(1274g)연속 형,(1274h)3대 식,(1274i)2대 식 상부 다대,(1274j)2대 식,(1274k)2대 식 하부 다대,(1274l)화염 분활 식,(1274m)2대 화염 분활 식,(1274n)상부 가열식,(1274o)상부 가열식 2대,(1274p)상부 가열식 다대,
(1275)소 연로,(1275a)직 화 식 밸 형,(1275b)라디 앤 트 튜브형, (1275c)아우 트 카 버,(1275d)파 포 레 이 트,(1275e)실린더,인 너 카 버,(1275f)선 재 코일,(1275g)샌 드,실,(1275h)버너,(1275i)리서 큐 레이션 팬,(1275j)베이스용 열 전대,(1275k)카 버 용 열 전대,(1275l)라디 앤 트 튜브,(1275m)팬,(1275n)분위기 가스 출구,(1275o)분위기 가스 입구,(1275p)라디 앤 트 튜브 버너 샌 드,실,
(1276)호 광 식 전기로,(1276a)전기로의 구조,(1276b)노 체,(1276c)전극,
(1276d)2차 보선,(1276e)전기로,(1276f)변압기,(1276g)경동 기,(1276h)회전기구,(1276i)전극형,(1276j)노 개 벽돌,(1276k)노 개,(1276l)내화물,(1276m)출강 구,(1276n)실 레벨,(1276o)출 재 구,(1276p)스탬프,(1276q)내화 벽돌,
(1277)터널요,(1277a)예열 부,(1277b)가열 부,(1277c)냉각 부,
(1277d)연소 구,
(1278)터널 요의 열 감정도,(1278a)예열 실,(1278b)연소 가열 실,(1278c)냉각 실,(1278d)배 가스 헌 열,(1278e)소성 열,(1278f)피 열물 및 수레의 헌 열,
(1279)시멘트 소성 회전로,(1279a)1차 공기,(1279b)미 분탄,(1279c)버너, (1279d)링크냉각,(1279e)소성 요,(1279f)2차 공기,(1279g)2차 공기 예열 트 론 멜,(1279i)원료,(1279j)보조 연소,(1279k)폐열 보일러,(1279l)연도 배기기,
(1279m)전기 집진기,(1279n)건조 트 론 멜,(1279o)슴 윤 원료,
도크 선체갑판 상단부(S D U),도크 선체갑판 중심부(S D M),도크 선체갑판 상단부(S D L),기계실 바닥표면 상단부(M F G U),기계실 바닥표면(M F G), 기계실 바닥표면 하단부(M F G L),지표면 상단부(G L U),지표면(G L L),지표면 하단부(G L D), 적도전선(EL), 북극(N P), 남극(S P),
경도(longitude;ld로 칭함),위도(latitude;l t로 약칭),
분사노즐 상단부(A), 분사노즐 몸체(B), 분사노즐 하단부(C),
도로지표면 상단부(G L U), 도로지표면(G L L), 도로지표면 하단부(G L D),
펌프 몸체(PB), 펌프 몸체 수직 라인(PPV L), 펌프 몸체 수평 중심 라인(P BC L)
밸브 몸체 중심선(V BC L or P BC L),방화수수면 하단(W LD),방화수수면(WLL), 분출 수면(W L U), 해수면 상단부(S L U),해수면(S L L),해수면 하단부(S L D),
기계실 외부(Out of Mer chin er y Room;OMR)기계실(Merchinery Room ; MR)
기계실 내부(In of Mer chin e r y Room ; I M R) (1) The marine steelworks main body,
(2) a control box of a multi-stage pump control panel, (3) a suction merging pipe, (4) a discharge joining pipe, (5) a pump isolation valve, (6) a pump backflow prevention check valve, (7) (10) Double-structured fire-fighting nozzle, (10a) Nozzle body by name "Nominal 100", (10b) (10d) Title "65", (10e) "Title 50", (10f) Title "40", (10g) Title "25" 50 × 40 ", (10m) Title" 4 × 10 "," 10 × 10 ", and" 10 × 10 " × 25 ",
(11) Fire nozzle frame, (12) Sensing sensor, (13) Cogs, (14) Piping or nozzle piping, (15) Clearance, (16) Tilt angle, (16a) Blade propelling angle, (19) wire rope, (20) machining hole, (21) shaker lug or portable lug, (17) disaster prevention waterway,
(22) You or the various forms of jigs ("

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(23) Shackle, (24) Bolt, (25) Nut, (26) and Shash (27) (28) Flange or barrel of the hull Barking tank Inlet inlet Flange stopper for blocking access to foreign objects Wire mesh, (29) Coupling ring, (32) Gasket or rubber packing, (33) Nozzle hose equipment holder, (34) Correction tank or safety tank, (35) Coupling ring screw, (39) Water film or curtain water film, (40) Fire flame, (41) Sense lanyard, (42) High performance water pump, (37) ) Basket, (43) double vinyl tent or bag, (44) elbow or tee elbow, (45) fire pump,
(46) Power supply power supply, (47) Inverter, (48) Inverter, (49) Expansion pointer, (50) Internet network, (51) (55) a wireless communication control module of a short range wireless communication device, (56) a display, (57) an electronic control device, (58) Switch input circuit, (59) Electronic control unit, (60) Electronic control unit DiSEIC, (61) Overcurrent breaker brake, (62) Power supply, (63) Display screen, (64) Analog input, (65) Digital input, (66) Switch main switch button for each pump on-off control, (67) Auxiliary switch button, (68) Computer network input, (69) (70) memory, (71) power line, (73) disaster mixer mixer, (74) double tube block piping line, (74a) inner block piping, (74b) outer block piping , (80) air compressor, (81) mobile service, (82) portable terminal, (83) low-pressure shut-off valve, (76) solenoid valve, (84) Emergency valve, (85) Pressure reducing valve, (86) First pressure check sensor, (87) Second pressure check sensor, (88) Electronic control unit, (89) , (89b) Vertical Upper Tube, (90) Ball Valve Handle, (91) Drencher Head, (92) Valve Inner Disc, (93) Emergency Siren, (94) (100) paraffin nozzle stopper or candle, (101) pressure gauge, (102) sensing sensor bimetal, (102a) thermocouple, (102) thermocouple, (102b) thermal current generation, (102c) thermoelectric power generation, (102d) measurement point, (102e) reference point,
(103a) a thermocouple thermometer switch, (103a) thermocouple thermometer configuration, (103b) side on limit, (103c) temperature 1, (103d) scale of the ammeter temperature, (103m) potential difference occurs, (103h) thermocouple and compensation wire, (103i) side on contact, (103j) thermocouple, (103k) compensation contact, (103l) (103n) Type of thermocouple, (103o) No protection tube, (103p) Protection tube, (103q) High temperature object, (103r) (103v) Stainless metal sheath, (103w) Platinum side on resistance with protective pipe, (103x) Mica, (103y) Platinum wire, (103z)
(104) Level or pressure switch, (105) Flow meter for flow rate check, (106) Power motor control module, (107) Prevention switch or switch box, (109) air hose, (110) air hose connection nipple, (111) sprinkler head, (112) reflector, (113) Valve or water valve, (115) underground pipe, (116) main tower or pylon or block steel tower, (117) rich, (118)
(120) Alarm valve, (121) Test valve, (122) High pressure water pump, (123) Lever block, (124) Fire extinguisher (fire extinguisher a, fire extinguisher b, fire extinguisher c, fire extinguisher D, fire extinguisher e, fire extinguisher f) 125) chain, (126) cylinder, (127) piston or piston pump, (128) fire extinguisher fixing pin, (129) latching device, (130) lifesaving tube, (131) rope, (136) Anchor bolts, (134) Radiosondes, (135) Driving wheel rollers, Dorure, (136) Regulate, (137) Ropes or chains wrapped around the fuselage (138) Cylinder, (139) Steering wheel, (140) Turbine pump, (141) Casing, (142) Vane pump or guide vane, (143) Impeller, Lem pump, (145) High pressure storage tank,
(146) a propeller pump or propeller, (146a) a variable wing propeller, (146b) a reader propeller,
(147) Multistage screw air compressor and screw pump, (148) plunger pump, (148b) four axis plunger pump, (148c) radial plane pump, (149) steel beam, (150) (151) Oil cooler, (152) Manhole cover, (153) Hatch cover, (154) Fire door, (155) Gland packing, (156) Mechanical seals or alternating (157) jet pump, (158) loess, (159) arson, (160) indoor fire hydrant box, (161) automatic fire hydrant, (162) hose hanger, (163) (166) Match fire (a) or fire object (Class A, B and C classified by fire type), (167) Screw tab, (168) Transmission or fire protection piping Line, (169) water hole, (170) internal cooler, (171) exhaust gas, (172) combined life bed nozzle, (173) gas burner or burner, (174) carbon dioxide gas, (176) Helium gas, (177) Pyrogenic paraffin tape, (178) Non-ignitable wire, (179) Fire hydrant (180) vinyl bag, (181) disaster air piping line, (182) rear cooler, (183) limit switch or limit switch, (184) unmanned camera, (185) (188) springs, (187) unmanned igniter spark lighters, (188) lifeboats, (189) head tanks for pressure tanks, (190) flexible high pressure hoses or hydraulic hoses, (191) introduction pipe or hydraulic pipe,
(193) a snap ring, (195) a fan, (196) a body frame, (197) a body front reinforcing steel plate, (198) a rotating shaft, (199) a rotor assembly A front frame 201 for a stator assembly 202 a molding frame for protecting a motor 203 a terminal box 204 a lifting bolt 205 a terminal box cover 206 a rear rotating shaft (209) a fan cover or a protective cover, (210) a rotor iron core, (211) a stator iron core, (212) a stator winding,
(213) an activated membrane type gas hold-up device, (214) a filter, (215) an exhaust tower, (216) a radioactive nuclear waste storage tank, (217) a filter or filter material, (218) (224) Nuclear waste, (224) Nuclear waste [<<<, >>>], (224a), and (224) Solid nuclear waste, (224b) liquid nuclear waste, (224c) gaseous nuclear waste, (225) reinforced concrete mats, (226) engine generators, (277) turbine rotary shafts, (228) (233) Smelter, (233) Smelter, (234) Air dryer, (235) Ems, (236) Fireworks, (237) Fireworks,
(238) a regulating shaft of a shared landfill, (239) a recirculation pump, (240) a pressure control pool, (241) a feed pump, (242) a circulating water pump or a primary main cooling system circulation pump, A second main cooling system circulation pump, (248) a crank, (249) a link stand, (250) a pulley, (251) a speed reducer, (252) a bucket, (253) a plunger, (255), (256) cable car, (257) air valve, (258) safety valve, (259) automatic valve, (260) drain valve, (261) (263) a compressor body, (264) a pump aberration, (265) a main valve, (266) a forest, (267) a turbine or a rotating blade, (268) a flywheel, (269) (271), (272) pump power, (273) control power, (274) emergency operation circuit, (275) DC power supply circuit, (276) micro control unit, Switch setting circuit, (278) display circuit, (279) M / C drive signal contact output circuit, (280) motor overload signal input circuit, (281) (282) Pressure sensing circuit, (283) External status input circuit, (284) Discharge pressure transmitter, (285) Suction / discharge switch, (286)
(287) a cooling water or cooling water inlet, (288) an oil separation tank, (289) an intake valve, (290) a gear drive, (291) a dryer, (292)
(293) Drain gate, (293b) Rolling gate, (293c) Design water level, (293d) Water surface, (293e) Anchor section fixing section, (293f) Fixing section, (294) (A), (b), (c), and (d) of the water tank, (295) the tank tank, (296) the gate valve, (297) the return valve, (298) the bush or throttle bush, 300 is a vibration alarm device 301 is a drain, 302 is a shut-off valve, 303 is a high-pressure ball tank, 304 is a pumping pump, 305 is a butterfly valve for controlling flow, 306 is sodium bicarbonate, (318) a hood valve, (313) a pumping port, (314) a pumping pump, (308) a Centrifugal Pump, (309) (316) a ball pushing device, (317) a flexible carriage, (318) a float switch, (319) a rear wing, (320) a scoop valve, (321) (332) jet pump, (326) gear pump, (327) wing pump, (330) separation chamber, (331) jet pump, ) Magnet Switch, (332) Nuclear Waste Gun Water, (333) building or large building, (334) balance, (335) unbalance, (336) indoor fire pump, (337) rotary pump, (338) rotary rotator, (339) priming, Suction pump, (341) axial flow pump, (342) mixed flow pump, (343) viscous pump,
(344) Double structure block of nuclear power plant Connecting tank of manufacturing and installation 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 344o as an axis ANW, a triangular block tank 344p asymmetry triangle block tank 344q a DE tank side block tank 344r (BD) side, (344s) a block tank on the side of the other (CE) side,
(345) gland, (346) main liquid lanthanum ring packing, (347) lantern packing, (348) double gland packing, (349) droplet bush attaching packing, (350) (352) Water jacket attachment packing (352) Cooling water inlet or cooling water piping line (353) Sleeve inner cooling jacket water jacket packing (354) Inner cooling chamber of sleeve, (355) A cooling chamber,
(357) Shared surface landfill distribution axis, (358) Gland packing Eight strand weaving,
(362) O-ring, (363) Stop, (364) Middle ring, (365) Sealing cross section, (366) (367) quenching, (369) cooling ring, (370) reversion tube, (371) Handle, (372) partition wall, (373) (374) the pressure acting on the impeller front, (375) the pressure acting on the back of the impeller, (376) the balance ball,
(382) rear bearing, (384) rear wing, (385) rear wing installation (377) suction pressure, (378) back pressure, (378) balance hole, (386) Impeller arrangement of multi-stage pump, (387) Order separation, (388) Order coupling, (389) Water hammer action, (390) Axle rod, (391) (392), (393) Water hammer, (394) Rooftop fire fighting cab or crane cab, (395) High and low mountains, (396) Pulse Encoder, (397) Spike (398), (399) DISC Brakes, (400) Tank for Combined Breakwater, (401) Safety Rope Net, (402) Air Compressor (Air Chamber),
(403) valve, (404) valve body, (405) valve housing, (406) sluice valve, (407) packing press, (408) packing press nut, (409) valve, 414) a handle, 411 a handle nut, 412 packing, 413 a wedge gate valve, 414 a single valve, 415 a flexible valve, 416 a parallel slide valve, 417 a double disk (418) a stop valve, (419) a flange type globe valve, (420) a flange type angle valve, (421) a body, (422) a main body, (423) (425) valve seat, (426) valve handle, (427) handle, (428) covering ring, (429) packing press ring, (430) packing press, (431) 432) Dowel Bolts, (433) Packing Presser Bolts, (434) Pins, (435) Nuts for Bushing Bolts, (436) Nuts for Packing Pillow Bolts, (437) Handle Nuts, (438) ) Washers, (440) packing,
(441) a gasket, (442) a valve press, (442a) a plane press, (442b) a conical press, (442c) a spherical press, (442d)
(443) Cock 1 type (444) Cock 2 type, (445) Bronze threading main cock, (446) Cast iron flange type gland type, (447) Bronze threading gland cock, (448) 449) round cock, (450) handle cock,
(451) check valve body, (455) hotplate, (456) disk, (457) disk pin, (458) plug, (451) check valve, (452) swing type check valve, (469) Pilot valve, (461) Secondary side sensing hole, (463) Diaphragm, (464) Pilot valve, 465) Exhaust flue, (466) Main valve, (467) Main valve spring, (468) Adjusting spring, (469) Otto pressure regulating valve, (470) Screw type pressure regulating valve (a) Flanged pressure regulating valves (b),
(472) Safety valve, (473) Spring type safety valve, (474) Relief type safety valve, (475) Steam type poof spring type safety valve, (476) Valve, (478) auto water dispenser, (479) auto dispenser (a), (480) auto level regulator, (481) air vent valve, (482) (484) Refrigerant Stop Valve, (485) Refrigerant Stop Valve, (486) Packed Valve, (487) Packed Valve, (488) Packed Valve, (491) expansion valve, 491 diaphragm expansion valve, (491) bellows type expansion valve, (492) rich valve, (493) pressure regulating valve for refrigerant, (494) solenoid valve, (495) (496) water faucet, (497) exponent line, (498) before fraction, (499) ball tap,
(500) Lightning rod for marine steelworks,
(501) V-shaped strainer (503) V-type strainer (504) Tube fixing metal (505) Tongue buckle part A support band 506 a support band 507 a roller support band 508 a vertical tube casting band 509 a steel spectacle band 510 a bottom band 511 a trap,
(512b) Fomatsu long fuselage faults, (512c) Long fuselage faucets, (512d) Fuselage with long fuselage, (512e), short (512e) Fomatsu fuselage with short transverse (橫) faults, (512f) type faucets, (512g) all purpose faucets, (512h) , (512j) sanitary faucet, (512k) bath water mixture before,
(513) Sanitary flash valve, (514) Parallel type bath faucet, (514a) Transverse material faucet, (514b) Transverse material faucet, (514c) (514f) Chemical tank faucet (514f) Chemical tank faucet (514g) Chemical tank faucet (514g) Chemical tank faucet (514i) Chemical tank faucet (514i) Chemical tank faucet Yanggu),
(515) Flood valve for building equipment (Fushivert), (515a) Flood valve for building equipment (type A), (515b) Flood valve for building equipment (for urinal) ,
(517) mixer valve (for 3 houses), (517a) mixing valve (exposed type), (518) hand shower, (519) head and head, (520) hand shower Shower, (521) shower set,
(522) angled thermal trap, (523) straight thermal trap, (524) bucket trap, (525) bottom bucket trap, (526) top down bucket trap, (527) (528) Impulse steam trap, (529) Faucet body, (530) Packing box, (531) Packing press, (532) Stem, (533) Handle, (534) Disc, (535) , (536) a domestic packing, (537) an aging packing, (538) a Teflon membrane,
(539) a metal with a large thermal expansion; (540) a metal with a low thermal expansion; (541) a time or level switch; (542) a low level alarm; (543) (545) alarm level switch, (546) low level switch, (547) flap, (548) sound cap, (549) check nozzle, (550) (551) float, inductance switch, (552) indicating graduation scale, (553) overflow connection, (554) vent pipe connection, (555) (556) a double vinyl open needle; (557) a solenoid valve body; (558) a cover; (559) a spool; (560) a spar packing; (561) a pilot; (563) connector, (564) manifold (L; PTY 8 "large flow type), (565) manifold (S, M 5 ownership type), (566) screw bolt, (567) (568) 2 position single, (570) 2 position double, (571) LL; central vertical type, (572) L; vertical type, (573) ) Horizontal type; M, (574) F; (581) Direct piping type, (582) Base piping type, (578) Double, (577) Double, (578) Child, (579) (585) Doctor Ventilation, (585) Doctor Ventilation, (585) Doctor Ventilation, (586) Thermal Balloon in Mongolia, ( 587) Blair Shah's Hot Air Balloon, (588) Kelly's Hot Air Balloon, (589) Steam Airship,
(590) Dual structure holding block tanks,
(591) Barge hull at the top of holding tank,
(592) Barge hull at bottom of holding tank,
(593) Lifelines of small marine steelworks,
(594) Lifelines of medium-sized marine steelworks,
(595) Lifelines of large-scale marine steelworks,
(596) Double structure inner block tank,
(597) High tensile steels Steel plate,
(598) double structure block tank, (599) double structure outer block tank, (600) first auxiliary type steel for block tank, (601) second auxiliary steel plate for block tank, (602) (603) Block tank Hull disassembly Portable lug connection Shaft bolt, (603a) Bolt screw thread, (604) Block tank Hull disassembly handler (605) Block tank Secondary steel plate vertical partition for hull disassembly coupling, (606) Block tank Hull disassembly portable rug pin connecting shaft, (607) Block connecting shaft, Tank hull disassembly portable lug, (608) Block tank hull disassembly portable lug pin, (609) Hull for block tank Second auxiliary steel plate for disassembly, Horizontal bulkhead, (610) Block tank Hull bulkhead manhole for transport equipment, (611) satellite, (612) space rocket, (613) block tank block unit hull disassembly lug hinge socket, (614) Tank block unit Large flange for disassembly coupling (615) Large flange connection joint Spacer hole or rug machining hole Keyboard machining hole, (616) Mooring device Floating dock barge Hook baler for hull balancer (616a) Block tank Tank block Units Split hulls Displacement joints Lug holes for displacement control equipment (617) Block tank Hull disassembly double pipe structure Tank piers Construction auxiliary saddle formwork, (618) Block tank Hull transportation (619) Block Tank Block Unit Hydraulic Rotating Cylinder for Dismounting Coupling Control Unit Drill Lathes for Machine or Block Unit Hull Rack and Pinion Type (NRP) Cylinder Machines, (620) Hydraulic rotary cylinder (rotary cylinder [rack & pinion type -NRP]), (621) Block tank unit Block hinge unit for disassembly coupling control unit (622) Luster (623) Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Blocks of pipelines Block- (626) Nuclear power plant or thermal power plant, (627) Engine control module for engine control system, (628) Diaphragm rubber balloon, (629) Rope for rope, (630) Rope knot, (631) Emergency stairs, (632) Elevator for elevator, (633) Conveyor, (634) Lifting line or anti-docking line, (635) Vacuum pump, (636) Tugboat, (637) (643) anchor chain, (641) blower or cooling fan, (642) heater fan for air-warming, (643) satellite launcher, (644) (645) Electric rocking magnet, (646) Space rocket launcher, (647) Helicopter, (648) Chain block, (649) Loess cement mixing equipment Mixer machine, (650) , (652) Lane boom make rings,
(692), (691) primary substations, (692) seven strands of steel wire in the center of the transmission line, (693) 54 strands of aluminum wire, (694) fuel hoses, (695) (697) middle substation, (698) large plant, (699) middle plant, (700) secondary substation, (701) small plant, (702) home (including solar house), (703 ) (704) High-voltage wire balancer for cable balance cable,
(705) nuclear waste treatment line manufacturing process distribution axis, (706) small diameter electric resistance welded pipe, (707) raw material, (708) uncoiling, (709) level ring, (710) side trimming, (711) (713) Welding and internal and external bead removal (714) Ultrasonic and vortex test, (715) Welding heat treatment, (716) Air cooling, (717) Water cooling, (718) (722) calibration, (723) intermediate loading, (724) induction heating furnace, (725) SRM, (720) flattening test, (726) Hot cutting, (727) Face picking, (728) Hydraulic test, (729) Ultrasonic and vortex test, (730) Weight and length measuring instrument, (731) Visual and dimensional inspection, (732) Screw 733) Metals, 734 for general plumbing, (735) galvanized, (736) galvanized steel pipes, (737) boiler tubes, (738)
(744), (744), (744) Ultrasonic Flaw Test, (745) Side Tramming, (742) Cage Molding, (743) (746) Oil Pipes, (747) Large Diameter Steel Pipes, (748) Edge Milling Machines, (749) 3 Roll Bending Machines, (750) Post Bending Machines,
(751) welding, (752) inner surface welding, (753) backing fusing, (754) outer surface welding, (755) tube welding, (756) , (758) cold laminar padding, (759) marking, packing, shipment, (760) spiral welded steel pipe, (761) uncoiling, (762) structural pipe and steel pipe pile, (763) (764) Outside Brast Cleaning, (765) Inner Blast Cleaning, (766) Inner Painting, (767) First Painting, (768) Painting and Clothes, (769) ) Ultrasound and X-ray inspection,
(771) Internal transportations for marine tunnels,
(772) Nuclear or turbine generators,
(794) Double Structure Block Tanks Metal Mineral Collector or Double Structure Block Tank Dust Collector,
(795) heavy oil tank, (796) heavy oil,
(797) Oil tankers or cargo ships,
(811) Mineral Collection Facility,
(811a), a floating control system for the construction equipment, (811b) a control unit for marine hydro-nuclear power generation, which regulates power production, (811c) a substation for trans-rail transit of the North Dae- 811d, 811e, 811e, 811e, 811e, 811f, 811f, 811f, 821f, 811f, (811g) an undersea resource transport unit connected to the maritime tunnel transport apparatus 941, (811h) an electronic sensor valve screw control unit provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616,
(812) enriched uranium or uranium 235,
(813) Reactor pressure vessel,
(813a) pressure vessel vessel, (813b) pressure vessel top vessel bottom, (813c) pressure vessel cylindrical vessel, (813d) pressure vessel cylindrical vessel upper, (813e) pressure vessel cylindrical vessel upper part, Nozzle, 813h, dipole iron plate, 813i, air chamber, 813j, 813k, water, 813l splash pool, 813m vant pipe, (813p) Pressure vessel Cylindrical damp top and bottom assembly, (813q) Dry wall, (813s) Pressure vessel Cylindrical dock bottom assembly, (813t) Pressure vessel Cylindrical dock top assembly, (813v) , (813w) outlet nozzle, (813y) core support assembly, (813z) control rod guide tube assembly stand,
(814) pressurizer, (814a) spray nozzle, (814b) pressure protection container, (814c) pressure regulating valve,
(814d) steam boundary, (814e) pressure vessel body, (814f) cooling water inlet, (814g) heater heater,
(815) nucleus, (815a) nucleus, (815b) nuclear power,
(816) a coolant or primary sodium or secondary sodium, (816a) a coolant inlet nozzle, (816b) a coolant outlet nozzle,
(817) Silencers,
(818) Separator,
(819) a hydraulic tank, (819a) a hot plate, (819b) an oil level meter (oil port field), (819c) drain, (819d) tank bottom plate, (819e) diaphragm (819g) Suction Sealer (819g) Gland Packing (Rubber Inner Rubber), (819h) Inlet Packing, (819i) Inlet Lid, (819j) Tank Top Plate, (819k) (820) hydraulic motor, (821) hydraulic pump, (822) rod-and-piston seal, (823) piston seal, (824) (825) a ring seal, (826) a slide ring, (827) a di-bush, (828) an O ring, (829) a load seal, (830) a backup seal, (833) piston ring, (837) piston ring, (837) piston ring, (837) piston ring,
(839), (840) meteorological observatories, (841) crude oil, (842) submarine mineral deposit baskets, (843) underwater exploration underwater lights, (844) ) Buckets or pavers, (845) excavators for deep drilling rigs of squirrel drills, (846) wrench crank for anchorage, (847) jackhammer or net, (848) (851) Pylon level foundation base, (852) Fixing wrist stand, (853) Arc welding or argon welding machine, (853a) Welding wire, (853b) ) Welded sheets, (854) Pipe racks,
(855) Bulldozer, (855a) Crawler type, DOGER, (855b) Wheel type, DOGER, (855C) Straight, DOGER, (855D) DELETER, DOGER, (855e) Angle, DOGER, 855f) Hinge, DOGER, (855g) TRIDOZER, (855H) RICH DOGER, (855i) HARD RICHER,
The power transmission device 855j,
(855k) Engine (855l) Engine, (855m) Cooling system, (855n) Final gear, (855o) Sprocket of driven wheel, (855p) Idler of fluid wheel, (855q) Provision of clutch ,
(856) excavator, (856a) backhoe, (856b) power shovel, (856c) drag line, (856d) Luther,
(857)
(858) Fork lift trucks,
(859), (859), (859), (859), (859), (859), (859) and (859) the power train, (859f) Cutting tape,
(860) dump trucks, (860a) trailers,
(861) Crane or crane, (861a) Name of each part of crane structure, (861b) Extent cable, (861c) Loadmeter, (861d) Bridle, (861e) Boomboxes, (861f) This rope, 861g, boom hoist rope, 861h upper frame, 861i lower frame, 861j hoist rope, 861k front drum, 861l middle drum, 861m rear drum, 861n) balance weight, (861o) cable cranes,
(861p) All six of the crane device,
(861q) a hook device, (861r) a clamshell device, (861s) a shovel device, (861t) a drag line device, (861u) a trench hoe device , (861v) Pile driver device
(862a) muffler, (862b) engine flywheel, (862c) cooling fan, (862d) forward and rearward transmission ridges, 862e translators, (862f) fixed gear type transmissions, ) Parking brake, (862h) differential gear, (862i) Transpercar neutral gear reducer, (862j) Disc brake,
(862k) The external structure of the radar,
(863) rollers, (863a) vibrating rollers, (863b) soil compactors, (864)
(865) Concrete Batching Plant, (865a) Concrete Hopper, (865b) Conveying Equipment Charging Chart, (865c) Adjusting Plate, (865d) Water Meter, (865e) Symmetric Hopper, (865f) 865g) storage bin, (865h) composite belt conveyor, (865i) turn head, (865j) bucket el rebate, (865k) conveying cement chad, (865l) regulating plate, (865m) recorder, (865n) circular mixer 865o) cement silo, (865p) squeegee conveyor, (865a) concrete hopper, (865b) conveying device charging chart, (865c) regulating plate, (865d) water meter, (865e) symmetric hopper, ) Scale frame, (865g) Storage bin, (865h) Composite belt conveyor, (865i) Turn head, (865j) Bucket El rebate, (865k) Transportation cement Chad, (865l) Adjusting plate, (865m) ) Circular mixer, (865o) cement silo, (865p) squeegee conveyor,
(866) a concrete finisher, (866a) a squeegee spray, (866b) a first screed, (866c) a vibrator, (866d) a finishing screed, (866e) a guide roller, (866 g) Finished cotton,
(867) Concrete Spreader, (868) Concrete Mixer Truck, (869) Concrete Pump, (870) Asphalt Mixing Plant, (871) Asphalt Finisher,
(872) asphalt spreader, (872a) power driven pump, (872b) valve control,
(872c) Spray bar, (872d) Bunny, (872e) Discard pipe, (873) Aggregate spreader,
(874) a crusher, (874a) a Ziegler crusher, (874b) a chassis frame, (874c) a feeder hopper, (874d) a vibration grease repitter, (874e) ) Second crusher at the rear of the crushing chamber, (874g) Vibration screen, (874h) Drum elevator,
(875) air compressor,
(876) perforator,
(877) Hantawa Anti-erection,
(878) sowing machines,
(879) dredgers,
(879a) Pump dredger, (879b) Bucket dredge, (879c) Spades, (879d) Cab or control room, (879e) Red Sea, (879f) Spart, (879g) Blast tank, (879h) Blast pump, (879i) Red, (879j) Engine room, (879k) Dipper dredger, (879l) Grab dredger, (879m) Bucket drive, (879n) Foosepad 879o) Spat winch, (879p) bucket, (879q) left and right all spades, (879r) dipper, (879s) winch, (879t) anchor warehouse, (879u) belt conveyor, (879v) ,
(881), (882) boom, (883) diesel pile hammer, (884) steam hammer, (885) hydraulic crane, (885a) piston motor,
(886) Tower cranes,
(886a) designates the name of each part of the derrick structure,
886b is the main side of the derrick 886c, 886d is the boom 886e is the boom foil 886f is the turnbuckle 886g is the net, 886h is the triangle, 886i is the main side, 886j ) Boom, (886k) boom foil, (886l) lek,
(887) Draeg crane,
(887a) The structure of the drag crane,
(887b) hoist cable, 887c dump cable, 887d bucket, 887e bottom boom, 887f retract cable, 887g cable roller, 887h boom cable, 887i ) Cable rollers, (887j) boom hoist cables, (887k) cable drums, (887l) cable drums, (887m) parallel weights,
(888a) Clamp cell attachment, 888a Holding line 888b Closing line 888c Clamshell bucket 888d Upper frame 888e Lower frame 888f Rack line 888g ) Rope guide, 888h boom tent, 888i bridle, 888j boom hoist rope, 888k front drum, 888l rear drum, 888m parallel weight,
(899) Tandem Roller (890) Tandem Roller (891) Tamping Roller, (892) Tire Roller, (893) Tractor, (894) Trailer, (895) Ram, (896) (908) fuel pump, (901) cam, (902) fuel tank, (903) starter, (904) boom front pin, (905) (906) adapter,
(907) Military Detectors Sonar,
(908) Crude oil drilling machine rotary table lathe machine,
(909) manganese monolith,
(910) Nets, (911) Suction collecting machines, (912) Undersea mining robots,
(913) periscope, (914) rubber balloon, (915) wire rope chain,
(916) Double structure piping line Automatic pneumatic valve transport device,
(917) Coarrill,
(918) biopies skids, (919) rubber tires, (920) burner booms,
(921) harmful tidal microorganisms, (922) pollution-free natural gas,
(923) an air nozzle,
(924) Mineral picking troughs, (925) Upwind, (926) Downwind, (927) Dust for yellow dust or soap bubbles,
(928) Double structure block tank pipe Pier,
(929) Nuclear waste treatment dual structure block tank pipe bridge,
(930) chemicals, (931) cement, (932) fishing nets,
(933) Emergency or control line, (934) Crude oil drilling rig, (935) Iso handle levers,
(936) Borehole,
(937) Double structure block Tank tube bridge,
(938) electrode plate anode, (939) cooling air bubble, (940) bit,
(941) Nuclear waste treatment Double structure block tank Marine tunnel transport equipment,
(942) Tower crane at Isai Crane Boom Vs.
(943) Isai Hydro Power Plant,
(943a) Pump aberrations for hydroelectric power plants, (943b) Pelton aberrations for large hydroelectric power plants, (943c) Francis aberrations for large hydroelectric power plants,
(944) Large-scale hydroelectric generator Shiiso hydroelectric power plant (944a) Rotational speed detector for hydroelectric power plant (944b) Exciter for dc generators supplying current to the motor coil of an alternator (944c) 944d is a device for pushing the rotary shaft receiver 944e is a device for pushing the rotary shaft receiver 944f a stator coil 944g a stator frame 944h a center stator 944i a low speed cooler 944j) Braking device ring, (944k) Braking device or jack, (944l) Low speed rotating shaft receiver, (944m) Engine generator, (944n) Turbine rotary shaft receiver, (944o), (944p) Rotary shaft receiver 944q) wing wheels,
(945) Underground disaster prevention nozzles or shared landfills,
(946) Subsea line wiring or shared reclamation land,
(947) Containers for infusion control devices Rubber tubing for air inlet,
(948) furnace, (948a) furnace brick, (948b) furnace of the steel mill, (948c) furnace inside the steel mill,
(948d) copper furnace, (948e) ore and coke, (948f) hot gas, (948g) water cooling, (948h) mat, (948i) gas,
(948j) Blast furnace structure, (948k) blast furnace gas flow, (948l) coke, (948m) iron ore and limestone, (948n) hot wind flow, (948o) (948r) Industrial electric furnace, (948s) Industrial electric furnace accessories, (948t) Cauldron and lid of furnace), (948u) High-tech environmental technology of domestic steelworks, (948v) Operation method of domestic steelworks furnace , (948w), (948x), (948y), (948z), and (948z) of the previous foreign steel mill furnace,
(949) Ship's diving position control device and diving buoyancy control weight,
(950) thermocouple thermometer switch for temperature auto sensing sensor,
(951) Hatching basket or Pareto for hazardous redeye suction dust collector,
(952) Locomotives, non-power, for water,
(953) Military equipment Submarine,
(954) Laser cutting machine,
(955) Peacekeeping image of a weapon stronger than a nuclear bomb,
(956) flood control equipment,
(957) Wind turbines, (957a) Wind turbines and wind turbines, (958) Weather forecasts, (959) Alternative used sails, (960) Marine tunnels Traffic or satellite weather forecast information collection machines, ) Space rockets, (962) satellites,
(963) Peace Sovereign, (964) Petroleum, (965) Diamond, (966) Iron, (967) Tin, (968) Coal, (969) Farm Equipment,
(977), (977), (977), (977), (977), (977) and (977) Oil pipeline,
(988), (988) Nuclear Fuel, (982) Nuclear Fuel, (984) Glass, (985) Agate, (986) Amber, (987) Pearl, (988) New South Korea,
(990) United Nations Organization, (991) Atomic Bomb, (992) Hydrogen Bomb, (993) Sinking Ship, (994) , (995) Submersible, (996) Barges, (997) Landfill, (998) Coastal Station, (999)
(1002) Military Demarcation Line, (1003) Demilitarized Zone, (1004) Counterattack, and (1004) Common Ground and Landfill Design System,
(1006) steam outlet tube, (1007) steam outlet tube body appearance, (1008) hygrometer tube, (1009) steam outlet tube, (1010) liquid level tube, (1011) sodium cooling (1018) spiral heat exchange tubule, (1018) sodium coolant outlet, (1012) upper plate, (1013) connecting rod, (1014) cooling water leak detection pipe, (1015) secondary argon gas pipe, (1016) skirt, (1023) sodium passage, (1024) sodium-water reaction product discharge pipe, (1025) inner pipe, (1023) (1026) a monitoring inlet pipe, (1027) a water inlet pipe plate, (1028) a water inlet pipe, (1028a) a water inlet chamber,
(1041) Borderline, (1042) Southern margin, (1043) Northern margin, (1044) Beta economic zone, (1045) Provisional action area in Korea, (1046) China's straight line, (1047) EEZ, (1048) Japan's claimed EEZ, (1049) cargo ship, (1050) 2400 km, (1051) Korea's middle water area, (1052)
(1053) 360-degree 360 ° from the center of the Korean peninsula. Each parcel is divided into parcels, (1054), (1055) fish and shellfish spawning grounds, (1056)
(1057) Tidal flats in the coastal waterside area, (1058) MOON, (1059) Fission, (1060) Superconducting generators, (1061) Superconducting generators, (1062) Superconductors, (1063) 1064) magnetic force, (1065) magnetic levitation highway, (1066) magnetic levitation train, (1067) semiconductor, (1068)
(1077) nuclear fuel cycle, (1077) nuclear power plant cycle, (1077) nuclear power plant cycle, (1077) nuclear power plant cycle, (1079) Plan of electromagnetic propulsion line (1080) Expansion crusher of new material, (1081) Superabsorbent resin, (1082) IC circuit, Semiconductor and new material And a rotary cylinder (rack and pinion type -NRP, 620)
(1083) Around 1200 km, (1083a) Connecting North and South Korea Construction of a groundbreaking ceremony, (1083b) Connecting North and South Korea Construction of a construction site in South Korea,
(1084) mine detector, (1084a) zine-type mine detector,
(1086) Mines, (1086) Mines, (1086a) Anti-tank mines, (1086b) M 14 Personnel Mines, (1086c) M 16 A1 Personnel mines, (1086d) Water guns and shells, (1086e) 1086f) Railway related materials, (1086g) M15 antitank, (1086h) M16speed (escape), (1086i) Storm mines (ankle mines), (1086j) M19 antitank, (1087) 1089) Mine clearance width (58m), (1089) Mine Removal 1st Engineer Brigade, (1090) Paper Compensation Seoul Regional Bureau of Land Management, (1091) Pavement Road Seoul Regional Bureau of Land Management, (1092) Noh, (1094) Mine Break, (1095) Fire, (1101) Stormy Waves, (1102) Tibetan Highlands, (1103) Mongo Desert, (1104) Manchurian Plain, (1105)
The structure of the jet engine 1106a the air intake port 1106b the fuel supply port 1106c the tube 1106d the compressor 1106e the combustion chamber 1106f the turbine 1106g the nozzle,
(1107), (1108) plane, (1109) structure of reciprocating engine, (1110) plane inspection, (1111) Viking 1 probe, (1112) Earth, (1113) Mars, 1114) Mars, (1115) Mars lander, (1116) Sun, (1117) Passenger ship, (1118) Ship design method, (1119)
(1122a) of the bilge keels, (1122b) the joining seam of the bilge keel, (1122c) the weld line, (1122d)
(1123), (1124) 5-inch automatic rapidshare, (1125) 20 mm flanks, (1126) helicopter deck, (1127) MK 32 torpedo launcher, 1128 Harpoon missile, Dock, (1130) sail, (1131) sail,
(1132) Various swinging movements of the ship by wave, (1132a) Heaving, (1132b) Pitching,
(1132c) rolling, (1132d) swinging, (1132e) surging, (1132f)
(1133) Various deformation of the hull by wave, (1133a) Sag state, (1133b) Hogging state, (1133c) Twisted state, (1133d)
(1134) an air propeller propulsion line, (1135) a water jet propulsion line,
(1136) a semi-active type rolling tank, (1136b) an active type internal rolling tank,
(1137a) inside the ship, (1137b) outside the ship, (1137c) drive motor and hydraulic pump, (1137d) outside plate, (1137e) pin,
(1138a) a beaker reader, (1138b) a collet nozzle flap, (1138c) a propeller, (1138d) a collet nozzle or collet nozzle reader, (1138e) the appearance of a showtel reader propeller, (1138f ) Appearance of the pot pot propeller, (1138g) Appearance of the impeller propeller of the mae,
(1143) Vortex resistance, (1143) Friction resistance or viscous resistance, (1144) Air resistance,
(1145) 116G / T class line network fishing gear, (1146) ultrasonic fishing gear, (1147) vertical fishing net, (1148) fishery, (1149)
(1151) fishing line, (1151a) other line,
(1152) a water hammer, (1153) a hammer,
(1154) the configuration and recording of vertical fish, (1155) orientation angle, (1156) blind spot, (1157) transponder, (1158) recording pen, (1159) (1162) sound recording, (1163) a recording display unit, (1164) an operating unit, (1165) a transceiver unit, (1166) an elevating and pivoting device, (1167) a searchlight sonar, (1168) a search Light Sonar's search beam, (1169) Quadrature due to negative refraction,
(1173) Scanning Sonar (360 °) Beam and Image, (1172) Scanning Sonar (180 °) Beam and Image, (1173) Scanning Sonar Basic Circuit,
(1174a) a recorder, (1174b) an electric panel, (1174c) a display, (1174d) a sound, (1174e) a normal device, (1174f) a transmitting device, (1174g) a control device, (1174h) ) Transceiver upper and lower device,
(1175) Scanning Sonar and Searchlight Sonar comparison, (1175a) Scanning Sonar search, (1175b) Searchlight Sonar search, (1175c)
(1176) Inability to detect fish by wake,
(1177) Examples of recording due to disturbance,
(1188) a transmission arm, (1183) a tire, (1184) a scan control, (1185) a swing arm, (1178) an ultrasonic wave, (1179) (1186) a spiral voltage generator, (1187) an electronic scanner, (1188) an electronic switch group, (1189) a chattering delay circuit, (1190) a video amplifier, (1191) a deflection coil, (1193) Brown image, (1194) bubble layer, (1195) fishery discovery approach, (1196) picking, (1197) transmission, (1198) transmission net, (1199) fishery center and water depth, (1203), (1203), (1203), (1203), (1204), (1205), (1205), (1206) the distance to the fishery, (1207) the main line Progress bearing,
(1208), (1209) a multi beam scanning color sonar construction, (1210) a network tomography system, (1211) an oscillator, (1212)
(1213) the transmitter attaching position, (1213a) the dipole antenna, (1213b) the transmitter,
(1214) Telemetry system example, (1215) Telesound system, (1216) Telesound device configuration, (1217) Acom 1, (1218) Acom 2, (1219) SCNAR, (1220) power,
(1221) radio control, (1222) vertical dablet 1/2 wavelength, (1223) main line, (1224) germanium, (1225)
(1226a), hull side view, (1226b) stern line, (1226c) water intake line, (1226d)
A hull front view 1227b a camber 1227c a hull center line 1227d a baseline 1227e a tumble groove 1227f a ruler 1227g a keel 1227h a hull inclination 1227i) Bilge, (1227j) Bilge radius, (1227k) Player, (1227l) Top deck, (1227m)
(1228) The ship's stones (1229) The stern key propeller, (1230) The shape of the athlete, (1231) Starboard and stern starboard starboard port, (1232) (1235) 2nd deck plate, (1236) arc camber, (1237) straight camber, (1238) rib, (1239) top plate, (1240) bay plate, (1241) china keel, 1242) plate keel, (1243) keel in center line, (1244) drainage hole, (1245) line bottom plate, (1246)
(1247) Hogging, (1247b) Sagging, (1247c) Force to press, (1247d) Lagging, (1247e) Rolling, (1247f) Rolling, (1247g) Rolling , (1247h) Before and after sway, (1247i) Left and right sway, (1247j) Up and down sway,
(1248) transverse structure, (1248a) beam, (1248b) outer plate, (1248c) inner plate,
(1249), (1249a), (1249b), and (1249c), respectively.
(1249d) web frame, (1249e) inner bottom joint frame, (1249f) joint plate, (1249g)
(1250a), (1250a) Kokseen's keel and prongs, (1250b) the front shell, (1250c) the keel, (1250d) welding,
(1251) plane plate, (1251a) centerline distance, (1251b), plate, (1251c) side distance, (1251d)
(1252a), (1252a), and (1252b) inner room, (1252c)
(1253) single bottom structure, (1253a) side keel,
(1254a) a transverse double bottom structure, (1254a) a side outside sheathing, (1254b) a hoop frame, (1254c) a double low outside bracket, (1254d) a margin plate, (1254e) an inner bottom plate, (1254g), (1254h), (1254i), (1254j) centerline girder, (1254k) center bracket,
(1254l) side girders, (1254m) assembled floors, (1254n) side brackets, (1254o) real floors,
(1255) longitudinal double bottom structure, (1255a) double bottom outer bracket or frame bracket,
(1255b) Gusset plate, (1255c) Longitudinal longitudinals, (1255d) Gulf section Outer plate, (1255e) Stiffener, (1255f) Inward bottom longitudinals,
(1256) Shape of transverse line side frame, (1256a) Transverse line side frame, (1256b) Deck beam, (1256c) Interboard deck, (1256d)
(1257a) Deck, (1257b) Boom column, (1257c) Boom column scale, (1257d) Boat bracket, (1257e) Line side outside plate, (1257f) (1257h) Gutter, (1257i) Gutterboard, (1257j) Gutter hole, (1257k) Gutterboard,
(1258) Side deck structure, (1258a) Seamle deck, (1258b) Boat deck, (1258c) A Beam deck, (1258d) Repe Shop deck, (1258e) M Bridge deck, (1258f) (1258), (1258), (1258), (1258), (D), (D), and (D), the deck of the deck, the deck of the deck, the deck of the deck, the deck of the deck, , (1258n) Second Deck Part Deck,
(1259a) collier type player, (1259b) drawer type player, (1259c) oblique type player, (1259d) globular type player, (1259e) ram type player,
(1260) Stern shape, (1260a) Oval stern, (1260b) Counter, Nicholl oval stern, (1260c) Top and bottom, Nicholl oval stern, (1260d) Oval stern shape,
(1260e) cruiser-type stern, (1260f) counter,
(1261) Increased speed of each hull, (1261a) Drainage light line, (1261b) Slide line, (1261c) Order line, (1261d) Air line, (1261e) Upper line, (1262) Underwater torpedo 1263) Purple Jetts, (1264) Mineral Collectors,
(1265a) a combustion gas pipe press burner, (1265e) a combustion chamber, (1265f) a blowing tube, (1265b) a hot air duct, (1265a) 1265g) Year tube,
(1266a), 1266a, 1266a, 1266a, 1266a, 1266c, 1266a, 1266a, 1266a, 1266a, Coke guide, (1266i) digestion car, (1266j) pipe gas main pipe, (1266k) air main pipe,
(1267) Recent coke oven (DKH type),
(1268) sludge, (1268a) dehydrated, (1268b) graders, (1268c) bargill top chute, (1268d) second stage bar mill, (1268e) air and gas blowers, 1268f) Cockpit Lower Suit, (1268g) Uin de Vox, (1268h) Dustproof: Casing Spigger Resist, (1268i) Rotary, (1268j) Cresure, (1268k) Cooler, (1268m) light beam cone bear, (1268n) electric damper, (1268o) main airplane, (1268p) main boat, (1268q) sprocket, (1268r) furpa, (1268s) swing King, (1268t) spade, (1268u) pazet, (1268v) sintered pot, (1268w) primary damper, (1268x) crusher, (1268y) secondary damper, (1268z) (1268aa) Air blower, (1268ab) Efron cone bear, (1268ac) Belt cone bear, (1268ad) Exhaust introduction pipe, (1268ae) Crezzle introduction pipe,
1269a, 1269a, 1269b, 1269c, 1269c, 1267d, 1269d, 1269e, 1269e, 1269f, 1269g, 1269g, ) Steel Color Room, (1269i) Axial Column, (1269j) Pantel, (1269k) Downhole Front, (1269l) Entrance, (1269m) Thermal Storage Lattice, (1269n) Year, (1269o) 1269p) Damper,
(1270) converter, (1270a) stoker, (1270b) hood, (1270c) gas cooler.
(1270d) Emergency stove, (1270e) Spray room, (1270f) Benjuris cool levers, (1270g) Primary separator, (1270h) PA Benjuri, (1270i) Secondary separator, (1270j) (1270k) LD converter, (1270l) Aspiration fan fan,
(1271a), 1271a (1271a), 1271b (1271a), 1271a, 1271b,
(1271f), top (1271g) top plan, (1271g) burner, (1271h) foot gas, (1271i)
(1271l) Upper 2 Radiations News Elevation, (1271m) Karikabaaiji, (1271n) Noon,
(1271o) working air, (1271p) exhaust gas, (1271q) preheated air, (1271r) cold air, (1271s)
(1271 t)
(1272) bottom two-flame combustion plan view, (1272a) exhaust gas port,
(1272b) Front view of bottom two-flame emission, (1273) Low emission,
(1274a) a heating furnace (1274a), a heating furnace (1274b), a continuous line which can be opened at the same time as the first to third sides, a door (1274c) Section of the exhaust gas passage,
(1274f), type (1274g), continuous (1274h), three (1274i), two (1274j), two (1274k), two (1274k) and two (1274m) 2 flames, (1274n) top heating, (1274o) top heating type, (1274p) top heating type,
(1275), 1275a, 1275a, 1275a, 1275b, 1275b, 1245c, 1275c, 1275d, 1275e, 1275e cylinders, Inner Carver, (1275g) Burner, (1275g) Burner, (1275i) Recirculating fan, (1275j) Base for thermocouple, (1275k) Thermocouple for carver, (1275m) fan, (1275n) atmospheric gas outlet, (1275o) atmospheric gas inlet, (1275p) radiant tube burner sand, thread,
(1276) an arc furnace, (1276a) an electric furnace structure, (1276b) a furnace, (1276c) an electrode,
(1276d) secondary line, (1276e) electric furnace, (1276f) transformer, (1276g) trolley, (1276h) rotating mechanism, (1276i) electrode type, (1276j) furnace brick, (1276k) furnace 1276l refractory, 1276m lenght, 1276n room level, 1276o outlet, 1276p stamp, 1276q refractory brick,
(1277) tunnel, (1277a) preheating part, (1277b) heating part, (1277c) cooling part,
(1277d) combustion chamber,
(1278a) Preheating chamber, (1278b) Burning heating chamber, (1278c) Cooling chamber, (1278d) Pumping gas heating, (1278e) Heating column, (1278f) The second-
(1279a) primary air, (1279b) fine coal, (1279c) burner, (1279d) link cooling, (1279e) sintering, (1279f) secondary air, Air preheat Tronmel, (1279i) raw material, (1279j) auxiliary combustion, (1279k) waste heat boiler, (1279l)
(1279m) Electrostatic Precipitator, (1279n) Dry Tron Mel, (1279o) Tin Yun Material,
(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,
The pump body PB, the pump body vertical line PPV L, the pump body horizontal center line P BC L,
(SLL), SLL (SLL), and SLB (SLL), respectively. The center line of the valve body (V BC L or P BC L), the bottom of the fire water surface (W LD), the fire water surface (WLL)
Out of Merchant Room (OMR) Merchinery Room (MR)
In the Merchant Room (IMR)

Claims (6)

In a marine steelworks having a metal smelting furnace and a construction machine,
A guide rail 618 located at the upper end portion SDU of the double structure barge hull 591 at the upper end of the holding tank constituting the inside of the marine steelworks main body 1 constituting the marine steelworks is installed to the left and right sides of the deck deck The crane 861 having the capacity of 5000 tons has the transportation crane 861 placed on the guide rail 618 at the upper end of the deck deck and the double and triple sliding hatch covers 153 are fixed to the clutching device Respectively,
The crane 861 is connected to the disassembly-type portable lug of the block tank position movement control device formed in the double structure block tank metal mineral collector 794 in which the lid of the stopper plate 625 of the semi-circular part is disassembled, A wire rope constituting the boom frame 651, a shackle and a crane boom hook 652 to engage with a portable lug formed in the double structure block tank metal mineral collector 794,
A deck deck configured to feed a plurality of metal smelting furnace facilities into the double structure barge hull 591 at the upper end of the holding tank is provided with several openings for opening and closing the crane 861, The positional movement of the tank metal mineral collector 794 constitutes a pre-loading so that the double structure block tank metal mineral collector 794 is positioned inside the double structure barge hull 591 inside the double structure barge hull 591 ;
A wire rope and a shackle and a crane boom hook 652 constituting a crane boom portion 651 of a construction machine crane 861 are mounted on disassembly and binding portable lugs of the block tank position movement control device to operate the crane 861, The deck is provided with a crane 861 in which several openings are located so that the blast furnace 948 is positioned inside the double structure barge hull 591 at the center of the double structure block tank metal mineral collector 794, &Lt; / RTI &gt;
After the integral assembly of the stopper plate 625 is completed, the two or three sliding hatch covers 153 are fixed to the opening and closing ports by the clutching device in a closed state,
The marine steelworks has a mining collection facility 811 located at an upper 40 m above sea level to exclude the weather condition of the earthquake and tsunami as a disaster prevention device, a blast furnace 948 that forms the safety of a sinking type barge 948, And a facility control unit 811a of a floating pick-up hood position shifting construction machine of a mining collection facility 811 constituted by the interior of a main body 1 of a marine steelworks constituting a lifting plant of a marine steelworks;
A marine hydro-nuclear power generation control unit 811b for generating power production;
A power transmission control unit 811c of the submarine crossing railway substation for nuclear waste disposal to provide power transmission;
A harmful red tide blocking preventive control unit 811d for excluding the weather condition restriction as a disaster prevention device;
A lifesaving structure and an anti-sunken ship control unit 811e;
A ship control unit 811f corresponding to the wind and waves;
A submarine resource transport unit 811g connected to the marine tunnel transport device 941;
An electronic sensor valve screw adjusting portion 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616;
(794), double blasted structural tank tanks (794), metal furnace for marine capital goods, and equipment for lifting the above metal, to constitute the metallurgical process of the marine steelworks. ,
The metal working furnace and the metal lifting equipment constituting the double structure block tank metal mineral collector 794 of the mineral collecting facility 811 constituting the inside of the main body 1 of the marine steel mill include the above- The metalworking furnace inserted outside the mineral sampler 794 and the equipment for lifting the metal,
The minerals collecting marine capital goods containing minerals such as manganese, nickel, copper, chrome, and cobalt in the seabed mineral include a construction equipment including an engine generator, a crane, a vacuum aspirator, a conveyor, The collection process of crude oil and natural gas is equipped with petroleum drill rigs. The minerals collection line, petroleum drill rigs are used to collect marine capital goods, as well as inhalation collecting machines, submarine mining robots, crude oil drilling machines Rotary table lathing machine, double structure piping line automatic pneumatic valve transport device, mineral collecting trough, tower crane Seiso crane boom block, double structure block tank marine tunnel traffic device, blast furnace furnace with furnace bricks, A metal smelting furnace constituting the upper portion (SDU) of the food dock, the deck of the ship, and the mineral collecting line, After passing through the process of collecting, transporting and heat-treating the offshore steel mill, which forms an apartment-type structure combining blocks built up on the deep-sea basin, the marine steelworks is equipped with space science equipment and several sonar And installed a number of sonar in the deep sea, and received the photographs from space science development equipment and several sonar. As a result, it detected the deep sea mineral resources and natural gas energy resources, and then put the oil energy drilling equipment into the deep sea mineral We will provide resources and production of natural gas energy resources. We will also provide power to wind turbine generators and hydropower generators with transformers and transmission lines in substations,
Double structural block tank bridge for nuclear waste treatment Marine nuclear power hydroelectric power plant is provided with connection structure of marine tunnel traffic device and battery for safety operation of traffic facility substituting for marine vessel is provided with electric energy line The development of marine capital goods within the territorial sovereignty line of each country in the world is the equipment for lifting metal constituting the inside of the main body (1) of marine ironworks with the blast furnace for metal processing for marine capital goods with the agreement of each country.
And a furnace for smelting metal and a marine steelworks having a construction machine. The method according to claim 1,
In the operation of the boiler water reactor system 802 constituted in a marine nuclear hydroelectric power plant equipped with a boiling water reactor facility for nuclear waste disposal having a double structure block tank dust collector constructed inside the main body 1 of a marine steelworks,
In the mineral collection facility 811 formed at the stage before and after the operation of the nuclear power plant of the nuclear hydroelectric power plant constituted by the combined connection structure of the boiling water reactor facility, nuclear fission is generated in the boiling water reactor facility 802, A steam turbine 267 for generating steam to rotate the steam turbine 267 to produce power,
A rotary shaft for a nuclear power generator installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the atomic power generator 772 for converting the power generated from the steam turbine 267; An electromagnet coil 774,
A nonrotating armature coil 773 for a nuclear power generator installed on the circumference of a rotating rotor electromagnet coil 774 for the nuclear power generator and a rotor 773 integrally formed with the nuclear power generator 772 and the rotary shaft 198 to the steam turbine 267, And a frame 775 for fixing the nuclear waste to the main body 1 of the marine steel mill equipped with the nuclear waste water treatment reactor facility for treating the nuclear waste and the nuclear and hydroelectric power plants of the land and ocean. A nuclear waste disposal pipe manufacturing process distributing shaft 705 composed of a mineral collecting facility 811 constituting the double structure block tank collector and a double structure block tank Including operation of the boiling water reactor facility of the marine nuclear hydropower plant equipped with a boiling water reactor facility for the treatment of nuclear waste connected to the process of manufacturing the dust collector nuclear waste treatment pipe. However,
Large-scale hydro-electric power plant (944) facilities included in the marine nuclear hydroelectric power plant constituted inside the main body of the marine steelworks (1)
The large hydroelectric power generator 944 of the hydroelectric power plant 943, which is a connection structure of the large hydroelectric power plant 944 of the marine hydroelectric power plant 943 constituting the marine hydroelectric power plant,
(593,594,595) nuclear power plant (672) of a small-scale, medium-sized and large-scale marine steelworks of the land and sea constituting the large hydroelectric power generator 944 of the hydroelectric power plant 943 and a nuclear waste The boiler water reactor for treating nuclear waste is provided in the power production and production unit 811b of the mineral collection equipment unit 811 constituted inside the main body 1 of the marine steelworks having the boiling water reactor for treatment, (811b) connected to the large-scale hydroelectric power plant (943) of the marine Seisoh hydroelectric power plant (943), which is a substitute for the power generation and power generation, in preparation for the renovation of the nuclear power plant facilities And a large hydraulic power generator 944 of a hydroelectric power plant 943, which is provided as a connection structure and constitutes a nuclear power alternative hydraulic operation for several generators,
A large hydroelectric generator Shiseo hydroelectric power plant 944 of a marine seesaw hydroelectric power plant 943, which replaces the power generation and power generation plant in preparation for the repair of a marine nuclear hydroelectric power plant having the boiling water reactor facility for treating the nuclear waste, The large-scale hydro-generator seesaw hydroelectric power plant 944 of the marine seesaw hydroelectric power plant 943,
A head tank 189 for a pressure tank located at an upper end of the barge line connected to a large hydroelectric power generator 944 of a marine seesaw hydroelectric power plant 943 constituting a nuclear power alternative hydroelectric power plant 944 of the barge, (191) in front of the inlet pipe (189) In the inlet of the cooling water, an introduction pipe (191) having a pressure reducing pipe shape in the form of a pressure reducer (35) is provided with a connection structure with the head tank (189)
A plurality of introduction pipes 191 are connected to the upper end of the marine sheath hydroelectric power plant 943 constituting the nuclear power alternative hydraulic operation and the discharge port at the rear of the head tank 189 to the respective large hydroelectric power plants 943 located inside the marine sheath hydroelectric power plant 943. [ The turbine 267 and the Pelton aberration 943b of the turbine 267 are connected to the suction port 269 in front of the Francis turbine 943c and the discharge port 270 in the rear of the turbine 267 to the lower portion of the generator seesaw hydroelectric power plant 944, Including hydroelectric power generation facilities in the ocean that make up hydropower generation,
(191) in the form of a hydraulic pipe reederator (35) for providing a flow velocity of the water to the mechanical energy and having a flow velocity of the ocean current constituting the nuclear hydroelectric power generation apparatus, A large hydraulic power generator seeside facility 944 having a seesy center shaft frame 673 provided with a seesaw crane boom base 942 for providing a vertical rotation operation, (593,594,595) nuclear power plant (672) of small scale, medium and large scale marine steelworks equipped with power generators, and a boiling water reactor facility for nuclear waste disposal with dual structure block tank dust collector (1) Including a large hydroelectric power plant alternative hydroelectric power plant that constitutes an additional nuclear hydropower operation inside,
The large hydraulic power generator seeside facility 944 constituting the nuclear hydroelectric power generation operation of the nuclear power plant is located at the top of the center of the rotation shaft 944q constituting the hydraulic power generator sheathing facility 944, And a DC generator exciter 944b for supplying a current to the motor field coil of the alternator located at the lower end of the hydrodynamic power generator rotation speed detector 944a, A device 944e for pushing the rotary bearing 944 and a stator coil 944f and a stator frame 944g and a center stator 944h and a low speed A large hydrostatic generator seesaw facility 944i in which the rotary bearing 944i of the cooler, the braking device ring 944j, the jack 944k of the braking device and the low-speed rotary shafts 9441 are located at the upper- And a turbine rotating bearing 944n and a casing 944o and a guide vane and a vane wheel 944q having a connection structure with the rotary shaft 944q, And an apparatus for lifting metal constituting the inside of the main body (1) of a marine steel mill with a furnace for metal processing for marine capital goods;
And a furnace for smelting metal and a marine steelworks having a construction machine. The ship block tank (590) according to claim 1, wherein the strut block tank (590) constituted by the marine water depth of a marine nuclear hydroelectric power plant having boiling water reactor equipment for nuclear waste disposal, The facilities of the marine nuclear hydroelectric power plant, which consist of depth-of-water units, are installed inside the marine steelworks,
(593, 594, 595) nuclear power plants (672) and nuclear facilities of the small-scale, medium-sized and large-scale marine steelworks in the facility control section (811a) of the floating- Reactor System Consisting of a Main Body (1) of a Marine Steel Mill Having a Boiling Water Reactor Facility for Waste Treatment A rotary table lathing machine (908)
A boom boom of a crane boom of an overhead crane 651 located at the upper end of the drilling machine room with a crude oil at the time of crude oil connected to a plurality of pipe racks 854 constituting a rotary table lathe machine 908 of a drilling machine, A boom hook connection (652) and a wire rope (19) are connected to each other,
The pipe rack 854 in the excavation preparation standby state constituting the mooring device at the marine steelworks with the crude oil at the crude oil connection,
A plurality of pipe racks 854 provided as connection structures of the sea level lower end SLD of the sea level SLL constituting the pipe rack 854,
The core drill (917) constituting the pipe rack (854)
An anchor replacement crank 846 is disposed at a location of an excavation hole 936 provided as a connection structure with a core drill 917 excavator while an excavator rotation body constituting a core drill 917 is installed at a marine steelworks, ), And a construction machine operation connection structure mounted on the upper barge hull of each strut block tank provided as a connection structure of the hydraulic cylinder machine (624) and the key bed (616). The mooring line Anti-sunken retention line (634) of the device,
The rotary table lathe machine 908 of the crude oil-boring drilling machine, which is located in the connection structure inside the drilling machine machine room constituting the lower end of the overhead crane 651 constituting the sinking prevention retention line 634,
And a plurality of hydraulic cylinder keys 623 for drilling located at the center portion opposite to the circular table line constituting the rotating body of the rotary table lathe machine 908,
And a plurality of hydraulic cylinders 623 for drilling, which are connected to each other at a line center portion of the line, and are provided with several keys 623,
The rotary table lathe machine 908 of the drilling machine for crude oil making up the position shift control of the line-opposing central portion adjusts the positional movement of the connection structure, which is flipped to the position opposite the center line, And a rotary table lathe machine (908) for connecting the rotary table lathe,
A plurality of pipe racks 854 are connected to a central position by the rotary connection structure constituting the rotary table lathe machine 908 and several pipe racks 854 arranged at a point of the crude oil borehole 936 positioned as a connection structure on the seabed, (936) and a floating borehole (936), and a floating bore hole (916), which is provided as a connection structure for the borehole portion (854) Equipment for adjusting the position of the movable construction machine 811a, and a metal furnace for marine capital equipment, which is installed in the main body 1 of the marine steelworks, for lifting the metal;
And a furnace for smelting metal and a marine steelworks having a construction machine. The method according to claim 1, wherein the block steel towers (116) included in the harmful tidal block prevention / control unit (811d) excluding the weather condition restriction of the mineral collection facility unit (811) A helicopter stop (619) located at a position near the center of the upper deck of the deck deck which constitutes the peripheral equipment is provided at a marine steelworks,
A satellite launch pad 643 and a space rocket launch pad 646 of a space rocket 612 are provided to provide a positioning position for a safety control room left side connection structure constituting a deck deck peripheral equipment of the block pylon 116 The transfer of the nuclear waste treatment dual structure drums mounted on the forklift of the nuclear waste disposal around the satellite launch pad (643) and the space rocket launch pad (646) is provided with boiling water reactor facilities for nuclear waste disposal,
The space science production equipment of the marine steelworks at the top of the deck deck of the block pylon 116 and several sonar and submarines are equipped with metal detectors to install several sonar in the deep sea, (643) and a space rocket launch pad (646) so as to detect energy resources and natural gas energy resources of the deep sea by the result, and to construct an energy resource detection inside the main body (1) of the marine steelworks, The connection structure between the wiring 946 and the upper part of the floating deck deck deck which is located as a connection structure is provided with natural loess soil 158 to prevent the reproduction of harmful tidal microorganisms 921,
And a natural loess soil (158) of a loess mixture which generates toothpaste-form soap bubbles mixed with a fire extinguishing control product cooling water composed of a connecting structure provided at the top of a deck deck of the block steel towers (116) by a mixer machine, (921) breeding prevention,
The natural loess (158) of the loess mixture, which generates soap bubbles in the form of a dentifrice mixed with a fire control control supply coolant with a mixer machine, is fed to the top of the floating deck deck deck comprising the loess mixture (158) Respectively,
The countermeasure for preventing harmful red tide in the seabed constituting the harmful tidal microorganism 921 to prevent the propagation of the harmful tidal microorganisms 921 occurring in the seabed constituting the natural loess soil 158 of the loess mixture at the upper deck deck of the block pylon 116,
The natural ventilating lid 158 is provided inside the ventilating basin basket 951 of the harmful redeye suction dust collector constituting the harmful red tide to prevent propagation of the harmful tide, and the ventilating basket 951 constituting the introduction of the natural loess- Including,
The harmful redeye microorganisms 921 are stored in the detoxified sediment suction and dust collector constituting the atmospheric basket 951 and the marine steelworks facility 921 for removing the harmful tidal microorganisms 921 with the natural loess soil 158 is provided inside the ingot basket 951 Respectively,
At the lower end of the bottom of the body constituting the removal of the harmful tidal microorganism 921, the natural loess soil 158 is introduced into the sea floor at the upper end of the floating pick-
The harmful tidal microorganism 921 is replenished with natural loess soil 158 on the seabed by a moving tackle winch 137 constituting a position control,
A seesaw crane boom girder 942 of a tower crane for substituting for a quarrel constituting the tuna winch 137, a wire rope 19 and a wire rope chain 915, 135,
An apparatus for constructing a marine steelworks having a nuclear fuel cycle of a nuclear fuel industry connected to a nuclear waste disposal marine tunnel transportation device 941,
A construction machine equipped with nuclear waste disposal trucks,
Equipment for lifting the metal by furnace of metal processing for marine capital materials, which is composed of wind power generator, thermal power generator and hydro generators to be used for power generation and production,
And a furnace for smelting metal and a marine steelworks having a construction machine. The method according to claim 1,
The equipment control unit 811a of the floating construction eccentric hull position moving construction machine included in the mineral collection equipment unit 811 shows the construction of the double pipe structure block pipe line control shaft 238 for nuclear waste treatment of the nuclear hydroelectric power plant, The marine hydro-nuclear power generation control unit 811b,
The nuclear power plant nuclear waste disposal unit 811a to the electronic sensor valve screw control units 811h included in the nuclear hydroelectric power generation facility unit 811 constituting the inside of the marine steelworks main body 1, The two sides are distributed to construct hull position moving construction machines to prepare the reactor installation into the double structure block tank dust collector,
Double structure block tank for nuclear waste disposal The reactor facilities constituting the dust collector are equipped with a tugboat and a plurality of pipe bridge block tanks for disassembling the raft line when transporting the pipe bridge constituting the marine steelworks facility. (593,594,595) of a small, medium and large sized marine steelworks connected to nuclear waste treatment double structural block tank bridge bridge (929) equipped with crankshaft crankshaft with connection method of 500m unit block tank connection method. A holding tank upper barge hull 591 located at the center of the marine steelworks main body 1 having a reactor facility for nuclear waste disposal with a hull assembly method, A plurality of column block tanks 590 formed outside the holding tank lower barge hull 592 and a holding tank upper barge hull 591, And a connection tank at the upper and lower ends of the holding tank. A block tank formed at each of the barges has a hull disassembly-type portable lug 607, and a lug connection shaft 606 and a lug connection shaft coupling bolt and a thread- A common water surface embedding process is provided to achieve disassembly of the marine steelworks comprising the portable lug pin connecting shaft 606 and the portable lug pins 608,
The processing hole 615 and the elongated hole 616 constituting the portable lug 607 function in the form of a horizontal vertical building structure and the portable lug pin connecting shaft 606 and the portable lug pins 608 In the marine steelworks facility,
And the bottom of the center of each of the vertical holding tanks 590 on the outer circumferential surface of the inner side of the center of the inner side of the holding tank 590, Drilling rigs are provided with a core drill 917 constituting several pipe racks 854 formed on the undersurface ground GLD and the anchor replacement worm crank 846 is connected to the hydraulic cylinder 620. [ (970) connected to the barge at the upper end of the pillar portion of each of the pillar holding tanks with connection to the hydraulic cylinder quick-setting bed (623)
Each of the anchor replacement worm cranks 846 connected to the construction machine 970 pushes the worm crank 846 by operating the hydraulic cylinder 620 in the core drill drilling hole and the worm crank 846 pushes the worm- And is inserted and fixed in the ground by fixing the lower end of each strut tank to prevent the barge ship from drifting, and the anchor replacement worm crank (593, 594, 595) of small, medium and large sized marine steelworks (846) constitute the seagoing seabed at the ocean floor, and the ocean is composed of small, medium and large oceanic steelworks, Tunnel transport equipment to provide a connection to a marine nuclear power plant equipped with boiling water reactor facilities for nuclear waste disposal,
A mooring device for securing safety constituted by the interior of the main body 1 of the marine steelworks is provided in a shared marine landfill 944 and a shared water surface landfill 945 to be installed inside a marine steelworks main body 1 having a reactor facility for nuclear waste treatment (928), double structure block tank bridge bridge (929) and dual structure block tank bridge bridge (937) of floating marine small and medium sized marine steelworks (593,594,595) Nuclear waste treatment dual structure block tank Nuclear waste treatment facility with dual structure block tank dust collector having a plurality of distribution shafts provided with a connection structure capable of disassembly connection of connection shafts connected to marine tunnel traffic devices 941 To the mining collection facility 811 constituting the inside of the main body 1 of the marine steel mill so as to make the nuclear power plant operation of the marine nuclear hydroelectric power plant equipped with the nuclear waste hydro- (811a) of the construction machinery and the hydroelectric power production control unit (811b) of the marine hydro-nuclear power generation plant to provide power production, and the power of the submarine transverse railway substation The ship control section 811f corresponding to the storm surge and the waves, the transmission control section 811c, the harmful bellows blocking preventive control section 811d excluding the weather condition restriction by the disaster prevention device, the lifesaving structure and the sink prevention vessel control section 811e, A submarine resource transport unit 811g connected to the marine tunnel transportation device 941 and an electronic sensor valve screw control unit 811h provided as a connection structure of the hydraulic cylinder machine 624 and the key bed 616 An apparatus for manufacturing a marine steelworks and a metal furnace for marine capital goods to lift the metal;
And a furnace for smelting metal and a marine steelworks having a construction machine. The method according to claim 1,
(593,594,595) of a small, medium and large scale marine steelworks constructed to control marine steelworks facilities composed of the interior of the marine steelworks main body (1). (593,594,595) A band guide 621 provided with a hydraulic cylinder key 623 provided with a marine steelmaker facility adjustment process and a hydraulic rotary cylinder 620 constituted by a position adjusting device and a hand tool hammer and a wrench are provided so that a large flange- And the air compressor (80)
(593,594,595) of small, medium and large sized marine steelworks in the ocean that make up the air pressure regulator and water pressure regulator inside the block tanks are equipped with portable lugs located at each block tank connection 607 are provided with a hole for connecting the processing hole 615 and the pin linking shaft 606 for the portable lug coupling and the connection lug pin 604 is provided with the lug connection pin 603, (608) to provide a coupling in the machining hole at the end of the bolt thread stud,
The pin 608 is folded and the nut is fixedly coupled to form a submarine wiring in the double structure block tank line. The power is supplied to the land, and the pump and the air compressor before and after the occurrence of the harmful tide, (80), the air supply is provided by the flexible high-pressure hose (190) of the cross-shaped type over the sea surface and the seabed,
The disinfection water of the water pressure inside the pump piping line hose is constituted by a regulating device of the upward flow 925 and the downward flow 926 by arranging the water mountain range while discharging the discharge jet water and the radial curtain water film through the nozzle gap. As the global warming is prevented and global warming is prevented, it is necessary to prepare the transition of the people of the nuclear bomb-producing Party, which is equivalent to harmful red tide, to the reconciliation mood,
The information provided to the unmanned camera 184 is provided to the wireless device radar of the computer system 611 of the computer system connected with the information exchange communication means of the Internet network 50 that peacefully resolves international disputes, (593,594,595) double-structure block tank pipe pier (928) and double structure block tank pipe bridge (929) and double structure block tank pipe of a marine small-sized and large-scale marine steelworks built inside the main body A plurality of distribution shafts provided as connection structures capable of disassembling and coupling the connection shafts connected to the bridges 937 and the double structure block tank marine tunnel traffic apparatuses 941 and the operation of the marine steelworks having the dual structure block tanks, Structured as a structural block tank;
(593,594,595) of small, medium and large scale offshore steelworks which are composed of marine steel mill facilities to control the marine steelworks facilities composed of the inside of the marine steelworks main body (1) Friendly and environmentally friendly energy hydroelectric generators equipped with the control system of the marine ironworks facility which is composed of the position control system and the power supply to the uninjured global village while collecting the seabed mineral resources and collecting the manganese nodule (909) processing is provided,
Dual structure block tanks that control supply of iron ore, crude oil (841) and pollution-free natural gas (922) to countries around the world Marine trench transport system Internal train (771) equipment includes marine trading volume control system 1) Double structure block tank bridge pier (928), double structure block tank bridge bridge (929) and double structure block tank bridge (593,594,595) of marine small and medium and large scale offshore steelworks 937 and a double structure block tank marine tunnel communication device 941. The operation of the marine steelworks having the double structure block tank is described as a double structure block A tank;
In addition to establishing a maritime steelworks to resolve the territorial disputes in the territory of the world, the government has set up a facility to cooperate with the international social and economic development, (184) according to the achievement of the seabed resource reserves, and to provide a display on the conversion monitor (52) after confirming the winner to the countries and individuals who have acquired the score through the unmanned camera (184) (146) and a skewer (147) wing while equipped with a pirate wreck removal device that emits in a specific area of the sea, ;
The fire-fighting materials and disaster prevention materials constituting the facilities of the marine steel mill are equipped with communication equipment of the Internet control system before and after the fire, a plurality of pumps, a pump electronic control device and a high-performance submersible pump 36, And an air compressor (80), an air storage tank, a wire rope, a plurality of frames, and a portable transport equipment. A small and medium sized marine vessel having a connection structure including a helicopter, (928), double structure block tank bridge (929), double structure block tank bridge (937) and double structure block tank connected to floating marine tunnel (593,594,595) A plurality of distribution shafts provided as connection structures capable of disassembling and coupling the connection shafts connected to the traffic devices 941, a marine steelworks having a double structure block tank To constitute a dual structure block tank;
In the fire fighting and disinfecting control device constituting the flushing control process of the marine steelworks facility, when the fire constituting the fire fighting and disaster control device is changed to liquid, the nozzle of the pipeline has a radiation-like nozzle gap 15 and a straight gap 15, A plurality of radiation-type curtain water films 39 and a plurality of linear straight-curtain film films 39 are provided in the flushing water of the nozzle gap 15 pipe nozzle, and a gas of death (163) And the horizontal and vertical curtain tanks that are provided with no obstacles to prevent the occurrence of the earthquake, and the pump and the valve connection structure of the electronic control device constituted to constitute the global village, Flood, drought, and landslide prevention together with disaster prevention Electronic disaster prevention system of electronic control pump composed of disaster prevention control device in the global village A double structure block tank pipe pier 928 connected to a floating ocean pond (593,594,595) of a small, medium, and large oceanic steelworks constructed in the main body (1) of a marine steelworks while providing energy power (685) A double structure block tank bridge bridge (929), a double structure block tank bridge bridge (937) and a double structure block tank marine tunnel traffic device (941);
A facility control unit 811a of a floating pick-up hood position shifting construction machine included in a mining collection facility 811 having a plurality of distribution axes inside the main body 1 of the marine steelworks, and a hydro- A power transmission control unit 811c of a submarine crossing railway substation for nuclear waste disposal to provide power transmission to the production control unit 811b and a harmful tidal stop prevention control unit 811d for eliminating the wake- A ship regulating section 811f corresponding to storm surges and waves, a submarine resource transport section 811g connected to the marine tunnel traffic apparatus 941, a hydraulic cylinder machine 624, And an electronic sensor valve screw adjusting part (811h) provided as a connection structure at a position of the freezing bed (616), including a method of manufacturing a marine steelworks, and having a furnace for metal processing for marine capital materials to lift the metal;
And a furnace for smelting metal and a marine steelworks having a construction machine.

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