KR20170001964A - Adjusting the distribution chute flood flood regulation machinery equipment - Google Patents

Abstract

The present invention relates to a distributing and dispensing apparatus for a flood control machinery for a flood control facility, comprising: a plurality of distribution shafts; a construction machine control unit; a power production control unit; a power transmission control unit; a harmful red tide prevention control unit; a disaster prevention control unit; a fish and shellfish scattering control unit; and a floodgate control unit. As such with such a configuration, the present invention is possible in preventing flooding in advance by controlling quickly the flooding.

Description

{Adjusting the distribution chute flood flood regulation machinery}

The present invention relates to a dispensing apparatus for a flood control apparatus for a flood control apparatus, and more particularly, to a flood control apparatus for a flood control apparatus for controlling flood and drought such as land and sea, Can be freely controlled by the distributing and inputting devices of the flood control machinery in advance to prevent the flood and drought floods and to prevent the flood control devices from being mixed with each other, It is possible to inject the dispensing device of the flood control equipment for various flood control facilities so that the flood control equipment can be continuously carried out to overcome flood damage from natural disasters. In addition to being able to control the amount of dispensing device according to preference, The weather information transmitted from the flood control satellite to the water storage tank of the flood control facility and the distribution input unit of the flood control facility is stored in the barge at the top of the holding tank to actively cope with the flood control efficiently and efficiently in accordance with the change of the weather condition of the holding tank. A small, medium and large sized marine hydroelectric power plant in a marine tunnel traffic system consisting of a hull and a barge hull at the bottom of a holding tank. Weather observation equipment of a connection structure of a connection structure. Pump and valve injection device Nozzle, non-power pump, cable car, and tunnel Tunnel Each connection structure moves the hull position of the flood control section Power transmission to the construction machine control section and the hydro-hydroelectric power production control section Control section and harmful vortex block Preventing disaster Prevention control in the preventive control section and control of the hydrological control of the dam in the control section of fishery and shellfish scattering And more particularly, to a dispensing and dispensing apparatus for a flood control apparatus for a flood control facility that improves flood control over flood control.

In general, it is not restricted by natural disasters such as landslides and red tides in land and sea, forest fires, dust, snowstorms, typhoons, typhoons, floods and droughts, but additionally converts the potential energy of water into kinetic energy of water. It is possible to continuously supply hydropower generation and power supply and distribution control device of the flood control system to the top and bottom ridges of the mountain. Several disaster prevention waterways and dams are equipped with injection nozzles, non-power pumps, And the disaster prevention activities are efficiently installed in the facilities to control the flood control.The companies that manufacture the water storage tanks for the flood control equipment and the distribution input equipment of the marine hydroelectric dam equipment construction machinery are installed in the installation process and the flood control equipment To overcome floods with flood control system, the flood control system It made many efforts in order to find the best control and production efficiency, installation of disaster prevention activities into devices to efficiently control the floods to meet with device configuration be made once the flood control of the consumer machine.

However, as the demands of consumers are becoming more diverse and demanding is getting tougher, the devices that control the flooding efficiently and uniformly control the disaster prevention and disaster prevention activities are installed. The installation efficiency is 3,000m / m. And a rotating dam to install the river embankment to withstand. In order to prevent the flood water and the flowing water from flowing into the river to be able to flow into the river, it constitutes a constant 1 ° inclination angle of a plurality of corner ridges It is also possible to provide a system for rapidly and efficiently removing floods from turbulent flows and vortices of flood waters by storing water while simultaneously discharging the rotating disaster waterway and the water flowing into the dam, To prevent roads and bridges from being lost, weather information from the satellites is sent to the top of the holding tank A small, medium and large sized marine hydroelectric power station in a marine tunnel traffic device composed of a barge hull and a barge hull at the bottom of a holding tank. Weather observation equipment of a connection structure of a connection structure Receiving weather information through a radar, In order to prevent the collision with the sailing vessel, the distributing and inputting devices of the flood control machinery are sequentially injected into the barge In order to improve flood control so that flood control can be done simultaneously by providing a connection structure to the hull, it is common to distribute and install the flood control equipment for the flood control equipment of the water storage tank, structure of the block tank.

1 is a view showing a conventional structure according to the installation position of a harmful water control facility of an electric motor pump for supplying diesel engine and generator production electric power according to the operation of a hydroelectric power plant of a flood control facility according to the prior art to each compressor and pump Figs. 1A to 1V are perspective views and side and cross-sectional views showing a configuration of a distribution dispensing apparatus for a flood control facility according to the prior art, respectively.

1 and FIG. 1 to FIG. 1, a hydroelectric power plant distribution dispensing apparatus of a hydroelectric power plant of a flood control facility according to the prior art includes a dam constructed to control flood and drought in a conventional high- The distal end portion of the introduction pipe 191 having a water pressure located in the middle between the multipurpose dam 680 and the multipurpose dam 680 storing the water of the flood control equipment such as an underwater beam is connected to the through hole of the dam 680 And a rear end of the introduction pipe 191 is connected to a suction port 269 of the head tank 189 having a pressure and a discharge port 270 located at a rear end of the head tank 189 is connected to a plurality of introduction pipes 191 And the flow rate of the pressurized gas to the inside of each of the plurality of hydraulic power generators 213 is moved inside the hydraulic power generator 213 located at the lower end of the multipurpose dam 680, Rotate the aberration (213) hydroelectric generators for power production.

1A, the hydro-power generator 213 generates hydraulic pressure in the generator 213 to generate mechanical energy, rotates a number of turbines and turbines 267, and generates power A generator 213 for converting the power generated from the aberrations and turbines 267 and a plurality of turbines 267 and the generator 213 are connected to each other An exciter 215 for supplying a current to the field coil of the AC electric motor is disposed below the rotational speed detector 214 at the upper end of the rotating shaft 198. A device 216 The upper rotation bearing 217 is positioned below the device 216 for pushing the annular collar and the device 218 pushing the rotation bearing under the upper rotation bearing 217 is positioned and the rotary bearing pushing device 218) The center stator 221 is positioned in the sperm coil 219 and the stator frame 220 and the electric wire 71 is inserted in the center stator 221 and the fan 195 is positioned below the central stator 221, A low speed rotation bearing 225 is disposed in the braking device ring 223 and the braking device 224 below the low speed rotation bearing 225 and a low speed cooling device 222 is disposed below the low speed rotation bearing 225, An armature coil for a generator, which is a non-rotating coil provided along the circumferential surface of the rotor coil, and a plurality of aberrators and a turbine 267 located at a lower end of the rotating shaft 198, The turbine rotating bearing 227 and the impeller 228 are provided inside the casing 141 of the hydrostatic power generator 213 to constitute a hydraulic power connection structure power production control unit 811b and at the same time the Francis turbine 229 and the Pelton The aberration 230 is the shape of the turbine 267 The suction port 269 and the discharge port 270 rotate the several aberrations while moving the inside of the casing 141 and the pressurized flow with the pressure inside the hydroelectric power generator 213 to produce hydroelectric power, The pump aber 264 controls the opening and closing of the main valve 265 with the power supplied from the nuclear power plant by controlling the flow rate of the flow stored in the river 264, The pump water turbine 264 can be operated while the hydroelectric power is being generated and the position of the water in the water storage dam 680 located in the upper part of the power plant can be adjusted by the distribution input devices of the flood control machinery of the flood control part 811 At the same time, the flood control unit 811 controls the power transmission control unit 811c and the harmful vortex prevention control unit 811a and the hydro-hydroelectric power production control unit 811b, In the dispensing device of the flood control machine with water gate control adjusting section (811g) of the dam it is configured to block the hip disaster prevention (811d) control unit (811e) and seafood scattering control section (811f).

Referring to FIG. 1B, the structure of the model configuration and the shape of the diesel engine showing the structure of the distribution input device of the harmonic control device of the disassembly and assembly of the motor in the marine hydroelectric power production control section 811b of the conventional flood control section 811. The distribution input device of the electric motor body 192 is provided with a fan 195 in the hood 193 and a retaining ring 194 and a body front reinforcing plate 197 in the body frame 196 and a rotor assembly 199 The terminal box 203 to the motor protection casting frame 202 and the terminal box cover 205 to the lifting bolt 204 and the rear rotation bearing 206 to the rear rotation bearing 206. [ The rotor 208 is provided with an air gap 208 and a fan protection cover 209 and the rotor core 210 is provided with a stator core 211 and a stator winding 212 as a connection and assembly structure. And a tackle winch (137) connected to each pump and compressor by a rope or a chain wound around the fuselage and powered by the diesel engine generator (226) As shown in FIG.

Referring to FIG. 1C, a control block diagram and a BF model are shown in a block diagram of a front-end view, a front view, and a perspective view of a multi-stage multi-stage pump of a conventional disaster prevention control unit 811; Speed control system and three-pump direct-injection-type operation system of the embodiment. The main body (1) of the distribution and injection system of the flood control machinery is provided with a control block diagram composed of a flood control facility and a VFM model The pump power supply 272 is divided into the control power supply 273 and the control power supply 273 is driven in the emergency power supply 274 by a DC power supply. (M / C) switch contact of the pump power supply 272 and the circuit contacts of the inverter 47 after contact with the output circuit front end of the (M / C) drive signal contact output circuit 279 of the supply circuit 275, The microcomputer 276 is connected to the microcomputer 276 by the microcomputer 276 via the microcomputer 276 and the switch input circuit 58 via the unit 276. [ And is displayed on the LCD display The motor overload signal input circuit 280 outputs a signal to the circuit 278 and the (M / C) drive signal contact output circuit 279 and outputs a signal (MCC B + T HR) and (MCCB) circuit contacts are connected to the circuit contacts of the inverter 47 and the inverter operation data input / output circuit 281 is connected to the inverter 47 circuit and the microcontroller 276 as mutual input and output circuits And the discharge pressure transmitter 284 is connected to the pressure sensing circuit 282 so that the circuit 282 having the flood control process built into the main body 1 is set to the unit 276 again, The discharge pressure switch 285 is connected to the microcomputer unit 276 through the external state input circuit 283 and then the input circuit 283 is again input to the microcomputer unit 276. The multi- Dispensing devices.

1D, an unmanned camera of a control system is installed in an inverter system of a control method using a microcomputer of a multi-stage multi-stage pump and a digital pID control method in a disaster prevention prevention control unit 811e of a conventional flood control unit 811 (1) of the flushing control machine in which the inverter system in which the flushing water is sprayed from the spray nozzle is installed and the equipment of the control system is connected to the flushing control device. The dispensing and inputting apparatus is stored in a plurality of fire extinguishers together with the fire water in which the water pressure of the fire hose is held inside the fire pipe nozzle body while the ignition object 166 in which the flood control process formed in the main body 1 is burned The incombustible gas 164 is stored and discharged to the outside of the fire extinguisher body at the same time, If the water curtain water film 39 disappears and disappears at the moment when the burning pillar 294 is blown away by a plurality of the burning water film 39, the scene is transmitted to the unmanned camera 184 installed at the height of the electric pole around the fire scene, The microcomputer control features of the stage multi-stage pump 8, which is configured to display the status of the fire at the monitor 52 through the information detection function of the pump control server 51 of the system 150, 47) It consists of distribution dispensers of flood control machinery including speed control system and algebraic control system.

Referring to FIG. 1E, there is shown a partial perspective view of a movable prime mover, a fixed prime mover and a two-stage squeegee prime mover, which are compressors of a hydrological control adjusting unit 811g of a dam of a conventional flood control unit 811, (1) The main body of the dispensing device of the flood control machine of cross section and cross section is abbreviated as main body.

The distribution and dispensing apparatus of the road and flood control apparatus includes a flange 28 of a bottom stage road surface upper surface suction and confluence pipe 3 on which a flooded multi-stage pump 8 having a flood control facility is formed inside the main body 1, The disinfection water is detected by the solenoid valve 76 at the connection joint site and the ball tap 499 which is the fire water level sensor at the upper part of the collecting tank 34 at the upper part of the pump machine room. An air nipple 110 for a socket connected to the air hose 109 at a connection portion of the air hose 109 and an air nipple 110 for a sock, The diesel engine generator 226 at the upper part of the interior of the machine room is operated so that the airship 78 is tied to the upper end of the upper surface of the surface of the ground surface so that the power source 46 is supplied to the prime mover 80 Lt; RTI ID = 0.0 > 192 < / RTI & Pressure reservoir tank 145 so that air having a constant pressure is stored inside the reciever high-pressure reservoir tank 145. In the event of a disaster, the emergency valve of the disaster air line 181, The pressure control switch box 108 of the motor control module 106 is connected to the pressure gauge 101 and the pressure switch 104 while the air is blown into the inside of the building while the pressure gauge 84 is expanded, A prime mover 80 in which a piston 127 and a cylinder 126 are attached to a crank handle handle composed of a crank 248 and a link belt 249 and a motor A belt cover 261 is installed on the circumferential surface of the conveyor 250 and the V-belt 252 to connect the conveyor 250 and the V-belt 252 to each other to control the rotation speed of the prime mover 80 The compressor main body 263, A suction filter 262 is mounted on the air intake port 269 at an upper end of the compressor main body 263 and the piston 127 of the compressor main body 263 and the air discharge port 270 to which the cylinder 126 is attached are connected to a high- The pressure gauge 101 connected to the safety valve 258 and the pressure switch 104 are connected to the tank 145 so that the electric motor 192 is operated when the pressure is applied to the high pressure storage tank 145 at 6 kg per 1 cm 2 of air pressure The operation of the electric motor 192 is resumed and at the same time the air pressure in the high pressure storage tank 145 is supplied to the air valve 257 and the automatic valve 259 And an internal air cooler 170. The internal air cooler 170 is connected to the air hose 109 and the air hose connection nipple 110, The heat is dispersed into the oil cooler 157 without the after-cooler 182 The multistage screw cooler 147 is provided with a basket 42 and a bed nozzle for lifesaving structure in an air tube 730 for lifesaving structure connected to the suction opening 269 and the discharge opening 270 so as to be detachably coupled together by means of a connecting device. And a hydrologic control regulating unit 811g of the dam control unit 811 so that the overflow control can be adjusted by the distribution input devices of the flood control equipment.

1F, a disaster prevention preventive adjusting unit 811e of a conventional flood control unit 811 is connected to a gear drive 290 to which an oil separation tank 288 is adhered and an electric motor 192, Is connected to the air intake port (269) of the receiver high pressure storage tank (145) by disassembly and assembly with a suction valve (289) to the suction port (263). 1g, the distribution dispensing apparatus of the flood control apparatus includes a suction control unit 811g of a dam of a conventional flood control unit 811, a suction filter (not shown) attached inside the aft cooler 182, (262) and the suction filter (262) attached to the inside of the dryer (291).

Referring to FIG. 1H, the disaster prevention prevention control unit 811e of the conventional flood control unit 811 includes a twin-shell canopy type ground fire hydrant, an underground type fire hydrant 179a of an excretion type fire hydrant, The subfloor fire hydrant box hatch manhole above the lower surface of the road surface of the fire hydrant 179b is partially constituted and at the same time the fire extinguisher 161 and the fire hydrant box 160 inside the fire hydrant box 160 are equipped with a fire hydrant box, ) And a fire hydrant (179) for the fire brigade's fire brigade (169), and a distribution control unit for a flood control machine with a large-scale fire hydrant system (a) and a small scale fire hydrant system (b) .

1I is a perspective view showing a distribution dispensing apparatus of a flood control apparatus according to an embodiment of the present invention, which is a construction of a sprinkler installation piping system, and a disaster prevention prevention control unit 811e of a conventional flood control unit 811, A plurality of drencher heads 299a, b, c and d are attached to the sprinkler head 111 of the stopper valve 111, The test valve 121 and the high pressure water pump 122 are connected to the bell 119 and the alarm valve 120 to the rich 117 and the rich circuit breaker 118 in the block steel tower 116, And a disaster prevention prevention and control unit 811e of the flood control unit 811 equipped with the vibration alarm devices 300. [

Referring to FIG. 1J, an operation side surface configuration diagram showing the configuration of the distribution dispensing apparatus of the flood control apparatus is shown. The dispensing apparatus of the flood control apparatus includes a disaster prevention prevention control unit 811e of the conventional flood control unit 811, The operation of the piston pump 127 which is a pump and the operation of the plunger 253 are provided with a plurality of gears connected to the rotating shaft 198 of the electric motor 192 to replace the feeder 250, The blunt pump 311 and the turbine pump 140 and the wing pump 327 can be easily mounted on the wall by a simple pump having suction and discharge in two chambers by moving the handle to the left and right The disaster prevention preventive control unit 811e of the disinfection control unit 811 of the disinfecting and regulating machine having the installation state of the sewage pump 309 is often used for transferring the oil of the drum, ).

Referring to FIG. 1K, the disaster prevention preventive control unit 811e of the conventional flood control unit 811 showing the configuration of the distribution input apparatus of the flood control apparatus according to the present invention includes a control valve 459 and a faucet- The distribution tapping device of the flood control machine installed on the land and the sea of the general type faucet 496 is provided with a pressure reducing valve 460 and a pilot pressure reducing valve 461, 461 is provided with a diaphragm 463 and a pilot valve 464 in the secondary side sensing hole 462 and a main valve spring 467 in the main valve 466 and an automatic pressure regulating valve 469 in the regulating spring 468, A spring-type safety valve 473 for the safety valve 472 and a safety valve 474 for steam are attached to the screw type automatic pressure regulating valve 470a by a flange type pressure control valve 471b, A temperature regulating valve 477 and an automatic level regulator 47 for the automatic water dispenser Type automatic air exhaust valve 483 and a refrigerant circulation type automatic air exhaust valve 483 are connected to an automatic air feeder 479a, an air vent valve 481 in the automatic level regulator 480 and an automatic air exhaust valve 482 for steam type steam, A bellows type charge valve 487 is connected to the refrigerant stop valve 485 and the feed valve 486 is connected to the pipe valve 484 and an expansion valve 489 and the diaphragm type valve 488 are connected to the diaphragm type charge valve 488, The expansion valve 490 is constituted by a bellows type expansion valve 491 and the rich valve 492 is provided with a refrigerant pressure regulating valve 493 and a solenoid valve 494, At the same time, the conventional faucet 496 of the faucet body 529 of the piping accessories includes a packing press 531 on the faucet body 529 and the packing box 530, a disc packing 534 on the handle 533 and a disc 534 on the tap stand 532 535 and the waterproof packing 536 are provided with an anti-aging property packing 537 and a rubber film and a Teflon film 538, It consists of the disaster prevention control block portion (811e) of the dispensing machine of the input device flood control unit 811.

Referring to FIG. 11, in a major problem during the pump driving of the disaster prevention preventing and regulating unit 811e of the conventional flood control unit 811, the flood control apparatus of the flood control apparatus according to the present invention, The distribution input device of the road and flood control machine is such that the standard gland packing 344 is provided with a gland 345 and a lantern packing 347 on the packing 346 with a liquid lantern ring, Type packing 348 and a throttle-bushing packing 349 are provided to pump the cooling water so that the cooling water outlet 350 and the water 351 are provided with the cooling water inlet 352 and at the same time, An auxiliary gland 355 and a cooling liquid chamber 356 for the leakage liquid are provided in the water jacket attaching packing 353 and the inner cooling chamber 354 of the sleeve. In the gland packing weaving method, The weave 359 is provided with lattice weaves 360 and the flashing hole 361 and the O- A stop 363 at the center ring 362 and a sealing ring 366 at the sealing end 365 at the middle ring 364 and a quenching 369 and a quenching 369 at the passive ring 367, 371 and the partition wall 372 can be adjusted to the balance 334 and the unbalance 335 by the axial pushing load 373 by adjusting the pressure 374 acting on the front surface of the impeller and the pressure 375 acting on the back surface of the impeller The suction pressure 377 and the back pressure 378 of the balance hole 376 are connected to the front wear ring 380 of the balance hole 376 and the discharge pressure 381 of the balance ring 376 is connected to the rear rotation bearing ring 382 and the under wing 384, The pressure distribution due to the installation and the impeller disposition shaft portions 390 of the multi-stage pump of the impeller 385 are constituted by the distributing and introducing devices of the flood control machinery having the cooling system 391 of the mechanical seal, The water pump 393 having the water supply separation 387 and the water supply coupling 388 in the impeller arrangement 386 of the multi-stage pump of the returning pipe 370 receives the water hammer action 389 And a disaster prevention preventive control unit 811e of the disinfection control unit 811 of the flood control machine.

Referring to FIG. 1M, the disaster infusion prevention device of the disaster prevention control unit 811e of the strait-configuration road and disaster prevention control unit 811 showing the conventional configuration includes a fire pump and a plurality of slopes The valve 403 is provided with a valve body 404 and a valve cover 405 and a sleeve 408 and a packing press nut 408 on the valve cover 405. A handle 410 and a handle nut The wedge gate valve 413 is separated into the single valve 414 and the flexible valve 415 while being distinguished into the parallel slide valve 416 and the double disk gate valve 417 While the stop valve 418 is separated into a flange type glow valve 419 and a flange type angle valve 420 and is attached to the body 421 and the bonnet 422 which is a lid by a disk 423 and a lid attaching valve seat 424 A handle 427 is attached to the valve seat 425 and the valve pusher 426 and a packing press ring 429 is attached to the cover fitting ring 428 A nut 433 for a lid bolt and a nut 436 for a packing bolt are fastened to a screw-in type 431 and a lid bolt 432 in a king pusher 430, The valve presser 442 is connected to the flat pusher 442a and the conical presser 442b while the swash plate 439 and the detent screw 438 are provided with a connection structure to the washer 439 and the packing 440 with the gasket 441 The one type cock 443 is provided with a bronze screw insertion main cock 445 and a bronze flange type gland type 446 with a gland screw insertion gland cock 447 While the two-type cock 444 is composed of the handlebars 450 in the three-bock 448 and the four-way cock 449 and at the same time the check valve 451 is connected to the swing type check valve 452 The check valve body 454 is divided into a lift type check valve 453 and a disc cover 455 and a disc 457 are provided on the disc 456 to prevent disaster prevention of the flood control part 811 In the portion 811e, It is composed of distribution dispenser of flood control machine.

1n, the operation of the disaster prevention control unit 811e of the conventional disinfection control unit 811 is shown in the figure, Type strainer outer shape 501a and the U-shaped strainer end face 502b are provided with a V-type strainer (not shown) on the plurality of strainer 392 constituting the expansion line 498 and the exponent line 497 of the pipe 14, 503 and at the same time the tube fixing metal 504 is attached to the buckle support band 505 and the support band 506 with a roller support band 507 and a vertical tube- 509 and the bottom bands 510 and at the same time the trap 511 is provided with the buckle trap 524 and the bottom-up bucket kit 525 for the angled thermal trap 522 and the straight thermal trap 523, And the impounded steam trap 528 to the flood trap 527 and the flood control section 811 to the bottom- Disaster prevention control block portion (811e) is configured to be adjusted by the distribution chute of a flood control machine.

1O, a distribution input device of a flood control device according to the present invention is a constructional view showing a configuration of a hydrological control adjustment part 811g of a dam of a conventional flood control part 811. The distribution input device of a flood control device comprises: The discharge joint pipe 4 and the belt carber 261 are connected to the electric motor 192 constituting the plunger pump 148 of the reciprocating pump of the positive displacement type pump type and the suction merge pipe 3, The rotary pump rotor 338 in the interior of the rotary pump 337 and the external gear pump 326 is connected to the discharge port 270 at the suction port 269 while constituting the operation mode of the wiper pump 327 and the operation method of the wing pump 327, (811g) of the dam control unit of the flood control unit (811), which is provided with the water movement control unit (811g).

Referring to Figure 1P, the distribution input device of the flood control device is a constitutional road showing the configuration of the hydrological control control part 811g of the dam of the conventional flood control part 811. The distribution input device of the flood control device comprises a turbine pump 140 A plurality of gears for coupling the electric motor 192 and the turbine pump 140 constituting the electric motor 192 to the rotating shaft 198 of the electric motor 192 and replacing the electric motor 192 with the rotor 250, And at the same time the viscous pump (341) of the propeller pump (146) and the mixed flow pump (342) are connected to the self-priming pump (340) having the discharge joint tube (4) and the priming 343, a viscous pump and an impeller 143. In the ensured function of the pump in which the closing position and the opening position of the inside of the positive displacement pump in which the flood control process is formed inside the main body 1 are clearly defined, In the same manner, in the case of sending the fluid, The hydrological control section of the dam (811g) consists of a distribution control unit for the flood control machinery.

Therefore, a piston or a plunger of a reciprocating pump is provided so that a predetermined amount of liquid is sucked up and sent out to constitute the following features.

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

Secondly, since the pumping action is intermittent, there is a pulsation. To reduce the pulsation, a flywheel for keeping the rotating speed constant or an air chamber 402 or a pulsation prevention device for high pressure is attached,

Thirdly, since the discharge amount of one stroke (stoke) is constant, a fixed amount can be discharged and discharged,

Finally, even if the number of revolutions is changed, the change of the discharge pressure is not as severe as the centrifugal pump. Therefore, there is always a suction / discharge valve to increase the number of parts, and the failure of the valve is fatal. In order to convert the rotational motion of the power into the reciprocating motion It requires a crank system or an exen system as a mechanism, which can complicate parts or cause vibration. As described above, there are the following kinds of reciprocating pumps. First, the piston pump has a sealing line (packing) and a valve attached to the piston. Second, the plunger pump differs from the piston pump in that the seal line is fixed to the pump body and attached to the reciprocating plunger not. Accordingly, it is a fact that the plunger 253 type is easy to replace the packing, and a very high high pressure can be obtained. In order to adjust the operation of each pump by supplying power to the power line with each pump operating method, 811), and 811g of the hydrological control section of the dam.

1 q to 1 t, the operating structure of the automatic collecting tank showing the conventional structure of the hydrological control adjusting portion 811 g of the dam of the flood control portion 811 is shown in FIG. The center vertical line PBCL of the centrifugal pump 308 constituting the position outside the tank 34 is connected to the motor 192 constituting the centrifugal pump 308 and the centrifugal pump The pump 308 is connected to the rotating shaft 198 of the electric motor 192 by a plurality of gears coupled to a plurality of gears so as to perform pump rotational motion. An automatic valve 259 coupled to a tee elbow 44 connected to a pipe 14 located at the center of the tank 152 and a collecting tank 34 are fixed to the bed frame 286 at the lower end of the collecting tank 34 While the electric motor 192 and the centrifugal pump 308 are at the low level The pressure switch 104 is engaged with the water hole 315 which operates according to the water level so that the water hole 315 is pushed into the water collecting tank 34 through hole 315 by the device 316 which pushes the water hole. The switch input circuit 58 provided inside the louver cover 550 simultaneously connects the bolt and the nut to the flange 28 coupled to the louver cover 550 while pushing the cap coupler 317. At the same time, The main switch button 66 and the auxiliary switch 318 which are the switches for the OFF control are connected to the suction / discharge switch 285, the flow rate check flow meter 105 and the motor control module 106 by the stop valve 114 A time-setting level switch 541 and a high-level alarm 542 are connected to the transmission / reception port 168 with a metal 539 connected to the automatic valve 259 and simultaneously provided with a metal 539 having a large thermal expansion and a metal 540 having a small thermal expansion An alarm reset button 545 and an alarm reset button 544 are connected to the bay compile alarm 543 and the alarm relay alarm 544, The indicator scale 552 and the overflow connection 553 to the check nozzle 549 and the float shoe switch 551 to the level switch 546 and the sound cap 548, The connection structure between each of the instruments, the switch and the piping line is provided so that the water storage level of the water collection tank 34 can be adjusted by the connection 554 and the flange connection 555, (811) dam control gate (811g) is a distributing and input device of the flood control machine, which is constructed to overcome flood control.

Referring to FIG. 1U, the construction of the hydrological control unit 811g of the dam control unit 811 is shown in the conventional configuration.

The solenoid valve pressure switch of each solenoid valve 76, which is supplied with the pressurized air generated by the air compressor 80 as a connection structure of the main body 1 which provides a plurality of solenoid valve actuating assemblies attached to the hydraulic pneumatic cylinder, When the on-time main switch button 66 of the main switch button 66 for the valve start-up switch button is manually depressed, the butterfly valve 622 is opened and the main switch button of the main switch button 66 66, the connection structure of the butterfly valve 622 is completely closed and the operation is stopped. When the user pushes the butterfly valve 622 by hand on the on-time main switch button 66 of the main switch button 66 for the start switch button, The connection structure 622 is expanded to allow the pressure air generated in the air compressor 80 to pass through the pipeline line connection structure and to simultaneously transmit a plurality of hatch covers 153 And a plurality of fire doors (154), the main body (1) being constituted by a connection structure for providing a connection structure, and at the same time, a method of applying oil, air pressure and sensor technology The solenoid valve body 557 is connected to the spool 556 and the spool 559 by a spool packing 560 and a pilot 561 with a coil 562 and a connector 563, (566) and manifolds (565), and at the same time, screw caps (567) and union couplings (569) bonded to the air hose coupling port union couplings (568) In the form of a horizontal symbol 575 including a central vertical type 572 in the two-position single 570 and a two-position double 571 and a horizontal type 574 and a vertical type 573, The microswitch 581 is connected to the single 576 and the double 577 with the jaws 580 to 575 and to the eye 579 A connecting structure is provided to the damper spindle 584 of the fire damper 583 so as to control the air flow rate of the suction port 585a and the discharge port 585b of the doctor ventilation 585 in the base pipe type to the contact pipe type 582 (62) and a diving control device connection structure (62) as a construction machine connection structure to the inner connection structure of the main body (1) while providing a pneumatic cylinder operation control A connection structure to which the generated pressurized air is supplied, a pipeline line automatic pneumatic conveying device 916, and a connection structure to provide a connection structure of a docking control valve of a pipeline line equipped with a connection structure, (811) dam control gate (811g) is a distributing and input device of the flood control machine, which is constructed to overcome flood control.

1 v, the disaster prevention control unit 811e of the conventional flood control unit 811 is a flood control system configuration showing the configuration of the distribution input unit of the flood control equipment. (586) in Mongolia and inside the main body (1) where the flood control facilities are installed in order to prevent various natural disasters, 587), the existing flood control equipment of steam airship (589) in Kelly's hot air balloon (588) was equipped in the fire area before and after the forest fires. At the same time, (393), which has a connection structure of a water pump connected to a water tank and a water tank connected to a pressure tank, It is equipped with a double pipe fire hose and spray nozzle assembly in a carbon dioxide gas fire extinguisher according to the installation of a coke oven, and shows a configuration of a dispensing device of a flood control device with a manometer turn type level balance nozzle installed in a three stage step pump extinguisher and a collecting tank (647) and high and low acid (395) alternatives to fire engine dispatch in a dual pipe fire hose for the supply of yellow loess mixture fire water and fire retardant water to be stored in the double vinyl tent nozzle type of the ridge within one second by the nonmotor water pump The cable rope 19 installed on the steel tower 116 fixed by the anchor bolts 133 on the driving wheel rollers 135 is used to adjust the position and movement of the yellow pipe mixture fire water and the double pipe fire hose for supplying the fire water. The building rooftop fire fighting cabin 394 of the building 256 has a vibration control device 396, a speed control device 397, an electric motor rotation transmission 398, And a tongue winch 137 for controlling the opening and closing of the water gate with a rope or a chain wound around the body provided with the devices 399. The fire extinguisher 124 is fixed to the fire extinguisher fixing pin 128, ) Rope 131 in the life-saving tubing 130, carbon dioxide in the noncombustible gas 164 and halon gas 175 in the carbonic acid gas 174, so that the spray nozzles and bed nozzles of the inside and outside of the building, In order to prevent the natural disasters from occurring, it is necessary to prevent the natural disasters such as forest fires, dusts, snowstorms, typhoons, floods, droughts, landslides, And a disaster prevention prevention and control unit 811e of the flood control unit 811 so as to reduce and scale the scale of fire and disaster prevention for each type.

On the other hand, when floods occur due to heavy rain due to the global warming due to climatic changes in the dams and hydrangeas formed to control floods and droughts in conventional rivers, The water level of the dam is controlled by opening and closing the dam of the dam which is installed only in the lake and the river. When the water is stored in the dam of the river and the lake for a long period of drought, As the water quality is deteriorated due to enemy and algae, the odor is smoldering at the same time, the drinking water can not be taken even by the drinking water at the water intake point, and the middle area of the flowing river is formed by the underwater gates, The dam and the gates are located in the majority. The natural ecosystem environment is destroyed and the dams are not equipped at all with the same number of revolutions as the circular water tanks, causing landslides in the rainy season, causing flood victims to take away the lives and property of the people, Due to inundation of farmland, neighborhoods, livestock and industrial complexes in the same lowland as the above, life and livestock industry wastewater flows into the rivers and flows into the sea. As a result, marine organisms migrate to rivers, It can be said that it is impossible to do as much as possible, so that it can cause a great obstacle in the national economic development, the revival of the four major rivers and the restoration of the world's four major fisheries. There is a need for comprehensive measures to effectively reduce Do,

 Therefore, by replacing the dam gate of the river storing the main body (1) of the present invention with a new brine inlet and brine water inlet shutoff device and constructing a plurality of artificial tunnel devices for the underwater dam of the river middle dam, In order for the organisms to move to the rivers, the germanium level in the soil of the river bottom is introduced into the ocean in a large amount so that fishes and shellfish can scatter freely in the rivers of the valleys, and the quality of the lipids is improved to restore the natural ecosystem order and balance. It is possible to maximize the restoration activity and to carry out the forestry dredging project in parallel with the forestry dredging project. In the drought period which is composed of the flood control, the stored water which can be used for 3 years is stored in the dam or storage tank Water for Drinking Water Agricultural Water, Hydroelectric Water, Industrial Water, Control and Disaster Prevention Water storage tanks and marine hydroelectric dam facilities that are constructed to continuously supply water resources of high quality in order to supply water resources in abundance with water. And the divisional shaft are divided into separate departments so that the flood control of the field can be overcome to adjust the flood control at the same time so that the hull position moving construction machine control unit 811a of the flood control unit 811 and the marine hydro- Shutoff prevention control unit 811e and the fish and shellfish scattering control unit 811f in the power transmission control unit 811c and the harmful red tide blocking prevention control unit 811d are connected to the dam control unit 811g .

In addition, the source of domestic water resources is 1.6 times more than the world average, but per capita precipitation is only about one sixth of the world average due to the overcrowding of the population. In addition, 65% of the country is in mountainous terrain, there is a lot of variation in precipitation by region, and rainfall in the flood season is a rivers.

Therefore, it is essential to secure a stable water supply in order to reduce the seasonal disparity of water resources and cope with the growing water demand centered on urban areas where population is concentrated.

On the other hand, multi-purpose dams require more than 10 years to construct a major infrastructure for securing water resources, and it can be a stumbling block to economic development due to the social cost of water shortage.

Hereinafter, the distribution input device of the flood control machine for reducing the effective flood damage of the multipurpose dam according to the prior art will be described in detail as follows.

The total amount of domestic water spillage in the flood season is about 43%. The dam facility, which stores such a large amount of water to reduce downstream flood damage, and to use it when it is needed, has a typical dimension used in the Southeast Asian monsoon climate region Facilities.

In addition, recently, due to the characteristics of water resources in Korea, the amount of rainfall is increasing year by year, while the number of days of rainfall is decreasing. Major floods are frequently occurring. In addition to flood damages, Distribution input device.

Especially, as landslides occur due to massive heavy rains, the valleys are overflowing with turbulence and vortices, the river embankments and railway bridges are destroyed, roads are flooded in agricultural lands and neighborhood living areas, flood water pollution It is estimated that the flood of Thailand lasted at least 1/3 of the land will take 33 trillion won to recover from the flood, and the sustained drought in Africa , Australia's repeated droughts and floods, and Pakistan's 80-year Flood, all of which are threatened by floods.

Above all, in order to control floods and droughts in most rivers and rivers, dams and hydrological weirs, which consist of distributing devices of flood control machinery, should be supplemented and modified for restoration of natural ecosystem environment. When the whole earth is suffering from water, when the flood occurs by generalized heavy rain, the water level of the dam is controlled by opening and closing the dam of the dam installed in the river or lake in the past to release the water stored in the dam. In contrast, when water is stored for long periods in dams such as rivers and lakes, the water quality is deteriorated due to persistent heat waves, resulting in unpleasant odors, and water can not be taken from drinking water even at drinking water. Middle of the river, the middle section is composed of hydrographs underwater and the river connected to the ocean In the estuary of the estuary, dams and gates are located in various places, and the balance of the natural ecosystem environment is lost. For this reason, it is possible to efficiently reduce the damage of human life and property from the flood damage. Comprehensive measures are urgently needed,

As described above, since the distribution input device of the flood control machine of the conventional technology level can not be better controlled by the flood control in which the installation is limited only to the river or the river, The distribution input device of the flood control machinery includes a fire-fighting nozzle composed of a double pipe structure that supplies a plurality of disaster prevention materials composed of a flood control process composed of a flood control facility that controls the flow of the flow by preventing the disaster, Water Supply Water Supply Pump Water Supply Piping line is a neighborhood residential area with high and low mountain building in the pipeline. To extend the pipeline so that the disaster prevention material can be supplied more quickly, it is necessary to go further to sleep, , Combined with the forecast weather forecast, the water pipeline along with the air piping High-performance submersible pumps and three-stage multi-stage pumps in air compressors for efficient use of hose, piping, frame, and collecting tank equipment installed in the nozzle tube body of the expansion pipe. All electronic control devices and portable wireless communication terminals are connected to a wireless communication device A system that is installed in the inside of the water intake point and enables the control to be performed without being close to the pump and an emergency disaster prevention method and an emergency disaster prevention method in order to judge the occurrence situation of the disaster more quickly and to prevent a disaster loss blowing like snowball by quicker measures This is a method to prevent disasters through the Internet. It is also possible to prevent disasters from occurring through the internet. Even if the evacuation personnel do not come close to the site of the first fire, the piping nozzle is connected to the coupling part of the fire hose connection port It is longer than the evolution hose used before. Fire pipe of fire prevention disaster countermeasure item nozzle fire pipe sensor of movement form It is constituted so that the life structure and initial evolution by fire prevention disaster control device are connected to the distribution shaft integrally with the pump, A tube-shaped collecting tank composed of a double pipe structure constituted of a power transmission control unit for transmitting power, and a distribution input unit of a flood control machine.

Therefore, in order to provide facilities for reasonable flood control so that all human beings can store and store clean water using the fresh water as a whole, the flood control apparatus for the flood control apparatus for flood control apparatus of the present invention can be classified into The water pollution control system of the flood control section 811 collects the problems such as forest protection, forest fire prevention, and ecological environment restoration project, which are well utilized, and disaster prevention water channel, reservoir water reservoir installed in the valley, Dam prevention control section 811e and the fish and shellfish scattering control section 811f are connected to the power transmission control section 811c and the harmful red tide blocking prevention control section 811d to the marine hydroelectric power production control section 811a and the marine hydroelectric power production control section 811b, The present invention is remarkably different from the prior art in that it can be solved by the hydrological control regulating unit 811g of the present invention.

Hereinafter, the range of the construction machine of the distribution input device of the flood control machine according to the prior art level will be described in detail as a range according to the Construction Machinery Management Act,

In other words, a construction machine is a generic term of all machines used for construction work, that is, a construction machine and a medium-sized machine having power obtained from a prime mover and used for excavation, transportation, traction, etc., The power transmission control section 811c and the harmful tidal blocking prevention and control section 811d are provided to the hull position moving construction machine control section 811a and the marine hydroelectric power production control section 811b of the flood control section 811, The present invention will be described in detail as follows. The present invention will be described in detail with reference to the accompanying drawings, which illustrate the present invention with reference to the accompanying drawings, in which: FIG. 1 is a perspective view of a dam control apparatus according to an embodiment of the present invention; .

First, the distribution input device of the flood control equipment for the flood control equipment,

As shown in the figure, the construction equipment excavating machine is separated into a bulldozer 855 and a scraper 859 by an excavator 856 and a luther, and the following is a basic use machine, which is a pile driver 882 and a diesel pile hammer 883 are separated by a steam hammer 884 and the following crane 861 is separated into a hydraulic crane 885 and a tower crane 886 by a crawler crane 887 and a truck crane 888, The loader 857 is separated into the shovel loader 857a and the payloader 857b by the payloader 857c and separated by the motor grader 864 in the next stopping machine, A tamping roller 891 and a tire roller 892 are disposed on the tandem roller 890 and the following packing machine is equipped with a concrete finisher 866 and a concrete batching plant 865 on the asphalt finisher 871 and the asphalt distributor 871a. And the asphalt mixing plant 870 The separating machine is separated into a dump truck 860 and a tractor 893 and a trailer 894 and a conveyor 633 to a forklift 858 and separated into a dredger 873 as a dredger 879, The crusher 874 and the crusher 874 are connected to the pump drilling machine 879a and the bucket drilling machine 879b by the dredge dredger 879c and the grab dredging machine 879d. The engine generator 226 having the underwater light 843 and the unmanned camera 184 attached to the deck deck upper part of the barge main body 591 while being used for excavation, Is selected as the dispensing device for the flood control equipment for flood control equipment which is configured to overcome flood control with an unattended monitor (52) operating device, isolated from each construction machine body.

Referring to FIG. 1w, the hull position moving construction machine control unit 811a of the conventional flood control unit 811 is a distribution input device of the flood control machine showing the distribution input apparatus configuration of the flood control machine. In the input device, the distribution input device of the construction floatation control machine is as follows.

As shown in FIG. 1w, a soil-borne construction machine is used in which a clayboard (straight type, angled type, etc.) is mounted on the front portion of a tractor and an auxiliary device of a ripper and a lute is attached to the rear surface, As the most basic earthworking machine of the machine, it is a compound term of fire (bull) + dozer (resting machine). It is used to move the hull of the flood control part 811 The construction machinery control section (811a) is a flood control machine.

As shown in FIG. 1w, the application will be described as follows.

As shown in Fig. 1w, as a general matter, the dozer's standard display is expressed by its own weight (ton or kg), that is, its own weight, and the economical working distance of the dozer is 10100 m. The three major tasks of the dozer are shown in the table below,

The following table shows the power transmission sequence of the doser,

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

Blade (earth plate) Capacity:

here. Q : Blade capacity (m ³ )

B : Blade width (m)

H : Blade height (m)

 1 cycle time

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

A detailed description of the traction force is as follows.

Here, ((coefficient of friction)

( W : Vehicle weight (kg))

Traction horsepower (H)

only,

Referring to FIGS. 1x and 1y, the hull position shifting construction machine control section 811a of the conventional flood control section 811 is a distribution input apparatus construction road of the flood control machine showing the distribution input apparatus configuration of the flood control machine. Dispensing equipment of disinfection control equipment of equipment shall be described as follows in classification of dozer.

As shown in FIGS. 1x and 1y, the crawler type dump bottom 855a and the wheel dump bottom 855b, which use an infinite track type as shown in the following table, are separated by the traveling device do.

As shown in FIGS. 1x and 1y, the crawler type has a large grounding area, a small grounding pressure, and a strong excavation ability even on a bad terrain, and has good backing ability. The use of traverse for wetlands makes it very suitable for wetland work due to its low ground pressure, and it is easy to work underwater to the depth where the track can be locked.

As shown in FIGS. 1x and 1y, the tire type (wheel type) has a large grounding area and a large grounding pressure, which makes it impossible to work on wetlands and limbs. However, it has better maneuverability and mobility than an infinite tracked type, It is effective to work on pavement or pavement.

As shown in FIGS. 1x and 1y, in the sorting by the working device, the straight dozer 855c and the tilt dozer 855d are separated by an angle dozer 855e. Straightness is also commonly referred to as a dozer, It is used to cut the upper part of blade (slab) at an angle of 10, and is used for straight cutting and plucking. It uses a hydraulic cylinder to move the blades up and down, It is possible to adjust the oyster force by changing the angle of the shovel by 10 forwards and backwards.

As shown in FIGS. 1x and 1y, the angle dozer 855e has a long and low blades and changes the positions of the blades to the left and right by a necessary angle, thereby functioning as a tilt dozer 855d and a straight dozer 855c It is suitable to cut off the mountainside on the new road road, and it is suitable for climbing on one side. In the use of the above picture, the slope soil work, cutting work, snow removal work, side burial work, trench fill work, It is used for cutting work. It can work by tilting the blade angle about 15cm each on the left and right with respect to the horizontal plane, while at the same time freezing the ground, hard land, side ditch excavation, rock stone rolling, And it is composed of a hull position moving construction machine control unit 811a of the flood control unit 811 and a distribution input device of the flood control equipment so that the flood control can be overcome and adjusted.

Referring to FIG. 1Z, the hull position moving construction machine control unit 811a of the conventional flood control unit 811 is a distribution input device of the flood control machinery showing the distribution input apparatus configuration of the flood control machine. The dispensing apparatus is a dispensing apparatus of a construction flood control machine,

As shown in Fig. 1 (z), in the sorting by the subsidiary apparatus, the tree shredder 855g and the hydr. Ripper 855i are subdivided into the push dozer and the tin-dozer U-dozer in the rake dozer and hinge dozer 855f, The dozer 855h is a dozer equipped with a rack-type hook-and-loop attachment device instead of a blade. Its application is suitable for picking rocks during farmland clearance and road construction, drawing brushes and tree roots, and carrying bricks when constructing dams. It is used for hard land digging.

As shown in Fig. 1z, the hull disposer 855f is suitable for opening and shutting operations, and the hitch disposer 855f is suitable for opening and shutting operations, , And is suitable for soil transportation. Hydraulic Ripper (855i) is used when hard ground is hard and difficult to excavate. When it is difficult to excavate with bulldozing soil plate, removal of rocks or jade pores which are difficult to blast, and destruction of asphalt pavement use.

As shown in FIG. 1 (a), the push dog serves to push the scraper from behind to give a traction force in the scraper operation, while the low pressure rubber tire esophagus lowers the speed of the infinite track and allows an increase in the carry amount. Also, it is easy to move and does not harm packaging.

As shown in FIG. 1 (a), since the U-shaped dozer has a U-shaped blade, it is less likely to float sideways, so that the inside of the distribution dispensing apparatus main body 1 of the flood control machine is connected to a marine power plant body dock hull The hull position shifting construction machinery control section (811a) of the marine hydroelectric power plant flood control station (593,594,595) constituting the upper deck section (SDU) is constituted in the distribution input apparatus of the flood control machinery.

Referring to FIG. 2, a hydroelectric power plant of a flooded dam control system of a stair-step dam rotating path located at the crest of each corner of the mountain showing the entire structure of the flood control unit 811 inside the main body 1 of the distribution- (593,594,595) equipped with an artificial tunnel (672) and a connection structure of a marine power plant.

2A, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine, An excavator 856 showing the construction machine position adjustment structure of the hull position movement control of the hydroelectric power station floating reader 593,594,595 and a hydraulic pressure tank 819 having a connection structure are connected to the bossable plunger pump 148b of the plunger pump 148, The oil pressure tank 819 is connected to a drain 819c on a heat plate 819a and a oil level system 819b and a diaphragm 819e on a tank bottom plate 819d, A cleaning window packing 819m is attached to the suction strainer 819g of the strainer 819f and the suction port 819i and the tank upper plate 819j to the air bladder and oil port 819k and the tank leg plate 819l to the suction port packing 819h, And the hydraulic motor 820 and the hydraulic pressure control valve And is connected to a pump 821 to constitute a distribution control unit of the flood control unit 811a of the flood control unit 811.

2a, the biaxial plunger pump 148b and the radial plunger pump 148c of the plunger pump 148 are pumps that perform a pumping action by reciprocating motion of a plunger (piston) Suitable. The plunger pump 148 is largely divided into an axial type and a radial type according to the relative relationship between the reciprocating motion direction and the driving rotation direction of the plunger. This type of pump or motor is also referred to as a rotaty pump 337. Crank piston pumps can be thought of as a kind of radial type when they are classified as piston motion, but they are classified into one independent type because there are considerable differences from other pumps in structure.

As shown in FIG. 2A, the rotor type pump 337 is capable of high-speed operation (usually 3000 to 4000 rpm, larger than 15,000 rpm) because the mass of the reciprocating portion is extremely small or there is no reciprocating portion 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. 2A, since the diameter of the plunger is relatively small, the stroke is small, and the machining accuracy is also easy to obtain, a pump having a high volumetric efficiency can be obtained. Thus, the plunger pumps on the market today is the delivery pressure 700~350kg _f / cm ^2, songchulryang 10~50ℓ / min, usually in the 80-90% efficiency.

As shown in FIG. 2A, the crank-type piston pump has been conventionally used at a low speed and large size. Recently, high-speed rotation, high pressure, and small feed rate have been developed and are small size, high efficiency and simple structure. The plunger is inserted into a cylinder block arranged on the circumference of the circumference about the axis and arranged in parallel with the axis so that the angle between the axis and the drive shaft, The pump is a pump that performs reciprocating motion by a mechanism such as a centrifugal pump (a bent axis pump) and a swash plate pump (swash plate pump).

As shown in FIG. 2A, the swash plate type axial piston pump has a cross section and a structural view. The cylinder block is coupled to the drive shaft by a spline. As the drive shaft rotates, the piston in the cylinder rotates together with the swash plate, Since the structure is simple and the number of parts is smaller than that of the boss shaft type, it is small and lightweight, low in price, and structurally rotatable 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. 2A, in the shaft bar formed in the cylinder 126 used as the construction vehicle or the transportation machine, individual seals 156 are attached as shown in FIG. 2L, And a linkage 249 which is used as a connecting device to the crank 248 and the high pressure hose 190 and the couplings 29, valve device lock ranks 248, (811a) of the marine power plant body (dock) of the marine hydroelectric power plant (593,594,595) constituting the upper part of the ship deck (SDU) of the marine power plant. And is configured at the position of the upper portion (SDU) of the deck of the ship hull by the hull position moving construction machine control portion 811a.

Referring to FIG. 2B, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine. A straight dozer 855c and a dilator dozer 855d are attached to the crawler type dump basin 855a and the wheel dump basin 855b of the bulldozer 855 showing the construction machine position adjustment structure of the hull position movement control of the hydroelectric power plant flotation dishes 593,594,595, And the Hydraulic Ripper 855i on the rake dozer 855h on the hinged dozer 855f and on the angled dozer 855e on the hinged dozer 855f. The distribution input device configuration of the machine road. In the attachment of the bulldozer, the straight lake dozer is attached to the straight dozer instead of the shovel, and the roots are removed. It is used exclusively for the excavation of rocks. The following backhoes are used for burial of pipe wires. The following hydraulic rippers were used for excavation of drainage gutters. The following hydraulic rippers were used for crushing, roots and rock scraping of grounds and pavements that were difficult to excavate from hard and hard ground. The towing winches were used for traction of heavy timber. Snow plows were used for snow removal The sketch loader is used to transport wood, pump round objects, and to load cranes or heavy objects. The rock bucket is dedicated to the loading of rocks and the shovel is used for excavation of mountains and cliffs by the hull position moving construction machinery control section 811a of the flood control section 811 and the flood control section 811a of the marine hydro- A flood control unit 811 for controlling the flow of the flow of water into the dispensing and dispensing apparatus main body 1 of the flood control machine constituted to adjust and disassemble the hull position of the ship, (593,594,595) are designed to overcome flood control at the upper deck area (SDU) of the dock.

2B, the bulldozers 855 move and control the hull position of the marine hydroelectric power plant floating hood 593, 594, 595 of the hull position moving construction machine control unit 811a of the flood control unit 811 A flood control unit 811 for controlling the flow rate of the flow of water to the inside of the dispensing apparatus main body 1 of the flood control apparatus constituted to make the flood control apparatus, In the structure of the regulating portion 811a, it is possible to work by attaching an attachment device in place of the earth moving device of the attachment device of the bulldozer. In the structure of the power transmission device 855j of the dozer, Which is provided with power transmission device parts of the dozer of the construction machine 855q in the cooling system 855m of the construction machine 855m and in the idler 855p of the tappet wheel and the idler 855p of the tappet wheel in the final gear arrangement 855n, The hull position shifting gun of the flood control section 811 The upper deck at the ship dock ship (SDU) position of the machine control unit (811a) construction machines support sikdok (593594595) it consists of a can be adjusted to overcome flood control.

Referring to FIG. 2C, the hull position moving construction machine control unit 811a of the flood control unit 811 is disposed inside the dispensing and inputting apparatus main body 1 of the flood control machine. Construction of a construction machinery connecting structure to control the construction machine position adjustment of hull position movement of a hydroelectric power plant lifting plant (593,594,595) In the outline of a construction machine composed of a road installation, It is called "Carryall" and it is called "CarryOr". It is a machine for mass earthworking. It can be continuously operated in 5 consecutive works such as excavation, loading, transportation, laying and compaction. The construction machines of the hull position shifting construction machinery control part 811a of the flood control part 811 provided with the components are connected to the upper part of the hull deck hull deck (SDU) of the floating hoodock 593,594,595 In is configured to be adjusted to overcome flood control.

2C, in the outline of the name of each part of the motor grader 862, the cooling fan 862c is attached to the muffler 862a, the engine flywheel 862b, and the translators 862e And a motor grader 862 provided with a parking brake 862g in the fixed gear type transmission 862f and a gear reducer 862i in the differential gear 862h and a tumble drive 862k in the disc brake 862j, (593, 594, 595) connected to the inside of the main body (1) of the flood control machine constituted for controlling and disassembling the hull position of the marine hydroelectric power plant flood control console (593, ) Are constructed to overcome flood control at the hull dock top deck (SDU) of the floating docking station (593, 594, 595) by the construction machines of the hull position moving construction machinery control unit (811a).

As shown in Fig. 2C, since the motor scraper is made by combining a vehicle type tractor and a scraper, and is often equipped with power, it differs in that it has power. Therefore, And cutting the ground surface of a flat terrain composed of loamy soil and loose soil. Tossa (812). Cutting, loading, transporting and embankment work can be done, and the main job can not be transported by pushing with the soil (812).

As shown in FIG. 2C, the standard (capacity) of the ball is expressed by m ^{3 in the standard} , and the power transmission order is described as follows.

As shown in Fig. 2C, the detailed description of the classification of the scrapers 859 will be described with reference to the following table.

[Comparison between pull-type scraper 859a and power-type scraper 859b]

As shown in FIG. 2C, the hull position moving construction machine control unit 811a of the flood control unit 811 including the pulling scraper 859a classified into the scraper 859 and the power scraper 859b, ) Are constructed to overcome flood control at the top of the hull deck (SDU) of the hull docking station (593,594,595).

 Referring to FIG. 2d, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine. A crawler type dozer 855a and a wheel type dozer 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 in the excavator 856 and the skimmer 856f by a pile driver 882 and a scraper The ball constitutes the center of the scraper 859 as a container for transporting the gravel 812. The ball is moved forward with a cutting edge on the lower side in the proceeding direction, Pull the ball on its excavated surface with its own weight and dig it.

As shown in FIG. 2d, the construction machines of the hull position shifting construction machinery control section 811a of the flood control section 811, which is comprised of the power transmission device parts of the dozer of the construction machine, Dock It is configured to overcome flood control at deck top (SDU) location.

Referring to FIG. 2E, the apron 859c is installed on the front of the ball to prevent the soil 812 of the ball from flowing down. In the case of loading and landing, the float 859c of the marine hydro- The flow of the flow rate is regulated into the main body 1 of the disinfecting and introducing machine of the flood control machine constituted for the movement control and the disassembly and assembly of the hull, and the ball 859e is cut into the air front 859c and the ejection 859d, The hull position of the flood control section 811 provided with the power transmission device parts of the construction machine dozer by the combined structure of the disassembling and assembling of the floodgate 859f, the construction machine control section 811a of the flood control section 811a, Dock It is configured to overcome flood control at deck top (SDU) location.

As shown in FIG. 2E, in the ejector 859d, a so-called tail gate is positioned on the back side of the ball and serves to push out the gravel in the ball and to create a large space for loading the gravel.

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

The workload of the scraper (braking scraper)

Here, Q : the ball carrying capacity

f : Conversion factor

E : Working efficiency of the scaler

C _m : Classify by cycle time.

As shown in FIG. 2E, the grader 862l is a device used for civil engineering work, which is mainly used for stopping work, and is a device for picking up the ground by scraping the ground by installing a flat blade (blades) This equipment is used to smooth the ground and finish. In usage and specifications, the indication of use and performance is indicated by the length of blade (blade) and it is explained as the following table.

As shown in FIG. 2E, the power transmission procedure will be described as the following table.

2E, 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 shown in FIG. 2E, the propulsion angle of the blade and the cutting angle are as shown in the following table, the angle formed by the center line of the grader and the blade is small in the hard land, and is about 70 ° to 90 ° The cutting angle is an angle at which the blade cutting edge is inclined with respect to the cutting surface, and is small at the cutting operation. The angle between the main body of the grader and the cover plate is adjusted to 45 ° and 60 ° when the soil is pushed to the side, and it is about 90 ° when the finishing is done.

As shown in FIG. 2E, the blade capacity will be described as the following table.

only. Q : Blade capacity (m ³ )

B : Blade width (m)

H : Blade height (m)

Minimum turning radius of the steering system

(단. L : 축 거리. : 킹 핀. : 외 측 바퀴 각 )

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

Why there is no differential mechanism

As shown in FIG. 2E, in order to improve the straightness of the workpiece to improve the finishing accuracy and to improve the efficiency, the motor for configuring the movement and disassembling and assembling the hull position of the marine hydroelectric power station submersible dock (593,594,595) The grader 862 is configured as a coupling structure inside the dispensing and dispensing apparatus main body 1 of the flood control machine.

(593,594,595) of the marine hydroelectric power plant (593,594,595), the air flow (859c) and the ejection The hull position shifting construction machine control section 811a of the flood control section 811 provided with the power transmission device parts of the dozer of the construction machine with the combination structure of the ball 859e and the cutting tent 859f, (593,594,595) at the top of the hull deck (SDU) of the hull dock.

As shown in FIG. 2E, the hull position moving construction machine control unit 811a of the flood control unit 811 is disposed inside the dispensing and inputting apparatus main body 1 of the flood control machine, and is configured at the upper part (SDU) of the hull deck of the marine power plant body. The extension cable 861b on the ripper and router (856g) showing the construction machine position adjustment arrangement of the marine hydroelectric power plant flood control station (593,594,595) of the marine hydroelectric power plant, the six all devices of the crane 861p and the drag cranes 887 ) Construction configuration of connecting structure of construction machinery Road, marine power plant body dock Construction equipment position control of marine hydro power plant flood control station (593,594,595) constituting in the upper part of the deck of hull deck (SDU) Consists of.

As shown in FIG. 2E, the shovel excavator is a multipurpose machine capable of performing a lot of work by installing a front attachment in addition to using it as a digging machine as the oldest used stacking machine.

As shown in FIG. 2E, a shovel or a crane is a basic type, and various excavating operations and crane operations are performed by exchanging various accessories. The upper rotating body is capable of turning 360 degrees. The structure of the excavator 856 is described as follows.

2E, the outer structure of the excavator 856 and the excavator 856 are classified according to the traveling apparatus, and the crawler type is separated into the crawler type and the wheel type on the truck mounted type. It is easy to work in narrow places, and it is easy to operate wetlands, limbs and livelihoods. It is very stable. It is difficult to travel on pavement and its speed is slow as 3.2 km / hr. The driving speed is 40 km / hr, the working efficiency is 30% ~ 35% higher than the crawler type, and the truck mounted type has a driving speed of 60 km / hr. The efficiency is poor.

As shown in FIG. 2E, in the classification according to the operating method, the manual type and the hydraulic type are separated by the air type and the electric type. In the classification by the size, the small type is separated into the middle type and the large type. It refers to the weight of the base 20t or less as one limit of which can be loaded bucket capacity 0.6 m ³ and the excavator bucket is less than a medium-capacity cranes 3 m ³ ancestor capacity is up to 10 t is larger than that of gas medium weight.

2E, the performance display method of the excavator 856 is represented by the capacity m of the buckets 856a, 856b, drag lines 856c, and clam shell 856e buckets The ground drill 856d is indicated by the excavation diameter and the pile driver 882 is indicated by the weight of the hammer and the crane 861 is indicated by the maximum hoisting load in ton and the shovel 856b, The drag line 856c, and the clam shell 856e are as follows.

As shown in FIG. 2E, a distribution input of a flood control machine constituted for controlling and disassembling the hull position of a marine hydroelectric power plant floating posture (593, 594, 595) The backhoe 856a of the backhoe 856a of the construction machine is connected to the hull position shifting construction machine control units 811a of the flood control unit 811 that regulates the flow of the flow rate to the inside of the apparatus main body 1, The back hoe 856a is used for excavation lower than the working position and is used for the foundation excavation of the river and the construction and can be loaded on the conveying equipment higher than the machine while excavating the lower side than the trench digging machine. And the backhoe 856a is suitable for disaster prevention and prevention pipe line installation for preventing large-sized forest fires while the power shovel is circular, Suitable for high excavation and mountain. It is used for cliff drilling.

As shown in FIG. 2E, according to the characteristics of the hydraulic excavator (when compared with the mechanical rope type), the first structure is simple, the second is easy to exchange the front, and the third is easy to repair and operate. And it was superior to the mechanical rope type in terms of surface.

As shown in FIG. 2E, the scraper of the drag line 856c has a large working radius and is easy to underwater excavation. Next, it is used to excavate a portion lower than the ground widely. Next, It was also used for harvesting and was not suitable for soil or gravel picking which was hardened at the end.

As shown in FIG. 2E, the earth drill 856d is used for excavating a deep hole of a large diameter by noise-free operation and is used for on-site spreading adjustment. The piercing hull 591 (592) piers at the bottom of the holding tank, and the following crane is used for heavy construction, heavy construction, construction of hooks instead of buckets, lifting of heavy objects, (Pile driver; 882) is used as a pile driver for piling concrete piles or sheet piles. It is suitable for pier installation by pillar, while clamshell (856e) is suitable for excavation of underwater excavation, It was used for vertical excavation in a narrow place under the ground and was digging gravel, sand and soil into a dump truck, suitable for reclaiming manganese nodules (909). Will is not suitable for a lot of solid ground to excavation used to end a trencher is that it is suitable for machines used to dig the ditch.

As shown in FIG. 2E, in the working range of the excavator, the maximum excavation depth is the length from the ground surface to the tip of the bucket tooth when the tip of the bucket tooth is lowered to the lowest position, and the maximum excavation radius The maximum horizontal distance of the bucket tooth from the center of the circle that was drawn and the maximum dump height was the maximum ground clearance.

The structure and function of the skimmer (856f) is a construction equipment that slides the surface of the bucket along the boom of the swinging platform while the bucket is being moved by the force of the chain. It is suitable for thin excavation in a narrow space. (811a) of marine hydroelectric power station (593,594,595) is used for thin excavation in a narrow place where it is difficult to work. (593,594,595) on the upper part of the ship's deck (SDU) to control the position of the construction machinery of the hull. It is configured to overcome and adjust.

As shown in FIG. 2E, the structure and function of the ripper and the rooter (856g) are used when the ground is hard and rigid, making it difficult to excavate. It is attached to the back of the large bulldozer, It is suitable for scratching hard ground using foot saw blades. It is used for the purpose of removing the tree roots, asphalt, concrete pavement, rock or stone pavement in hard soil.

As shown in FIG. 2E, the crane (crane, 861) is referred to as a crane, and lifting and lowering of heavy objects, crushing work using other working devices, heavy use in collecting clinker and building construction, For the purpose of moving and transporting used soil, stone and equipment, hooks, clamshells and drag lines are installed on the front of the car body. The structure and basic three part names are explained as follows.

2E, the structure and the name 861a of the crane 861 are the same as those shown in the drawings except for the hook 18.

The name of each part of the crane or crane structure is the name of the crane or hoist structure in which the bridge 861d is attached to the extender cable 861b and load system 861c, the May rope 861f is attached to the boomboxes 861e, 861h and the lower frame 861i and the balance drums 861n on the rear drum 861l and the rear drum 861m on the front drum 861k.

2E, the cable crane 861o is connected to a hook device 861q and a clamshell device 861r to provide six all-purpose devices 861p of the following crane, (593, 594, 595) move to the position of the marine hydroelectric power station because it acts as a device, a Shovel (861s) device, a dragline (861t) device, a Trenchhoe (861u) device and a Pile driver (811a) for controlling the flow of the water to the inside of the dispensing apparatus main body (1) of the flood control machine constituted to adjust and disassemble the water from the marine power plant body dock hull (593,594,595) of the marine hydro-power station floating structure of the deck upper part (SDU).

As shown in FIG. 2E, the maximum hoisting load is indicated by the tone (ton) in the specification (performance) display method, and the seven basic operations of the crane are shown in the following table.

As shown in FIG. 2E, the crane (hook) is used for the general lifting work, the loading and unloading of the cargo, and the clam shell (shell: Clamshell) is suitable for earth loading, vertical excavation, dirt removal, underwater excavation, hopper operation and deep hole digging. Shovel is suitable for soil excavation, slope excavation, It is suitable for foundation work and drag line (Drag line) is suitable for embankment construction work, drainage construction work, loading of soil to flat bottom and underwater work vehicle. Trench hoe works by drainage, The pile driver (pillar driver) is used for pillar-laying work and bridging operation of bridges during the foundation work of the building, and the six cranes are used for the work, the hoisting work, the mining work, Assembling a hydroelectric power plant is the main equipment body

As shown in FIG. 2E, the operating angle of the boom is as follows.

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

And as the weight of the object increases, the length of the boom becomes shorter and the angle becomes larger as the crane works.

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

As shown in FIG. 2E, the drag crane is divided into the following types according to the purpose of use. The function of the drag crane is that it has a large grounding pressure and can not be operated in soft ground but has good maneuverability. The construction and function of a tower crane is a crane equipped with a short jib or hammerhead truss on a high tower. It is used for high-rise buildings requiring high height The construction and function of the hydraulic crane, which has been widely used in construction sites,

As shown in FIG. 2E, as a moving crane operating a hydraulic system, the boom can be extended and retracted up to 510 m, and the hoisting load is usually 310 tons. Applications include harbor loading and unloading work, civil works, The structure and function of the cable crane, while being used for hoisting operations,

As shown in FIG. 2E, a trolley is lifted by hitting a thick cable on a tower at both ends. The use of the trolley is for concrete or material transportation at the time of dam construction, while at the same time,

As shown in FIG. 2E, the structure and function of the derrick crane as the main constituent parts of the present invention are such that a boom is installed at an obliquely lower portion of a steel-framed mast, the winch is wound around the block, It is used for the assembly and foundation work of the steel frame, and for the construction of the bridge. The type of Gaiderik is the ability to hang the load on the material beam, the work radius is large, Movement of heavy objects. It is used for steel frame assembly work and at the same time the triangular derrick is suitable for the roof work of the narrow place or the building and does not need the foundation, and when it is installed on the wheel, it is easy to move and it is used for file hammer work, bridge construction, The hull position of the flood control section 811 for controlling the flow rate of the flow of the flood control apparatus into the main body 1 of the flood control apparatus constituted for controlling and disassembling the hull position of the marine hydroelectric power plant flood control station 593,594,595, (811a) Marine Dock Body Dock It is connected to the construction equipment of the marine hydroelectric power station floodplain (593,594,595) which is composed on the upper part of the ship deck (SDU).

As shown in FIG. 2E, a tractor crane is constructed by attaching a crane to the upper body of a shovel excavator, which is wheel type and crawler type. The following outriggers maintain safety and prevent a load from being applied to the tire It is used to prevent wear and tear due to tires and spring loads. The overhead traveling crane (= door type crane) is a crane that moves by installing a running rail on the ceiling. It is usually used for the production and processing of concrete beams Fixed type is used for loading work in factory and warehouse, but it is not used for construction work and driving type is used for construction work.

As shown in FIG. 2E, the chain block 648 can be lifted up to a maximum of 15 tons for unloading, and safety devices for lifting and lowering the crane are a brake and a limiting switch.

As shown in FIG. 2E, a marine crane is used to transport and construct a large steel structure of a bridge. And a crane 888 having a hydraulic crane 885 and a cable crane and a clam shell attachment in a drag crane 887 and a tower crane 886, which are used for transportation and installation of super large facilities, The name 886a of each of the cage 886 and the tower cranes 886 has a girder 886b and a boom 886d on the side 886c and a turnbuckle 886f on the boom 886e, While the triangular derrick 886h is constituted by the boom 886k and the lok 886l at the main side 886i and the boom 886j and at the same time the side of the drag crane 886k of the drag crane 887 The structure 887a is connected to a hoist cable 887b and a bucket 887d to a dump cable 887c and a letter cable 887f to a lower boom 887e and a boom cable 887h to a cable roller 887g, 887i and the boom hoist cable 887j to the cable drum 887k and the cable drum 887l by parallel weights 887m And at the same time the structure of the crane 888 with the clam shell attachment is provided with the upper frame 888d on the clam cell bucket 888c and the rack line 888f on the lower frame 888e on the holding line 888a, And a boom hoist rope 888j and a rear drum 888l and a parallel weight 888m to the front drum 888k to the boom tide 888h and the breeze 888i to the rope guide 888g, A flood control unit 811 for controlling the flow of the flow of water into the main body 1 of the flood control apparatus constituted by a construction machine for controlling and disassembling the hull position of the marine hydroelectric power plant flood control station 593,594,595, A flood control unit 811 for controlling the flow of the water into the main body 1 of the flood control equipment constituted for controlling and disassembling the hull position of the marine hydroelectric power plant flood control consoles 593, The construction machinery is divided into a distribution input device (811a) of the marine power plant, the hull position shift control of the marine hydroelectric power plant floating structure (593,594,595) constituting the upper part of the hull deck (SDU) of the marine power plant, Construction machines.

Referring to FIG. 2F, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine, (853) and the trailer (860a) of the dump truck (860) to the loader (857) showing the construction machine position adjustment arrangement of the hull position movement control of the hydroelectric power plant flood control console (593,594,595) In the outline of the dispensing device loader 857 of the regulating machine, it is called a loader and a shovel device is installed on the front of the tractor main body, so that it is possible to load gravel, sand, In construction equipment, the standard bucket capacity is expressed in m ³ as the first specification (performance) display method.

As shown in FIG. 2F, the crawler type loader 857a (long-reach type = infinite crawler type = crawler type = shovel loader) is used as a sort by the traveling method in the sorting of the loader 857, ) Can be installed in a tough marsh or sandy area and underwater work is possible. A wheel type loader (wheel type loader; 857b) (wheel type = tire type = wheel type loader) is equipped with a bucket It has excellent maneuverability in a flat work place, it is easy to work on packed road, and semi-infinite crawler loader has caterpillars on one side of the front and rear wheels and tire on the other side, And the rail type loader 857c is a device capable of traveling on a rail, and performs loading work in a tunnel or a mine.

As shown in FIG. 2F, the classification by the dropping method is shown in the following table.

As shown in FIG. 2F, the loading method of the loader 857 is shown in the following table.

As shown in FIG. 2F, a loader 857 is often used as a Muk loader in tunnel construction, and is used to load a tombstone demolished during excavation work on a conveyance vehicle. A payloader Pay loader) is used to load the dumped material to the dump truck (860), it should be operated as slowly as possible, the bucket should not be raised during no-load operation, and the rail type slack loader carries slaked blast It is used for various tunnels, residential composition and limestone mining with continuous rocker loader for continuous loader. Screw excavator is used for underground excavation work in city area, soil loading work in factory or ship , A bucket wheel excavator and a belt loader, and a skid loader is a loading machine suitable for working in tunnels and tunnels. The expression shown in the table below.

As shown in FIG. 2F, the hull position moving construction machine control unit 811a of the flood control unit 811 is disposed inside the dispensing and inputting apparatus main body 1 of the flood control machine. (593, 594, 595) of the offshore hydroelectric power plant is connected to the distribution input device of the flood control machine by the hull locating construction machines of the flood control section (811) constituting the construction machine position control of the hull displacement control.

As shown in FIG. 2F, in the kind of the dump truck 860, the rear dump truck is used most often in civil engineering work as a truck that tilts the luggage compartment backward, and the side dump truck 860 is used as a luggage compartment The bottom dump truck (860) opens the bottom of the jib so that the load can be bumped down. It is widely used in trailer dump trucks. The 3-chamber open dump truck is a truck that can load in three directions. The calculation formula of the dump truck is shown in the table below.

Calculating the required number of trucks:

Calculate truck workload:

here,

표시하고,구배 저항은(W_g)은

상기와같으며,구동력(W_s)은

상기와 같았다.여기서,

As shown in FIG. 2F, the driving resistance of the dump truck 860 has a calculation formula of the driving force in the rotational resistance and the spherical resistance, and the rotational resistance W _r

, And the gradient resistance (W _g ) is

As described above, the driving force (W _s )

As described above,

As shown in FIG. 2F, the Dumptor is a special off-road truck for short-haul haulage and can be operated in a narrow workshop. The locomotive is used when the haulage distance is over 1 km as follows: The tractor and trailer 860a are used for tractor 860a, which is a trailer 860a which is loaded with a heavy load, a bulldozer and a roller of a construction machine, and a roller 860a. The tractor's traveling device is divided into crawler type, half crawler type, and wheel type.

As shown in FIG. 2F, the Rope way is a machine that carries cargo by placing a steel tower on both sides of the mountain, connecting the cables, arranging the carriers every 60 meters, and is not restricted by the terrain and road conditions. And it is easy to carry relatively long distance. The wagon is similar to a motor scraper but can not be grounded by a magnetic force. It is a machine that transports soil from a loading machine. A tractor-driven wagon is used for transporting aggregate and cement material to a tractor. . front. It is also called a full trailer (860a) with an axle and wheels attached to the rear end.

As shown in FIG. 2F, a device for raising or lowering a cargo as an outline of a forklift (858), which is widely used in a warehouse or a pier indoors or outdoors, is common equipment for automobiles. In other words, it is effective for short distance transportation and loading and dropping work of hardened product. The standard indication shows the capacity (in tonnes) that can be lifted (middle of 1 ton or more), and the tilt lever installed in the cockpit is a master Can be tilted forward 56 ° (referred to as the front wrist), backward 10 ° 12 ° (referred to as the posterior wrist), up to a maximum of 4500 mm, and a minimum of 3000 mm (called the maximum amount).

The minimum radius is very small. (Angle of steering of 65 ° 75 ° inside wheel)

The pressure of the hydraulic piston is 110130 kgf / cm ² .

All-wheel drive is rear-wheel-drive.

Steering device of fork lift truck 858:

A master batch that operates hydraulically is installed. (Hydraulic pressure 70130 kgf / cm ² )

In operation, the fork is raised from the ground by 150200mm.

It is efficient within 250m.

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

As shown in FIG. 2F, the efficient transportation distance of the transportation distance is suitable for the operation within 250m, and the height of the fork during transportation is 150200mm height when carrying the cargo, and the slope transportation is performed when the cargo The fork part (front part) is directed to the upper part and it slows backward. The main part of the distributing and inputting device of the flood control machine constituted by the construction machine for the movement control and the disassembling and assembling of the hull position of the marine hydroelectric power plant auxiliary dock (593,594,595) 1) is connected to the distribution control unit of the flood control machine by the flood control units 811 for controlling the flow of the flow rate to the inside.

As shown in FIG. 2F, a conveyor 633 is mainly used for transportation of materials and concrete, and is widely used because it is easy and economical to install. In the type of conveyor, a large conveyor is used for sand, soil, gravel, It is used for transportation,

Screw conveyors are used for sand, cement and concrete conveying. Belt conveyors are the most widely used for soil, crushing and aggregate conveying. Size: tonm Portable conveyors are used for conveying sand gravel It was used for harvesting.

This feature car is described in the following as a non-stop driving car and a hoisting on a unimog.

Unnecessary driving car is a car wheel-type all-wheel drive vehicle capable of carrying work in difficult conditions such as mud, sand, and unevenness,

Uni mog is a vehicle that can be widely used in various fields of agriculture, civil engineering, snow removal and road maintenance. Hoisting is a system of distributing and dispensing equipment of flood control machine consisting of a construction machine that carries and transports heavy objects. (811) for controlling the flow of the flow rate to the inside of the main body (811).

As shown in FIG. 2F, the roller 863 is a compaction machine with two or more smooth drum rollers, which is a volatile device having a voltage device, and is also referred to as a voltage machine and is mainly constructed of roads, embankments, airfields, The weight of the roller is expressed in ton and the standard weight of the roller 863 is 815 tons, the weight of the roller 863 is 8 ton And loads up to 7 tons of bellows (additional load).

As shown in FIG. 2F, the rollers 863 are separated into a vibration type of impact type and a pressure type vibration type in voltage type.

As shown in the table above, the additional load (ballast weight) of the urine site is called the additional load, which increases the voltage capability by loading the additional load when the voltage capability is small due to the weight of the roller itself. It can be added more than twice its own weight. The additional load is iron, water and sand. The tire roller is injected as much as necessary in the water tank, and the machine, tandem, and tamping roller increase the voltage capability by injecting additional load on the wheel.

As shown in FIG. 2F, in the sorting by the pressurizing method, the voltage type compaction machine is separated into a rod roller, a tire roller and a tamping roller, the impact type compaction machine is separated into a rammer and a tamper, 863a, and a soil compactor 863b.

As shown in FIG. 2F, the static pressure roller according to the type and characteristics of the rollers is used to polish the road surface by the static self weight of the rollers, and the use of the Machadam roller 863c is a crushed stone (gravel) It is suitable for early compaction in asphalt pavement. It is characterized by a differential gear to reduce the speed of the inner ring for smooth turning when turning. It is mounted on the center of the rear axle, It is a device that drives the wheels at different speeds.

As shown in Figure 2f, the use of tandem rollers 863d is suitable for compaction of clay, clay soils and is used for finishing thick asphalt or finishing of asphalt pavements, and the power transmission sequence is before engine main clutch transmission , Reverse gear differential gear type decelerating device rear wheel. The characteristics can not be used for crushing compaction. The driving drum is heavy oil injection smooth cylindrical steel wheel with 2-axis tandem and 3-axis tandem. In addition, it is possible to expand the compaction width separately from the operation of the front and rear wheels.

As shown in FIG. 2F, the use of the tamping rollers 863e is used to prepare a soft soil. It is a pluck roller, a turn-feed roller, a tape foot roller, and the characteristic is the plucking by turning a plurality of projections in a cylindrical shape of a forcing cylinder

As shown in FIG. 2F, the outline of the tire roller 863f is that a tire is attached instead of an iron wheel of a tandem roller, The pressure of the tire is used to regulate the air pressure of the tire is 1.510kg / cm ^2, and the characteristic is that the traveling speed is very high.

Thus, the roller by centrifugal force is used to concentrate the surface by centrifugal force on its own weight, and the vibrating roller is suitable for compaction of crushed stone, gravel, earth, asphalt and concrete by vibrating the compaction wheel by vibrating the vibrator. The weight of the equipment.

As shown in FIG. 2f, the impact type compaction machine is used to tighten the free fall impact, the rammer is provided with a compaction foot on a two-stroke cycle engine body of a small internal combustion engine, and Tamper is a gasoline engine The crankshaft is reciprocated by changing the explosive force to torque, and it is transferred to the compaction plate through the elastic body of the spring. The crankshaft is suitable for tightening the narrow place and the road, and the sole compactor 863b uses a small- Is a compaction machine combined with a flat vibrating body, which is a movable type by a self-propelled force and a pulling force. This means that it has a large compaction effect compared to the weight and is suitable for sandy soil and is inappropriate for viscous soil.

The reason for this is the line pressure due to the width (maximum width) of the rollers compaction width (maximum width) which is set in one pass, and the grounding weight of the wheel divided by the width of the wheel is the value (kg / cm).

As shown in Fig. 2F, the soil stabilizer 864, which is the same as the road safety device, road. It is a stable processing construction machine that can be used as an economical compaction stabilization method for aerodrome construction and can finish various kinds of work in real work at one time. Therefore, it is to put the road and bedrock materials precisely on site, (593,594,595) of the marine hydroelectric power plant was constructed by a construction machine for movement control and disassembly and assembling, and the inside of the main body (1) of the distribution control unit The hull position moving construction machine control unit 811a of the flood control unit 811 for controlling the flow of the flow is connected to the distribution input unit of the flood control machine.

Referring to FIG. 2G, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine, Concrete mixer truck (868) to a concrete batching plant (865) and a concrete finisher (866) showing the construction machine position control arrangement of the hull locomotion control of the hydroelectric power plant flood control station (593,594,595) , The kind of the concrete packing machine of the distribution dispensing apparatus of the flood control machine is such that the concrete pump 869 and the concrete finisher 866 are connected to the concrete batching plant 865 and the concrete mixer truck 868 of the concrete mixer, At the same time as the spreader 867, a concrete manufacturing machine concrete batching plant 865 has an aggregate reservoir, an upgrading device and a mixing device, The production apparatus for producing the concrete material each at a predetermined baehapryul as with a kind of intermediate expression with expression Trolley for political expression portable type and the standard display is displayed (ton / hr) per time to the tone.

As shown in FIG. 2G, the outline of the concrete mixer is a machine for effectively working on a construction site by mixing sand, gravel, cement, and water. The dryness type is a method in which cement and aggregate are metered in, During driving, water is mixed and transported to the destination construction site, and the driving is performed by hydraulic pressure. Wetness type is also referred to as "agitator" in which a fully mixed raw concrete mixture is transported with agitation, and the standard mark is expressed as the amount of concrete that can be mixed once (m ³ ).

As shown in FIG. 2G, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed in the dispensing and inputting apparatus main body 1 of the flood control machine, The concrete batching plant 865 constituting the adjustment of the construction machine position of the hull locomotion control of the marine hydroelectric power plant flood control consoles 593,594,595 is provided with a regulating plate 865c and a water regulating plate 865b on the concrete hopper 865a and the conveying apparatus charging chart 865b, The overall belt conveyor 865h to the symmetric hopper 865e and the scale frame 865f and the storage bin 865g to the scale 865d and the bucket elevator 865j to the turn head 865i, (593,594,595) of the marine hydroelectric power plant with the cement silo 865o and the scraper conveyor 865p to the recording device 865m, the recording device 865m and the circular mixer 865n, Dispensing device of flood control machine constituted by machine (811) for controlling the flow rate of the water to the interior of the sieve (1) is connected to the distribution input device of the flood control machine.

As shown in FIG. 2G, the outline of the concrete pump 869 is convenient when conveying the concrete in a limited space such as a bridge in a tunnel or a building. The pump is a mechanical type and a hydraulic type. There is no particular limitation on the use of hydraulic or hydraulic combination. It is easy to handle, easy to repair and economical because it is less shock or vibration, and it is used for transportation of high - rise building and long - distance concrete.

As shown in FIG. 2G, the movable type and the mechanical type are liquid pressure type and the truck type type, and the diaphragm type is used for the high level building (100 m or more). The standard indication is expressed in terms of the delivery capacity per hour (m ³ / hr) Consists of a concrete injection hopper, a suction and discharge valve, a piston, and a cylinder.

As shown in FIG. 2G, the concrete pouring machine is a concrete finisher 866. The outline of the concrete pouring machine is as follows. First, concrete is laid, and then the concrete pouring machine is used. Finishing the concrete slab surface with the finisher moving in the transverse direction.

As shown in FIG. 2G, the use of the machine is that the load on each part of the machine is small, the structure is simple, and the machine wear and noise are small, so that the concrete finisher finishes the surface of the package while vibrating the front and rear surfaces. The standard mark is displayed in a standard width (m) that can be applied, while at the same time, the hull position of the flood control unit (811) is transferred into the main body (1) of the flood control system. And distribution dispensers of construction machines connected to the upper deck (SDU) of the hull deck.

Referring to FIG. 2H, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine. The asphalt finisher 871 and the asphalt spreader 872 are connected to the perforator 876 and the pile driver 882 on the hearth safety device 864 showing the construction machine position adjustment structure of the hull locomotion control of the hydroelectric power station floating posture 593, The boom 882a and the diesel pile hammers 883 are connected in a strained configuration of the construction machine connection structure. The outline of the road, asphalt mixing plant 870 is a movable type with an aggregate feeder, dry heating device, mixer asphalt feeder, Is a machine and its equipment for manufacturing asphalt mixture used in airport, port construction as well as road pavement construction, and the exhaust dust collecting device collects steam, dust, combustion gas Or centrifugal separation using dust generated from a vibrating screen. The specification mark is expressed in terms of hourly production (ton / hr) of the asphalt mixture (ascon).

As shown in FIG. 2h, the outline of the concrete spreader 867 is a packing machine for uniformly laying the raw concrete sprayed on the packed bedrock. The use of the concrete spreader 867 is to convey concrete from a truck mixer or a dump truck while traveling in front of the concrete finisher. The standard type of the asphalt pavement machine is classified into the screw type and the box type, while the asphalt pavement machine is classified into the asphalt mixing plant 870, The asphalt finisher 871 and the asphalt sprayer 872 are separated into an asphalt cover and an asphalt spray while the inside of the dispensing and dispensing apparatus main body 1 of the flood control machine is moved to the construction control section of the flood control section 811 811a) Hull location of a marine hydroelectric power station levitation stand (593,594,595) constituting the upper part of the deck (SDU) of the marine power plant body dock It consists of a section of construction machinery.

As shown in FIG. 2 (h), the metering and mixing methods of this kind are formed by a batch type and a continuous type, and the installation method is a fixed type and a pay type. The operating method is manual type in semi-automatic and electromagnetic type, Asphalt heating in the mix is composed of a feed hopper, an aggregate drying device, an exhaust dust collector, a hot elevator, a vibration screen, a mixer and a weighing device in the asphalt cake.

As shown in FIG. 2h, the asphalt finisher 871 has a sorting and sizing device. The asphalt mixer boils the gravel sand at an angle of 160 ° or more to lay the mixed aggregate on the road to a predetermined thickness. It is used in asphalt pavement, asphalt pavement, picking, chopping, etc. in the airfield runway and highway asphalt pavement. The standard marking is indicated with maximum packing width (m) and packing capacity (ton / hr) The lead is a plate for smoothing the mixed material sprayed on the road surface. The living hopper is a container for storing the mixed material (asphalt) carried by the dump truck with the hopper of 5 tons or more installed on the front side of the equipment. The bumper is installed on the front of the screed, and the sponge The work to lay the pavement with a thickness requiring material.

As shown in FIG. 2h, an asphalt distributor (872) is an apparatus for boiling asphalt and spraying it on the surface of a road for the first time. 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 ).

As shown in FIG. 2h, the asphalt cover is a construction equipment for continuously covering the asphalt mixture material for the highway and the asphalt spray is the equipment for heating and dissolving the asphalt, the asphalt emulsion and the tar by the oil burner and applying the pressure to the road surface Stabilizer is a device that performs various work while the gas moves on the hearth, and mixes and mixes the surface by adding the binder and water. It is the equipment to tighten and harden the surface. The standard display is indicated by the capacity (m ³ ) of the fluid tank. The efficiency was good, the maneuverability was excellent, the efficiency of the spreader was good, and the depth of digging the ground was easy to adjust.

2H, the diesel pile hammers 883 are used to classify the construction machine hammers and anti-aircrafts (877) for use in basic operations. The diesel pile hammers 883 are machines for propelling by using the explosive force of a two-cycle diesel engine, This is because the injection device when the ram is raised and lowered by the starter operates, the fuel is injected into the concave surface of the anvil, and the ram explodes at the moment when the ram hits the anvil. At this time, The explosive force and the impact force of the ram are transmitted to the pile, and the ram is repelled by the repulsive force, and at this time, the exhaust and the inhalation are performed, and the falling, the impact and the explosion are repeated again. The ram, which moves up and down the cylinder in the cylinder, and the fuel pump and the fuel injector, to the anvil inserted in the lower part of the cylinder. And, is the water tank cooling device for a cylinder are configured.

2H, a starter 903 is attached to a lead 896 on the left side of the body of the diesel pile hammer 883, and a ram (not shown) is provided on the upper right side 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 tank 902 and the pile 899 is attached to the bottom of the heel 899 The file operation proceeds.

As shown in FIG. 2h, its standard marking is indicated by the weight (in tonnes) of the ram, which is used to stamp wood, concrete and steel pipe files, and its characteristics are shown in the table below

As shown in FIG. 2h, the outline of the column hammer (= column file hammer) is as follows. Steam or compressed air is fed into the cylinder to continuously repeat up and down movement of the piston, ). The type of column hammer is steam hammer. The outline of this is machine that operates by using piston's expansion energy by steam. Standard display is expressed by piston weight (ton), and its structure is complex It is difficult to maintain and repair, and maintenance cost is high. It is used to put pile in hard and dense soil. It is guided to lead and has single acting type and double acting type. The outline of the vibration hammer is the hammering or pulling operation by the vibration power, and the frequency is more than 500 times per minute. The specification mark is expressed by the output of the motor (kW) and the excitation force, and the drop hammer is the metal block by the wire Was to drop the file onto the head of the file and put the file with its striking power. It was suitable when the equipment cost and operation cost were to be reduced in the case of a small amount of construction in the remote place among the basic use machines.

As shown in FIG. 2h, the first advantage was that the operation and hammer operation was simple, and the facility cost was small, so that the required expenses were reduced. It was possible that the adjustment of the drop height enabled the increase of the batting energy.

As shown in FIG. 2h, the second problem was that the piling of the pile was slow and there was a danger of damaging the pile, and it was easy to damage the surrounding buildings due to the vibration during the operation. .

2h, on the upper portion of the lead 896 of the body of the file driver 882, there are provided an adapter 906, a wire rope 19 on the boom front pin 904, and a crane boom 651 And a CAD work 905 on the front of the crane was attached. The file driver 882 loads the deck deck on the upper deck deck of the barge hull 591 and fixes the deck deck to the deck deck working position,

As shown in FIG. 2h, a diesel hammer is a steam hammer and a vibration hammer. The drop hammer is collectively referred to as a drop hammer or diesel hammer when a pile is laid, and the work device is installed in a crane boom. The following table shows.

As shown in FIG. 2H, the file 898 is constructed by attaching a separate carpile 898 for fixing to the lower base post portion of the deep sea bed, and connecting the concrete bridge pillar to the bottom of the sea floor So that the installation can be performed easily.

As shown in FIG. 2H, a construction machine air compressor (air compressor) 875 is a machine that sucks and compresses air in the air to make compressed air, which is used for various purposes in various construction work Devices, compression devices and other accessories. Here, the drive device is a gasoline or diesel engine that supplies the power for operating the compressor. In addition, it was said that the volumetric type compressor was mainly used for the construction work. For this purpose, the quarrying work was to drill and split the rock by using the rock drill, and the clay excavation work was carried out by using hard rock solid rock Is to excavate with an excavator or excavator, and the destruction work is to destroy concrete and asphalt with brake.

As shown in FIG. 2h, there is a large volume of construction air compressors, such as concrete vibration work, painting work on tilling work, tire air injection and equipment cleaning.

As shown in Fig. 2 (h), compressors of this type are classified into a screw-type compressor and a centrifugal turbocompressor in a reciprocating piston-type compressor and a rotor-type compressor. It is used mainly for large-scale construction while being fixed, and it is possible to use the compressor while moving the compressor easily.

As shown in FIG. 2H, the air cleaner low-pressure cylinder intermediate cooler high-pressure cylinder air tank is indicated by the air discharge amount per minute (m ³ / min). In other words, 210 cfm is expressed as 210 cubic feet of compressed air per minute (ft ³ / min), and the parts of the air compressor consist of piston, cylinder, and pressure regulating valve for intake and exhaust valves.

As shown in FIG. 2H, functions (roles) of the main parts thereof are described as follows.

As shown in FIG. 2H, a boring equipment 876 equivalent to a jackhammer will be described in detail as follows.

The puncturer 876 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.

Most of the compressed air is used, and the impact rod is operated by this compressed air. The rock is crushed by the impact force. The structure is simple, easy to handle, Is excavated by a rotating blade in the hole, and the excavation speed is slow or deep.

The crawler type shows the weight of the rock drill and the air consumption per minute (m ³ / min). The crawler jumbo type is represented by the number of the prestrol rolls and the number of rock drills (end) The tunnel excavator is indicated by the maximum excavation dimension (mm).

As shown in FIG. 2H, in the type of the sinker, the sinker is the latest type rock drill with a soundproofing device, and is suitable for hole drilling of the rock, various swelling cuts, and downward work of the tunnel. In other words, it is a small-sized machine that can be operated by manpower, and operates by the force of air.

It is a powerful perforator that is suitable for punching large holes in excavation work, quarrying work and dam excavation. By means of a manual or automatic feeder, the drill is drilled with a bit of suitable pressure on the bit, which is chain and screw type, and the stopper is a machine punching from the horizontal to the sky and is suitable for vertical excavation

And the breaker is used for crushing the concrete road, for the destruction of the building and the strong foundation, and it has a strong crushing power with low consumption of air. It is mainly used for hydraulic backhoe excavators. Rock crackers are used to crush rocks and concrete by hydraulic pressure in places where gunpowder can not be used.

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

As shown in FIG. 2 (h), in addition to the rag drill, the boring machine and the crawler drill cause the gundlit and pick hammer to move into the distribution dispensing apparatus main body 1 of the flood control machine, Machine control section (811a) Marine dock body dock The asphalt finisher (864), which shows the construction arrangement of the construction machine of the hull locomotion control of the marine hydroelectric power plant floodplain (593,594,595) constituting the upper part of the deck (SDU) A plurality of boom 882a and diesel pile hammers 883 in the pile driver 872 and the pile driver 872 in the asphalt spreader 872 and in the asphalt spreader 872 and in the distribution dispensing apparatus main body 1 of the flood control machine (811a) of the flood control section (811), and a distributing and inputting device of the construction machine connected to the upper part (SDU) of the ship dock hull deck of the marine power plant.

Referring to FIG. 2i, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine. The pump dredger 879a of the dredger 879 and the bucket dredger 879b of the construction machine connection structure of the construction machinery position adjustment structure of the hull position movement control of the hydroelectric power plant flood control console 599, The dredger 879 constituting the upper portion SDU of the marine power plant body dock hull deck is installed separately from the pump dredger 879a and the bucket dredger 879b, The dredger 879 is connected to the bladder tank 879g and the blast pump 879h to the red seater 879e and the spot 879f in the spot or shower chamber 879c and the cab or control chamber 879d, (879i) and an engine room (879j) and at the same time a dredge dredger (879k And the grab dredger 879l are connected to the bucket drive device 879m and the rear spot 879n to the left and right front spots 879q and 877r on the spot winch 879o and the bucket 879p A belt conveyor 879u and a gravure 879v are provided in the winch 879s and the anchor storage 879t and a plurality of construction machine connecting structures are installed inside the distribution and dispensing apparatus main body 1 of the flood control machine, The submarine mineral intake sampling machine 911 and the submarine mineral intake collecting machine 911 are connected to the crude oil dredging machine 908 and the submarine mineral deposit net 910 connected to the upper portion SDU of the marine power plant dock, A wire rope chain 915 and a double structure pipe line automatic pneumatic valve transport device 916 and a core drill 917 to a periscope 913 and a rubber balloon 914 in a submarine mineral picking robot 912. Construction machinery connection structures will constitute submarine mineral manganese nodules (909).

As shown in Fig. 2 (i), the conventional dredger is a device for digging soil in the water, and is a route from the port construction corporation. Fermentation. River. In order to increase the depth of waterway and to maintain water depth, we work on the filling of the shared water surface and the foundation work of the coastal work such as rock wall and breakwater. Classification of the dredger is classified by classification by type and ability. , Pump type is non-magnetic type with rated output of drive engine, and bucket type is non-magnetic type with rated output of main engine. It is non-magnetic type with deeper bucket capacity (m ³ ) ³ ).

As shown in FIG. 2i, in the classification by capability, the electric diesel type is divided into steam turbine type and gas turbine type. In the structure and use of the dredger, the pump dredging line (879a) Is difficult to install, or when the distance is long, it is used to transport soil to a toe line or to suck up soil and water by using a low-head pump line. It is used for dredging or landfilling in a port. ° to 90 °, and the standard indication is indicated by the rated output (PS) of the drive engine.

As shown in FIG. 2i, the structure and use of the bucket dredger 879b is such that dredged soil is continuously pumped up by using a bucket conveyor, and the dredged soil is transported by a toe line, It is used for dredging work. There are continuous type and intermittent type, and continuous type is used. The standard indication is indicated by the continuous rated output (PS) of main engine. The characteristics of dredger (879b) are as follows.

As shown in FIG. 2i, the structure and use of the dredge dredger 879c is used for dredging a hard ground or a broken rock having a strong excavation force. The standard indication is indicated by the capacity (m ³ ) of the bucket, As shown in Fig.

As described above, the seabed mineral manganese nodule 909 is collected,

A plurality of construction machine connection structures are installed inside the dispensing and inputting apparatus main body 1 of the flood control machine to control the hull position moving construction machine control unit 811a of the flood control unit 811 to the upper part SDU of the body of the marine power plant deck A wire rope chain (hereinafter referred to as a " wire rope chain ") is attached to the periscope 913 and the rubber balloon 914 in the submarine mineral intake collecting machine 911 and the submarine mineral collection robot 912 to the connected crude oil drilling machine 908 and the seabed mineral deposit net 910 915) and dual structure pipeline automatic pneumatic valve transport system (916) and core drill (917) construction machine distribution system to construct submarine mineral manganese nodule (909).

Referring to FIG. 2J, the structure and use of the grab dredger 879d is a device for dredging a clam shell on a ship by a special crane, and used for dredging a small-sized lane or anchorage. (M ³ ), and its characteristics are described in the following table.

2J, the hull position shifting construction machine control section 811a of the flood control section 811 is disposed inside the dispensing and inputting apparatus main body 1 of the flood control machine, and is configured in the SDU of the body of the marine power plant dock hull deck (879l) showing construction machine position adjustment control of hull position movement control of marine hydroelectric power plant flood control station (593,594,595). Construction and use of road, grab dredger (879d) This equipment is used to dredge a small-sized lane or anchorage with a clam shell of a specific crane. It is used for dredging of a small-sized lane or anchorage, and the standard mark is expressed as a grab bucket flat capacity (m ³ ) do.

As shown in FIG. 2J, as described above, the seabed mineral manganese nodule 909 is collected,

A plurality of construction machine connection structures are installed inside the dispensing and inputting apparatus main body 1 of the flood control machine to control the hull position moving construction machine control unit 811a of the flood control unit 811 to the upper part SDU of the body of the marine power plant deck A wire rope chain (hereinafter referred to as a " wire rope chain ") is attached to the periscope 913 and the rubber balloon 914 in the submarine mineral intake collecting machine 911 and the submarine mineral collection robot 912 to the connected crude oil drilling machine 908 and the seabed mineral deposit net 910 915) and dual structure pipeline automatic pneumatic valve transport system (916) and core drill (917) construction machine distribution system to construct submarine mineral manganese nodule (909).

Referring to FIG. 2K, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine. A crusher 874 showing a construction machine position adjustment arrangement of the hull position movement control of the hydroelectric power plant floating posture 593,594,595 A straighter configuration of the connection structure The crusher 874 is connected to the gyre torch crusher 874a and the chassis frame 874b The vibrating screen 874g and the drum elevator 874h are connected to the feeder hopper 874c and the vibration grease repeater 874d to the primary jaw crusher 874e of the breaking head and the secondary jaw crusher 874f to the rear of the breaking chamber. The crushers 874 are constructed as structures and are used for compaction of aggregate layers in road and concrete construction.

As shown in FIG. 2K, a crushing machine is used to crush and reduce crushed stones and is used in all crushing operations. It is mainly used for the production of aggregates. .

The types of crushers are separated into primary, secondary, and tertiary crushers. The description of each part of the primary crusher is as follows.

As shown in FIG. 2K, the jaw crusher is a machine which is crushed by a compressive force. When rocks are inserted between the jaws on both sides and are inhaled, one side is fixed and the other side is operated, The stone is crushed, and it is pulled down by magnetic gravity and pushing force. Such a jaw is made of a structure capable of crushing any hard rock pomegranate with powerful force.

As shown in FIG. 2K, the Gyratory crusher is made of cast iron or steel and is composed of a frame lower eccentric shaft and a drive gear, and a cone-shaped crushing chamber is provided at the upper part. In the crushing section, there is a crushing head of a hard steel on the continuous mandrel axis, and is crusher which is firstly crushed while rotating and then discharged to the bottom of the crushing chamber. This crusher has 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. There is an advantage that it can be loaded. Impact crusher's Hammer mill crusher is equipped with a large number of discs on one rotating shaft, hanging a rectangular hammer around the hinges and rotating rapidly, And is crushed by the hitting force at this time.

As shown in FIG. 2K, a con crusher of a second crusher has an umbrella-shaped con- mantle head on a short vertical spindle, and stones are stuck between the con- , And the descending stone thereof is again crushed. 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 Zyeterotorizer, the cone is short, the dimension of the supply port is small, and the size of the outlet gap is the largest, so that it is possible to produce the standard product with the crushed stone. It is suitable for mass production of certain aggregates. Double crusher of Hammer crusher has two hard steel rolls fixed on a separate horizontal axis and freely adjustable spacing. . 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.

As shown in FIG. 2K, the rod mill of the third crusher 874 was to produce fine aggregate of 5 mm or less, and the ball mill was used for the rod mill and the ball mill to re- As a machine for producing aggregate, a rod of a short circular rod is put into a round drum of a forcible, and fine aggregate is continuously supplied with water, and the drum is rotated, pulverized and then discharged. When the water is small, it is finely crushed. When there is a lot of water, the degree of roughness of the mouth is great. Wheat with water is wet, and dry without water is generally wet.

As shown in FIG. 2K, the ball mill is different from the ball mill in that a steel ball is rotated in place of a rod of a rod mill and rotated to obtain a new aggregate.

Its standard specification is to display 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 plurality of construction machine connecting structures are installed inside the dispensing and dispensing apparatus main body 1 of the flood control machine so as to control the hull position moving construction machine control unit 811a of the flood control unit 811, A submarine mineral intake sampling machine 911 and a submarine mineral collection robot 912 are connected to periscope 913 through a crude oil drilling machine 908 and a submarine mineral deposit net 910 connected to an upper part SDU of a marine power plant body dock, And wire rope chain (915) on rubber balloon (914) Dual structure pipeline Automatic pneumatic valve transport device (916) and core drill (917) Distribution machine of construction machine Submerged minerals network Since the rod mill of the crusher 874 produces fine aggregate of 5 mm or less as a machine for crushing the nodule 909 of the crushed stones, the ball mill is used for the rod mill and the ball mill, A new aggregate crush stone is used as a machine for producing a new aggregate crush stone in the ship construction site 811a of the flood control section 811 and the power transmission control section and the harmful vortex blocking prevention control section in the hydro- It is composed of preventive control part and connection structure of hydrological control control part of dam in control part of fishery product scattering.

Hereinafter, the water source and the water quality of the fire water (7) of the dispensing apparatus of the construction machine for the flood control equipment will be described in detail as follows.

The water that is exposed on the surface of the earth, such as river water or lake, is called surface water, and the water that is submerged in the ground like a well is called ground water. The source of water supply was river water and well water.

Therefore, the well water has an average temperature of 16 ° to 17 °, which is suitable for cooling water and industrial water because of the difference in water temperature due to seasonal changes.

Since river water is abundant in quantity, it is purified and used widely as tap water in large cities. The tap water is 3 ° to 8 ° in winter and 25 ° to 28 ° in summer. It is not suitable for other industrial purposes except for the photo phenomenon because of the seasonal changes in water temperature.

The quality of water depends on the pests and germs contained in the water, and turbidity, color, taste, odor, etc. are different. Therefore, if it exceeds the allowable content, it is prohibited to use it. Germs are a cause of disease and pests are minerals that exceed the standard value, which adversely affect cooking and laundry. The hardness of water is expressed based on the content of minerals such as calcium carbonate in water. That is, when calcium carbonate is contained in water by a factor of a million, this is called 1 (p.p.m. part per milion). Drinking water should be between 90 and 110 (p.p.m) and should not exceed 300 (p.p.m.).

In addition, water was divided into soft water and soft water according to hardness, and it was said that water less than 90 p.p.m was hard water more than soft water (110 p.p.m).

In general, the pump body will be described as follows.

The positive number of the pump is performed by an action of sucking up the inside of the suction pipe and pushing up the inside of the pipe which blows water. The sucking action is due to the vacuum, so atmospheric pressure head. In other words, it can not be raised more than 10.33m under standard atmospheric pressure. However, this 10.33m is the theoretical sump height. In fact, it can not be completely vacuumed by the evaporation of the air or the water contained in the water. Also, by the resistance loss in the sucking tube, about 2/3 of the theoretical sucking height In other words, it is only about 7m. Therefore, the height of the pump should be less than 7m from the minimum water level (hereinafter, the explanation is omitted).

Referring to FIG. 21, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine. The previous cylinder 126 showing the construction machine position adjustment arrangement of the hull locomotion control of the hydroelectric power plant flood control 593,594,595, the biaxial plunger pump 148b and the radial plunger pump 148c of the plunger pump 148, As shown in Fig. 21, each shaft 156 formed in the shaft 126 formed in the cylinder 126 used as a construction vehicle or a conveying machine of the prior art is provided with a seal 156, A high pressure hose 190 and a coupling 29 in the front of the cylinder 126 and a linkage 249 used as a connecting device to the crank 248 and the crank 248 as valve devices, ) And at the same time (811b) producing the power of the flood control section (811) inside the distribution dispensing apparatus main body (1) of the seaweed sewing machine; (811b) the marine hydroelectric power plant constituting the upper part of the ship deck (SDU) (623), which shows the construction machine position adjustment structure of the hull restraint system (593,594,595), and the hydraulic cylinder (623) body which is equipped with the heavy equipment construction machine A cylinder and a piston are provided with a rod seal 822 and a bush seal 824 on a piston seal 823 and a slide ring 826 on a wear ring 825 and an O ring 828 and a rod seal 828 on a diehub 824, 829 to the backup seals 830 and the load seals & back seals 831 to the piston seals 832 and the piston seals 833 to the piston seals 834 and the buoy rings 835 to the piston rings 836 And the circumferential surface of the rubber zero piston 127 of the multistring 837 and the circumferential surface of the cylinder 126 ). It is classified as a high pressure valve and a low pressure valve of a hydraulic pump, and a connection structure is formed by an electric motor, a hydraulic tank and hydraulic hoses to provide a water storage tank for a flood control facility and a marine tunnel The construction machine is constructed inside the dispensing and dispensing apparatus main body 1 of the construction machine so that the cylinder body can be separated from the hydraulic pump by the high pressure piping 14, The tie elbow 44 and the flange 28 form a coupling to the pressure relief valve 474 and the hydraulic hose 190 while the coupling 29 constitutes a male and female threaded connection.

As shown in FIG. 21, the hydraulic pressure is defined as a hydraulic pressure pump that uses mechanical power to change the mechanical energy into the pressure energy of the fluid and stores it in the hydraulic oil. The pressure is controlled by the control valve, Means a device or system that converts three basic control elements, flow rate (speed control) and direction change (direction control), to mechanical energy again through the actuators of hydraulic cylinders or hydraulic motors, The advantage of the system is that it generates a large force compared to the size of the system and enables precise position control and start-up under a large load condition, resulting in excellent control (power, direction , Speed) and controllability and excellent heat release.

As shown in FIG. 2L, the disadvantage of such a hydraulic pressure is that it is sensitive to foreign substances due to contamination of the surrounding environment by the waste oil, so that the danger due to the use of the high pressure and the change in the working condition due to the temperature change, In this configuration,

The hydraulic system can first be divided into power supply, control and output sections, and the power supply section supplies the flow to the system, with the main components being the prime movers and pumps, the prime mover having the mechanical power required to drive the pump In an industrial system, an electric motor is generally used as the device. In the case of a vehicle such as an excavator and a farm machinery, a prime mover is an automobile engine, and a pump obtains mechanical power from a prime mover and converts it into a fluid flow with pressure .

As shown in FIG. 21, 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 the output of the hydraulic system in the case of a hydraulic motor (rotary actuator) that generates rotational motion.

As shown in FIG. 21, the control device is located in the middle of the hydraulic system, and the components include a directional control valve, a pressure control valve, and a flow control valve. For example, the direction of motion of the actuator can be adjusted by directional control of fluid flow, such as when the cylinder advances or retracts.

As described above, controlling the pressure of the fluid is controlling the force of the output, while controlling the flow rate constitutes the control of the velocity of the actuator.

As shown in FIG. 21, the constitution of the pressure source includes a tank for collecting a necessary amount of oil, a hydraulic pump for pumping oil from the tank into the circuit, and safety valves for protecting the power source. Pumps with different types of equipment are used according to their specific needs. Gears and vanes are used. Piston pumps are used for motors and tanks. Relief valves for shut-off valves. Suction lines for filters on heat-exchange thermometers. And the control unit will be described as shown in the following table.

As shown in FIG. 2L, 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 unbalanced valve for the sequence valve and the unbalanced valve. The directional control valves are 2/2 and 3/2 to 4/2 and 4/3 to 5/2-way valves, The control valve is composed of the orifice and the operating speed control, and at the same time, Table 1-1 describes the hydraulic device configuration as shown in the following table.

As shown in FIG. 21, the operation unit is a rocking motion in a linear motion and a 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 pressure and power in mass and force are described in detail in the following table.

First, in terms of physical quantities, the physical quantities are the characteristics of the object, that is, the states or processes that can be measured. For example, speed (speed), pressure, time, and temperature are physical quantities. Color is not physical quantities. The mass is standardized in kilograms (kg), the time in seconds (s), the temperature in Kelvin (K) or Celsius (˚C), and the major physical quantities such as force, area, flow, The velocity can be derived from the above basic unit. SI defines kg as a unit of mass.

Secondly, in terms of mass, mass is generally used in terms of weight, and cubic steel with a mass of 1 kg on earth has a mass of 1 kg.

Thirdly, in terms of force, mass describes the mass unit with its own properties, regardless of gravitational acceleration, and the unit of force is determined in relation to gravitational acceleration (Newton, 1643-1729) ( F = m ㅧ α ), force = kg ㅧ m / s ² This is simply Newton [N], which is defined as 1N = 1 kg m m / s ² .

In the pressure Fourth, although the pressure is the "pressure to be applied to the unit area of the object, the force" is the unit to have a metric engineering units of [kg _f / cm ^2] or [kg _f / m ^2] mainly used so far In the future, you will have to use the SI unit [N / m ² ], or Pa (read Pascal).

As described above, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine, and the marine hydraulic power The previous cylinder 126 showing the construction machine position adjustment arrangement of the hull position movement adjustment of the power station flood control 593,594,595 and the biaxial plunger pump 148b and the radial plunger pump 148c of the plunger pump 148 are connected to the construction machine Structure.

Referring to FIG. 2m, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the dispensing and inputting apparatus main body 1 of the flood control machine, an upper end SDU of the body of the marine power plant, (593, 594, 595) of a hydro-electric power plant (593,594,595), a cylinder showing the configuration of the construction machine position control of the hull locomotion control system (126) A cylinder and a piston constituting the body are provided with a rod seal 822 and a bush seal 824 on a piston seal 823 and a slide ring 826 on a wear ring 825 and an O ring 828 on a diehub 824, And the load seal 832 and the pin seal 832 at the load seal 830 and the load seal and backup seal 831 at the load seal 829 and at the downstream seal 834 and the baffle 835 The piston ring 836 and the rubber-zero piston 127 of the multistring 837 And the inside of the cylinder 126 is divided into a high pressure valve and a low pressure valve of a hydraulic pump, and a connection structure is formed by a motor, a hydraulic tank, and hydraulic hoses to provide a water storage tank for a flood control facility and a marine tunnel In the dam facility, the construction machines are constructed inside the dispensing and dispensing apparatus main body 1 of the construction machine. The cylinder body includes a high pressure piping 14 and a reducer 35, An elbow elbow 44 and a flange 28 to form a connection to the pressure relief type safety valve 474 and the hydraulic hose 190 and at the same time the coupling 29 is provided with a male- (811b), which produces the power of the flood control section (811) inside the main body (1) of the distribution apparatus of the machine, is connected to the upper part SDU of the body of the marine power plant and the center part SDM of the hull deck Dock Cylinder (126) showing the arrangement of the construction machine position control of the hull position movement of the marine hydroelectric power plant floating structure (593,594,595) composed of the lower part of the body deck (SDL). (126) Disassembly construction machine connection structure Dispensing input The device is configured.

Referring to FIG. 2n, the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the dispensing and inputting apparatus main body 1 of the flood control machine, Construction machine position control of the hydroplaning pedestrian (593, 594, 595) Piston motor (885a) of the cylinder (126) and hydraulic crane (885) To compare with atmospheric pressure.

As shown in FIG. 2n, the atomospheric pressure refers to the air surrounding the earth, and the pressure applied by the atmosphere is called the atmospheric pressure. The standard atmospheric pressure is as follows.

1atm = 760mmHg (can height ^{_{Ontario) = 10332kg f / m 2 =}} 1.0332kg f / cm 2

= 10.332 mAq (height of water) = 101325 N / m ² = 1.0 1325 bar

As shown in FIG. 2n, the gauge pressure is the pressure measured by the gauge and the pressure measured based on the local atmospheric pressure.

As shown in FIG. 2n, the absolute pressure is the pressure measured based on the full vacuum.

As shown in FIG. 2n, for the fifth power, work is defined as the amount of energy consumed and is calculated as the product of the applied force and the distance traveled by the force ( W = F S ). Suppose you need 300 N of force to move an object 40 m. In this case, the work is W = 300N ㅇ 40m = 1200N ㅇ m [J]. However, the idea of work alone can not tell how fast the object has moved. Was this done in 10 or 5 seconds? That is, power takes into account how fast energy is consumed. By dividing the work by the time it took, you get the expression for the power.

For example, if the work is N m m and the time is in seconds, the power will be N m m / s. In general, P is used for capital letters, while the lower case p is symbol of pressure , Where s / t is replaced by speed υ in the above equation.

For example, if the force is N, the velocity is m / s, a unit of power is the o N m / s. Power is also expressed as horse power (hp). The conversion relation between these two units is as follows.

As shown in FIG. 2n, since the change relation between the units is applied to the equation, the force is N and the speed is m / s. Therefore, the use of the unit is restricted and any other unit should not be used. These equations, which are made in consideration of convenience, are widely used in the industrial field. In the international system of units, the power uses Watt (Watt) as a coordination unit. Since W is a small unit, it is generally expressed in kilowatt (kW) Putting the conversion factor (1kW = 1000W) into equation (1.2) gives the following equation used in the international system of units.

As shown in FIG. 2n, the symbol kW is used to indicate that the unit of the value calculated in the above equation is kilowatt (kW). The unit applied in Eq. (1.3) is F (force) N, and υ (velocity) is m / s.

As shown in FIG. 2n, the flow of the fluid and the flow of the friction in the Bernoulli equation and the principle of Pascal's principle and the pressure transfer to the static statics of the fluid are described in detail as follows in a simple fluid dynamics continuity equation used in a hydraulic machine.

In the continuity equation, the continuity equation applies the law of mass invariance to the flow of fluid, which means that the fluid in the closed path of the closed curve is not created or destroyed on the way.

As shown in Fig. 2n, when the flow in the channel is considered as a steady state flow and the fluid does not consider compressibility, an arbitrary cross section (1) and (2) orthogonal to the cross section are set and an average flow velocity Are denoted by υ ₁ ν ₂ , the area of A ₁ A ₂ and the density of ρ ₁ ρ ₂ , respectively, and the amount of fluid flowing through each cross section per unit time must be the same according to the law of mass invariance. That is, if the mass is m ,

은 임의의 점에 있어서 관로를 지나는 질량 유량(mass flowrate)이다. And here,

Is the mass flowrate through the pipeline at any point.

As shown in FIG. 2 (2), since the masses passing through the point (1) in unit time are ρ ₁ , A ₁ , and υ ₁ ,

으로 되며 이 Q를 유량이라 하고 관로 속을 지나는 유체의 유량은 어느 단면에 있어서나 일 정하다는 것을 나타낸다. 즉 유압에서는 유량이란 "단위 시간에 이동하는 액체의 양"을 말하며 토 출 량으로 표현하고 있고,유량은 통상적으로 기호 Q로 표시하고 단위는 ℓ/min. cc/sec 으 로 표시하며 유속은 "단위 시간에 이동하는 유체의 거리"를 말하는 것으로 위 식으로부터

As shown in FIG. 2 (n), when the fluid is uncompressed, ρ = Const .

And this Q is called the flow rate, and the flow rate of the fluid passing through the pipe shows that it is fixed at a certain section. In the case of hydraulic pressure, the flow rate refers to the amount of liquid moving in a unit time, expressed as the discharge amount, and the flow rate is usually expressed by the symbol Q and the unit is expressed in l / min. cc / sec, and the flow rate refers to the "distance of fluid moving in unit time" from the above equation

And is expressed in units of m / s.

As shown in Figure 2n, the Bernoulli equation describes the relationship of the non-compressible fluid to the total energy, and since the hydraulic fluid is nearly non-compressible, the Bernoulli equation can be used in a hydraulic system and the energy of the fluid is 3 In the form of branches.

First, fluid energy (due to height and protagonist) = W h

The following pressure energy (due to pressure) = W ㅇ

Next kinetic energy (due to velocity) = W ㅇ

As shown in FIG. 2n, the units of the above three energy terms are all Nm. If there is no energy coming in or out from a system in any system, the energy at any two points must be the same.

Since W is common to each term, the following equation is obtained by dividing it.

This is a Bernoulli equation that expresses all of the energy contained in a fluid per unit weight, so if one of the three energies increases, the energy of one or both of the other two energies decreases, so that the sum of the three energies is equal Balance.

As shown in Figure 2n, the hydrostatics of the fluid is proportional to the head of the fluid, regardless of the shape of the vessel. Therefore, it can be expressed as the product of the specific weight of the fluid and the head.

p = rh (1.6)

As shown in FIG. 2n, the principle of Pascal is that when a fluid is pressurized by a force (a force of a person, a force of a machine, or a force) in a closed container, It is called "Pascal's principle" because it is Pascal who first uncovered this principle at the same size. The principle of this principle is used in a pneumo-hydraulic device, and the pressure on the surface where the stopped liquid is in contact with each other The pressure applied at a point on the stationary liquid is the same for all directions, so the pressure applied to a portion of the liquid stopping in the closed container is the same for all parts It is called Pascal's principle because it is transmitted at the same time.

As shown in FIG. 2n, when a liquid is put in a closed container and a force F is applied from above, the liquid has a property of not decreasing the volume even when compressed, so that the liquid has a force against the force to be pressed from above. This is called the reaction, and the reaction force of this liquid is called the pressure ( p ).

The pressure in the vessel is the force F divided by the area A of the piston.

단, 실린더 내 액체의 높이 차에 의한 압력의 차이는 p값에 비해 매우 작으므로 무시할 수 있다. 위의 식으로부터

As shown in Fig. 2n, the principle of pressure transfer is that when the liquid is filled in the cylinder and the forces of F ₁ and F ₂ are applied to the piston cross-sectional areas A _{1 and} A ₂ , some pressure is generated in the liquid due to these forces If there is no friction between the piston and the cylinder, there is no leakage from this part, and there is no energy loss due to the transfer, the pressure generated in the two cylinders can be expressed by the following equation.

However, the difference in pressure due to the height difference of the in-cylinder liquid is negligible as it is very small compared to the p value. From the above equation

Is obtained. That is, the force is proportional to the cross-sectional area of the piston. Since A ₁ is smaller than A ₂ , a force F _{2 which} is sufficiently larger than F ₁ is obtained. Hydraulic presses and hydraulic presses use this principle.

Embodiment of the hydraulic intensifier, the surface area is in connection by the rod to the other two pistons when the action of the pressure p ₁ on the piston area A ₁ is transmitted to the small piston force F ₁ is via the load acting on the force the cross-sectional area A ₁ Therefore, the pressure p ₂ is increased and the friction loss is neglected.

The pressure in the pressure intensifier is inversely proportional to the area of the piston.

As shown in FIG. 2n, the flow of fluid is generally referred to as internal flow, in which all interfaces of the fluid flow are solid surfaces, and this flow is largely divided into laminar flow and turbulent flow, In the case where the viscous force is dominant than the inertial force and the Reynolds number is small, that is, the velocity is small and the viscous flow satisfies Newton's viscosity law, the turbulent flow is inversely proportional to the inertial force, At large, the magnitude of the velocity is large and, in general, the flow in the hydraulic system is often a laminar flow.

 As shown in FIG. 2n, friction and flow, as shown in the table above, are lossy when hydraulic energy is transferred through the pipe. The friction is generated by the fluid itself and the inner wall of the pipe and generates heat. The hydraulic energy is converted into thermal energy, while the loss of hydraulic energy is called the pressure loss of the hydraulic fluid. Since the hydraulic fluid has pressure loss in all the structures in the hydraulic system, The loss is due to the friction of the flow medium, and the pressure loss in the structure that changes to thermal energy is sometimes deliberately generated, so that the pressure loss that causes heat generation in the structure is not desirable, As the fluid in the pipe runs in the direction of the arrow, the pressure in the direction of flow gradually decreases because it is heated by the structure.

As shown in FIG. 2 (a), the hydraulic pump is separated from the hydraulic pump in terms of the relationship between the discharge amount and the pressure in terms of the power and efficiency of the pump. First, the hydraulic pump is supplied with the mechanical energy supplied from the prime mover A pump that converts energy into energy and increases the hydraulic energy level of the hydraulic oil to apply energy to the hydraulic system is called a hydraulic pump. The pump is classified as a cost saving pump and a volume type pump. There are centrifugal pump, sump pump, axial flow pump and injection pump as switching pump, and there is a constant relationship between discharge amount and pressure. As the discharge amount increases, the discharge pressure decreases. The positive displacement pump means that when the axis of the pump rotates once And the discharge amount is constant regardless of the load pressure and is discharged according to the load pressure As the pressure is determined, there is a risk that the pump will be destroyed when the load becomes excessive. In the hydraulic system, the hydraulic pump pumps the low-energy hydraulic fluid in the tank by applying the pump operation, And the hydraulic oil is constituted by a system which returns to the tank by returning to the low energy, while the work or energy applied to the hydraulic oil by the pump operation is transmitted to the hydraulic oil, (= Force) ㅧ (displacement) = (pressure) ㅧ (width) ㅧ (displacement) = (pressure) ㅧ (exclusion volume).

과 같이 된다.The work done in unit time, ie, power or power,

.

 As shown in FIG. 2n, the relationship between the discharge amount and the pressure according to the classification of the hydraulic pump is shown in Table 2-1 as shown in the following table.

위 표와 같이, 유압 펌프의 토 출 량은 입력 축을 1회전 시킬 때 토출구로부터 내보내진 작동 유의 체적으로 나타내며,예를 들어 32cc/rev라면, 1회전당 토 출 량이 32cc라는 것이며,유압 펌프에는 그 속도 이하로 구동한 경우에는 소정의 토 출 량을 유지할 수 없는 「최저회전속도」가 있어서 속도 이상으로 회전시킬 경우, 극단으로 수명이 단축되고, 파손하는 일도 있는 「최고회전속도」가 정해져 있는데 이 최저와 최고회전 속도의 범위 내라면 임의의 속도로 유압 펌프를 구동할 수 있는 것이고 회전 속도에 비례해서 토출구로부터 내보내진 작동 유의 유량은 커지므로 32cc/rev의 유압 펌프를 1500rpm(1분당 1500회전의 속도)으 로 구동한 경우 토출구에서 나오는 유량은 32cc의 1500배, 즉 '48,000cc를 1분간에 흘린다.'라는 의미의 48 ,000cc/min(48ℓ/min)가 되며,즉 1500rpm에 놓인 이 유압펌프의 토출량은 48ℓ/min라고 표시하며 토출구에서 압력이 5kg_f/cm² 정도로 대단히 낮은 경우에는 실제로 측정한 토출량과 계산에서 구해진 토출량(이론 토출량)이 상당한 근사치가 되면서 동시에 유압 펌프에는 토출구의 압력이 수치 이상으로 높아지면 내부 누설이 많아지고 수명도 현저히 짧아진다는 의미를 갖는 「최고사용압력」이 정해져 있으므로 유압펌프의 내부에는 금속면과 금속면의 접촉부가 여러개 있어서 그 부분을 윤활하게 하기 위한 작동유가 필요하며 내부 누설은 이 목적이 이용되기 때문에 뺄 수가 없다.

As shown in the table above, the discharge amount of the hydraulic pump is expressed by the volume of the operation oil discharged from the discharge port when the input shaft is rotated once. For example, when 32 cc / rev, the discharge amount per one revolution is 32 cc. Quot; maximum rotation speed " at which a predetermined amount of discharge can not be maintained when rotating at a speed equal to or lower than the speed, the " maximum rotation speed " The hydraulic pump can be driven at an arbitrary speed within the range of the minimum and maximum rotational speeds. Since the flow rate of the operating oil discharged from the discharge port is increased in proportion to the rotational speed, a hydraulic pump of 32 cc / rev is operated at 1500 rpm Speed), the flow rate from the discharge outlet is 48,000cc / min (48ℓ / min), which means 1500cc of 32cc, ie, '48,000cc flows in 1 minute', that is, 1500rp discharge rate of the hydraulic pump is placed in m when very low as 48ℓ / labeled min and the pressure in the discharge port 5kg _f / cm ² is as a considerable approximation of the discharge amount (theoretical flow rate) obtained from the actually measured flow rate and computed at the same time the hydraulic pump Has a "maximum operating pressure" which means that the internal leakage increases and the life span is significantly shortened when the pressure of the discharge port becomes higher than the numerical value. Therefore, there are several contact portions between the metal surface and the metal surface inside the hydraulic pump, Lubrication oil is required and internal leakage can not be removed because this purpose is used.

Therefore, the internal leakage becomes larger (almost proportionally) as the pressure of the discharge port becomes higher, and at the maximum operating pressure, the leakage amount becomes 5% to 10% of the theoretical discharge amount. 95% to 90%. The numerical value indicating what percentage of the actual discharge rate at which the actual discharge rate is the theoretical discharge rate is called volumetric efficiency.

In general, when the volume efficiency is merely expressed, the volume efficiency at the maximum working pressure is often expressed. When the internal leakage is 5% of the theoretical discharge amount, in other words, when the actually measured discharge amount is 95% efficiency is shown as 95%, and in the pump power and efficiency, as the suction pressure of the hydraulic pump ^{_{p s [kg f / cm 2}} ], the discharge pressure ^{_{p d [kg f / cm 2}} ] , and the SAT output flow R [m ³ / s], the pump power generated by the pump (the horsepower that is effectively transmitted to the fluid) L _p can be obtained as follows.

( L _p = pQ [kg _f m / s]) (2.1)

Where p = p _d - p _s is the pressure difference between the outlet and inlet of the pump, but usually p _s is atmospheric pressure and p = p _d .

 If the output unit is expressed in kW or ps

to be. In addition and as a unit of p kg _f / cm ² when the units of Q ℓ / min pump power is

Theoretical power (liquid power) L _{th applied} to the hydraulic oil by the pump when it is assumed that there is no leakage loss in the pump,

( L _th = pQ _th [kg _f m / s]) (2.4)

Here, p kg _f / cm ² is the pump discharge pressure, Q _th [m ³ / s] is the theoretical discharge amount, and the power (axial power) transmitted from the prime mover to the pump shaft is L _s

Here, ω [l / s] is the angular velocity, and the torque (torque) needed to ^{_{T th [kg f / cm 2}} ] is rotating the pump, N [rpm] is the rotation number of a pump is received through the axis from the prime mover Efficiency is defined as a measure of the degree to which the pump converts the energy received through the shaft to useful energy, not because it does not give all of the energy to the hydraulic oil, but because some of the energy is lost and the remaining energy is carried by the hydraulic oil.

여기서 η는 펌프의 전 효율이다.

Where η is the total efficiency of the pump.

 2, the hydraulic actuator is a general term for a hydraulic device that performs mechanical work by generating a reciprocating motion or a rotary motion of an output shaft by pressure oil, and includes a hydraulic motor (rotational motion of the shaft), a hydraulic cylinder (Linear motion of the shaft) and a swinging actuator (limited rotational motion of the shaft). Table 4-1 shows the types of hydraulic actuators.

As shown in Fig. 2n, in a hydraulic motor, a hydraulic motor is a device that converts the energy of pressure oil into rotational motion. In principle, when the pressure oil is supplied to the suction side of the hydraulic pump, the hydraulic motor becomes a hydraulic motor. However, However, since the hydraulic motor can rotate in any direction, the characteristics of the hydraulic motor can be compared with an AC motor having the same rotational motion as follows.

It is very easy to change the speed of rotation and change of forward and reverse rotation, and it is very easy to start and stop. It has good inertia and good tracking ability. It responds quickly and is suitable for the elements of automatic control and control mechanism. However, since the hydraulic device itself is driven by a motor, its use is limited. In the type of the hydraulic motor, the flow rate required to make one rotation of the motor is changed and the flow rate is constant. Therefore, , And the latter is referred to as a variable displacement hydraulic motor.

2N, the structure of the gear motor is almost the same as that of the gear pump. The supplied hydraulic oil acts on the tooth surface to generate a torque to rotate the output shaft, and the gear Generally, spur gears are used, and it is difficult to fabricate a small-sized, lightweight, and variable-capacity type motor as compared with other motors, and it is disadvantageous in that it can not be used because the pulsation of torque output and rotation speed becomes large at a low speed of 100 rpm or less The total efficiency of the gear motor is about 70 to 80 [%] and the rotation speed is about 1000 to 3000 rpm.

As shown in FIG. 2n, the vane motor is the same as the vane pump in the structure, and has an advantage in that the output torque is constant when the supply pressure is constant, reversible, continuously variable, Therefore, the maximum operating pressure is 70bar, the power is 5 ~ 30ps, the number of revolutions is 200 ~ 1 800rpm, and the speed limit of 200rpm is small, the output torque fluctuates little and generally the efficiency is not good at low pressure or low speed. There is also an added disadvantage.

2N, in a piston motor, a piston motor is generally called a plunger motor or a rotary piston motor and is almost the same in structure as a piston pump, and its type is an axial type, There is a radial type. Axial piston motors have a boss and swash plate type.

As shown in FIG. 2n, a radial piston motor is a type in which several or ten pistons are radially arranged on a shaft to rotate the shaft while reciprocating in a radial direction, and the eccentric or eccentric cam of the cylinder block is used to rotate the piston As piston motors are classified as multi-stroke type which generate torque by several reciprocating piston movements per revolution by using eccentric type and multi-leaf cam to convert the force by pressure to torque, piston motors, like piston pumps, type and a variable displacement type are included in each square type.

As shown in Fig. 2n, in the output and efficiency of the hydraulic motor, the pressure oil to the pressure flowing into the motor ^{_{p 1 [kg f / cm 2}} ], the pressure oil to the pressure flowing out of ^{_{p 2 [kg f / cm 2}} ] And the flow rate of the supply pressure oil is Q [cm ³ / min], the power input to the hydraulic motor is calculated as follows.

The output is calculated by the torque and the angular velocity.

Where n is the torque [kg _f o m] in which the motor output-side rotational speed [rpm], T is delivered to the load on the motor output side. Therefore, calculating the efficiency of the motor in relation to input and output

The size of the hydraulic motor is expressed as q (cm ³ / revolution) pressure per revolution, Q = q ㅧ n _o , assuming no internal leakage of the motor , and λ = 100% When the pressure of oil is regarded as 0 ( p ₁ = p )

 From the above equation,

가 된다.Therefore, the torque efficiency

.

Where n _o is the number of revolutions on the assumption that there is no internal leakage in the motor and T _o is the maximum torque or the theoretical torque at which the pressure of pressure p can occur.

 As shown in FIG. 2n, the advantage of the hydraulic motor in its short and long ends is that it can be quickly stopped more easily than an electric motor, a wide range of continuously variable transmission can be obtained, a compact, light and strong force can be obtained, It is easy to control by starting variable, variable displacement type pump or metering (valve which means throttle valve and improving flow rate), and safety device or brake for overload And it is convenient for a torque control machine such as a winder used for a wire or a wire. As described above, it is possible to control the hull position moving construction machine control of the flood control part 811 inside the main body 1 of the distribution- (811a) Body dock of marine power plant The hull of a marine hydroelectric power plant floating attachment (593,594,595) constituting the upper part of the deck (SDU) A conventional cylinder 126 showing the construction machine position adjustment structure of the movement control, a piston motor 885a of the hydraulic crane 885, a bossable plunger pump 148b of the plunger pump 148 in the hydraulic motor, (148c) The construction machinery connection structure consists of distributing devices of flood control machines based on Bernoulli's theorem and Pascal's theoretical physics method.

2O, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (838), which shows the position control structure of the marine hydroelectric power plant floating structure (593,594,595) constituting the marine hydroelectric power generation control structure of the marine hydroelectric power production control section of the connecting structure (811b) And a distribution control unit for controlling the distribution of the water.

As shown in FIG. 20, the marine hydroelectric power production and control unit of the construction machine connection structure in the form of a spinneret (838) constituting the upper part of the deck (SDU) of the marine power plant dock of the marine hydroelectric power plant lifting plant (593,594,595) 811b includes a head tank 189 having a direct current 655 and an alternating current 656 energy power and a bulb 191 and a cylinder 126 in a hydraulic hose 190 and a bulb The body (660) and the battery or battery (671) construction machine connection structure consist of the distribution input devices of the flood control machinery.

As described above, in the conventional technology of hydroelectric power generation, the waterproofing facilities and the waterproofing facilities in the power generation facility (amphibious water) do not impair the requirements of the hydroelectric power generation, but the setting of the dam 680 or the intake dam 680 The problem of the environmental impact of the surrounding area due to the setting of the water intake dam 680 is as follows.

First, in order to obtain adequate generation capacity, the construction cost of dams and the period required for dam construction are much larger than those of generation facilities, compared with generator generators of power generation facilities due to the construction of dams. Second, Environmental impact near the installation site (taking into consideration that the ground and the crustal changes of the dam installation location stratum have not been thoroughly checked in advance. As a result of the prolonged stay of the flow rate rather than the multi- purpose application for controlling the flood drought after dam installation There are cases where small cities are buried due to earthquakes or landslides due to algae or harmful red tide breeding and the amount of water intake is small and small. In addition, there are cases where solar power generation destroys forests due to the installation of solar power generators Inability to control flood droughts and obstacles to impeding national economic development In the case of nuclear power generation, the damage caused by the accident of the former Soviet Chernobyl nuclear power plant and the explosion of the nuclear power plant in Japan resulted in the radiation damage, and the damage was considerable. On the other hand, the thermal power plant is located near the metropolitan area Or on the shore, the exhaust gas emitted from the chimneys accelerates the global warming. In the meantime, due to the pollution of the atmosphere and the increase of carbon dioxide emissions, the natural disaster is caused by the global warming phenomenon. And the countermeasure against the problem is reached to the serious level. FIG. 1c shows a method of eliminating the troubles of mankind by endless production of environment-friendly energy by installing the generator of the present inventor in the ocean. Prevention of disaster prevention of the internal flushing control unit 811 in the main body 1 of the apparatus (811e), a control block diagram and a BF model, a speed control method, and a three-pump direct-injection-start-type method in a configuration of a multi-stage pump operation method In this case, the marine hydro-power generator equivalent to the multi-stage multi-stage pumping plant is constructed such that the large-capacity power generation is generated by the multi-stage multi-stage hydroelectric power generation facility, Construction Machinery Control Section (811a) Marine Power Plant Body Dock The marine power plant (233) in the form of a spinning mill (838) is further constructed at the upper part of the deck (SDU).

As shown in FIG. 20, in general, in the domestic water resource facilities, the total low water capacity of the multipurpose water reservoirs is about 12.6 billion cubic meters, the capacity of the power generation facilities is about 1.05 million kw, and the flood control capacity is about 2.2 billion cubic meters The hydropower facility is a facility that uses flow and dropping, so the annual water supply capacity of these multipurpose dams is about 10.9 billion ㎥. By the dam, the lowest capacity of Soyanggang Dam is 2.9 billion ㎥, but the annual water capacity is 1.2 billion ㎥, which is less than 3.4 billion ㎥ of Chungju Dam. Capacity scale of power generation facilities is largest at Chungju Dam with 410 thousand kw. In order to allow a person skilled in the art to understand the background of the above-mentioned power station (land hydroelectric power generation) hydraulically and hydraulically by a hydraulic person, the inventive hydraulic power plant 233 The following is a detailed description of the outline of the hydropower plant.

 As shown in FIG. 20, the hull position shifting construction machine control section 811a of the flood control section 811 is disposed inside the dispensing and inputting apparatus main body 1 of the flood control machine, and is configured at the upper part (SDU) (233), which shows the position control structure of the construction machine of the marine hydropower plant (593,594,595), which is used to control the hull position movement of the marine hydropower plant (593,594,595) And shall be constructed so as to minimize losses of free fall and flow. Hydropower facilities in hydroelectric power plants are divided into 4 types according to their functions: water supply facilities (680n), power generation facilities (680p) and waterproof facilities (680q). It is necessary to plan properly and design each plant to be able to make the most effective use of the hydraulic power by combining the facilities properly. Therefore, there are various structures in the works to be used in each facility. Depending on how these are combined, (679s) of the hydroelectric power plant will be briefly examined for the hydroelectric power plant.

Referring to FIG. 2P, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 2P, a facility for blocking water in a direction almost perpendicular to the flow of a river, which is referred to as a water intake dam 680b, The water taken from the intake port 678g for constructing a facility for taking water under the roof-called the intake port 678g is guided to the water tank 680m above the power plant 233 via a water channel to obtain a fall- The water is then sent back to the aqueduct through a hydraulic pipe, where the energy of the water is converted into mechanical energy, which is then used to generate electrical energy by the generator. The water is then discharged to the river again through the watertight path (678b) The sediments are settled by sedimentation of sediments in the effluent water. When crossed and the remainder to be safely discharged to the river. Among them, there are two types of waterway, from the water inlet (678g) to the entrance to the water tank (680m), and the waterway is a pressure waterway which pressurizes the entire waterway and a natural water- (680 m) is used for the natural downfalling type. In case of pressure water, the crude seawater (680i) is used instead of the constant water tank (680m) Since the reservoir 680a acts as a constant tank 680m in the dam-type power plant without installing the gutter 680k, the water tank 680k does not provide a constant tank.

As shown in FIG. 2P, in the case of a conventional power generation dam, when the power generation dam is classified according to its use, it is used to increase the water level on the upstream side in a simple water intake dam or a dam water- There is a gigantic low water dam (dams) that make adjustments or reservoirs (680a) by blocking the valleys or rivers to store water for a certain period of time, as well as the intake of water, The following is a list of the major issues that should be rationally designed to be safe even after receiving floods and other external forces. The next type of dam should be selected as the most economical considering the topography and geology. As the water level rises, it's called draining soon. And that the maximum flow rate should be safely discharged even in the event of a flood so as not to endanger the facilities such as power generation facilities and downstream facilities. According to the purpose of use of the power generation dam, a water intake dam and a low water dam are formed, Dam in the dam is intended to be taken from a hydroelectric power plant. Generally, the height and width of the dam are not so large. Next, in the low water dam, the dam is raised by increasing the water level on the upstream side, Since the large quantity of water that can be controlled is used, it has been explained above that it is divided into the adjustment area and the reservoir depending on the size of the adjustment ability.

As shown in FIG. 2P, according to the classification of the existing power generation dam by a material used, a rock dam is formed in a concrete dam and an earth dam. First, in a concrete dam, a concrete mixed with cement, sand, This is the most used dam because it has high stability. Secondly, it is an economical dam for dams to mix and construct sand, gravel and clay. This type of dam should be designed to maintain stability by gently sloping the upstream and downstream sides of the concrete dam.

As described above, the marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine is connected to the upper portion SDU of the body of the marine power plant deck (678c) and conceptual diagram of reservoir plant (678d) showing the construction machine position control structure of the marine hydroelectric power plant flood control station (593,594,595) The hydroelectric power generation control unit 811b for generating a power for generating the power of the flood control unit 811 into the main body 1 of the distribution control system of the water conditioning system of the construction machine connection structure. The marine hydroelectric power station floating trainers 593, 594 and 595 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, The portable lug 607 and the portable lug pin 607 are attached to the vertical partition wall 605 and the pin coupling shaft 606 for the portable lug by the distributing and inputting devices of the flood control machine provided with the door 624 for the hydraulic cylinder in the right- (608) to the large-diameter flange connection joint joint hole machining hole (615) to the construction machine connection structure and the bridge pier (928) and the pipe bridge (937) to the inside of the marine tunnel transport device (941) The internal tunnel 771 of the marine tunnel communication device inside the marine tunnel traffic device 941 in the pier 928 and the pipe bridge 937 constitutes the marine control device in the hydroelectric power plant (680n), power generation facilities (680p), and waterproof facilities (680q) are classified into four types of hydraulic facilities in the water intake facilities (680n) On the other hand, the position of the hull of the marine hydroelectric power station levitation (593,594,595) In the hydraulic system of the hydro-power plant 233 showing the control structure of the construction machine, the hydraulic power for controlling the flow rate of the seaweed is input to the aberration, and the aberration and the generator are rotated. (680o), power generation facilities (680p) and waterproofing facilities (680q), and multi-stage hydroelectric generators (213) of hydroelectric power plants (233) A marine hydropower plant is constructed in the form of a marine tidal power plant.

Referring to FIG. 2q, a marine hydroelectric power production control unit 811b for producing a power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control equipment, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 2Q, the old rock dam 680z is economical when such a rock material is procured locally, like a clay dam 680y mainly using rock as a building material. This dam can raise the dam more than the dam dam (680y) and has high stability, but its own weight is large, so it is necessary to strengthen the foundation. The rock dam 680z is a kind of gravity dam and is composed of a rock wall 680t and an upstream surface protection layer 680u and a drainage layer 680v, a soil material 680w and a foundation rock bed 680x have.

As described above, the marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine is connected to the upper portion SDU of the body of the marine power plant deck (678c) and conceptual diagram of reservoir plant (678d) showing the construction machine position control structure of the marine hydroelectric power plant flood control station (593,594,595) The hydroelectric power generation control unit 811b for generating a power for generating the power of the flood control unit 811 into the main body 1 of the distribution control system of the water conditioning system of the construction machine connection structure. The marine hydroelectric power station floating trainers 593, 594 and 595 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, The portable lug 607 and the portable lug pin 607 are attached to the vertical partition wall 605 and the pin coupling shaft 606 for the portable lug by the distributing and inputting devices of the flood control machine provided with the door 624 for the hydraulic cylinder in the right- (608) to the large-diameter flange connection joint joint hole machining hole (615) to the construction machine connection structure and the bridge pier (928) and the pipe bridge (937) to the inside of the marine tunnel transport device (941) The internal tunnel 771 of the marine tunnel communication device inside the marine tunnel traffic device 941 in the pier 928 and the pipe bridge 937 constitutes the marine control device in the hydroelectric power plant (680n), power generation facilities (680p), and waterproof facilities (680q) are classified into four types of hydraulic facilities in the water intake facilities (680n) On the other hand, the position of the hull of the marine hydroelectric power station levitation (593,594,595) In the hydraulic system of the hydro-power plant 233 showing the control structure of the construction machine, the hydraulic power for controlling the flow rate of the seaweed is input to the aberration, and the aberration and the generator are rotated. (680o), power generation facilities (680p) and waterproofing facilities (680q), and multi-stage hydroelectric generators (213) of hydroelectric power plants (233) A marine hydropower plant is constructed in the form of a marine tidal power plant.

2r, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 2 (r), according to the classification according to the mechanical structure of the existing power generation dam, the gravity dam is formed in the gravity dam and the gravity dam is the most widely used type. Since this dam (680) is caught on the foundation part, the installation site should be a place where there is a solid rock. The gravity dam is mainly made of concrete, but also the soil dam (680y) using the soil, the rock dam (680z) Is also used as a kind of gravity dam.

As described above, the marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine is connected to the upper portion SDU of the body of the marine power plant deck (678c) and conceptual diagram of reservoir plant (678d) showing the construction machine position control structure of the marine hydroelectric power plant flood control station (593,594,595) The hydroelectric power generation control unit 811b for generating a power for generating the power of the flood control unit 811 into the main body 1 of the distribution control system of the water conditioning system of the construction machine connection structure. The marine hydroelectric power station floating trainers 593, 594 and 595 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, The portable lug 607 and the portable lug pin 607 are attached to the vertical partition wall 605 and the pin coupling shaft 606 for the portable lug by the distributing and inputting devices of the flood control machine provided with the door 624 for the hydraulic cylinder in the right- (608) to the large-diameter flange connection joint joint hole machining hole (615) to the construction machine connection structure and the bridge pier (928) and the pipe bridge (937) to the inside of the marine tunnel transport device (941) The internal tunnel 771 of the marine tunnel communication device inside the marine tunnel traffic device 941 in the pier 928 and the pipe bridge 937 constitutes the marine control device in the hydroelectric power plant (680n), power generation facilities (680p), and waterproof facilities (680q) are classified into four types of hydraulic facilities in the water intake facilities (680n) On the other hand, the position of the hull of the marine hydroelectric power station levitation (593,594,595) In the hydraulic system of the hydro-power plant 233 showing the control structure of the construction machine, the hydraulic power for controlling the flow rate of the seaweed is input to the aberration, and the aberration and the generator are rotated. (680o), power generation facilities (680p) and waterproofing facilities (680q), and multi-stage hydroelectric generators (213) of hydroelectric power plants (233) A marine hydropower plant is constructed in the form of a marine tidal power plant.

2, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution and dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in Fig. 2S, the previous sub-wall dam 679e is provided with a surface layer plate 679f, a hollow portion 679i at the use water depth 679h and a surface layer concrete 679k) and theoretical energy (679p) and aberration outputs (679q) at the kinetic energy of water (679m) and mechanical energy (679n) at the potential energy of water (679l)

As described above, the marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine is connected to the upper portion SDU of the body of the marine power plant deck (678c) and conceptual diagram of reservoir plant (678d) showing the construction machine position control structure of the marine hydroelectric power plant flood control station (593,594,595) The hydroelectric power generation control unit 811b for generating a power for generating the power of the flood control unit 811 into the main body 1 of the distribution control system of the water conditioning system of the construction machine connection structure. The marine hydroelectric power station floating trainers 593, 594 and 595 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, The portable lug 607 and the portable lug pin 607 are attached to the vertical partition wall 605 and the pin coupling shaft 606 for the portable lug by the distributing and inputting devices of the flood control machine provided with the door 624 for the hydraulic cylinder in the right- (608) to the large-diameter flange connection joint joint hole machining hole (615) to the construction machine connection structure and the bridge pier (928) and the pipe bridge (937) to the inside of the marine tunnel transport device (941) The internal tunnel 771 of the marine tunnel communication device inside the marine tunnel traffic device 941 in the pier 928 and the pipe bridge 937 constitutes the marine control device in the hydroelectric power plant (680n), power generation facilities (680p), and waterproof facilities (680q) are classified into four types of hydraulic facilities in the water intake facilities (680n) On the other hand, the position of the hull of the marine hydroelectric power station levitation (593,594,595) In the hydraulic system of the hydro-power plant 233 showing the control structure of the construction machine, the hydraulic power for controlling the flow rate of the seaweed is input to the aberration, and the aberration and the generator are rotated. (680o), power generation facilities (680p) and waterproofing facilities (680q), and multi-stage hydroelectric generators (213) of hydroelectric power plants (233) A marine hydropower plant is constructed in the form of a marine tidal power plant.

Referring to FIG. 2t, a marine hydroelectric power production control unit 811b for producing power of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 2 (t), the type of the previous water gate 293 is provided on the upper portion of the fixed dam, and when it is trough, it is closed to increase the water level on the upstream side to facilitate the water intake. It has the function of preventing the water level from rising excessively and discharging the sediments deposited on the upstream side of the dam. There are several kinds of gates used for this. First, the slos gate is used. This is a small dam As the simplest sidewall 293 to be used, a generally rectangular door is opened and closed by operating it vertically, and a roller gate is used. When the slit gate becomes large, the frictional resistance between the door frame and the door contact portion becomes large, And the upper and lower operation of the water gate 293 is usually carried out using a roller At the same time as using the ear rope and tongue winch 137, the water gate 293 controls the design water level 293c with the de-intergate 293a and the rolling gate 293b while at the same time controlling the water surface 293d, And has a fixing portion 293e and a fixing portion 293f.

As described above, the marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine is connected to the upper portion SDU of the body of the marine power plant deck (678c) and conceptual diagram of reservoir plant (678d) showing the construction machine position control structure of the marine hydroelectric power plant flood control station (593,594,595) The hydroelectric power generation control unit 811b for generating a power for generating the power of the flood control unit 811 into the main body 1 of the distribution control system of the water conditioning system of the construction machine connection structure. The marine hydroelectric power station floating trainers 593, 594 and 595 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, The portable lug 607 and the portable lug pin 607 are attached to the vertical partition wall 605 and the pin coupling shaft 606 for the portable lug by the distributing and inputting devices of the flood control machine provided with the door 624 for the hydraulic cylinder in the right- (608) to the large-diameter flange connection joint joint hole machining hole (615) to the construction machine connection structure and the bridge pier (928) and the pipe bridge (937) to the inside of the marine tunnel transport device (941) The internal tunnel 771 of the marine tunnel communication device inside the marine tunnel traffic device 941 in the pier 928 and the pipe bridge 937 constitutes the marine control device in the hydroelectric power plant (680n), power generation facilities (680p), and waterproof facilities (680q) are classified into four types of hydraulic facilities in the water intake facilities (680n) On the other hand, the position of the hull of the marine hydroelectric power station levitation (593,594,595) In the hydraulic system of the hydro-power plant 233 showing the control structure of the construction machine, the hydraulic power for controlling the flow rate of the seaweed is input to the aberration, and the aberration and the generator are rotated. (680o), power generation facilities (680p) and waterproofing facilities (680q), and multi-stage hydroelectric generators (213) of hydroelectric power plants (233) A marine hydropower plant is constructed in the form of a marine tidal power plant.

Referring to FIG. 2U, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 2U, the marine hydroelectric power plant floodplain (593,594,595) constructed in the upper part (SDU) of the marine power plant body dock hull deck (SDU) of the flood control section 811 inside the distribution dispensing apparatus main body 1 of the flood control machinery (137) and sluice gate (293) for controlling the opening and closing of the sluice with a rope or a chain attached to the fuselage of the hull locomotion control. The siege winch (137) and the sluice gate In the hydrodynamics of the state of the art, hydrodynamics are included in the physical properties and hydrodynamics of the water, thus simplifying the conditions for installing the marine power plant of the present invention.

As shown in FIG. 2U, the density of water in the physical properties of water is maximum at 4 [° C] under atmospheric pressure and varies somewhat with temperature, but since the change is very small, it usually has a constant weight in hydrodynamic calculations It is acceptable to handle. In other words, the weight of water is 1 [g / ㎤] or 1 [t / ㎡]. However, since the rate of change of the volume, that is, the compressibility of water, is only about 5 ㅧ 10-5 at a change of 1 atmospheric pressure at room temperature, water is usually considered to be incompressible.

As shown in FIG. 2U, if there is a difference in flow velocity within the moving liquid, a force that resists the relative movement is generated. This property is called viscous or internal friction, and its degree is represented by the viscosity coefficient. In hydro hydrodynamics, the order of H [m] from the stationary water surface and the cross-sectional area A [㎡] think. The volume of this order is AH [㎥], and assuming that the weight per unit volume of water is ω [kg / ㎤], the total weight of this order is ωAH [kg]. Therefore, the order is supported by the force of water ω [kg] acting upward from its base, and is in equilibrium.

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

.

를 압력수두(pressure head]라고 하며 압력의 단위로서는 [kg/㎠]또는 [kg/㎡]를 사용한다.As shown in Fig. 2U, p is referred to as the pressure intensity or pressure intensity at the depth H [m], and the water pressure P acting on the whole is referred to as a voltage force or a total pressure, of

Is referred to as "pressure head" and the unit of pressure is [kg / ㎠] or [kg / ㎡].

As shown in FIG. 2U, hydrodynamics treats the law of motion of fluid (water), and when the motion of fluid is largely divided into flow, vortex, and wave, the flow is divided again, The turbulent flows and turbulence flow into the turbulent state because they are tangled with each other. The flow of fluid used in hydroelectric power plants is generally turbulent, and the amount Q [m 3] of water flowing in pipelines and waterways is expressed as the product of the cross sectional area A [m 2] of the water flow and the average flow velocity υ [m / s].

( Q = A ㅇ υ [㎥]) Equation ②

로 부 터

가 된다. As shown in Fig. 2u, 2 points in the leading enclosed by the solid of the channel, such as a, only the area of each of A ₁ [㎡] at b, A ₂ [㎡] The average flow velocity _{υ 1 [m / s],} υ ₂ [m / s], the flow rate from point a is A ₁ B ₂ [m 3 / s] and the flow rate from point b is A ₂ υ ₂ [m 3 / s].

from

.

조의 단면적은 분출구의 단면적 보다 훨씬 크기 때문에 υ ₁는 무시된다.(≒0)또, h ₁ - h ₂ = h인 조건을 윗 식에 대입하면,

으로 부터

를 얻는다.As shown in Fig. 2u, to consider the water that flows at a speed υ has a head corresponding to the height of the yisangron H in the ^{H (= υ 2/2 g} ) as a velocity head and Torricelli's Law to the end This is a very small hole in the lower side of a water tank with a cross-sectional area of 1, which is called Torricelli's theorem. Actually, due to the viscosity of the water and the frictional loss in the ejection hole, the actual ejection speed υ ₂ 'becomes slightly smaller than υ ₂ and is expressed by the following equation, that is, the velocity υ ₂ of the water ejected from the orifice ➁ is given by Bernoulli's theorem

Sets of cross-sectional area υ ₁ is ignored because much greater than the cross-sectional area of the air outlet (≒ 0) _{Also, h 1 -. H 2 =} h Substituting the above conditions in the formula,

From

.

As described above, the marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine is connected to the upper portion SDU of the body of the marine power plant deck (678c) and conceptual diagram of reservoir plant (678d) showing the construction machine position control structure of the marine hydroelectric power plant flood control station (593,594,595) The hydroelectric power generation control unit 811b for generating a power for generating the power of the flood control unit 811 into the main body 1 of the distribution control system of the water conditioning system of the construction machine connection structure. The marine hydroelectric power station floating trainers 593, 594 and 595 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, The portable lug 607 and the portable lug pin 607 are attached to the vertical partition wall 605 and the pin coupling shaft 606 for the portable lug by the distributing and inputting devices of the flood control machine provided with the door 624 for the hydraulic cylinder in the right- (608) to the large-diameter flange connection joint joint hole machining hole (615) to the construction machine connection structure and the bridge pier (928) and the pipe bridge (937) to the inside of the marine tunnel transport device (941) The internal tunnel 771 of the marine tunnel communication device inside the marine tunnel traffic device 941 in the pier 928 and the pipe bridge 937 constitutes the marine control device in the hydroelectric power plant (680n), power generation facilities (680p), and waterproof facilities (680q) are classified into four types of hydraulic facilities in the water intake facilities (680n) On the other hand, the position of the hull of the marine hydroelectric power station levitation (593,594,595) In the hydraulic system of the hydro-power plant 233 showing the control structure of the construction machine, the hydraulic power for controlling the flow rate of the seaweed is input to the aberration, and the aberration and the generator are rotated. (680o), power generation facilities (680p) and waterproofing facilities (680q), and multi-stage hydroelectric generators (213) of hydroelectric power plants (233) A marine hydropower plant is constructed in the form of a marine tidal power plant.

Referring to FIG. 2V, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in Fig. 2V, the position energy 679l of water, the kinetic energy 679m of water, the mechanical energy 679n, the electric energy 679o, the theoretical hydraulic power 679p, the aberration output 679q, ), And a schematic diagram 679s of hydroelectric power generation.

As shown in Fig. _{2v, (η t), (} η g) is aberration, respectively, in the form of a generator, the capacity, but differ slightly depending on the size of the load _{η t = 80 ~ 90 [%} ] at the time of rated operation, η _g = 90 to 97 [%], and the product of these two factors η = η _t η _g is called total efficiency. As can be seen from the above equation, how to obtain a large free fall ( H ) and economically obtain the quantity of use ( Q ) to use hydraulics effectively is a problem. If the downstream part of the stream is used, the amount of water to be used can be increased, but the drop amount is reduced. On the other hand, in the upstream part of the stream, a large fall can be obtained.

 [Table 1] Approximate values of aberration and generator efficiency

As shown in FIG. 2 (b), in the types and facilities of hydroelectric power plants, hydroelectric power plants are classified into various types according to the intake method and the operating method. First, the dam type power plant and the hydroelectric power generation plant are formed with a dam-type hydroelectric power plant and a watershed-type power generation plant. Dam type power plants are constructed by constructing a dam across a river to prevent runoff, For this type of big dropping, it is necessary to construct a dam which is considerably high and it is not an economical method because it has a large area of burial. However, in addition to the aptitude terrain, it is often used for irrigation or flood control reservoirs, This dam is the most useful in Korea and it is very important to construct this dam in future.

As shown in Fig. 2V, a dam constructed for the purposes of power generation, irrigation, and flood control is called a multipurpose dam. In addition, it is often impossible to avoid considerable fluctuations due to the imbalance between the amount of rainfall and the amount of water used.

As shown in FIG. 2 (b), this is economically advantageous as the amount of water stored in the dam is more advantageous, and it is also desirable in terms of operation. Therefore, in the lower part of the Han river system having a relatively sloping and abundant quantity in Korea, (Chuncheon, Unam, Cheongpyeong, Paldang, Soyanggang Power Plant, etc.)

As described above, the marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine is connected to the upper portion SDU of the body of the marine power plant deck (678c) and conceptual diagram of reservoir plant (678d) showing the construction machine position control structure of the marine hydroelectric power plant flood control station (593,594,595) The hydroelectric power generation control unit 811b for generating a power for generating the power of the flood control unit 811 into the main body 1 of the distribution control system of the water conditioning system of the construction machine connection structure. The marine hydroelectric power station floating trainers 593, 594 and 595 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, The portable lug 607 and the portable lug pin 607 are attached to the vertical partition wall 605 and the pin coupling shaft 606 for the portable lug by the distributing and inputting devices of the flood control machine provided with the door 624 for the hydraulic cylinder in the right- (608) to the large-diameter flange connection joint joint hole machining hole (615) to the construction machine connection structure and the bridge pier (928) and the pipe bridge (937) to the inside of the marine tunnel transport device (941) The internal tunnel 771 of the marine tunnel communication device inside the marine tunnel traffic device 941 in the pier 928 and the pipe bridge 937 constitutes the marine control device in the hydroelectric power plant (680n), power generation facilities (680p), and waterproof facilities (680q) are classified into four types of hydraulic facilities in the water intake facilities (680n) On the other hand, the position of the hull of the marine hydroelectric power station levitation (593,594,595) In the hydraulic system of the hydro-power plant 233 showing the control structure of the construction machine, the hydraulic power for controlling the flow rate of the seaweed is input to the aberration, and the aberration and the generator are rotated. (680o), power generation facilities (680p) and waterproofing facilities (680q), and multi-stage hydroelectric generators (213) of hydroelectric power plants (233) A marine hydropower plant is constructed in the form of a marine tidal power plant.

2, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant hull deck, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 2w, the conventional hydraulic power generation outline 679s includes a concept diagram 679t of a dam-type power plant of the construction machine connecting structure, an inlet valve 679v to the intake tower 679v and a ball tap valve 679w on the screen 679u, The main transformer 679x and the main device 679y constitute a hydroelectric power plant with the main transformer 679z.

As described above, the marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine is connected to the upper portion SDU of the body of the marine power plant deck (678c) and conceptual diagram of reservoir plant (678d) showing the construction machine position control structure of the marine hydroelectric power plant flood control station (593,594,595) The hydroelectric power generation control unit 811b for generating a power for generating the power of the flood control unit 811 into the main body 1 of the distribution control system of the water conditioning system of the construction machine connection structure. The marine hydroelectric power station floating trainers 593, 594 and 595 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, The portable lug 607 and the portable lug pin 607 are attached to the vertical partition wall 605 and the pin coupling shaft 606 for the portable lug by the distributing and inputting devices of the flood control machine provided with the door 624 for the hydraulic cylinder in the right- (608) to the large-diameter flange connection joint joint hole machining hole (615) to the construction machine connection structure and the bridge pier (928) and the pipe bridge (937) to the inside of the marine tunnel transport device (941) The internal tunnel 771 of the marine tunnel communication device inside the marine tunnel traffic device 941 in the pier 928 and the pipe bridge 937 constitutes the marine control device in the hydroelectric power plant (680n), power generation facilities (680p), and waterproof facilities (680q) are classified into four types of hydraulic facilities in the water intake facilities (680n) On the other hand, the position of the hull of the marine hydroelectric power station levitation (593,594,595) In the hydraulic system of the hydro-power plant 233 showing the control structure of the construction machine, the hydraulic power for controlling the flow rate of the seaweed is input to the aberration, and the aberration and the generator are rotated. (680o), power generation facilities (680p) and waterproofing facilities (680q), and multi-stage hydroelectric generators (213) of hydroelectric power plants (233) A marine hydropower plant is constructed in the form of a marine tidal power plant.

Referring to FIG. 2x, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 2x, the hydroelectric power plant of the conventional concept of the dam type power plant (679t) is constructed by constructing a dam in the main stream of the river (678) to separately generate a small number of channels or pressure channels, It is mainly used to get dropouts and fallouts by a large distance of waterways using bent landforms. The water is used as water intake (678g), gypsum (680k), waterway or pressure water, constant water tank (680m) The water jets 680j, the water gates 293, the water pressure pipes 191, the water wheels 264 and the waterproof gates 678b in this order. The gutter 680k is brought close to the water inlet 678g to temporarily stop the water, Sand, and vegetation to get clear water into the waterway. On the top of the gypsum (680k), the gypsum is made into a gypsum, sometimes discharging the settled soil and sand.

As described above, the marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine is connected to the upper portion SDU of the body of the marine power plant deck (678c) and conceptual diagram of reservoir plant (678d) showing the construction machine position control structure of the marine hydroelectric power plant flood control station (593,594,595) The hydroelectric power generation control unit 811b for generating a power for generating the power of the flood control unit 811 into the main body 1 of the distribution control system of the water conditioning system of the construction machine connection structure. The marine hydroelectric power station floating trainers 593, 594 and 595 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, The portable lug 607 and the portable lug pin 607 are attached to the vertical partition wall 605 and the pin coupling shaft 606 for the portable lug by the distributing and inputting devices of the flood control machine provided with the door 624 for the hydraulic cylinder in the right- (608) to the large-diameter flange connection joint joint hole machining hole (615) to the construction machine connection structure and the bridge pier (928) and the pipe bridge (937) to the inside of the marine tunnel transport device (941) The internal tunnel 771 of the marine tunnel communication device inside the marine tunnel traffic device 941 in the pier 928 and the pipe bridge 937 constitutes the marine control device in the hydroelectric power plant (680n), power generation facilities (680p), and waterproof facilities (680q) are classified into four types of hydraulic facilities in the water intake facilities (680n) On the other hand, the position of the hull of the marine hydroelectric power station levitation (593,594,595) In the hydraulic system of the hydro-power plant 233 showing the control structure of the construction machine, the hydraulic power for controlling the flow rate of the seaweed is input to the aberration, and the aberration and the generator are rotated. (680o), power generation facilities (680p) and waterproofing facilities (680q), and multi-stage hydroelectric generators (213) of hydroelectric power plants (233) A marine hydropower plant is constructed in the form of a marine tidal power plant.

2Y, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the dispensing and inputting apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 2 (y), a conceptual diagram 678c of a conventional influent-type power plant and a conceptual diagram 678d of a reservoir plant are shown in a conceptual diagram 678c of an influent- Or the adjustment paper 680a, the flow rate exceeding the maximum use amount is not utilized for power generation but is discharged in an invalid manner.

As shown in FIG. 2 (a), the waterway is opened depending on the terrain. In this method, the construction cost is not so great, but the generated electric power is changed depending on the natural flow rate. And there is no such power plant in Korea. However, in the case of rivers with abundant water such as Russia (Siberia) or Brazil, an inflow-type power plant that uses natural flow as it is for power generation is constructed and operated. A reservoir-type power plant is a power plant with a large reservoir that can regulate the seasonal changes in the flow rate of the river. It is a power plant that stores the water remaining in the feng shui and discharges it to the dry season to effectively utilize the river flow over a long period of time .

As shown in FIG. 2Y, the reservoir type power plant is precious because the water system of Korea is relatively small in flow rate. Among them, the Soyang River Power Plant in the North River and the Chungju Power Plant in the South Han River are multi-purpose dams built as a reservoir power plant. In terms of effective reservoir, there are about 1.9 billion [t] of Soyanggang Dam and about 1.8 billion [t] of Chungju Dam. In the case of water system with low flow rate, , The difference between the amount of water withdrawn from the river and the amount required for power generation is stored in the adjustment paper or discharged to cope with load fluctuation over several hours or several days. This method is different from the influent type power plant 678c in that the maximum amount of the power plant can be designed to be considerably larger than the amount of water taken in the river. In addition, there are many cases where peak load is shared, which is sometimes referred to as peak power generation.

As described above, the marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine is connected to the upper portion SDU of the body of the marine power plant deck (678c) and conceptual diagram of reservoir plant (678d) showing the construction machine position control structure of the marine hydroelectric power plant flood control station (593,594,595) The hydroelectric power generation control unit 811b for generating a power for generating the power of the flood control unit 811 into the main body 1 of the distribution control system of the water conditioning system of the construction machine connection structure. The marine hydroelectric power station floating trainers 593, 594 and 595 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, The portable lug 607 and the portable lug pin 607 are attached to the vertical partition wall 605 and the pin coupling shaft 606 for the portable lug by the distributing and inputting devices of the flood control machine provided with the door 624 for the hydraulic cylinder in the right- (608) to the large-diameter flange connection joint joint hole machining hole (615) to the construction machine connection structure and the bridge pier (928) and the pipe bridge (937) to the inside of the marine tunnel transport device (941) The internal tunnel 771 of the marine tunnel communication device inside the marine tunnel traffic device 941 in the pier 928 and the pipe bridge 937 constitutes the marine control device in the hydroelectric power plant (680n), power generation facilities (680p), and waterproof facilities (680q) are classified into four types of hydraulic facilities in the water intake facilities (680n) On the other hand, the position of the hull of the marine hydroelectric power station levitation (593,594,595) In the hydraulic system of the hydro-power plant 233 showing the control structure of the construction machine, the hydraulic power for controlling the flow rate of the seaweed is input to the aberration, and the aberration and the generator are rotated. (680o), power generation facilities (680p) and waterproofing facilities (680q), and multi-stage hydroelectric generators (213) of hydroelectric power plants (233) A marine hydropower plant is constructed in the form of a marine tidal power plant.

FIG. 3 is a schematic view showing the entire construction of the flood control unit 811 inside the main body 1 of the distribution and dispensing apparatus of the flood control apparatus according to the present invention. (593,594,595) of the hydro-power station with connection structure with the sea-island tunnel (672).

FIG. 3A is a perspective view of the structure of the ship's position shifting construction machine control unit 811a of the flood control unit 811 in the main body 1 of the distribution and dispensing apparatus of the flood control machine according to the present invention, (893,594,595) of marine hydroelectric power plant (593,594,595) to the inside of the marine tunnel traffic device (941) to the bridge bridge (937) and the bridge pier (928) The floating hydroelectric power plant flood control readers 593, 594, and 595 are used to control the buoyancy of the hydraulic rotary cylinder 620 of the rack and pinion type (NRP) and the band guide 621, which are rotary cylinders. The vertical partition 605 and the pin coupling shaft 606 for the portable lug coupling are connected by the butterfly valve 622 and the distribution cylinder of the flood control machine provided with the hydraulic cylinder or the hydraulic cylinder door 624 to the hydraulic cylinder 623. [ ) With a portable lug (607) and a portable A large flange connection end joint portion machining hole 615 on the lug fin 608 is connected to the construction machine connection structure and the bridge pier 928 and the pipe bridge 937 to the inside of the marine tunnel transport device 941 by the oil drilling machine 908 The marine tunnel internal transport train 771 inside the marine tunnel transport device 941 is connected to the bridge 928 and the pipe bridge 937. The marine tunnel transport device 771 is constructed of the construction machine connection structure and the disassembly-

FIG. 3B is a schematic view showing the configuration of the ship's position shifting construction machine control unit 811a of the flood control unit 811 and the upper part SDU of the body of the offshore power plant dock, The drilling machine 908 for crude oil into the inside of the marine tunnel transport apparatus 941 in the bridge bridge 937 and the bridge pier 928 showing the construction machine position control arrangement of the marine hydroelectric power plant flood control station 593,594,595, (593, 594, 595) of the marine hydro-power plant are connected to the hydraulic rotary cylinder (620) of a rack and pinion type (NRP) which is a rotary cylinder and the buoyancy adjusting butter The vertical partition wall 605 and the pin coupling shaft 606 for the portable lug coupling are connected by the fly ball valve 622 and the distributing and inputting devices of the flood control machine provided with the hydraulic cylinder or the hydraulic door 624 for the hydraulic cylinder 623, A portable lug 607 and a portable lug pin (608) Large flange connection End seam hole (615) Construction machine connection structure and pier (928) and pipe bridge (937) Inside of marine tunnel traffic system (941) Power generation facility Construction machinery connection structure and disassembly connection constitute flood control facility,

FIG. 3C is a schematic view showing the construction of the hull position shifting construction machine control section 811a of the flood control section 811 inside the distribution dispensing apparatus main body 1 of the flood control machine according to the present invention at the upper part (SDU) (593, 594, 595) showing the construction machine position adjustment structure of the hull position movement control of the marine hydroelectric power plant lifting consoles (593, 594, 595). The portable lug 607 (593, 594, 595) of the above-mentioned marine hydro-electric power plant are rack-and-pinion-type (rotary cylinder) The distribution of the flood control machine provided with the hydraulic rotating cylinder 620 of the hydraulic pressure cylinder NRP and the butterfly valve 622 for controlling the buoyancy of the band guide 621 and the hydraulic cylinder door 624 to the hydraulic cylinder 623, With input devices A large flange connection to a portable lug 607 and a portable lug pin 608 on a straight wall 605 and a pin connection shaft 606 for a portable lug coupling. Combination sets up a flood control facility,

Referring to FIG. 3D, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control system, a marine power plant body dock hull deck upper part (SDU) (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 3D, the amphibious power plant of a hydraulic or marine hydroelectric power plant 233 or an aberration or pump aberration 264 and a main valve 265 hydroelectric power plant construction machine linkage structure, Is a kind of power plant that uses the low-cost power of a nuclear power plant to pump the water from the lower reservoir into the upper reservoir and store it at peak load at the midnight or at the weekend when electricity demand is low. In this system, There are two types of mixed pumped-storage power plant with natural inflow from the river, pumping only the insufficient water from the lower reservoir, and a power plant with the natural reservoir with no natural inflow.

As shown in FIG. 3D, the conventional power plants are located in Cheongpyeong (400,000 kW), Samrangjin (600,000 kW), Muju (600,000 kW), Sancheong (700,000 kW) 1 million [kW]), all of which are the latter's power plant,

As shown in the drawing, the hull position moving construction machine control unit 811a of the flood control unit 811 is connected to the inside of the dispensing and inputting apparatus main body 1 of the flood control machine, the upper end of the marine power plant body dock hull deck SDU) of a hydroelectric power station (233) showing the arrangement of the construction machine position adjustment of the hull position movement control of a marine hydroelectric power station levitation stand (593, 594, 595) It should be constructed so that the required flow rate can be safely taken, and losses of drop and flow rate are minimized as much as possible. Hydropower facilities in hydroelectric power plants can be classified according to their functions. Hydraulic facilities divided into 4 types of water supply facilities (680n), water supply facilities (680o), power generation facilities (680p) and waterproof facilities (680q) The hydroelectric plant of the hydroelectric power plant (233), which shows the configuration of the position control mechanism of the hull of the marine hydroelectric power plant, while the hydroelectric power plant is used as the input to the aberration The water turbine 680o and the power generation facility 680p and the waterproofing facility 680q and the hydroelectric power plant 233 are connected to the water intake equipment 680n equivalent to the arrangement of the multi- Hydraulic generators (213) constitute a hydro-electric power station in the form of a hydraulics seesaw and a water trench-type marine tidal power plant.

3E, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in Fig. 3E, in the conventional tidal power plant, the above-mentioned tidal power generation is a power plant for converting the potential energy due to the tidal difference of seawater into electric power, and it is preferable that the installation place is as large as possible . When the seawater is pushed by the tide, it is guided to the reservoir built on the shore. When the tide is escaped, the seawater stored in the reservoir is dropped into the sea. As in the case of pumped storage, And a tidal power plant in Reims estuary in France is famous for the use of tidal cars up to 13 [m] as an example of operation of the tidal power plant. Here, we are developing 240 kW of 10,000 [kW] and 24 of 240 km [kW] using a tidal car of maximum 13 [m] and average 8.5 [m]. There must be a sea of at least 10 m above sea level, and the condition that this coast is suitable for the construction of the reservoir should be met.

 As shown in FIG. 3E, in the past, a tidal power generation plan is being planned in several places around Chungnam only in Korea. It is known as a very favorable candidate for constructing a power plant with a maximum tidal pitch of 7.9 m, a land area of 120 m ², a dike length of 2.1 km, and a facility capacity of 400,000 kW.

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

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

As shown in the drawing, the hull position moving construction machine control unit 811a of the flood control unit 811 is connected to the inside of the dispensing and inputting apparatus main body 1 of the flood control machine, the upper end of the marine power plant body dock hull deck SDU) of a hydroelectric power station (233) showing the arrangement of the construction machine position adjustment of the hull position movement control of a marine hydroelectric power station levitation stand (593, 594, 595) It should be constructed so that the required flow rate can be safely taken, and losses of drop and flow rate are minimized as much as possible. Hydropower facilities in hydroelectric power plants can be classified according to their functions. Hydraulic facilities divided into 4 types of water supply facilities (680n), water supply facilities (680o), power generation facilities (680p) and waterproof facilities (680q) The hydroelectric plant of the hydroelectric power plant (233), which shows the configuration of the position control mechanism of the hull of the marine hydroelectric power plant, while the hydroelectric power plant is used as the input to the aberration The water turbine 680o and the power generation facility 680p and the waterproofing facility 680q and the hydroelectric power plant 233 are connected to the water intake equipment 680n equivalent to the arrangement of the multi- Hydraulic generators (213) constitute a hydro-electric power station in the form of a hydraulics seesaw and a water trench-type marine tidal power plant.

 3F, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 3 (f), the positional relationship and the cross-sectional view of each power plant in the Han River system where most of the hydroelectric power plants in Korea are concentrated are shown.

3F, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine, a marine hydroelectric power production control unit 811b, SDU) (593,594,595) Construction of each power plant location in the Han River system showing the arrangement of the position adjustment of the construction machine of the hull displacement control (678p) Construction of the connecting structure of the construction machine Road, (678p) in the Hwacheon hydroelectric power plant (678q), Soyanggang hydroelectric power plant (678r), Chungju hydroelectric power plant (678s) and Chuncheon hydroelectric power plant (678t) (678v) were distributed to Soyang River (678x) and Namhan River (678y) as shown in the table below, and the hydroelectric power capacity of the former Goethan Hydroelectric Power Plant (678z) (593,594,595), which is different from the marine hydroelectric power plant, because it is equipped with power generation facilities, it produces the power of the flood control unit (811) And a hydroelectric power production control unit (811b) of the hydro-hydroelectric power generation production system. ,

As shown in Figure 3f, this relation is called Torricelli's theorem. Actual is the actual speed of ejection υ ₂ 'is slightly smaller than the so υ ₂ are shown because of the frictional losses in the water viscosity, and vents.

3F, a conventional gate 293 has a rolling gate 293b at the de-intergate 293a, and thus a cylindrical gate made of steel is installed at the top of the dam, And it is widely used in the water intake dam 680 because it is rigid in structure and can withstand impact such as water flow.

Referring to FIG. 3G, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in Fig. 3G, in order to install a conventional hydraulic pressure pipe, a water pipe 191 from a water tank or a coarse water tank to a water turbine inlet of a power plant is called a water pressure pipe 191, 191) and other parts are collectively referred to as hydraulic pipes. The position of the hydraulic pipes 191 should be a straight line as short as possible according to the position of the water tank 680 m and the power plant, The diameter of the pipe is set to be 3-5 [m / s] in consideration of the construction cost and the loss head. In addition, the number of hydraulic pipes (191) is one for each aberration, but when the number of high-lifts is small, there may be one for two aberrations.

As shown in Fig. 3G, since the pressure due to the water hammer action, the water pressure, and the water hammer action acts as the internal pressure in the water pressure pipe 191, the thickness t [cm] of the pipe can be sufficiently large enough to withstand the maximum water pressure , The allowable stress (strain) of the steel material is σ [kg / ㎠], the joint efficiency of the pipe is η [%], the diameter of the hydraulic pipe is D [cm], the maximum water pressure is P [kg / ], And the allowable thickness for corrosion is ε [cm], the thickness t [cm] of the pipe is calculated by the following formula.

다음 수차 이후에는 방수로가 사용된다.

A watertight path is used after the next aberration.

This is a water channel for discharging the water coming out of the aberration to the original river, and the place where this and the main stream of the stream are joined is called the waterproof hole (169).

As shown in FIG. 3G, the structure of the waterproofing passage is substantially the same as that of the above-described waterway, but it is necessary to select a place as deep as possible as possible to smooth the flow of the river and to discharge it in the same direction as the flow of the river.

Similarly, the principle of hydropower generation is explained as follows.

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

As shown in FIG. 3G, in Korea, recently, a large dam has been constructed to make an artificial reservoir, and efforts have been made to regulate, develop and irrigate the flood. In addition, water has pressure and location energy. In many cases. This position energy can be changed into kinetic energy and pressure energy, or kinetic energy alone, so that it can be converted into mechanical energy.

As shown in FIG. 3G, the generated power of water P kg m m / sec is given by ( P = rHQ kg m m / sec), where the drop is H m, the flow rate is Q m 3 / sec, and the specific weight of water is r kg / Therefore, hydraulic power is determined by dropping and flow rate. Falling is usually constant when the status of stream or source is determined, and flow rate is related to watershed and rainfall. The output generated here is proportional to the product of fall depends on the plant's top packaging hydropower is to increase the output of this time to change the artificially leading to concentrate their water in one place, and were it should be selected for the development points to get the big-head now use quantity Q [㎥ / s] falls into the aberration when the effective drop H [m] falls and the power P _o [kW]

( P _o = 9.8 QH [kW]), which is usually called hydrodynamic.

As shown in FIG. 3G, when the theoretical hydraulic power is inputted to the aberration and the aberration and the generator are rotated, and the aberration output P _t and the generator output P _g are respectively a η _t and η _g , respectively, is represented by _{(P t = 9.8 QHη t [} kW]) (P g = 9.8 QH η t η g [kW]).

As shown in the drawing, the hull position moving construction machine control unit 811a of the flood control unit 811 is connected to the inside of the dispensing and inputting apparatus main body 1 of the flood control machine, the upper end of the marine power plant body dock hull deck SDU) of a hydroelectric power station (233) showing the arrangement of the construction machine position adjustment of the hull position movement control of a marine hydroelectric power station levitation stand (593, 594, 595) It should be constructed so that the required flow rate can be safely taken, and losses of drop and flow rate are minimized as much as possible. Hydropower facilities in hydroelectric power plants are classified according to their functions. Hydraulic facilities divided into 4 types of water supply facilities (680n), water supply facilities (680o), power generation facilities (680p) and waterproof facilities (680q) The hydroelectric plant of the hydroelectric power plant (233), which shows the configuration of the position control mechanism of the hull of the marine hydroelectric power plant, while the hydroelectric power plant is used as the input to the aberration The water turbine 680o and the power generation facility 680p and the waterproofing facility 680q and the hydroelectric power plant 233 are connected to the water intake equipment 680n equivalent to the arrangement of the multi- And hydraulic power generator 213 devices.

Therefore, Inventor Registration No. 0546221 by the inventor of the present invention registered the registered multipurpose stair maneuvering manhole in three steps to prevent the danger of losing the life of the worker and obstructing the road traffic flow according to the passage of the vehicle. It is installed at the same level as the surface of the ground at the moment when it goes away from the installation position. It is another device to the lower end of the manhole cover evenly. It is an invention of the patent 10-0650936. In order to solve this problem, the paraffin liquid was injected into the key inserting port and the paraffin liquid was poured into the paraffin liquid for 3 minutes, After 3 minutes, the paraffin becomes a solid, Is not only rust free, but also in the solid state, so that the key can not be inserted, so that the key experts do not come close to the inside of the manhole without knowing the principle, and at the same time to the communication line or the electric wire in the underground cable, It is impossible to identify the location where the gas is fumigated with the toxic gas and the location of the ignition can not be identified and the evacuation personnel can not evolve. In this case, the expansion nozzle of the present invention uses carbon dioxide and halon gas This multi-purpose stepped manhole form, which is formed in a double pipe structure, and a manhole lid flow space clearance, without the need of hurting and without hurting the person, By injecting disaster prevention material Registration No. 10-1167145 registered in the No. 10-1167145 indicates that the pipe nozzle moving type fire detection sensor pump is a device for the fire department and it detects the very low temperature detection efficiency with the sensor of the conventional fire detection device at a detection speed of about a candle light very fast, The first evolution that can not be accomplished by the fire cable car is made to be within one second, so that the water storage tank for the flood control equipment and the marine tunnel transportation equipment for the marine hydroelectric dam construction machine The main body of the dispensing and dispensing apparatus can freely and sequentially release a plurality of natural disasters at the same time, thereby helping to understand the technique of the present invention.

The inventors of the present invention have made clear that the contents of the application No. 10-2014-0064709 and 10-2014-0064788 filed in the domestic application clearly state that the harmful tidal flats and large forest fires are not affected by the flood drought in the dust storms and typhoons, In order to prevent the above disasters, equipment for preventing disasters caused by disasters is provided as a distance crossing the South Pole and the North Pole at the latitude of the equatorial line, and at the same time, In order to ensure the happiness of a peaceful global village without war and an artificial disaster by eliminating the natural disasters of the uninjured global village constituted by the tube nozzle body, the tube nozzle hole is made porous and the electronic sensor valves It is configured to be guaranteed to function automatically so that it can be expanded and closed automatically.

The multi-purpose dams prevent water-related disasters through flood control in the flood season, provide stable water for drought, and supply domestic water, agricultural water, and river maintenance water. Marine traffic equipments such as multi- ) To inject the distribution equipment of the marine hydroelectric dam construction machinery to form a shelter at a certain distance in order to prevent the sailing vessel from sinking the ship in a strong storm surge. The hydropower generator uses hydropower generation to utilize the flow rate of the remnant and Kyushu algae at the same time while exposing the clean power resources to the circular built-up type water tank 292 and the circular dam 680) to provide a supply of the flood control facility.

In this way, despite the fact that it is a major infrastructure for social overhead capital, the multi-purpose dam has recently faced a situation where the social conditions surrounding the construction of the dam are very difficult due to various reasons such as decrease in dam land, increase of interest in environment, Therefore, it is necessary to seriously review the efficient water management process in addition to the diagnosis of the necessity of multi-purpose dam construction at the present time.

A circular prefabricated water tank 292 located at the top of the mountain formed in the main body 1 and a water tank 292 containing natural water stored in the circular dam 680 and disinfectant water of disaster prevention materials in disinfecting water, And circular dams (680) are equipped with flood control facilities equipped with several construction machines to overcome floods to overcome the floods, and the installation process and the flood control facility process, which are already established in Northeast Asia as a new federation nation, 127 degrees 17 minutes 00 seconds longitude, which is the center area of the Korean Peninsula, and 190 degrees 20 minutes 00 seconds north latitude, North Korea 38 degrees 20 minutes 00 seconds from the center of the Korean peninsula. A pump 393 is installed inside the main body 1 by means of the unmanned camera 184 of the control system and an electronic sensor valve is installed in the water tank. By charging the multiple distribution chute of a flood adjustment flood control machine equipped with a distribution chute of a flood control of the machine section seaweed plant is a flood control automation equipment made of a flood control process configuration.

Each round dam (680) located on the lower ridge line of the crest of the mountainous area according to 65% of the mountainous terrain of the country is allocated and a plurality of disaster prevention waterways (17) connected to the dam are used to prepare rainwater and loess mixture Is stored in the discharge water storage tank and the control dam of each coastal beach, and at the same time, when the harmful blooming warning notice is issued, the yellow water mixture stored in the storage tank and the control dam is discharged to a large volume by opening the valve (409) The flood control facilities that prevent the harmful tidal bloom are composed of the water storage tank for the flood control facility and the marine tunnel traffic apparatus to construct the flood control disaster prevention unit in the main body (1) of the distribution input apparatus of the marine hydroelectric dam construction machine.

The electric power is generated by the hydroelectric power generator 213 located in the various regional hydroelectric power plants 233 and the electricity is supplied to the power pump 304 of the water intake pump capable of pumping water of the water intake dam 680 (680) of the 5th ridge and the take-off dam (680) of the 5th ridge again, the water is pumped up again by the take-off dam of the 8th ridge line. The flood control system that overcomes the flood and drought by pumping water to the mountain top water intake dam (680) to construct the water circulation, and the water storage tank for the flood control facility and the marine tunnel transportation system To constitute the disaster prevention department of the flood control department which is connected with the construction machinery of the hydroelectric dam.

In order to overcome the above-mentioned plurality of floods, a mixture of the water tank 292 located at the waterfront and the yellow soil mixture stored in the control dam 680 constituted by the interior of the main body 1 of the distribution control device for the flood control equipment for the flood control equipment has a viscosity of 5% And the mixture is mixed with a mixer 73 and loaded on a barge 933 so as to be sprayed on the oceans to prevent harmful red tide from breeding. ) And the control dam (680) are provided with a cooling device (816) and a keeping device (815) in response to the seasonal temperature change. ). ≪ / RTI >

Before the construction dam 680 and the water channel 294 formed in the main body 1 of the distribution and injection device of the flood control apparatus for the flood control apparatus are constructed to overcome the above-mentioned plurality of floods, the dam 680 and the water channel 294 Environmental Impact Assessment According to the Local Setting Location After the feasibility evaluation survey, the design was completed by designing the gauges, and after that, the gravel cement material calculation was made on the reinforcing bars and sand which are the materials of the construction dam 680, And dam construction using the soil, and waterway construction. In order to cope with the flood damage of the construction machine and the cable car (256) near the dam construction site, And the inside of the dispensing and dispensing apparatus main body 1 of the machine.

In order to overcome various disadvantages, a barge line 933 is provided to supply cooling water provided in the cooling device 816 constituting the main body 1 and deep-sea water in the ocean underground for water purification, The steam hammer 884 and the crude oil drilling machine 908 are mounted on the pile driver 882 and the diesel pile hammer 883 on the top of the deck plate, A plurality of deep water boreholes 936 are drilled in the downstream and the ocean so that the borehole 936 is provided with piping and hoses by the pump of the pumping station to supply deep sea water to the tank of the aquaculture tank together with seawater. In order to overcome the flood, the water storage tank for the flood control facility and the marine tunnel transportation equipment are installed in the main body (1) of the distribution system of the construction machine of the hydroelectric dam of the marine hydroelectric dam, (816) facility to move the fish and shellfish to the barge line (933) so as to prevent the fish and shellfish from getting stuck before the temperature of the farm is raised, and at the same time, (811) of the flood control section (811) forms a flushing control process comprising a flushing control facility for controlling the flow of the flow, while the former large-scale fire According to the circumstances of the residential area in the neighborhood, the fire engine dispatch is delayed. As a result, the small fire spreads and the fire pillar spreads, resulting in a large fire, which results in disaster. In this way, there are considerable difficulties in entry of fire trucks into production sites and markets in many areas of neighborhood living areas. As a result, there is a fire at the bottom of the building, which is ignited at the bottom of the building, In order to solve this problem, it is a sad situation that gas leakage will occur due to gas choking caused by a fire caused by gas infiltration into the upper floor of the passageway, And a plurality of water films ejected by a plurality of straight nozzle nozzles are constituted by a distribution input device of a flood control device for flood control facilities so as to prevent large-scale disasters.

The level of skill of the present invention is such that the word 'control activity' is a level that is completely removed or excluded. It completely removes disaster damage that blows like a snowball. It is a disaster control system of disaster prevention system In order to achieve the purpose of the present invention, the conventional construction equipment and the heavy construction equipment of the present invention are formed in the present invention, so that the economic depression of the global economy and the government, which can settle the national debt repayment amounting to 9,000 trillion won within the next three years, Oriented construction of a future ocean power plant that includes future blueprints in the fields of economy, culture, science, and environment. Technical features of this invention are that the flood control system of the present invention can be used for drinking water from Soraksan or Jirisan If you live in Busan, you can do the same In addition, even before the day when peaceful reunification takes place, the people of Pyongyang will be able to drink water from Mt. Seorak and Mt. Jiri, and allow South Koreans to drink water from Mt. Paektu and Myohyang Mountain. The hull position shift of the flood control section which can improve the quality The power transmission to the control section of the construction machine and the hydro-hydroelectric power production control section of the hydroelectric power plant The preventive control section of disaster prevention and the preventive control section of the harmful red tide prevention control section It is necessary to establish the conditions for separating the control parts into the control parts.

In addition, the damage of typhoon is human, physical, and astronomical, and it has a great impact on the national economy. Therefore, it is necessary to exercise the national cooperative spirit promptly according to the weather forecast of the Meteorological Agency. When the weather forecast is announced so that the damage does not occur, the fruit of the orchard is harvested by the whole country as a volunteer service before the typhoon arrives and stored in the freezing warehouse. In order to cope with various floods, it is necessary to arrange the equipments equipped with the construction machine of the flood control system in the main body (1) of the distribution control device for the flood control equipment The ship's position in the flood control section, the construction machinery control section, and the hydro- It is equipped with the power transmission control part in the production control part and the disruption control preventive control part in the harmful red tide prevention control part and the distribution input device of the flood control machine separated in the control part of the dam in the fishery product scattering control part, The prior art of the present invention is described below so that the necessity of a dispensing apparatus for a flood control apparatus for a flood control apparatus improving flood control exists in the technical field and a person skilled in the art can understand the technique of the present invention do.

(Patent Document 1) Patent No. 0546221 2006.01.19. (Patent Document 2) Patent No. 10-0650936 2006.11.20. (Patent Document 3) Patent No. 10-1167145 2012.07.13. (Patent Document 4) Published Patent No. (10-2005-000053552) 2005.06.08. (Patent Document 5) Published Patent No. (10-2005-0117496) December 14, 2005. (Patent Document 6) Published Patent No. (10-2017-0031947) 2007.03.20. (Patent Document 7) Published Patent No. (10-2007-0106398) November 11, 2007. (Patent Document 8) Published Patent No. (10-2007-0106596) 2007.11.02. (Patent Document 9) Published Patent No. (10-2010-0027087) 2010.03.10. (Patent Document 10) Published Patent No. (10-2012-0066690) 2012.06.22. (Patent Document 11) Published Patent No. (10-2012-0064663) 2012.06.19. (Patent Document 12) Published Patent No. (10-2012-0095337) 2012.08.28. (Patent Document 13) Published Patent No. (10-2012-0112315) 2012.10.11.

(Non-Patent Document 1) Registration No. 2012. 31. 2012. c-2012-0268465 Registration copyright, Northeast Asian peace coexistence treaty treaty document and constitutional amendment; (Non-Patent Document 2) Introduction to Nuclear Safety Engineering Introduction Publications Koryo Dong; Reference. (Non-Patent Document 3) Introduction to reactor engineering; Ulsan University Press; (Non-Patent Document 4) Reactor; (Non-Patent Document 5) A Study on the Nuclear Cooperation between the North and the South and the Northeast Asian Multilateral Cooperation; (Non-Patent Document 6) Actual condition of operation of nuclear power plant, 2000.10. (Non-Patent Document 7) Refer to Publication No. 11-1480000-000586-10 issued by the Ministry of Environment 2004 Environment White Paper. (Non-Patent Document 8) The Typhoon Route under the Meteorological Agency on Climate. (Non-Patent Document 9) For harmful red tide, refer to the harmful red tide microorganism issued by the Fisheries Science Institute. (Non-Patent Document 10) For information on peaceful unification on the Korean peninsula, refer to the issue of Unification of the Ministry of Land, Transport and Maritime Affairs published in December, 1970 and 1971, (Non-Patent Document 11) Technical Document on the Collection of Crude Oil and Gas Mineral Resources (S pecificationof S emi S ubmersible Drilling R ig P e e-348, Aug. 24, 24. D ete, A u g. ), The fire safety standard of firefighting and firefighting subcommittee under the firefighting agency, and English, German, Swedish, and Chinese material selection manual), and the AVBAC for dynamical testing of the above- (HVAC) system of the present invention and an NWCD system of the present invention not registered in the prior art document. (Non-Patent Document 12) Pneumoengineering and sensor technology; Published in Publications of the Book Publishing Bulletin, published on June 15, 1990, No. 1-1066, page 245. (Non-Patent Document 13) See the contents of the creature book of Fisheries College.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide an apparatus and method for controlling flood and drought such as floods and droughts, It is possible to prevent the flood and drought floods in advance by the distributing and inputting devices of the flood control machinery of the regulating facilities and to sequentially form the layers so as to prevent the mixing and dispensing apparatuses of the various flood control machines from being mixed with each other, It is possible to inject the dispensing device of the flushing control machine for various flushing control equipment so that the consumer can control the water storage tank of flushing control and the distribution of the flushing control machine of the flushing control device In addition to being able to control the amount of input devices according to preference, In order to actively cope with flood disaster effectively and efficiently in accordance with the change of weather condition, we need to change weather information from the flood control satellite to water storage tank of flood control facility and distribution control unit of flood control to barge ship hull And a barge hull at the bottom of a holding tank. A small, medium and large sized marine hydroelectric power plant is connected to a marine tunnel transportation device. Weather observing equipment of a connection structure is connected to a water storage tank and a circular dam Pump and valve injection device Nozzle, non-power pump, cable car, and tunnels. Each connection structure moves the hull position of the flood control part. Power transmission control part of construction machine control part and marine hydroelectric power production control part. Preventing disaster prevention in the control part and separating it into the control part of the dam and the hydrological control part of the dam It is equipped with a distributing and inputting device of flood control machine to provide the distribution input device of flood control machine for flood control facility which improves flood control over flood control. At the same time, Control of flood flow in the mountainous areas of mountainous areas in the inland region of the globe as the power transmission control part of the power generation production control part and the prevention control part of disaster prevention and the preventive control part of harmful red tide, A large number of mountains set up throughout the country, depending on the location of various rivers and seaside coastal areas, followed by a long stretch of mountainous mountains and mountain ridges along the ridges, , Yellow dust, flood and drought natural disasters, and additionally the potential energy of water It is composed of pump, valve and injector nozzle, non-powered pump, and cable car son in several disaster prevention waterway and rotary dam located in the flood controllable power line which can continuously produce hydropower generation power by converting into kinetic energy of water. The flood control system is constructed so that flood control and disaster prevention activities can be effectively carried out simultaneously. The flood control system is constructed so that the river banks can withstand the flood disasters and the dams by the rotating disaster prevention channels and the heavy rain of 3000m / m. The flood turbulence and vortex can be rapidly and effectively mitigated by storing the water while simultaneously discharging the water to the rotary disaster prevention channel and the dam in which the elevation of the ridge line is controlled by the height of the mountain, Roads and bridges are not lost without river bank collapse, With the same number of revolutions, the dams prevent landslides from happening simultaneously, and at the same time, a plurality of double-structure air tubes in the form of life-size stones are installed in each residential area to construct the prime mover before and after the landslide, The air is injected into a plurality of double structure air tubes in the form of a stack, and the double structure air tubes are projected to the upper part of the soil of the buried soil, so that the lifesaving personnel aboard the helicopter are injected into the double structure air tube, In addition to constructing a distribution control system for flood control and disinfection without flooding damages to farmland, neighborhood area, livestock complex, and industrial complex of lowland equivalent to the river water, the valve and piping are constructed so as to prevent wastewater for domestic and livestock industries from flowing into the river. It prevents the inflow of wastewater into the river by blocking it with a stopper. It maintains good quality of water and continuously flows to the sea. It is stored in a dam that can be used for about 3 years in drought period. Water stored in tank is used for agricultural water, drinking water, agricultural water, industrial water and industrial water. It is designed to supply the water supply control equipment for the flood control equipment of the water storage tank to the global village to improve the overcoming of the flood control which is constructed so as to supply water resources in a satisfactory manner and to continuously supply water of good quality. The purpose.

According to the present invention, according to the long-term weather forecast provided by the satellites, in order to overcome natural disasters such as large-scale wildfires, yellow dust, heat waves and harmful red tide occurring during the season other than flood drought warning, The existing multi-purpose dams and the newly installed multi-purpose dams by mixing the same amount of the loess mixture as the level, and a plurality of collecting tanks and double pipe structure block tanks are installed in correspondence with the seasonal temperature change, and a warming device In the drought period, a mixture of loess prior to the occurrence of the tidal current is sprayed, and the prevention activities before and after the occurrence of the harmful tidal current in the ocean are carried out in a conventional way Without putting the barge, the loess mixture can be stored in a storage tank To provide a continuous spraying to regulate the distribution of flood Machines for flood control of water storage facilities to enhance flood regulation to overcome configured to be able to maximize the Disaster Prevention chute to open a probe for other purposes.

In addition, according to the present invention, there is provided a hydroelectric power plant which generates hydroelectric power by converting the potential energy of water stored in the facility into kinetic energy by the number of rotating dam according to the mountainous terrain of the mountain range, It is possible to solve the environmental pollution problem by replacing the pollution problem with water fuel which is substituted for expensive petroleum and coal fuels of thermal power generation and replacing it with dam water gate of the existing river to prevent the influx of brine from the water supply water intake water pool. And anchor replacement crank for anchor replacement is provided with a rock drill and an actuator to constitute a plurality of drill holes on the bottom of the river, and the ground water discharged from the drill holes is constituted as an alternate membrane device for brine inflow, By re-establishing several fishing vessels in the underwater of the sea, In order to ensure stable quality fish and shellfish in the rivers of Song, the germanium level of the bottom of the river is introduced into the ocean in large quantities to recover the natural ecosystem order and balance, so as to maximize ecosystem restoration activities. By continuously developing the environmental industry, the youth economic unification and job creation will contribute to national economic development, four major river revitalization projects, and restoration of the world's four major fishing grounds. It is another object of the present invention to provide a dispensing apparatus for a disinfecting and regulating machine.

In order to achieve the above object, the present invention as a technical idea is inserted into both sides of a distribution shaft 357 constituting a distribution dispensing apparatus main body of a flood control machine, and water storage tanks and water intake dams The control shaft (231) for controlling the storage is equipped with a distribution dam installation device of the power generation dam construction machine and the borehole (936) which is composed of the inside of the marine tunnel transportation device (941) (917) to the piping rack (854) equipped with the drilling machine (908) for crude oil, and the construction of the borehole (936) A plurality of boreholes 936 are installed on the downstream of the river and the ocean, and a power pump 304 for pumping groundwater located in the aquifer of the descending portion is provided to pour the groundwater over the river surface, A plurality of distribution shafts 357 for distributing and storing the flow of the water in the respective water intake dams, and a plurality of distribution shafts 357 for controlling the flow of the flow of the marine tunnel transportation devices 941 of the respective adjustment shafts 231 (593, 594, 595) connected to a marine hydroelectric power plant, and connected to one end of the marine hydroelectric power plant for the adjustment of the hull position of the control shaft (231) A flood control unit 811a for the flood control unit 811 configured to control the flow of the flow rate to the inside of the main body 1; And a flood control unit (811) connected to the distribution shaft (357) for controlling the flow of the flow rate to the distribution dispenser main body (1) of the flood control machine on each of the distribution shafts (357) The distribution shaft 357 is connected to the distribution shaft 357 so as to control the flow of the flow rate to the interior of the distribution and dispensing apparatus main body 1 of the flood control machine A power transmission control unit 811c for transmitting the power constituted by the flood control units 811, and a control unit 811c for controlling the flow of the ground water stored in the storage tank and the control dam And the loess mixture is installed in the dam, the power pump (304) is provided to open the water gate and the valve (409) to discharge the yellow water mixture control water to the ocean in large quantities to prevent the harmful red tide generation, The flow of the flow rate to the inside of the main body 1 And the water stored in the mountain-top water intake dam 680 is connected to the valve shaft 409 of the water intake dam 611. The water intake control valve 811 is connected to the distribution shaft 357, A plurality of nozzles 10 connected to the power pump 304 and the piping and the fire hose 9 are provided so as to establish a connection with the flood control machinery throughout the crest of the lower crest of the crest, The flood control unit 811 receives the power supplied from the hydro-hydroelectric power production control unit 811b for generating power from the hydro-hydroelectric power generation unit 811c from the power transmission control unit 811c, The flood control unit 811 is provided with a main body 1 of a flood control apparatus for providing flood control facilities for preventing natural disasters such as forest fires, sandstorms, heavy snow, extreme storms, floods, droughts, landslides, Injection into pump and valve into the inside of A disaster prevention preventive control unit 811e configured to control the flow rate of the flow to the connection structure of the tooth nozzle, the non-powered pump, and the cable car 256, and a disaster prevention preventive control unit 811e connected to the control shaft 231, 672 are inserted through the respective control dams and are installed in the main body 1 of the distribution control device for the flood control machine, The hydraulic power generator located at the marine hydroelectric power plant of the marine tunnel traffic device 941 is connected to the inlet port 269 for controlling the flow rate of the algae, A power production control unit 811b connected to a distribution shaft 357 composed of flood control machines for controlling the flow rate of the water to the inside of the river 1, Deep sea water supply capacity Sheets of a plurality of power pump 304 is provided with hydrologic control adjustment of the dam, which consists of the flood control machine for controlling the flow of flow into the interior of the flood control machine input distribution device body (1) of the part (811g);

A dispensing and dispensing apparatus for a flood control machine for controlling the flow rate of the flow of the water to the inside of the dispensing and dispensing apparatus main body 1 of the flood control apparatus is provided to rapidly control the flood and the flood control to overcome the drought.

As described above, according to the present invention of the present invention, it is possible to freely control the amount of the dispensing apparatus of the flood control apparatus for the water storage tank for the water storage tank in order to control floods such as flood and drought, It is possible to prevent the flood and drought flood by the distributing and inputting devices of the flood control machinery of the facility in advance and to make stratification in order to prevent the mixing and dispensing devices of various flood control machines from being mixed with each other, In order to continuously perform the overcoming of the flood damage from the disaster, it is possible to inject the dispensing apparatus of the flood control apparatus for the flood control apparatuses so that the customer can dispense the flood control apparatus of the flood control apparatus In addition to being able to control the amount of equipment according to preference, In order to actively cope with flood disaster efficiently and efficiently in accordance with the change of weather conditions, weather information transmitted from the flood control satellite to the water storage tank of the flood control facility and the distribution input device of the flood control is stored in the barge hull A small, medium and large ocean hydroelectric power plant in a marine tunnel traffic system consisting of a barge hull at the bottom of a tank, a meteorological observation device for a connection structure of a connection structure, receiving weather information through a radar, a water storage tank in a construction machine, In addition to the injector nozzle, the non-powered pump and the cable car in the valve, and the distribution input device of the flushing control machine of the tunnel connection structure, the flood control device of the flush control device constitutes the distribution input device. It will be possible to see the effect of constructing the distribution dispenser provision of the flood control machinery for the control plant.

In addition, according to the present invention, while controlling the flood flow rate in the mountainous areas of mountainous areas in the inland regions of the globe, a plurality of mountain-like mountains installed all over the country on the basis of the installation locations of the rivers and coastal seashores of various regions, In addition to the natural disasters of typhoon, wildfire, yellow dust, flood and drought caused by the mountain line and the mountains, which are killed along the mountains and ridges of the mountain range, the water is further converted into kinetic energy of water, It is composed of pump, valve and injector nozzle, non-powered pump, and cable car son in several disaster prevention waterway and rotary dam located in the fishery control line of flood control that can generate electricity for generating electricity. And a solid rainfall of about 3000m / m of precipitation Disaster prevention waterways and dams are constructed to withstand river embankments. In the flood season, the flood water can not flow into rivers. It is possible to quickly and efficiently relieve flood turbulence and vortexes by storing water while discharging the water, so that roads and bridges are not lost without collapsing the river bank at the lower part of the mountain wall wallpaper. Dams are equipped with a plurality of dual structure air tubes in the form of stacks for rescue operation in each residential area of the neighborhood while preventing the occurrence of landslides and simultaneously operating the prime movers before and after the landslide, As the air is injected into the tube, the double structure air It is constituted such that the tube is projected so that lifesaving personnel aboard the helicopter are put into the dual structure air tube to quickly build up the life structure and flood the farmland, neighborhood living area, livestock complex, In addition to constructing a distribution control device to prevent flood damage, the wastewater for domestic and livestock industry is blocked by valves and piping plugs to prevent wastewater from flowing into rivers, thereby preventing wastewater from flowing into rivers. It is constructed to supply the water stored in the storage tank to the dam which can be used for about 3 years in the drought period and the water resources of the drinking water and the industrial water for agricultural water and drinking water in the drinking water and drinking water in abundance. Improving the overcoming of flood control that makes water supply sustainable Will be the effect of configuring the service flood control equipment distributed in the flood control equipment for the water storage tank input devices able to see,

According to the present invention, according to the long-term weather forecast provided by the satellites, a flood drought warning and a warning signal are issued to overcome natural disasters such as large-scale wildfires, yellow dust, The existing multifunctional dams and the newly installed multi-purpose dams are equipped with a plurality of collecting tanks and double pipe structure block tanks corresponding to the seasonal temperature changes, and the water is kept warm in the cage farms In order to use more equipment, additional storage tanks in the cage farm area combined with the breakwater are installed around the coast of the coastal area. In the drought period, the mixture of yellow soil before the occurrence of the tidal current is sprayed, It is possible to add the yellow soil mixture to the storage tank without introducing the conventional barge line Water storage tanks and marine tunnel transport equipment to improve the overcoming of flood control to maximize prevention of disasters by continuously spraying the open valve to the marine hydroelectric dam facility construction machine, It will be possible to see the effect of constructing the distribution dispensing device of the water-flood control machine,

In addition, according to the present invention, it is possible to increase the energy production with low cost by providing a hydroelectric power generating facility which converts hydroelectric power by converting the potential energy of water stored in the facility into kinetic energy by a number of rotating dam according to the mountainous terrain of Baekdudaegan mountain range It is possible to solve the environmental pollution problem by replacing the pollution problem with the water fuel which is substituted for expensive petroleum and coal fuel of the thermal power generation and replace it with the dam water gate of the existing river, The excavator and wrench crank for anchor replacement are equipped with a rock drill and a moving operation unit to form a plurality of boreholes on the bottom of the river. The groundwater discharged from the plurality of boreholes constitutes an alternative brine apparatus, By constructing an insertion installation through the tunnel device, It is possible to maximize ecosystem restoration activities by restoring natural ecosystem order and balance by introducing large amount of Germanium lipid contained in the soil of the river bottom into the ocean so that stable quality fish and shellfish can freely scatter in the river of the valley. Water storage tanks for marine control facilities and marine tunnel traffic equipment to improve the overcoming of flood control that continuously develop environmental industry in parallel with forest greening project, marine hydroelectric dam facilities construction machinery, It is equipped with a barge hull at the upper part of the holding tank and a barge hull at the lower part of the holding tank, which is composed of a small-sized, medium-sized and large-sized marine hydroelectric power plant. In the flood control section of the distribution input device of the flood control machinery, Control of flood control for flood control facilities consisting of power transmission control part for the gradation part and marine hydroelectric power production control part and prevention control part for disaster prevention at the harmful red tide prevention control part and hydrological control part of the dam at the control part for fish and shellfish scattering It will be able to make a contribution to the national economic development, the four major river revitalization projects and the restoration of the world's four major fisheries improvement projects by solving the unemployment and job creation of young people. Will be.

FIG. 1 is a schematic view showing the construction of an internal flushing control unit 811 of a main body 1 of a conventional flushing water control system according to the present invention. Referring to FIG. 1, Fig. 3 is a perspective view of an electric motor pump according to an embodiment of the present invention;
1A is a schematic view illustrating a structure of a hydro-hydroelectric power generation control unit 811b of an internal water-discharge control unit 811 of a distribution dispensing apparatus main body 1 of a conventional flood control apparatus according to the present invention. Internal Francis aberration, Phelton aberration, pump aberration, turbine and guide vane internal assembly model and pump aberration.
1B is a diesel engine external view showing a configuration of a marine hydroelectric power generation control unit 811b of the internal flushing control unit 811 of the main body 1 of the distribution input device of the conventional flushing control machine according to the present invention, Model construction diagram of internal disassembly and assembly.
1C is a sectional front view and front view and front view showing a configuration of a disaster prevention preventing and regulating unit 811e of the internal flushing and regulating unit 811 of the main body 1 of the dispensing and dispensing apparatus of the conventional flood control apparatus according to the present invention. The control block diagram and BF model in the block diagram of the multi-stage pump system concept; Speed control method, and 3-pump direct-entry start-up method.
1D is a perspective view of a conventional multi-stage multi-stage pump microcomputer showing the construction of a disaster prevention preventing and regulating unit 811e of the internal flushing and regulating unit 811 of the main body 1 of the dispenser introducing apparatus of the flood control apparatus according to the present invention. In the control system and the digital pID control system, an unmanned camera of the control system is installed in the inverter system, and the inverter system in which the fire water is discharged from the injection nozzle and the equipment of the control system are combined.
1E is a schematic view showing a structure of a dam control hydraulics control unit 811g of an internal flushing control unit 811 of a main body 1 of a distribution and dispensing apparatus of a conventional flushing control machine according to the present invention, FIG. 1 is a partial perspective view of a compressor and a multi-stage screw compressor, and FIG.
FIG. 1F is a schematic view showing a configuration of a disaster prevention preventing and regulating unit 811e of an internal flushing control unit 811 of a main body 1 of a dispensing and dispensing apparatus of a conventional flushing control machine according to the present invention. (290) and a squeegee compressor connected to the motor.
FIG. 1G is a schematic view showing the structure of a hydrological control adjusting unit 811g of a dam of an internal flushing and regulating unit 811 of the main body 1 of the distribution and dispensing apparatus of the conventional flushing and regulating machine according to the present invention, And a suction filter attached to the inside of the air dryer (291).
1H is an exploded perspective view showing a structure of a disaster prevention preventing and regulating unit 811e of an internal flushing and regulating unit 811 of a main body 1 of a distribution and dispensing apparatus of a conventional flushing control machine according to the present invention. (179a) of an underground hydrant fire hydrant (179a) and an underground hydrant fire hydrant manhole above a lower surface of a road surface of an underground hydrant fire hydrant (179b) Showing the construction of a fire hydrant box and a fire hydrant box inside the fire hydrant box 161 and the fire hydrant box 160 and showing the construction of the fire hydrant 179 in the water supply port 168 and the watertight port 169 (A) large-scale fire hydrant facilities and (b) partial side view showing partial aspects of small-scale fire hydrant facilities.
1I is a perspective view of a disaster prevention preventing and regulating unit 811e of an internal flushing and regulating unit 811 of a main body 1 of a distribution and dispensing apparatus of a conventional flood control apparatus according to the present invention and a sprinkler piping system sprinkler (300) of the sprinkler head (111) of the chute head.
1J shows the operation of the reciprocating pump piston pump 127 showing the construction of the disaster prevention prevention regulating unit 811e of the internal flushing control unit 811 of the main body 1 of the dispensing and inputting apparatus of the conventional flushing control machine according to the present invention. And a partial plunger pump 148 operating configuration diagram showing the manner in which the plunger pump 148 is partially actuated by the plunger 253, and the block pump 311 of the rotary pump and the turbo- A side view showing the side surface of the pump 140, and a side view of the operation side surface showing the installation state of the waste water pump 309 as a side view.
FIG. 1K is a view showing an integral structure of an adjustment valve 459 showing the construction of the disaster prevention preventing and regulating unit 811e of the internal flushing control unit 811 of the main body 1 of the dispensing and dispensing apparatus of the conventional connection and disinfection control machine according to the present invention, The construction of the land and ocean of the faucet (496) of the faucet of the faucet of the accessory,
[0040] FIG. 11 is a diagram showing a main problem in driving the pump showing the construction of the disaster prevention preventing and regulating unit 811e of the internal flushing and regulating unit 811 in the main body 1 of the dispensing and dispensing apparatus of the conventional flushing machine according to the present invention. A cross section of the enlargement of the measure.
1m illustrates a fire pump showing the construction of a disaster prevention prevention and control unit 811e of the internal flushing control unit 811 of the main body 1 of the dispensing and inputting apparatus of the conventional flushing control machine according to the present invention, Diagram of valve isometric view.
FIG. 1n is a structural view showing the operation of each valve showing the construction of the disaster prevention prevention regulating unit 811e of the internal flushing regulator 811 in the main body 1 of the dispensing and dispensing apparatus of the conventional flushing control machine according to the present invention.
FIG. 1 is a schematic view showing a construction of a hydrological control adjusting unit 811g of a dam of an internal flushing control unit 811 of a main body 1 of a dispensing and dispensing apparatus of a conventional flood control machine according to the present invention. The operation of the diaphragm pump 144 and the operation of the wing pump 327 are illustrated in the operating configuration of the plunger pump 148. The inside of the rotary pump 337 and the external gear pump 326, FIG. 34 is a block diagram of the operation showing the partial operation of the pump rotor 338; FIG.
1 P illustrates a turbine pump 140 showing the configuration of a hydrological control adjusting unit 811 g of a dam of an internal flushing and regulating unit 811 of the main body 1 of the dispensing and inputting apparatus of the conventional flood control equipment according to the present invention And the configuration of the prime mover 339 and the sucking pump 340 is shown in a schematic configuration diagram of the operation of the axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146, Fig. 3 is a schematic view of a side view showing the operation of each pump in a viscous pump and impeller strainer. Fig.
Figure 1q shows the operation of the automatic collecting tank showing the structure of the hydrological control adjusting unit 811g of the dam of the internal flushing adjusting unit 811 in the main body 1 of the dispensing and inputting apparatus of the conventional flood control equipment according to the present invention Side view of a side view.
1 r is a view showing the operation of the automatic collecting tank showing the structure of the hydrological control adjusting unit 811 g of the dam of the internal flushing adjusting unit 811 in the main body 1 of the dispenser introducing apparatus of the conventional flood control machine according to the present invention Side view of a side view.
1s is a view showing the operation of an automatic collecting tank showing the construction of a hydrological control adjusting unit 811g of a dam of a flood control unit 811 inside the main body 1 of the dispensing and inputting apparatus of the conventional flood control equipment according to the present invention Fig.
1 t is a schematic view showing an operation mode of a conventional automatic collecting tank showing the construction of a dam control hydrological control unit 811 g of a flood control unit 811 inside the main body 1 of the distribution and dosing device of the flood control equipment according to the present invention Fig.
FIG. 1U is a schematic view showing the construction of a hydraulics control unit 811g of a dam control unit 811 in a distribution dispensing apparatus main body 1 of a conventional flood control apparatus according to the present invention. Fig. 2 is a block diagram showing the structure of an embodiment showing operation assemblies of solenoid valves and the structure of a sensor applying method according to the structure of a sensor integrated with a detection switch.
FIG. 1 (b) is a view showing an operation method of an adventure airship and an airship showing the construction of a disaster prevention preventing and regulating unit 811e of a flood control unit 811 inside a distribution dispensing apparatus main body 1 of a conventional flood control equipment according to the present invention. This is a diagram showing the operating structure according to the typhoon and weather forecast inside the atmosphere. It is a diagram of fire and disaster prevention method for each kind of fire that is made to evolve within one second after installing the spray nozzles and bed nozzles inside and outside the building.
FIG. 1w is a perspective view illustrating a construction machine position adjustment structure constituting the hull position shifting construction machine adjustment section 811a of the flood control section 811 inside the distribution dispensing apparatus main body 1 of the conventional flood control machine according to the present invention. Showing a plurality of construction machine bulldozers (855) operating in a strapless configuration.
1x illustrates a construction machine position adjustment structure constituting the hull position shifting construction machine adjustment section 811a of the flood control section 811 inside the distribution dispensing apparatus main body 1 of the conventional flood control machine according to the present invention Of the operation of the tilling roller 891 and the trailer 894 to the tamping roller 891 and the tire roller 892 on the concrete bumping plant 865 and the machine bed 885 on the fork lift truck 858 and the dump truck 860.
FIG. 1 (a) is a perspective view illustrating a construction machine position adjustment structure that constitutes a hull position moving construction machine control section 811a of a flood control section 811 inside a distribution dispensing apparatus main body 1 of a conventional flood control machine according to the present invention All six of the crane show 861p to 861q and 861 to scraper 861t and 861u to scraper 861t and 861u to pounding device 861u, Diagram of the strabismus of.
FIG. 1z shows a construction machine position adjustment structure that constitutes the hull position moving construction machine control section 811a of the flood control section 811 inside the distribution dispensing apparatus main body 1 of the conventional flood control machine according to the present invention. (874) and a dredger (879) operation of the ship.
[Fig. 1] to [Fig. 1Z] are diagrams illustrating an embodiment of a distribution dispensing apparatus for a flood control apparatus for flood control according to the present invention.
FIG. 2 is a schematic view showing the entire construction of the flood control unit 811 inside the main body 1 of the distribution and dispensing apparatus of the flood control apparatus according to the present invention. (593,594,595), which has a connection structure with the Yado Tunnel (672).
2a is a perspective view of a water dispenser in accordance with the present invention in which a hull position moving construction machine control unit 811a of a flood control unit 811 is installed inside a distribution dispensing apparatus main body 1 of a flood control machine according to the present invention, An excavator 856 for showing the construction machine position adjustment structure of the hull locomotion control of the constituent marine hydroelectric power station floodplain 593,594,595 and a hydraulic pressure tank 819 having a connection structure are connected to the bossable plunger pump 148b of the plunger pump 148 ) And radial plunger pump (148c).
FIG. 2B is a side view of the water dispenser in accordance with the present invention. FIG. 2B is a perspective view of the water dispenser of FIG. A straight dozer 855c and a dilator dozer 855b are attached to a crawler type dump basin 855a and a wheel dump basin 855b of a bulldozer 855 showing a construction machine position adjustment structure of the marine hydroelectric power plant flood control 593,594,595, A schematic diagram of a construction machine connection structure of an elevator 855e on a hinge 855d, a tree dozer 855g on a hinge dozer 855f and a hydraulic ripper 855i on a rake dozer 855h.
FIG. 2C is a schematic view showing the structure of the water dispenser of the present invention. FIG. 2C is a perspective view of the water dispenser of the present invention, A schematic view of a construction machine connection structure showing a construction machine position control arrangement of a hull position movement control of a marine hydroelectric power plant floating structure (593,594,595)
FIG. 2d is a schematic view showing the structure of the water dispensing apparatus according to the present invention. FIG. 2d is a schematic view of a water dispensing apparatus according to the present invention, The crawler type dozer 855a and the wheel type dozer 855b showing the construction machine position adjustment structure of the hull position movement control of the constituent marine hydroelectric power station floating picker 593,594,595 are connected to the excavator 856 and the skimmer 856f by a pile driver 882 Diagram of Construction of Connecting Structure for Construction Machinery.
FIG. 2E is a schematic view showing the structure of the water dispensing and dispensing apparatus according to the present invention. (861b) on the Ripper and Router (856g) showing the construction machine position control arrangement of the marine hydroelectric power plant flood control consoles (593,594,595) constituting the marine hydroelectric power plant, the all six devices (861p) and the drag cranes 887) Diagram of Construction of Connecting Structure for Construction Machinery.
FIG. 2f is a perspective view of the water dispenser according to the present invention, showing the hull position moving construction machine control unit 811a of the flood control unit 811 inside the dispensing and inputting apparatus main body 1 of the flood control apparatus according to the present invention, (853) and the trailer (860a) of the dump truck (860) to the loader (857) showing the construction machine position adjustment arrangement of the hull locomotion control of the constituent marine hydroelectric power plant floodplain (593,594,595) Degree.
FIG. 2G is a perspective view showing the structure of the water dispensing apparatus according to the present invention. FIG. 2G is a perspective view of the water dispensing apparatus according to the present invention, Concrete mixer truck (868) to concrete batching plant (865) and concrete finisher (866) showing construction machine position control arrangement of hull locomotion control of marine hydroelectric power plant floodplain (591) .
FIG. 2h is a schematic view showing the structure of the water dispenser in the water dispenser of the present invention according to the present invention. The asphalt finisher 871 and the puncher 876 and the pile driver 876 on the asphalt paver 871 and the asphalt paver 872 on the hearth safety device 864 showing the construction machine position adjustment arrangement of the marine hydroelectric power plant flood control 593, 882) of a boom (882a) and a diesel pile hammer (883).
FIG. 2I is a schematic view showing the structure of the water dispenser in the water dispensing apparatus main body 1 of the flood control apparatus according to the present invention, (879a) and bucket dredger (879b) construction machine connection structures of dredger (879) showing the construction machine position control arrangement of hull position movement control of the ocean hydroelectric power plant floating ocean pond (593,594,595)
FIG. 2J is a schematic view showing the structure of the water dispensing and dispensing apparatus according to the present invention in a state where the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the distribution dispensing apparatus main body 1 of the flood control machine according to the present invention, (879l) Diagram of strabismus of construction machine connection structure showing the construction machine position adjustment structure of hull position movement control of oceanic hydroelectric power plant floating ocean structure (593,594,595)
FIG. 2K is a schematic view showing the structure of the water dispenser in the water dispensing apparatus main body 1 of the flood control apparatus according to the present invention, (874) View of the connection structure of a crusher showing the construction machine position control arrangement of the hull position movement control of a marine hydroelectric power plant floating ocean pond (593,594,595)
FIG. 21 is a schematic view showing the structure of the water dispensing apparatus according to the present invention. FIG. 21 is a sectional view of the water dispensing apparatus according to the present invention. The conventional cylinder 126 showing the construction machine position adjustment structure of the hull locomotion control of the constituent marine hydroelectric plant flood control consoles 593,594 and 595 and the previous cylinder plunger pump 148b of the plunger pump 148 and the radial plunger pump 148c Diagram of Construction of Connecting Structure for Construction Machinery.
FIG. 2m illustrates a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 in the main body 1 of the distribution and dispensing apparatus of the flood control machine according to the present invention. (126) Cylinder (126) showing the construction machine position adjustment arrangement of the hull displacement control of the marine hydroelectric power plant flood control station (593,594,595) constituting the SDU.
2n is a perspective view of the water dispenser in accordance with the present invention in a state where the hull position moving construction machine control unit 811a of the flood control unit 811 is installed inside the distribution dispensing apparatus main body 1 of the flood control machine according to the present invention, And a piston motor (885a) of a hydraulic crane (885) construction machine connection structure of a construction machine position-regulating structure of a marine hydroelectric power plant flood control station (593,594,595)
FIG. 20 is a schematic view of a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 inside the main body 1 of the distribution and dispensing apparatus of the marine pollution control machine according to the present invention. (811b) of the construction machinery connected with the structure of the milling machine (838) showing the construction machine position adjustment control of the hull position movement control of the marine hydroelectric power plant lifting plant (SDU) constituting the marine hydroelectric power generation plant (593,594,595) Mechanical connection structure.
FIG. 2P is a schematic view showing the structure of the water dispensing apparatus according to the present invention in a water dispensing apparatus main body 1 of a flood control apparatus according to the present invention, a hull position moving construction machine control unit 811a of a flood control unit 811, Hydraulic power plant showing construction arrangement position regulation of hull position movement of marine hydro - power plant flood control station (593,594,595).
FIG. 2q illustrates a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control machine according to the present invention. (593,594,595) of a hydro-electric power station constructed in the SDU of a hydro-electric power plant construction machine connecting structure showing the regulation structure of the construction machine position.
FIG. 2r is a view showing a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 in the main body 1 of the distribution input device of the marine pollution control machine according to the present invention, (593,594,595) of a hydro-electric power station constructed in the SDU of a hydro-electric power plant construction machine connecting structure showing the regulation structure of the construction machine position.
[0050] FIG. 2 is a perspective view of a marine hydroelectric power generation control unit 811b for producing a power of the marine pollution control unit 811 in the main body 1 of the distribution and dispensing apparatus of the marine pollution control apparatus according to the present invention. (593,594,595) of a hydro-electric power station constructed in the SDU of a hydro-electric power plant construction machine connecting structure showing the regulation structure of the construction machine position.
FIG. 2t is a view showing a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control machine according to the present invention. (593,594,595) of a hydro-electric power station constructed in the SDU of a hydro-electric power plant construction machine connecting structure showing the regulation structure of the construction machine position.
FIG. 2U is a schematic view of a marine hydroelectric power plant floodgate 593, 594, 595 constructed in the upper part of a marine power plant body dock hull deck (SDU) of the flood control section 811 inside the main body 1 of the distribution- A schematic view of a connection structure showing the control structure of a hydroelectric power plant construction machine of hull position movement control of a hull.
FIG. 2 (b) is a view showing a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 inside the distribution dispensing apparatus main body 1 of the marine pollution control apparatus according to the present invention. (593, 594, 595) of a marine hydroelectric power station (SDU) constructed by Bernoulli theorem.
FIG. 2w illustrates a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 inside the main body 1 of the distribution and dispensing apparatus of the marine pollution control machine according to the present invention. (593,594,595) of a hydro-electric power station constructed in the SDU of a hydro-electric power plant construction machine connecting structure showing the regulation structure of the construction machine position.
2x illustrates a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 inside the distribution dispensing apparatus main body 1 of the marine pollution control machine according to the present invention. (593,594,595) of a hydro-electric power station constructed in the SDU of a hydro-electric power plant construction machine connecting structure showing the regulation structure of the construction machine position.
FIG. 2 (a) is a perspective view of a marine hydroelectric power production control unit 811b for producing a power of the flood control unit 811 in the main body 1 of the distribution and dispensing apparatus according to the present invention, (593,594,595) of a hydro-electric power station constructed in the SDU of a hydro-electric power plant construction machine connecting structure showing the regulation structure of the construction machine position.
FIG. 3 is a schematic view showing the entire construction of the flood control unit 811 inside the main body 1 of the distribution and dispensing apparatus of the flood control apparatus according to the present invention. (593,594,595) equipped with a connection structure with an island tunnel (672) and the connection structure of a marine power plant hydroelectric power plant of a marine power plant.
3A is a perspective view of a water dispenser in accordance with the present invention in which a hull position moving construction machine control unit 811a of a flood control unit 811 is installed inside a distribution dispensing apparatus main body 1 of a flood control machine according to the present invention, (893,594,595) of the marine hydroelectric power station (593,594,595) to the inside of the marine tunnel traffic device (941) to bridge bridge (937) and pier (928) (771) Hydroelectric power plant Construction diagram of the connection structure of construction machine.
3B is a schematic view showing the structure of the water dispensing and dispensing apparatus according to the present invention in a state where the hull position moving construction machine control unit 811a of the flood control unit 811 is connected to the SDU (928) showing the construction machine position control arrangement of the hull locomotion control of the constituent marine hydroelectric power plant flood control station (593, 594, 595) and the crude drilling machine (941) into the marine tunnel traffic facility (941) 908) Hydraulic power plant construction diagram of a connecting structure.
3C is a perspective view of the water dispenser according to the embodiment of the present invention. FIG. 3C is a perspective view of the water dispenser of FIG. (593, 594, 595) showing the construction machine position adjustment structure of the hull locomotion control of the marine hydro-power station floating pick-up pods (593, 594, 595) constituting the portable lug coupling (603) (607) and portable lug fins (608) with a large flange connection connector joint area machining hole (615).
FIG. 3D is a schematic view of a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control machine according to the present invention. The main aberration 264 and the aberration or pump aberration 264 of the hydroelectric or marine hydroelectric power plant 233 showing the construction machine position adjustment arrangement of the hull locomotion control of the marine hydroelectric power plant flood control consoles 593, Hydraulic power plant construction diagram of a connection structure.
3E shows a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 inside the distribution dispensing apparatus main body 1 of the marine pollution control machine according to the present invention. (593,594,595) of a hydro-electric power station constructed in the SDU of a hydro-electric power plant construction machine connecting structure showing the regulation structure of the construction machine position.
3f is a view showing a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 inside the distribution dispensing apparatus main body 1 of the marine pollution control apparatus according to the present invention, (598,594,595) of the hydro-electric power station (SDU) of the hydroelectric power plant (678p) in the Han river system showing the arrangement of the position control of the construction machine of the hydroelectric power plant construction machinery connection structure.
FIG. 3G is a view showing a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 inside the distribution dispensing apparatus main body 1 of the marine pollution control machine according to the present invention. (593, 594, 595), which is composed of the hydroelectric power plant (593, 594, 595) constructed in the SDU.
FIG. 3h is a view showing a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 in the main body 1 of the distribution input device of the marine pollution control machine according to the present invention. The structure of the microswitch 580 showing the construction machine position adjustment structure of the hull position movement control of the marine hydroelectric power plant flood control consoles 593,594,595 constituting the SDU, and the limit switch 580. The microswitch 183 and the diaphragm type pressure switch (104a) to the pneumatic-sensor pressure switch (104b) Hydraulic power plant construction construction diagram of the connection structure.
3I is a view showing a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 in the main body 1 of the distribution input device of the marine pollution control machine according to the present invention, (593, 594, 595) constituting the SDU of a hydrothermal power plant (593, 594, 595), a fire heat sensor for detecting the position of the construction machine, And a thermocouple thermometer switch 103 for a sensing sensor, while distinguishing the reference point 102e from the measurement point 102d of the thermoelectric power generation 102c and the thermoelectric power generation 102c.
3j illustrates a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 in the main body 1 of the distribution and dispensing apparatus of the marine pollution control apparatus according to the present invention. A plurality of gear pumps 326 and a vane pump 142 showing the construction machine position adjustment arrangement of the hull locomotion control of the marine hydroelectric power station flood control 593,594,595 constituting the SDU, Fig.
FIG. 3K is a view showing a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 in the main body 1 of the distribution and dispensing apparatus of the flood control machine according to the present invention. (293) upper end of a riverbed dam (630) showing the structure of the dam operation of the flood control facility showing the construction machine position control arrangement of the hull locomotion control of the marine hydroelectric power plant flood control station (SDU) A plurality of flood control docks 811g of the flood control dam 811g, a first control shaft 231, a flood control method of the flood control dam, a flood control device of the flood control device, Dependent construction of floodplain in the upper part of the gate (293).
[31] FIG. 31 is a sectional view of a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 inside the distribution dispensing apparatus main body 1 of the marine pollution control machine according to the present invention. (293) upper end of a riverbed dam (630) showing the structure of the dam operation of the flood control facility showing the construction machine position control arrangement of the hull locomotion control of the marine hydroelectric power plant flood control station (SDU) A plurality of flood control docks 811g of the flood control dam 811g, a first control shaft 231, a flood control method of the flood control dam, a flood control device of the flood control device, A side view of the flood control panel located at the top of the gate (293).
3m illustrates a marine hydroelectric power production control unit 811b for producing the power of the marine pollution control unit 811 in the main body 1 of the distribution and dispensing apparatus of the marine pollution control apparatus according to the present invention. (293) upper end of a riverbed dam (630) showing the structure of the dam operation of the flood control facility showing the construction machine position control arrangement of the hull locomotion control of the marine hydroelectric power plant flood control station (SDU) A plurality of flood control docks 811g of the flood control dam 811g, a first control shaft 231, a flood control method of the flood control dam, a flood control device of the flood control device, A side view of the flood control panel located at the top of the gate (293).
FIG. 4 is a schematic view showing the entire construction of the flood control unit 811 inside the main body 1 of the distribution and dispensing apparatus of the flood control apparatus according to the present invention. (593,594,595), which has a connection structure with a hydroelectric power plant and an island tunnel (672).
FIG. 5 is a perspective view of a main part of a distribution and dispensing apparatus of a flood control apparatus according to the present invention, showing an enlarged view of a main part of a marine power plant, a hull position moving construction machine control unit 811a of a flood control unit 811, The barge line hull 591 at the upper end of the tank and the barge line 592 at the lower end of the holding tank are connected to the tank block piping 598 and the portable lug coupling pin shaft 606 and the portable lug 607 is a detailed assembly process showing a floating upright posture hull configuration at sea. A representative structure of the present invention of the hydroplaning plant float hood assembly hull assembly method showing the configuration of the hull position moving construction machine control section 811a of the flood control section 811 .
5a is a schematic view illustrating a structure of a ship in which a hull position moving construction machine control section 811a of a flood control section 811 is installed inside a distribution and dispensing apparatus main body 1 of a flood control machine according to the present invention, A schematic view of a partial partial detail view showing the front side of a steel structure inside a pipe having a double pipe structure and a welding connection basic method, and a construction view of a hydroelectric power plant lifting hood assembly hull assembly showing the construction of a flue control facility in a steel pipe manufacturing process.
5b is a perspective view illustrating a structure of a ship structure of a marine hydroelectric power plant according to an embodiment of the present invention. Partial partial details of the section of the section of the site in partial detail and the distribution structure of the flood control machinery of the entire construction of the dual structure holding tank and the flood control coupling system for explaining the overall construction method of the floating hydro- Assembly structure showing the construction of the device Hydro-electric power plant showing the distribution input device configuration of decomposition-coupled flood control machinery in block tank of flood control console showing disassembly in units of road, marine hydropower plant flood control block tank Construction diagram of assembly method.
5c is a schematic view illustrating a structure of a marine hydroelectric power plant in which a marine hydroelectric power plant is divided into units of a marine hydroelectric power plant according to an embodiment of the present invention; A schematic view of a hydroelectric power plant floodgate hull assembly method showing the construction of a block tank unit disassembly and coupling system of a flood control console showing a combination.
5D is a perspective view showing the construction of a double structure block tank of a marine hydroelectric power plant flood control unit 811a of a flood control unit 811 inside a distribution dispensing apparatus main body 1 of a flood control apparatus according to the present invention 598) Double structure block tank showing the preparation process of cutting and underwater welding with a marine safety tooling device band 621 on the upper half of a sea half diving operation line to assemble the welding connection individually. (598) partial structural block tank (598) partially detailing the double structure block tank (598) and the band guide (621).
Each of which is located inside the main body 1 of the distribution and dispensing apparatus of the flood control machine according to the present invention, A construction machine control unit 811a, a trolley 636, and a helicopter 647. The trolley 636 and the helicopter 647 are connected to each other, Construction diagram of hull assembly method.
FIG. 5E is a perspective view illustrating a disaster prevention preventing and regulating unit 811e of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control apparatus according to the present invention. A wire rope 19 is attached to a trolley winch 137 of an elevator machine room constructed of a speed reducer 251 and a motor body 192 on the roof of the trolley, 256) equipped with fire-fighting and disinfection countermeasures for fire-fighting and disinfection of all the components of the fire-fighting system, and the fire-fighting and disinfection line was constructed within one second. 811e) configuration of a distribution control system of a hydroelectric power plant dam construction machine.
FIG. 5F is a diagram illustrating an initial disaster prevention prevention unit 811e of the flood control unit 811 within the main body 1 of the distribution and dispensing apparatus of the flood control apparatus according to the present invention. (811e) of the earthquake relief prevention control section (811e) of the earthquake correction pump and fire prevention installation site of the elevator machine room of each building and building.
FIG. 5G is a schematic view illustrating a disaster prevention preventing and regulating unit 811e of the flood control unit 811 inside the dispensing and dispensing apparatus main body 1 of the flood control apparatus according to the present invention, a wire rope and a spray nozzle, (811e) of a disaster control system for a disaster prevention system.
5H is a diagram illustrating an internal structure of the disposal apparatus main body 1 of the flood control apparatus according to the present invention in which an accident prevention preventing and regulating unit 811e of the flood control unit 811 performs initial evacuation and lifesaving A diagram of the installation method of the distribution input device of the flood control machine showing the configuration of the disaster prevention preventive control part (811e) of the water pump connected to the water tank and the pressure tank.
5I is a schematic view showing the inside of the main body 1 of the distribution and dosing apparatus of the flood control apparatus according to the present invention in which a disaster prevention preventive control unit 811e of the flood control unit 811 and a stepwise non- (811e) of the carbon dioxide gas fire extinguisher according to the installation of the pipe nozzle fixation tank of the hydrostatic power plant.
FIG. 5J is a schematic view illustrating a multi-pipe fire hose and spray nozzle assembly model construction diagram and a disaster prevention prevention and control section 811e in an assembling process in the main body 1 of the dispensing and inputting apparatus according to the present invention. Diagram of distribution input device of power generation equipment flood control machine.
FIG. 5K is a diagram illustrating an example of a disaster prevention prevention control unit 811e of the flood control unit 811 inside the main body 1 of the distribution and dispensing apparatus of the flood control apparatus according to the present invention. Pump fire extinguisher fire prevention type collecting tank and alternate manometer turn type level balance pipe Noise disconnection preventive control part (811e) construction of the nozzle installation Hydraulic power plant Equipments of distribution control device of flood control equipment.
FIG. 5L is a diagram showing a state in which the disaster prevention preventing and regulating unit 811e of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control apparatus according to the present invention, A schematic diagram of the distribution input device of the hydroelectric power plant flood control machinery showing the configuration of the disaster prevention preventive control part (811e) of the early evolution and installation method of A fire easily by anyone of the tent nozzle type fire water supply method.
5A to 5L are diagrams illustrating a disaster prevention preventing and regulating unit 811e of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control apparatus according to the present invention, Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the following embodiments are provided by way of example so that those skilled in the art can sufficiently convey the spirit of the present invention. In the drawings, the width, length, and thickness of components may be exaggerated for convenience, so that the same reference numerals throughout the specification are intended to identify similar components The construction machinery of the water storage tank for the flood control equipment and the distribution input device for the marine hydroelectric dam for marine tunnel dams in the marine tunnel transportation equipment is generally used for the water storage tank of the flood control equipment and the marine tunnel transportation equipment for the marine hydroelectric dam Construction machines are used to control the storage of water into the body of the dispensing device of the flood control machinery. It is a small, medium and large-sized marine hydroelectric power plant connected to a marine tunnel transportation device that receives weather information from a barge hull at the top of the tank and a barge hull at the bottom of the holding tank. Meteorological observation equipment of structure It is equipped with water storage tanks and circular dams which receive weather information through radar, injection device to pump and valve, tunnel distribution input device to the connection structure of nozzle, non-power pump and cable car. , Which is a water storage tank for flood control facilities and a marine tunnel transportation system that improves the flood disposal of the flood control equipment for flood control equipment, Each circular water tank located in the center is made of stainless steel plate or plastic material that does not rust. The water tank is composed of double structure block tanks to store water in the inner block tank and to prevent the water from freezing in winter To the outer wall of the outer block tank, a heat insulating material is attached. In the middle between the inner block tank and the outer block tank, a heating device is provided with a heating device, and furthermore, an air conditioner of the cooling device and a heating fan and a cooling fan for maintaining the air are further constituted.

Meanwhile, the water tank, which is provided with tanks for controlling the flow of the water and the storage of the water,

 In the manufacturing method according to the portable coupling device which can be separated and separated from the crest, a steel plate with a high tension at the bottom of the tank at the lower part of the tank excluding the welding process and a lid stopper plate at the upper part of the tank are not attached. A large number of stainless steel plates set in accordance with the specifications of the inner block tank (width × length × thickness; 1.5 m × 1 m × 3 mm) equivalent to that of the square mold while being equipped with 60 cm are molded into a circular tank with bolts and nuts, The inner block tank and the outer block tank, in which each steel plate is joined to the machining hole of the press machine by a gasket before the joining by means of a hand tool, are fixed to the base of the bottom steel bar, and then sand and gravel The cement is mixed with the concrete finisher and the concrete spreader in the construction machine, the concrete batching plant, Concrete pumps can be used to construct the base of the water tanks with concrete mats by conveying them with a mixer truck. Concrete mats can be used to regulate the flow of water and storage of water suitable for hydropower generation. A power production control unit connected to a distribution shaft constituted to control the flow rate of the flow to the inside of the main body, and a control unit connected to the control shaft to supply groundwater and deep sea water in the river Which is equipped with a number of power pumps of the water intake system, to control the flow of the water to the inside of the main body, and is provided inside the main body as a dam control control unit of the dam to rapidly control floods (Hereinafter referred to as " flood control equipment " The distribution input device of the flood control machine is abbreviated as the main body)

×핀 몸체 직경∮;500×2×10∮mm)을 접속하면서 핀 연결축 끝단 부위로 가공된 나사산 위치에 너트로 분해결합을 하면서 동시에 예인선에 이송된 이중구조블록탱크는 반잠수작업선에 탑재되는 밴드지그대에 의해서 조립되는 지주탱크 상단의 바지선 선체(가로×세로×높이×철판두께;600M×800M×40M×18mm)와 지주탱크 하단의 바지선 선체는 관교량(가로×세로×4곳 모서리 직경×뚜께×제작단위;15M×15M×π15M×24m m×1Km)에 지주탱크와 내부 블록탱크의 둘레면으로 구성되는 외부블록탱크에 각개로 결합 구성된 크기는 소형의 해양발전소 부양식독(가로×세로×높이;600M×800M×800M)에 중형의 해양발전소 부양식독(가로×세로×높이;2Km×3.2Km×2Km)와 대형의 해양발전소 부양식독(가로×세로×높이;10Km×10Km×10Km)으로 해양수심에 따라 구성 작동하면서 동시에 휴대용 러그 핀이 러그 연결축의 가공 홀에서 볼트 너트 체결되면서 동시에 러 그 핀이 이탈되지 않도록 핀 꺾기로 설치를 마무리하고 지주탱크 하단의 바지선 선체의 받침대 조절기구 작키베드 와 코아드릴(직경 350Ø 또는 400Ø)로 구비된 홀 캇팅 굴착 드릴 장치가 탑재되어 구성된 해양수력발전소는 침몰방지 부력조절 장치에 의해 해상에서 조립되면서 지주탱크 상단의 바지선 선체의 상단의 갑판데크 상단과 하단의 각개 위치로 구성하는 분사노즐(노즐구멍 지름 3mm 또는 5mm 노즐수량 70개소 7마디로 된 방사선 형식의 틈새와 490여 개 노즐구멍이 구비된 장치노즐)과 배관노즐 몸체(B) 내부에 소방호스 내수압을 갖춘 방화수에 의해 분사노즐 틈새로 토출분사수와 커텐물막이 토출되면서 다수개로 타오르는 불기둥을 감쪽하는 순간에 제거하면서 동시에 태풍과 토네이드기류의 흐름을 조절하는 수해조절설비의 수해조절기계의 분배투입장치 다수개의 분사노즐은 본체 내부로 수해조절이 이루지게 구성하는 재해차단 예방조절부로 수해조절 공정이 구성된 재해지역부터 원천 봉쇄차단하여 재해는 소멸 제거가 이루도록 구성되는 수해조절설비의 수해조절기계의 분배투입장치에 관한 것이다.The distribution input device of the marine tunnel power plant marine tunnel power plant flood control device for controlling the flow of the flow of the flood control facility constituting the main body includes a holding tank and an outer block tank, The length of the pin connecting shaft for connecting the portable lug to the outer wall is 800 mm, the diameter is 300 mm, the diameter of the iron lug of the portable lug is 150 mm, the connecting lug is connected to the portable lug with the pin connecting shaft interposed therebetween, 30mm) has a portable lug pin (length ×

× pin body diameter ∮; 500 × 2 × 10 ∮ mm), the double structure block tank transferred to the tug line at the same time while being disassembled with the nut at the thread position processed to the end of the pin connection shaft is mounted on the semi-diving operation line (Width × length × height × thickness of steel plate: 600M × 800M × 40M × 18mm) at the top of the holding tank assembled by you and the barge hull at the bottom of the holding tank, The size of each of the outer tank tanks consisting of the holding tanks and the inner block tanks is 15 m x 15 m x 15 m x 24 m m x 1 km. (Length × height × height: 2Km × 3.2Km × 2Km) and a large marine power plant flood control stand (width × length × height: 10Km × 10Km × 10Km ) While operating according to the ocean depth, while the portable lug pin Lug connection hole Finish the installation by finishing the bolt nut in the machining hole of the lug connection shaft so that the lug pin is not detached at the same time, and the hole equipped with the key bed and core drill (350 Ø or 400Ø in diameter) The offshore hydroelectric power plant constructed with cutting excavating drill unit is assembled at sea by anti-sinking buoyancy control device, and the injection nozzle composed of the upper and lower positions of deck deck at the upper part of the barge hull at the upper part of the holding tank (nozzle hole diameter: 3 mm Or device nozzles with a gap of 7 mm radius of radiation type and 490 nozzle holes with 70 mm number of 5 mm nozzles) and fire hose inside the piping nozzle body (B). And the curtain wall is discharged, and a large number of burning pylons are removed at the moment of winding away, while typhoons and tornadoes Dispensing device of disinfection control system of air control system to regulate flow of air stream Dispensing system of disinfection control system of disinfection control process that is composed of disinfection prevention control unit which is constituted so that disinfection control is performed inside the main body of a plurality of injection nozzles. To a disinfection and disinfection apparatus for a flood control system of a flood control facility.

×핀 몸체 직경∮;500×2×10∮mm)을 접속하면서 핀 연결축 끝단 부위로 가공된 나사산 위치에 너트로 분해결합을 하면서 동시에 예인선에 이송된 이중구조블록탱크는 반잠수작업선에 탑재되는 밴드지그대에 의해서 조립되는 지주탱크 상단의 바지선선체(가로×세로×높이×철판두께;600M×800M×40M×18mm)와 지주탱크 하단의 바지선 선체는 관교량(가로×세로×4곳 모서리 직경×뚜께×제작단위;15M×15M×π15M×24m m×1K m)에 지주탱크와 내부 블록탱크의 둘레면으로 구성되는 외부 블록탱크에 각개로 결합 구성된 크기는 소형의 해양발전소 부양식독(가로×세로×높이;600M×800M×800M)에 중형의 해양발전소 부양식독(가로×세로×높이;2K m×3.2Km×2Km)와 대형의 해양발전소 부양식독(가로×세로×높이;10Km×10Km×10Km)으로 해양수심에 따라 구성 작동하면서 동시에 휴대용 러그 핀이 러그 연결축의 가공 홀에서 볼트 너트 체결되면서 동시에 러그 핀이 이탈되지 않도록 핀 꺾기로 설치를 마무리하고 지주탱크 하단의 바지선 선체의 받침대 조절기구 작키베드와 코아드릴(직경 350Ø 또는 400Ø)로 구비된 홀캇팅 굴착 드릴 장치가 탑재되어 구성된 해양수력발전소는 침몰방지 부력조절 장치에 의해 해상에서 조립되면서 지주탱크 상단의 바지선 선체의 상단의 갑판데크 상단과 하단의 각개 위치로 구성하는 분사노즐(노즐구멍 지름 3mm 또는 5mm 노즐수량 70개소 7마디로 된 방사선 형태의 틈새와 490여 개 노즐구멍이 구비된 장치노즐)과 배관노즐 몸체(B) 내부에 소방호스 내수압을 갖춘 방화수에 의해 분사노즐 틈새로 토출분사 수와 커텐물막이 토출 되면서 다수개로 타오르는 불기둥을 감 쪽하는 순간에 제거하면서 동시에 태풍과 토네이 드기류의 흐름을 조절하는 수해조절설비의 분배투입장치 다수개의 분사노즐은 본체 내부로 수해조절이 이루 지게 구성하는 재해 차단예방 조절부로 수해조절 공정이 형성된 재해지역부터 원천 봉쇄차단하여 재해는 소멸 제거가 이루도록 구성되는 수해조절설비의 수해조절기계의 분배투입장치에 관한 것이다.The distribution input device of the marine tunnel power plant flood control device for controlling the flow of the flow of the flood control facility constituting the main body comprises a holding tank and an inner block tank, an outer block tank, and an inner tank wall and an outer wall The length of the pin connection shaft for the lug connection is 800 mm, the diameter is 300 mm, the length of the iron lug of the portable lug is 150 mm, the connection lug is connected to the pin through the pin connection shaft, There is a portable lug pin (length ×

× pin body diameter ∮; 500 × 2 × 10 ∮ mm), the double structure block tank transferred to the tug line at the same time while being disassembled with the nut at the thread position processed to the end of the pin connection shaft is mounted on the semi-diving operation line (Width × length × height × thickness of steel plate: 600M × 800M × 40M × 18mm) at the top of the holding tank assembled by you and the barge hull at the bottom of the holding tank, The size of the small-sized marine power station floodplain installed in the outer block tank consisting of the holding tank and the inner surface of the inner block tank at 15M × 15M × 15M × 24m × 1K m) (Length × Length × Height: 2Km × 3.2Km × 2Km) and a large marine power station floating dishwasher (width × height × height: 10Km × 10Km × height × height: 600M × 800M × 800M) × 10 Km), while operating according to the depth of the sea, The lug connection is completed by finishing the bolt nut at the machining hole of the connecting shaft and the lug pin at the same time so that the lug pin can not be detached, and the hole adjusting mechanism of the barge hull at the bottom of the holding tank and the hole cutting equipped with the coarse bed (350 Ø or 400Ø) The marine hydroelectric power plant constructed with excavation drill unit is composed of a spray nozzle (nozzle hole diameter of 3 mm or more) which is composed of the upper and lower deck decks at the top of the barge hull at the top of the holding tank, 5 mm Nozzles Number of nozzles in which the number of nozzles is 70 (7 nozzles) and 490 nozzles (490 nozzle holes) and the inside of the piping nozzle body (B) are filled with fire water with water pressure. As the curtain wall is discharged, a large number of burning pits are removed at the moment of checking, while typhoons and tornadoes Dispensing device of disinfection control system that controls the flow of de fl ews A number of spray nozzles are constructed to prevent flood disasters inside the main body. To a distribution input device of a flood control equipment of a flood control facility.

FIG. 2 is a perspective view showing a part of a whole arrangement of a dispensing and dispensing apparatus of a flood control apparatus for controlling a flow rate of a flow of a stepped dam rotating water channel located at each corner ridge of a mountain of the main body 1 according to the present invention. 3 through 5, the water is inserted through both sides of the distribution shaft 357 constituting the dispensing apparatus main body of the flood control apparatus according to the present invention. Water storage tank and water storage facility water storage The control shaft (231) is connected to the marine tunnel transportation system (941), and the distribution dam construction equipment of the power generation dam construction machine and the borehole (936), which is composed of the inside of the ocean hydro power plant flood control station (593,594,595) The construction machine and the borehole 936 are provided with a separate body of a coreless drill 917 which is connected to a pipe rack 854 equipped with a drilling machine for crude oil 908, many And a power pump 304 for pumping groundwater located in the aquifer of the descending portion while pumping groundwater over the surface of the river and distributing the groundwater discharge to control the flow of the groundwater A plurality of distribution shafts 357 for distributing and storing the flow of the water in the water storage tanks and the intake water dams, and a marine hydroelectric power plant floating pick-up 593,594,595 of the marine tunnel transportation device 941 of each of the control shafts 231 (593, 594, 595) connected to one end of the control shaft (231) to adjust and disassemble the hull position of the marine hydroelectric power plant (593, 594, 595) And a flood control unit 811 for controlling the flood control unit 811a. And a flood control unit (811) connected to the distribution shaft (357) for controlling the flow of the flow rate to the distribution dispenser main body (1) of the flood control machine on each of the distribution shafts (357) The distribution shaft 357 is connected to the distribution shaft 357 so as to control the flow of the flow rate to the interior of the distribution and dispensing apparatus main body 1 of the flood control machine A power transmission control unit 811c for transmitting the power constituted by the flood control units 811, and a control unit 811c for controlling the flow of the ground water stored in the storage tank and the control dam And the loess mixture is installed in the dam, the power pump (304) is provided to open the water gate and the valve (409) to discharge the yellow water mixture control water to the ocean in large quantities to prevent the harmful red tide generation, The flow of the flow rate to the inside of the main body 1 And the water stored in the mountain-top water intake dam 680 is connected to the valve shaft 409 of the water intake dam 611. The water intake control valve 811 is connected to the distribution shaft 357, A plurality of nozzles 10 connected to the power pump 304 and the piping and the fire hose 9 are provided so as to establish a connection with the flood control machinery throughout the crest of the lower crest of the crest, The flood control unit 811 receives the power supplied from the hydro-hydroelectric power production control unit 811b for generating power from the hydro-hydroelectric power generation unit 811c from the power transmission control unit 811c, The flood control unit 811 is provided with a main body 1 of a flood control apparatus for providing flood control facilities for preventing natural disasters such as forest fires, sandstorms, heavy snow, extreme storms, floods, droughts, landslides, Injection into pump and valve into the inside of A disaster prevention preventive control unit 811e configured to control the flow rate of the flow to the connection structure of the tooth nozzle, the non-powered pump, and the cable car 256, and a disaster prevention preventive control unit 811e connected to the control shaft 231, 672 are inserted through the respective control dams and are installed in the main body 1 of the distribution control device for the flood control machine, The hydraulic power generator located at the marine hydroelectric power plant of the marine tunnel traffic device 941 is connected to the inlet port 269 for controlling the flow rate of the algae, A power production control unit 811b connected to a distribution shaft 357 composed of flood control machines for controlling the flow rate of the water to the inside of the river 1, Deep sea water supply capacity (811g) of the dam comprising a plurality of power pumps (304) of the dam, which is composed of flood control machinery for controlling the flow rate of the flow into the main body (1) of the flood control equipment, The dispensing device of the flood control machine for controlling the flow of the flow into the main body (1) of the dispensing device of the regulating machine is provided, so that the flood control of the flood and the drought can be quickly accomplished.

Preferably, the distribution shaft 357 is connected to the marine hydroelectric power plant flood control station 593, 594, 595 of the marine tunnel transmission device 941 of the control shaft 231, And the water is supplied to the water storage tank 292 and the water intake dam 680 through the wall of each water intake dam 680. The water storage tank 292 and the water intake dam 680 are connected to each other by a plurality of valves A fire pump 45 connected to the piping 14 and a fire nozzle located in a part of the fire hose 9 to the plurality of piping 14 and the fire hose 9, A distribution dispensing apparatus of an artificial tunnel 672 in the form of a double pipe structure in which a distribution dispensing apparatus main body 1 of a flood control machine for controlling the flow rate of the flow of the water gate 293 and the rotating water channel 294 is installed, The artificial tunnels 672 of the respective intake water dams 680 constituting the inside of the distribution and dispensing apparatus main body 1 are connected to the walls of the water intake dams 680 And a plurality of reflecting mirrors 804 are provided to adjust the movement of the fish and shellfish located in the inner portion of the island 672 located in the center of the dam to the scattering site, 806 are connected to a plurality of disaster prevention waterways 17 while rotating at a predetermined inclination angle along the outer circumferential surface of each water intake dam 680 to control opening and closing of the water gate 293 of each water intake dam 680 A water distributing and dispensing apparatus main body 1 for controlling flow of a flow composed of an air compressor 80 and a tongue winch 137 for a water gate opening and closing regulating device having a connection structure, A plurality of water storage tanks 292 located in ridgeline valleys at the lower part of the mountain top to provide a position adjustment connection as a distribution shaft 357 and the water intake tanks 680 The tunnel 672 is connected to the water gate 293 and the rotary water passage 294, Of the main body 1 of the distribution control device for controlling the flow of the flow of the flood control facilities accommodated in the respective water storage tanks 292 and the respective intake dams 680, Water is inserted into each of the water intake dams 680 and is coupled to the outer circumferential surface of the control shaft 231 to be connected to a plurality of disaster prevention waterways 17, And the flow rate of rain water and yellow soil mixture of natural water is adjusted to the flow rate of the flood control facility accommodated in the control shaft (231) and the distribution shaft (357) for dispersing and storing the control water storage tank and the control dam on each coastal beach, (680), and at the same time, each road for flood control to control the flow of the flow into the main body (1) of the flood control machine is equipped with a flood control facility construction machine, Of flood control A it is equal to the type of marine hydroelectric power generation control section (811b) and a power transmission control unit for transmitting power distribution in the flood control machine consisting of (811c) input device to produce.

Preferably, the distribution input device construction machine of the flood control machinery constituting the individual roads for flood control in the artificial tunnel 672 of each water intake dam 680 passes through the wall of each intake water dam 680, A plurality of water storage tanks 292 located in ridge valleys at the bottom of the ridge where the tunnels 672 are connected to the outer circumferential surface of each of the water intake dams 680 and the water gates 293 A plurality of nozzles 10 connected to the power pump 304 and the piping and the fire hose 9 while opening the valve 409 of the intake dam is connected to the water storage tank 680 of the rotary water passage 294, The connection of the flood control machine which controls the flow of the flow rate to the whole crest of the lower crest of the crest of the crest is adjusted so as to quickly cope with the flood control, and at the same time the pavement installed in the main body (1) Road safety devices (864), asphalt spreaders (872) and unladen road bulldozers Of 855 in the excavator 856 and the roller 863 parts ridge comprised of a construction machine gakgae road is composed of a distribution chute construction machine according to the flood control machine.

    Preferably, the marine hydroelectric power plant submersible vessel 593, 594, 595 of the marine tunnel traffic apparatus 941 of the control shaft 231 is a double pipe structure of the ridge line, and the passageway through which the tunnel 672 is inserted is connected to the marine tunnel transportation apparatus And a plurality of valves 409 are provided in the water storage tank 292 and each water intake dam 680 through the wall surface of each water intake dam 680. [ A fire pump 45 connected to the pipe 14 and a fire nozzle located in a part of the fire hose 9 to the plurality of pipes 14 and the fire hose 9, 290 and 290 and a flood control section 811 of the flood control section 811 for controlling the flow rate of the flow in the main body 1 of the rotating water channel 294, And a flood control unit 811 for controlling the flood control unit 811a of the flood control unit 811, The trough tunnels 672 of the respective intake dams 680 constituting the inside of the trough tunnels 672 pass through the walls of the respective intake dams 680 and are located inside the trough tunnels 672 located at the center of the dam The reflector 804 is provided with a plurality of reflectors 804 for adjusting the movement of fishes and shellfish to the scattering site, and at the same time, illuminating facilities 806 are installed inside the tunnel. An air compressor 80 connected to a plurality of disaster prevention waterways 17 while being rotated at an inclination angle to control opening and closing of the water gate 293 of each water intake dam 680 and a winch 137 A tackle winch 137 for a water gate opening / closing control device having a connection structure with an air compressor 80 for opening and closing a water gate 293 for controlling a flow rate of a flow formed in the main body 1, An artificial tunnel 672 of the connector 680 is inserted into the through-hole, A plurality of water storage tanks 292 located in ridge valleys at the lower part of the mountain top provided by the distribution shaft 357 and a tunnel 672 in the water gate 293 and the water passage 294 in each water intake dam 680 A plurality of control shafts 231 for controlling the flow of the flow of the flood control facilities accommodated in the respective water storage tanks 292 and the respective intake dams 680; Water is inserted into each of the water intake dams 680 and is coupled to the outer circumferential surface of the control shaft 231 and connected to a plurality of disaster prevention waterways 17 so that natural rainwater and a mixture of loess soil A control shaft 231 for dispersing and storing the flow rate in the control water storage tank and the control dam in each coastal beach and a water intake dam 680 for controlling the flow rate of the flood control facility accommodated in the distribution shaft 357 And a flood control system that controls the flow of the flow into the main body (1) of the distributing and inputting apparatus of the construction machine of the flood control system is provided, so that the hydroelectric power generation And a power transmission control unit 811c for transmitting power to the control unit 811b.

     The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility adjustment section 811a is provided with a seal 156 formed in an axial bar formed in a cylinder 126 used as a transportation machine constituted by a dispensing apparatus of a flood control construction machine for controlling flow of a flow rate A high pressure hose 190 and a coupling 29 in the front of the cylinder 126 and a crank 248 as valve devices and a linkage 249 as a connecting device to the crank 248 The hydraulic cylinder 623 provided at the same time as the heavy equipment construction machine The cylinder 126 and the piston 127 constituting the cylinder block 822 are connected to the piston seal 822 and the piston seal 823 via the bush seal 824 and the wing ring 825 with the slide ring 826 and the diiferous bushing 827 A mist seal 828 and a load seal 829 are provided with a dust seal 832 and a mist seal 834 on the backup seal 830 and the load seal and backup seal 831, A piston ring 836 and a circumference surface of the rubber zero piston 127 of the multistring 837 and the inside of the cylinder 126 are classified into a high pressure valve and a low pressure valve of the hydraulic pump and a motor and a hydraulic tank Hydraulic hoses are connected to one end of the marine hydroelectric power station floating pick-up 593, 594, 595 of the marine tunnel communication device 941 of each adjustment shaft 231 to the interior of the main body 1, Inside the main body (1), which is provided for movement control and disassembly and assembling of the hull position of the hydro-power station flood control console (593,594,595) The moving facility adjustment section 811a of the section 811 includes a distributing and inputting apparatus of a construction machine of a flood control system for controlling the flow of the flow, and the standard atmospheric pressure of the hull position of the floating management platform is a pressure And a distributing and inputting apparatus of a construction machine connected to the distribution network.

     The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The apparatus control unit 811a includes a distributing and inputting apparatus of a motor body 192 constituted by a distributing and inputting apparatus of a construction machine of a flood control system for controlling the flow of a flow, 195 and the body frame 196 to the stator assembly 201 and the motor protection casting frame 202 to the rotor assembly 199 and the front rotary support 200 on the body front reinforcing steel plate 197 and the rotary shaft 198 The terminal box 203 and the lifting bolts 204 are provided with the terminal box cover 205 and the rear rotation bearing 206, A fan 208 and a fan protection cover 209 are provided on the rotor core 207 and a stator core 211 and a stator winding 212 are connected to the rotor core 210 to form a connection assembly structure of hydroelectric power generation, Dispensing of construction machinery with harmonics coupled with a machine, which is powered by a diesel engine generator (226) and connected to each pump and compressor by a tug winch (137) for a gate opening / closing control device with a rope or a chain wound around the body It is preferable that it is constituted of charging devices.

     The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility controller 811a includes a control block diagram consisting of distributing and dispensing devices of a flood control construction machine for controlling the flow of the flow, and a pump controller for controlling the pump power source 272 according to the configuration of the multi- The power supply 273 is separated and divided so that the control power supply 273 is brought into contact with the output circuit end of the drive signal contact output circuit 279 of the power supply sprinkler 275, The switch contact of the post pump power supply 272 The microcontroller 276 is connected to the switch 47 via the switch input circuit 277 and the switch input circuit 277 via the decouple power supply circuit 275 of the control power supply 273 while the contacts are connected so as to cause the respective pumps to be in an emergency operation. And the motor overload signal input circuit 280 is connected to the unit 276 and the drive signal contact output circuit 279. The motor overload signal input circuit 280 is connected to the unit 276, The circuit contacts of the power source 272 are connected to the contacts of the inverter 47 and the inverter operation data input / output circuit 281 is connected to the inverter 47 and the microcontroller 276 through mutual input and output circuits The discharge pressure transmitter 284 is connected to the pressure sensing circuit 282 and the circuit 282 having the flood control process in the main body 1 is reversed and inputted to the unit 276 The suction / discharge pressure switch 285 is connected to the microcomputer unit 276 through the external state input circuit 283, and the input circuit 283 is reversed. It is preferable to configure the dispenser and dispenser of the flood control construction machine as an automated machine having a connection structure inside the float 811a of the float 811.

     The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control unit 811a is a control system using a microcomputer of a multi-stage multi-stage pump and a digital pID control system. The distribution input device of the flood control construction machine in which the unmanned camera is installed and the inverter system in which the fire water is discharged from the injection nozzle and the equipment of the control system is connected is provided with the above- The flammable gas 164 stored in a plurality of fire extinguishers is stored together with the fire water in which the water pressure of the fire hose is retained in the fire extinguisher nozzle body while the ignition object 166 having the flushing control process formed therein is burned The flame 294 is discharged at the same time as the discharge jet 38 and the discharge jet number curtain water film 39 are blown out into the gap 15 of the fire-fighting nozzle 10 while being discharged to the outside of the fire extinguisher body at the same time, , The scene is transmitted to the unmanned camera 184 installed at the height of a telephone pole around the fire scene and is transmitted to the monitor 52 through the information detection function of the pump control server 51 of the multi- The microcomputer control of the three-stage multi-stage pump 8 configured to display the situation at the time of the fire is provided with a digital control system, an inverter 47 speed control system and an algebraic control system, It is composed of a mobile equipment value adjusting unit (811a) with an automated connection structure inside the unit to the distribution chute for a construction machine of the flood control is preferred.

     The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control unit 811a is a control unit for controlling the flow of the flow rate of the flood control unit 811a, The disinfection water is sensed by the solenoid valve 76 of the nozzle hose 9 and the ballast 499 which is a fire water level sensor for detecting the disaster prevention water and the air A hose 109, and an air hose 109, An air nipple 110 for socket-type sockets connected to the ground, an add balloon 77 for forming a life-and-death structure before and after the disaster, and an upper part of the upper part of the machine room The diesel engine generator 226 is operated and the power source 46 is supplied to the motor control module 106 of the prime mover 80 by the air generated by the operation of the motor 192 of the prime mover 80 to the receiver high- The emergency valve 84 of the disaster prevention air piping line 181 is deployed in the event of a disaster, after air pressure is constantly generated in the receiver high pressure storage tank 145 before the occurrence of a disaster so that air of a certain pressure is stored in the inside of the building The pressure control switch box 108 of the electric motor control module 106 and the crank (not shown) are connected to the pressure gauge 101 and the pressure switch 104 in the compressor main body 263, 242 and a linkage 249 and a linkage 249 are provided on the crank handle handle and the motor and the motor 192 to which the piston 127 and the cylinder 126 are attached are provided with a reducer 250 and a reducer 251 corresponding to the reducer 251, A belt cover 261 is installed on the periphery of the pulley 250 and the V-belt 252 to adjust the rotational speed of the prime mover 80 while simultaneously connecting the belt body 252 to the compressor body 263 A suction filter 262 for catching foreign substances is installed in the air intake port 269. An air discharge port 270 to which the piston 127 of the compressor main body 263 and the cylinder 126 are attached, The pressure gauge 101 connected to the safety valve 258 and the pressure switch 104 are connected to the high voltage storage tank 145 at a rate of 6 kg per 1 cm 2 of air pressure ) Operation and the pressure in the high-pressure storage tank 145 falls below 6 kg per 1 cm 2 of air pressure The operation of the synchronizer 192 is resumed and at the same time the air valve 257 and the automatic valve 259 are provided with the drain valves 60 in the high pressure reservoir tank 145 and at the same time the air hose 109 and the air hose connector nipple Stage screw cooler 147 in which heat is dispersed into the oil cooler 157 without the inner cooler 170 and the aft cooler 182. The air cooler 157 is provided with an air cooler A basket 42 and a bed nozzle 172 serving as a lifesaving structure are provided on the air tub 730 for life structure which is connected to the suction port 269 and the discharge port 270 so as to be detachably connected together by a connecting device, It is preferable to configure the distribution machinery and equipment of the construction machine of the flood control by the automatic machine having the connection structure inside the hinge locomotion facility control unit 811a.

     The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control section 811a includes a hydraulic cylinder 623 constituted by a distributing and inputting apparatus of a flood control construction machine for controlling the flow of a flow, a power transmission device part, a multi-axis drill on an automatic adjustment lathe, Metalworking machines for shearing and winding machines, casting machines and synthetic resin machines for injection and extruding machines, woodworking machinery for hot presses and woodworking machines, binding machines for printing machines and rotary machines for offset printing, Leisure facilities It is provided in the rocket and the robot is preferable that is composed of the supporting hull sikdok positioning equipment control unit (811a) distributed input system for a construction machine of the flood control by solenoid valves 76, automatic machine with a connection to the internal structure.

     The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control section 811a is connected to the geared inverter 290 and the electric motor 192 to which the oil separation tank 288 is adhered and which is constituted by the distribution input devices of the construction machine of the flood control system for controlling the flow of the flow rate Is connected to the air inlet 269 of the receiver high pressure storage tank 145 by being disassembled and assembled by the suction valve 289 into the skewer compressor main body 263 and at the same time is attached inside the aftercooler 182 and inside the dryer 291 The suction filter 262 and the suction filter 262 attached to the inside of the dryer 291 (811a) of the flood control system (811a), which is equipped with a dispenser and a dispensing device of a flood control construction machine. .

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control unit 811a includes a twin-bodied cannon-type fire hydrant, an underground fire hydrant (179a) for an extinguishing type fire hydrant, an extinguishing fire hydrant made up of a disinfection-controlled construction machine for controlling the flow of the flow, An underground fire hydrant manhole at the bottom of the road surface of the road surface of an underground twin fire hydrant (179b) is partially constituted, while a fire hydrant box (160) and a fire hydrant box (160)A large fire hydrant system (a) and a small scale fire hydrant system (b) are provided in the water supply port 168 and a fire hydrant dedicated fire brigade 169 of the watertight port, and a fire hydrant 179 is provided. It is preferable that the automatic machine having the connection structure inside the main body 811a is constituted by the distribution dispensing devices of the flood control construction machine.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- In the sprinkler system constituted by the distributing apparatuses of the construction machine of the flood control system for controlling the flow of the flow rate, the facility control unit 811a includes a plurality of drencher heads 299a, b, c and d and the reflection tube 112 are connected to the fusible usable metal 113 and the stop valve water valve 114 through the underground pipes 115 and at the same time, 117 and the rich circuit switch 118 to the bell 119 and the alarm valve 120 via the test valve 121 and the high- It is preferable that the automatic alarm system is provided with vibration alarm devices 300 in the automatic alarm system 122 and an automatic machine having a connection structure inside the floating pick-up hood position shifting facility control unit 811a Do.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The operation of the piston pump 127, which is a reciprocating pump, and the operation of the plunger 253, which are constituted by disposing and dispensing apparatuses of a flood control construction machine for controlling the flow of the flow rate, The rotating shaft 198 has a plurality of gears connected to a plurality of gears to replace the pair of gears 250 so as to be connected to the rotary pump 311 and the turbine pump 140 and the wing pump 327 to a handle To the left and right to provide suction and discharge respectively in the two chambers Can be easily mounted on a wall by a simple pump, and is widely used for transferring the oil of the drum or for discharging the water under the ship. At the same time, the sewage pump 309 is installed, It is preferable that it is composed of an automatic machine having a connection structure inside the part 811a and a distribution dispensing apparatus of a flood control construction machine.

     The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control unit 811a includes a control valve 459 and a general-purpose faucet 496 of a piping accessory, which are constituted by distributing and inputting apparatuses of a flood control construction machine for controlling the flow of the flow, The distribution input device of the construction machine for flood control is provided with a pressure reducing valve 460 and a pilot operated pressure reducing valve 461 for the adjustment valve 459 and a secondary side sensing hole 461 for the magnetic pressure reducing valve 461, The diaphragm 463, the pilot valve 464, and the main valve (not shown) 466 to the main valve spring 467 and the adjustment spring 468 to the automatic pressure regulating valve 469 and the threaded automatic pressure regulating valve 470a to the flange pressure regulating valve 471b and the safety valve 472, And a temperature control valve 477 and an automatic level regulator 478 for the automatic water dispenser 478 are connected to the safety valve 473 and the relief type safety valve 474 for the steam, Type automatic air exhaust valve 483 and a refrigerant pipe 482 are connected to an automatic air supply device 479a, an air vent valve 481 in the automatic level regulator 480 and an automatic air exhaust valve 482 for steam type steam, A bellows-type supply valve 487 to the refrigerant stop valve 485 and the feed valve 486 and a diaphragm-type supply valve 488 to the expansion valve 489 and the diaphragm- A valve 490 is provided with a bellows type expansion valve 491 and a rich valve 492 with a refrigerant pressure regulating valve 493 and a solenoid valve 494 The general faucet 496 of the faucet body 529 and the packing box 530 is provided with a packing pusher 531 and a handle 532 to the stopper 532. [ The disk packing 535 and the waterproof packing 536 are installed on the disk 534 and the disk 534 with the inner aging material packing 537 and the rubber film and the Teflon film 538, It is preferable to constitute an automatic machine having a connection structure inside the regulating portion 811a and a distribution dispensing apparatus of a flood control construction machine.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control unit 811a is provided with a gland 345 and a liquefied lantern ring packing 346 with a lantern and a lantern are attached to a standard gland packing 344, The packing 347 is provided with a double gland type packing 348 and a throttle bush attaching packing 349 so that pump driving is provided to provide the cooling water outlet 350 and the water 351 with a cooling water inlet 352, The water jacket attaching packing 353 for the inner side cooling bottle and the inner cold The auxiliary gland 355 and the cooling liquid chamber 356 for leakage liquid are provided in the chamber 354 and the gland packing weaving method is applied to the eight thread weaving 358 and the bag weaving 359 by the weaving weaves 360 A stop 363 at the flashing hole 361 and the O-ring 362 and a quenching 368 at the sealing ring 366 and the passive ring 367 at the sealing end 365 to the middle ring 364, A pressure 374 acting on the balance 334 and an unbalance 335 on the front surface of the impeller 374 is applied to the handle 371 and the partition wall 372 by an axial pushing load 373, The suction pressure 377 and the back pressure 378 to the balance hole 376 and the discharge pressure 381 to the front wear ring 380 of the balance hole 376 are adjusted so that the operating pressure 375 can be adjusted, The pressure distribution due to the installation of the ring 382 and the under wing 384 and the impeller arrangement shaft portions 390 of the multi-stage pump of the impeller 385 are controlled by the water- The water hammer pump 393 having the water separator 387 and the water supply coupling 388 in the impeller arrangement 386 of the multi-stage pump is configured such that the water hammer pump 393, It is preferable that the operation unit 389 is provided with an automatic machine having a connection structure inside the floating pick-up hood position shifting unit control unit 811a and a distribution input unit of the construction machine of the flood control system.

     The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control section 811a includes a fire pump constituted by a distribution input device of a flood control construction machine for controlling the flow of a flow and a plurality of slew valves 403 constituting a prime mover, A packing press nut 408 is attached to the slit valve 406 and the packing press 407 in the lid 405 and a packing 412 is provided in the handle 410 and the handle nut 411 in the valve 409, The wedge gate valve 413 is divided into a single valve 414 and a flexible valve 415, The stop valve 418 is distinguished by the flange type glow valve 419 and the flange type angle valve 420 and is divided into the body 421 and the cover disk A valve 425 is attached to the disc 423 and the lid attaching valve seat 424 to the bonnet 422 and the handle 427 to the valve pusher 426 and the packing presser ring 429 to the lid fitting ring 428, A packing nut bolt 433 is attached to the screw cap 431 and the cover bolt 432 to the pusher 430 and a nut 435 for the cover bolt is fastened to the pin 434 and a handle nut 437 and the detent screw 438 with the gasket 441 in the washer 439 and the packing 440 while the valve pusher 442 is connected to the plane pusher 442a and the conical pusher 442b in a spherical A push button 442c and a stutter press 442d) while the one-piece cock 443 is provided with a bronze screw main cock 445 and a cast iron flange- Type cock 444 is divided into gland cocks 447 and the handle bolts 446 at the same time while the two-type cock 444 is composed of handlebars 450 in the three-bangkok 448 and the four-way cock 449, The check valve body 454 is divided into a swing type check valve 452 and a lift type check valve 453 while a disc pin 457 and a plug 458 are provided on the disc 456, ), And is preferably an automatic machine having a connection structure to the inside of the floating pick-up hood position shifting equipment control unit 811a, and it is preferable to be constituted of dispensing equipment of the construction machine of the flood control system.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control section 811a includes an electric motor 192 constituting a plunger pump 148 of a reciprocating pump of the positive displacement type, which is constituted by a distributing and inputting apparatus of a flood control construction machine for controlling the flow of a flow, The operation of the diaphragm pump 144 and the operation of the wing pump 327 are constituted while providing the connection of the discharge merging pipe 4 and the belt cover 261 to the pipe 3 and simultaneously the inside of the rotary pump 337 The external gear pump 326 and the other rotary pump rotor 338 An automatic machine equipped with a discharge port 270 at an inlet 269 and a water connection and a connection structure to the inside of the floating pick-up hood position shifting facility control unit 811a, .

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The turbine pump 140 is connected to the turbine pump 140 and the turbine pump 140 is connected to the rotating shaft of the electric motor 192. The turbine pump 140 is connected to the turbine pump 140, A plurality of gears are connected to a plurality of gears for replacing the gears with the gears 198 so as to perform the pump rotational motion while at the same time the discharge joining pipe 4 and the priming 339 are connected to the suction joining pipe 3 The axial flow pump 341 of the propeller pump 146, The viscous pump 343 and the viscous pump and the impeller 143 are installed in the pump 342. The position of the closed position and the opening position of the positive displacement pump in which the flood control process is formed inside the main body 1 It is preferable that the automatic dispensing apparatus of the construction machine of the flood control system is composed of an automated machine having a connection structure to the inside of the floating pick-up hood position moving facility control unit 811a, Do.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control unit 811a controls the pump body horizontal level of the centrifugal pump 308, which constitutes a position outside the collecting tank 34, which is constituted by the distribution input devices of the construction machine of the flood control system for controlling the flow of the flow rate. The center line PBCL is connected to the center 192 of the centrifugal pump unit 308 and the centrifugal pump unit 308 via a rotation shaft 198 of the motor 192, Collecting chains to combine to perform pump rotation An automatic valve 259 coupled to the tee elbow 44 connected to the pipe 14 located at the center of the outer wall manhole cover 152 located at the front of the fixed tank 34 and the lower end of the collecting tank 34 The electric motor 192 and the centrifugal pump 308 are fixed to the bed frame 286 while the pressure switch 104 for the low level is operated by the water level 315, The plug 315 is inserted into the through hole of the collecting tank 34 by the device 316 which pushes the plug through the plug 315 into the through hole of the collecting tank 34, The switch input circuit 58 provided inside the louver cover 550 while the bolt and nut are coupled with the bolt and the nut by the flange 28 is provided with a main switch button 66 which is a switch for ON / OFF control of each pump, The switch 318 is connected to the suction / discharge switch 285, the flow rate check flow meter 105, The synchronous control module 106 is provided with the shutoff valve 114 and the automatic valve 259 connected to the water supply port 168 to simultaneously supply the metal 539 having a large thermal expansion and the metal 540 having a small thermal expansion, The alarm reset button 545 and the low level switch 546 are connected to the level switch 541 and the high level alarm 542 and the flap 547 and the low level switch 546 are connected to the bus compander alarm 543 and the remote relay alarm 544, A vent pipe connection 554 and a flange connection 555 to the check graduation 552 and the overflow connection 553 to the check nozzle 549 and the float switches 551 to the sound cap 548, ), And a water tank (34) for controlling the water level, a connection structure between the switch and the pipeline for each water level control system, and a pump operation mode, so that the flood control can be overcome and adjusted. (811a) Construction machinery of flood control with automatic machine with connection structure inside Of the dispensing apparatuses.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control section 811a is a connection structure of the main body 1 that provides a plurality of solenoid valve operation assemblies attached to hydraulic pneumatic cylinders constituted by distributing and inputting apparatuses of a flood control construction machine for controlling the flow of flow, The main switch button 66 of the solenoid valve start switch button 66 is supplied to the solenoid valve pressure switch of each solenoid valve 76 supplied with the pressure air generated by the solenoid valve 80, The When the face butterfly valve 622 is opened and manually pressed to the off-time main switch button 66 of the main switch button 66, the butterfly valve 622 connection structure is fully closed and the start switch When the on-time main switch button 66 of the main switch button 66 for the button is manually depressed, the connection structure of the butterfly valve 622 is expanded so that the pressure air generated in the air compressor 80 passes through the pipeline connection structure A plurality of hatch covers 153 for a ship and a plurality of fire doors 154 are connected to the main body 1 through a connecting structure for providing a connection structure to the body, The solenoid valve body 557 of the oil, air pressure, and sensor technology according to the sensor configuration according to the present invention has the spool packing 556 in the spool 559 and the spool packing 556 in the spool 559 and the coil 562 in the pilot 561, Cone (566) while simultaneously connecting the threaded bolt (567) and the air hose coupling former (568) with the manifold (566) And is provided with a central vertical type 572 and a vertical type 573 in a two-position single 570 and a two-position double 571 in the form of a unit 574 A direct tubing 582 connected to the microswitch 581 at the jaw 580 at the eye 579 and a single 576 at the horizontal 575 including the fittings and fittings 577 and 587 at the double 577, A pneumatic cylinder operated to provide a connection structure to the damper spindle 584 of the fire damper 583 to control the air flow rate of the intake port 585a and the discharge port 585b of the doctor ventilation 585 as the base piping type And at the same time, the internal construction machine connection structure of the main body 1 is provided with a Bell-Butterfly valve 622 and a diving control control device Connected Structure Doctor Ventilation (38) Connected to the connection structure to provide pressure air generated from the compressor to the connection structure Pipeline line Automatic pneumatic conveying device (916) Bellows of the diving control device of the pipeline with connection structure Butterfly valve 622) is provided as a connection structure for providing a connection structure and is capable of overcoming adjustment of flood control, and is equipped with an automatic machine having a connection structure inside a flood control unit 811a of a floating flood control hull, .

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control unit 811a is a high-level reservoir consisting of a distributing and inputting apparatus of a construction machine of a flood control system for controlling the flow of a flow, a dam constructed to control flood and drought in a river, a flood control system The distal end portion of the introduction pipe 191 having a water pressure located between the multipurpose dam 680 and the multipurpose dam 680 storing the water of the introduction pipe 191 is connected to the through hole of the dam 680, ) Is connected to the head tank ( And a plurality of inlet pipes 191 are connected to the discharge port 270 located at the rear end of the head tank 189 to connect the inlet port 269 of the hydraulic tank 189 to the lower end of the multipurpose dam 680. [ A plurality of hydraulic generators 213 are connected to the hydraulic power generator 213 and a plurality of hydraulic power generators 213 are connected to the hydraulic power generator 213, It is preferable that it is composed of an automatic machine having a connection structure inside the flood control unit 811a of the floating flood control hull, and a dispensing apparatus of the construction machine of the flood control system Do.

Preferably, the flood control unit 811a of the flood control unit 811 includes:

The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The hydraulic power generator 213 includes a number of aberrators that generate hydraulic energy in the generator 213 to generate mechanical energy, a number of aberrators that rotate the turbine 267 to generate power, A generator 213 for converting the power generated from the aberrations and turbines 267 and an upper end portion of a rotary shaft 198 connecting the turbines 267 and the generators 213, Under the rotational speed detector 214, An exciter 215 for supplying an electric current to the field coil of the electric motor is positioned below the exciter 215 and a device 216 for pushing the ring vane into the device 216 for pushing the ring vane, A device 218 for pushing the rotary bearing is disposed below the upper rotary bearing 217 and a stator coil 219 and a stator frame 220 are provided below the rotary bearing pushing device 218. [ The center stator 221 is positioned and the electric wire 71 is inserted into the center stator 221 and the fan 195 is positioned below the center stator 221. A braking device ring 223 is disposed below the fan 195, A rotor coil which is a rotating electromagnet constituted by a low-speed rotation bearing 225 on the braking device 224 and a low-speed cooler 222 located below the low-speed rotation bearing 225 and along the circumference of the rotation shaft 198; The circumferential surface of the rotor coil The turbine rotation bearing 227 and the impeller wheels 228 are connected to the hydraulic power generator 213 in the turbine 267 and a plurality of turbines 267 located at the lower end of the rotary shaft 198. [ The Frances aberration 229 and the Pelton aberration 230 are formed in the casing 141 of the turbine 267 and constitute the hydraulic power connection structure power production control unit 811b. And the discharge port 270 generate hydroelectric power by rotating several aberrations while moving the pressure inside the casing 141 and the pressure inside the hydroelectric power generator 213. In this case, The pump aber 264 adjusts the opening and closing of the main valve 265 by the power supplied from the nuclear power plant to the pump aberration 26 4) and at the same time producing hydroelectric power, while the position of the water in the storage dam 680 located in the upper part of the power plant can be adjusted by the distribution and input devices of the flood control part 811, It is preferable that an automatic machine equipped with a hull position moving facility adjustment unit 811a and a connection structure to the inside of the floating hoodoose hull position moving facility adjustment unit 811a is constituted of dispensers .

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The equipment control unit 811a includes a distributing and inputting apparatus of a flood control equipment for controlling the flow of the flow of water, a distribution input unit for the flood control equipment for the flood control equipment, a flood control unit 811 for flood control, The position shifting facility adjustment unit 811a is connected to one end of the marine hydroelectric power plant flood control station 593, 594, 595 of the marine tunnel transportation device 941 of each adjustment shaft 231 to the inside of the main body 1, The hull position of the marine hydro-electric power station levitation (593,594,595) And a moving equipment control unit 811a of the flood control unit 811 installed inside the main body 1 for disassembling and assembling comprises a distributing and inputting apparatus of a flood control construction machine for controlling the flow of the flow, The equipment excavating machine is constituted by a bulldozer 855 and a scraper 859 by an excavator 856 and a luther and is formed at an upper end of a deck deck of a barge hull 591 to be used for excavation, transportation and towing. At the same time, The engine generator 226 with the unmanned camera 843 and the unmanned camera 184 is isolated from the respective construction machine bodies and connected to the unmanned monitor 52 operating device and the dispensing devices of the construction machine. (936) excavation is carried out in the downstream of the river and in the sea, and the borehole (936) is connected to the pump of the pumping station Pipes and hoses are used to supply deep water to the tank of the farm with the purified seawater, and to transport and tow the soil (812) at the top of deck deck of the barge hull (591) for excavation, transportation and towing At the same time, the engine generator 226 with the underwater illumination 843 and the unmanned camera 184 at the deep seated location can be isolated from the individual construction machine bodies and can be controlled over the flood control with an unattended monitor 52 operating device It is preferable that the system is composed of a distributing and inputting device of a construction machine of a flood control system constituting a flood control system and an automatic machine having a connection structure inside a flood control system 811a Do.

Preferably, the flood control unit 811a of the flood control unit 811 includes:

The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The following apparatuses are used as basic operators. They are separated from the pile driver 882 and the diesel pile hammer 883 by steam hammers 884 and are formed at the upper end of the deck deck of the barge hull 591 to be used for excavation, The engine generator 226 with the underwater illumination 843 and the unmanned camera 184 is isolated from the respective construction machine bodies and connected to the unmanned monitor 52 operating device and distribution machine of the construction machine Configure disassembly and assembly (936) excavation to the river downstream and the ocean, and the borehole (936) is connected to the pump of the pumping station, the piping and the hose The deep water is supplied to the water tanks of the farms together with the purified seawater, the water is supplied to the tanks of the farm, and the transportation and traction of the soil 812 are carried out, It is preferable that the system is constituted of distributing and dispensing apparatuses of the construction machine of the adjustment.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control section 811a is connected to a hydraulic crane 885 and a tower crane 886 via a crawler crane 887 and a truck 906. The crane 861 is constituted by a distributing / The loader 857 is separated from the shovel loader 857a and the payloader 857b by the payloader 857c so as to be constructed at the upper end of the deck deck of the barge hull 591, , Hauling and towing, and at the same time, The engine generator 226 with the illumination 843 and the unmanned camera 184 is isolated from the respective construction machine bodies and connected to the unattended monitor 52 operating device and the dispensing devices of the construction machine. (936) excavation in the downstream of the river and in the ocean, and the borehole (936) is connected to the pump of the pumping station, the piping and the hose An automatic machine having deep sea water together with purified seawater, a continuous water supply to the water tank of a farm, a connection structure to the interior of the floating posture hull locating facility control unit 811a, It is preferable that the system is composed of distributing and dispensing devices of flood control construction machines.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The equipment control unit 811a is divided into a motor grader 864 for a stopping machine constituted by a distributing and inputting apparatus of a flood control construction machine for controlling the flow of a flow rate, and a compaction machine includes a machine bed 889 and a tandem roller 890 And is used for excavating, transporting, and towing by being formed at the upper end of the deck deck of the barge hull 591. At the same time, the underwater light 843 and the unmanned camera 184 are used at the deep- The engine generator 226, (52) Unmanned operation monitor by isolating it from the construction machine body. Connection to operation device and dispensing device of construction machine. Dispensing device of construction machine of flood control system which is constructed to overcome flood control by constituting disassembly assembly. A number of deep water boreholes (936) were drilled in the downstream of the river and in the ocean, and the borehole (936) was provided with a pump of the pumping station and a pipe and a hose to supply deep water to the tank of the aquaculture tank together with purified water, 812) is provided with an automatic machine having a connection structure to the inside of the floating pick-up hood position shifting facility control unit 811a, and it is preferable that it is constituted of distribution dispatching apparatuses of construction machines of flood control.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The equipment control unit 811a is provided with a concrete finishing unit 866, an asphalt finishing unit 871 and an asphalt distributor 871a with a concrete batching plant And the aggregate spreader 873 in the asphalt mixing plant 870 and the upper end deck deck of the barge hull 591 to be used for excavation, transportation and towing, while at the deep sea location, the underwater light 843 and the unmanned camera (One 84 can be isolated from the individual construction machine bodies to form a disassembled assembly of the unattended monitor 52 operating device and the construction machine dispensing devices to overcome the flood control A plurality of deep water boreholes (936) excavations are installed in the lower river and the ocean as a distribution input device of a construction machine of a flood control system constituted with a pump, a pipe and a hose at a pumping station in the borehole 936, The distribution of the construction machinery of the flood control by the automatic machine having the connection structure to the inside of the flood control facility 811a of the flood control hood with the continuous water supply to the fish tank of the farm with the sea water and the transportation and traction of the soil 812 It is preferable that it is constituted of charging devices.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The equipment control unit 811a includes a distributing and dispensing apparatus of a flood control construction machine for regulating the flow of the flow. The conveying machine is divided into a dump truck 860 and a tractor 893, The engine generator 226 having the underwater lights 843 and the unmanned camera 184 at the deep sea floor position is isolated from each construction machine body and is used for an unmanned operation monitor 52) Distribution of actuators and construction machines A plurality of deep water boreholes (936) excavations are provided in the lower river and the sea as a distributing and inputting apparatus of a flood control construction machine configured to overcome the flood control by constituting disassembly and assembly by connecting to the entrance values, Pump and piping and hose of the pumping station are provided to supply deep water to the tank of the farm with purified sea water and continuous transportation of water and traction of the soil 812, Wherein the automatic disinfection apparatus comprises a disinfection-controlled automatic disinfection apparatus of a construction machine having a connection structure.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The equipment control unit 811a is constructed by a distributing and dispensing apparatus of a construction machine of a flood control system for controlling the flow of a flow rate. The conveying machine is divided into a trailer 894 and a forklift 858 by a conveyor 633, 591) deck deck upper part and used for excavation, transportation and towing while at the same time the engine generator 226 with the underwater illumination 843 and the unmanned camera 184 at the deep sea floor is isolated from each construction machine body, Monitor (52) operating device and gun (936) excavation in the river downstream and in the sea by means of the distributing and input device of the construction machine of the flood control system which is constructed to overcome the control of the flood control by constituting the disassembly and assembly by connecting and disassembling the machine with the distributing and inputting devices, (936) is provided with a pump of the pumping station and a pipe and a hose to supply deep water to the purified water and the water tank of the farm, and to transport and tow the soil 812, 811a), it is preferable that it is composed of dispensing devices of flood control construction machines.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The dredger 879 includes a pump dredger 879a and a bucket dredger 879b. The dredger 879 is connected to the dredging machine, And is used for excavating, transporting and towing by being formed at the upper end of the deck deck of the barge hull 591. At the same time, the underwater light 843 and the unmanned camera 184 are used at the deep- The engine generator 226, (52) Unmanned operation monitor by isolating it from the body of the construction machine. (52) Connection to the distributing and inputting devices of the operating device and the construction machine. Dispensing input device of the flooded control construction machine (936) excavation was carried out in the downstream of the river and the ocean, and the borehole (936) was provided with the pump, piping and hose of the pumping station to supply deep water to the tank of the aquaculture tank together with the purified water, (812) and a manganese nodule (909) located at the seabed are provided and connected to the inside of the flood control unit (811a) As shown in FIG.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control section 811a is divided into a crusher 874 and an air compressor 875 in a boring machine 876, which is constituted by a distributing and inputting apparatus of a flood control construction machine for controlling the flow of a flow, The engine generator 226, which is constructed at the upper end of the deck deck of the hull 591 and is used for excavating, transporting and towing while at the same time, the underwater light 843 and the unmanned camera 184 are separated from the respective construction machine bodies Unattended operation monitor (52) Operating field (936) excavation of deep water boreholes (936) to the river downstream and to the sea as a distributing and input device of construction machine of flood control system which is constructed to overcome and adjust flood control by constructing connection disassembly assembly The borehole 936 is provided with a pump of the pumping station and a pipe and a hose to supply deep water to the purified water tank and the water tanks of the farm to supply water and to transport and tow the soil 812, It is preferable that it is composed of an automatic machine having a connection structure inside the part 811a and a distribution dispensing apparatus of a flood control construction machine.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control section 811a is connected to a cooling device 816 constituted by distributing and introducing devices of a construction machine of a flood control system for controlling the flow of the flow, And a steam hammer 884 and an oil drilling machine 908 are mounted on a construction machine hover and an elevator 877 on a top surface of the deck hull 591 and a pile driver 882 and a diesel pile hammer 883 on an anti- It can be used to excavate, transport and tow The engine generator 226 with the underwater illumination 843 and the unmanned camera 184 at the deep seated location is isolated from the respective construction machine bodies and the unmanned monitor 52 operation device and the dispensing input device of the construction machine (936) excavation to the river downstream and to the ocean by means of a distributing and inputting device of a flood control construction machine which is constituted so as to overcome the control of the flood control by constituting disassembly and assembly, Piping and hose to supply deep water to the tank of the farm with the purified seawater and to transport and tow the soil 812 and to connect it to the inside of the floating posture hull locating facility controller 811a It is preferable that it is an automated machine with structure, and it is composed of dispensing devices of flood control construction machine for overcoming flood.

    The flood control unit 811 may control the flood control unit 811a of the flood control unit 811 so that the flood control unit 811a of the flood control unit 811 can control the marine hydroelectric power plant flood control unit (593, 594, 595), and is connected to one end of the control shaft (231) to move the flood control unit (811) into the main body (1) provided for movement control and disassembly and assembly of the marine hydro- The facility control section 811a is connected to a cooling device 816 constituted by distributing and introducing devices of a construction machine of a flood control system for controlling the flow of the flow, And a steam hammer 884 and an oil drilling machine 908 are mounted on a construction machine hover and an elevator 877 on a top surface of the deck hull 591 and a pile driver 882 and a diesel pile hammer 883 on an anti- It can be used to excavate, transport and tow The engine generator 226 with the underwater illumination 843 and the unmanned camera 184 at the deep seated location is isolated from the respective construction machine bodies and the unmanned monitor 52 operation device and the dispensing input device of the construction machine (936) excavation to the river downstream and to the ocean by means of a distributing and inputting device of a flood control construction machine which is constituted so as to overcome the control of the flood control by constituting disassembly and assembly, Piping and hose to supply deep water to the tank of the farm with the cleaned seawater and to transport and tow the soil 812 to the inside of the floating hood posture positioning device control unit 811a It is an automated machine with a structure, which is composed of various dispensing devices of construction machine of flood control system to overcome various floods. It is divided into control axis and dispersion axis The meteorological information transmitted from the satellites of the overcoming flood control system is provided to the barge hull at the top of the holding tank and the barge hull at the bottom of the holding tank. (672) distributing and inputting device is further provided in the water tank pump and valves of the construction machine for connection to the injection device nozzle, the non-powered pump, and the cable car (256) In the flood control section (811) of the input device, a harmful red tide prevention control section and a hydration control section of the dam are provided with a connection structure constituted of a power production transfer section and disaster prevention preventive sections, and at the same time, It is a technical point that the distribution input device of the flood control machine for the flood control facility that is constituted is the technical point.

Referring to FIG. 3, there is shown a water hydraulic power plant of a flood control dam, which is located in the ridge line of the crest of the mountain, which shows the entire structure of the flood control part 811 inside the main body 1 of the distribution- (593,594,595) equipped with an artificial tunnel (672) and a connection structure of a hydroelectric power plant of a marine power plant of a marine hydroelectric power plant having a connection structure.

Preferably, in order to prepare for the prolonged drought period, concentrated rainfall occurs in one area on the eastern and western sides of the 65% mountain area of the whole country, and in the other areas, The natural water storage is provided in each water intake dam 680 to open the water gate 293 of the water intake dam 680 in the flood season to provide natural water movement through the water passage 294 while simultaneously controlling the flood, The power transmission control unit 811c is connected to the hull position moving construction machine control unit 811a and the marine hydroelectric power production control unit 811b of the pollution control unit 811 in which a flood control process is performed by a device And the dam control hydrological control unit 811g is connected to the hydro-electric power generation facility construction machine connection structures 811e and 811f in the harmful red tide blocking prevention control unit 811d, .

Preferably, in a drought period, water is stably discharged to all areas of the whole country, and industrial water and fire water for living water and agricultural water are buried in the ground by piping (14) The water is supplied to the pipe 14 buried at the same time while the river maintenance water is supplied to the automatic fire hydrant 161 of the incombustible gas 164 for fire prevention in order to appropriately supply the water through the water channel 294 And the installation of the supply piping having the connection structure of the power pump 304 of the incombustible gas 164 is performed simultaneously with the installation of the piping 14 for the fire water for the fire fighting water, It is preferable that the disaster prevention preventive control unit 811e of the flood control unit 811 that controls the flow rate of the flow at the fire site is constituted.

Inside the main body (1), the control unit for flood control facilities (811) is provided with a closed spray nozzle composed of flood control facilities to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme weather, typhoon, The nozzle hole diameter of the linear hole 15 and the circular-shaped gap 15 machining hole 20 along the circumferential surface of the pipe body B of the pipe line at the rear end of the valve of the electronic control device in which the nozzle hole is opened is 5 millimeters or 490 nozzles adjusted to 10 millimeters and flange joints 8 crevice nozzles connected to the injection nozzle connected to the fire hose part and the hose part formed inside the fire hose (9) so as to supply the liquid and gaseous obstacles together (9) is formed in the injection nozzle body (B), which is formed to separate the nozzles constituted by the bolts and nuts and to adjust the clearance nozzle of the flange joints of the wafers, by means of the disaster prevention material The discharge jetting water 38 and the curtain water film 39 collapse a plurality of pellets by the clearance 15 of the spray nozzle 10 in which the harmful tidal microorganisms 921 are collected, And a vertically descending air current, which is a mass of cold air over the sea, is returned to the jet stream above sea level 10 kilometers above sea level and the vertical descending air current is returned, so that the typhoon can not reach the land. Pressure air compressor 80 and the control system 150 of the mouthpiece multi-stage pump 8 to display the score on the monitor through the calculation of the control server 51 And connected to a distribution shaft 357 formed with the hose 109 and the nozzle 923 together with the air compressor 80 and the cooling device, When a hazardous blooming warning is issued, a mixture of ground water and yellow soil stored in the storage tank and the control dam is provided to the power pump 304 of the control dam to open the water gate valve 409 to release the yellow loam mixture control water into the ocean in a large amount And a harmful tidal blocking prevention / control unit 811 configured to control the flooding inside the main body 1 while preventing harmful tidal generation.

The rotational axis is rotated in the clockwise direction due to the inflow of electrolytic water (7) into the Francis turbine (229) inside the generator, and a high electric power (685) is produced in the direction of the water flow inside the generator. The tidal generator 800 is installed.

FIG. 3A is a perspective view of the structure of the ship's position shifting construction machine control unit 811a of the flood control unit 811 in the main body 1 of the distribution and dispensing apparatus of the flood control machine according to the present invention, (893,594,595) of marine hydroelectric power plant (593,594,595) to the inside of the marine tunnel traffic device (941) to the bridge bridge (937) and the bridge pier (928) The floating hydroelectric power plant flood control readers 593, 594, and 595 are used to control the buoyancy of the hydraulic rotary cylinder 620 of the rack and pinion type (NRP) and the band guide 621, which are rotary cylinders. The vertical partition 605 and the pin coupling shaft 606 for the portable lug coupling are connected by the butterfly valve 622 and the distribution cylinder of the flood control machine provided with the hydraulic cylinder or the hydraulic cylinder door 624 to the hydraulic cylinder 623. [ ) With a portable lug (607) and a portable A large flange connection end joint portion machining hole 615 on the lug fin 608 is connected to the construction machine connection structure and the bridge pier 928 and the pipe bridge 937 to the inside of the marine tunnel transport device 941 by the oil drilling machine 908 The marine tunnel internal transport train 771 inside the marine tunnel transport device 941 is connected to the bridge 928 and the pipe bridge 937. The marine tunnel transport device 771 is constructed of the construction machine connection structure and the disassembly-

FIG. 3B is a schematic view showing the configuration of the ship's position shifting construction machine control unit 811a of the flood control unit 811 and the upper part SDU of the body of the offshore power plant dock, The drilling machine 908 for crude oil into the inside of the marine tunnel transport apparatus 941 in the bridge bridge 937 and the bridge pier 928 showing the construction machine position control arrangement of the marine hydroelectric power plant flood control station 593,594,595, (593, 594, 595) of the marine hydro-power plant are connected to the hydraulic rotary cylinder (620) of a rack and pinion type (NRP) which is a rotary cylinder and the buoyancy adjusting butter The vertical partition wall 605 and the pin coupling shaft 606 for the portable lug coupling are connected by the fly ball valve 622 and the distributing and inputting devices of the flood control machine provided with the hydraulic cylinder or the hydraulic door 624 for the hydraulic cylinder 623, A portable lug 607 and a portable lug pin (608) Large flange connection End seam hole (615) Construction machine connection structure and pier (928) and pipe bridge (937) Inside of marine tunnel traffic system (941) Power generation facility Construction machinery connection structure and disassembly connection constitute flood control facility,

FIG. 3C is a schematic view showing the construction of the hull position shifting construction machine control section 811a of the flood control section 811 inside the distribution dispensing apparatus main body 1 of the flood control machine according to the present invention at the upper part (SDU) (593, 594, 595) showing the construction machine position adjustment structure of the hull position movement control of the marine hydroelectric power plant lifting consoles (593, 594, 595). The portable lug 607 (593, 594, 595) of the above-mentioned marine hydro-electric power plant are rack-and-pinion-type (rotary cylinder) The distribution of the flood control machine provided with the hydraulic rotating cylinder 620 of the hydraulic pressure cylinder NRP and the butterfly valve 622 for controlling the buoyancy of the band guide 621 and the hydraulic cylinder door 624 to the hydraulic cylinder 623, With input devices A large flange connection to a portable lug 607 and a portable lug pin 608 on a straight wall 605 and a pin connection shaft 606 for a portable lug coupling. Combination sets up a flood control facility,

Referring to FIG. 3D, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control system, a marine power plant body dock hull deck upper part (SDU) (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 3D, the amphibious power plant of a hydraulic or marine hydroelectric power plant 233 or an aberration or pump aberration 264 and a main valve 265 hydroelectric power plant construction machine linkage structure, Is a kind of power plant that uses the low-cost power of a nuclear power plant to pump the water from the lower reservoir into the upper reservoir and store it at peak load at the midnight or at the weekend when electricity demand is low. In this system, There are two types of mixed pumped-storage power plant with natural inflow from the river, pumping only the insufficient water from the lower reservoir, and a power plant with the natural reservoir with no natural inflow.

As shown in FIG. 3D, the conventional power plants are located in Cheongpyeong (400,000 kW), Samrangjin (600,000 kW), Muju (600,000 kW), Sancheong (700,000 kW) 1 million [kW]), all of which are the latter's power plant,

As shown in the drawing, the hull position moving construction machine control unit 811a of the flood control unit 811 is connected to the inside of the dispensing and inputting apparatus main body 1 of the flood control machine, the upper end of the marine power plant body dock hull deck SDU) of a hydroelectric power station (233) showing the arrangement of the construction machine position adjustment of the hull position movement control of a marine hydroelectric power station levitation stand (593, 594, 595) It should be constructed so that the required flow rate can be safely taken, and losses of drop and flow rate are minimized as much as possible. Hydropower facilities in hydroelectric power plants can be classified according to their functions. Hydraulic facilities divided into 4 types of water supply facilities (680n), water supply facilities (680o), power generation facilities (680p) and waterproof facilities (680q) The hydroelectric plant of the hydroelectric power plant (233), which shows the configuration of the position control mechanism of the hull of the marine hydroelectric power plant, while the hydroelectric power plant is used as the input to the aberration The water turbine 680o and the power generation facility 680p and the waterproofing facility 680q and the hydroelectric power plant 233 are connected to the water intake equipment 680n equivalent to the arrangement of the multi- Hydraulic generators (213) constitute a hydro-electric power station in the form of a hydraulics seesaw and a water trench-type marine tidal power plant.

3E, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in Fig. 3E, in the conventional tidal power plant, the above-mentioned tidal power generation is a power plant for converting the potential energy due to the tidal difference of seawater into electric power, and it is preferable that the installation place is as large as possible . When the seawater is pushed by the tide, it is guided to the reservoir built on the shore. When the tide is escaped, the seawater stored in the reservoir is dropped into the sea. As in the case of pumped storage, And a tidal power plant in Reims estuary in France is famous for the use of tidal cars up to 13 [m] as an example of operation of the tidal power plant. Here, we are developing 240 kW of 10,000 [kW] and 24 of 240 km [kW] using a tidal car of maximum 13 [m] and average 8.5 [m]. There must be a sea of at least 10 m above sea level, and the condition that this coast is suitable for the construction of the reservoir should be met.

 As shown in FIG. 3E, in the past, a tidal power generation plan is being planned in several places around Chungnam only in Korea. It is known as a very favorable candidate for constructing a power plant with a maximum tidal pitch of 7.9 m, a land area of 120 m ², a dike length of 2.1 km, and a facility capacity of 400,000 kW.

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

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

As shown in the drawing, the hull position moving construction machine control unit 811a of the flood control unit 811 is connected to the inside of the dispensing and inputting apparatus main body 1 of the flood control machine, the upper end of the marine power plant body dock hull deck SDU) of a hydroelectric power station (233) showing the arrangement of the construction machine position adjustment of the hull position movement control of a marine hydroelectric power station levitation stand (593, 594, 595) It should be constructed so that the required flow rate can be safely taken, and losses of drop and flow rate are minimized as much as possible. Hydropower facilities in hydroelectric power plants can be classified according to their functions. Hydraulic facilities divided into 4 types of water supply facilities (680n), water supply facilities (680o), power generation facilities (680p) and waterproof facilities (680q) The hydroelectric plant of the hydroelectric power plant (233), which shows the configuration of the position control mechanism of the hull of the marine hydroelectric power plant, while the hydroelectric power plant is used as the input to the aberration The water turbine 680o and the power generation facility 680p and the waterproofing facility 680q and the hydroelectric power plant 233 are connected to the water intake equipment 680n equivalent to the arrangement of the multi- Hydraulic generators (213) constitute a hydro-electric power station in the form of a hydraulics seesaw and a water trench-type marine tidal power plant.

 3F, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in FIG. 3 (f), the positional relationship and the cross-sectional view of each power plant in the Han River system where most of the hydroelectric power plants in Korea are concentrated are shown.

3F, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution and dispensing apparatus main body 1 of the flood control machine, a marine hydroelectric power production control unit 811b, SDU) (593,594,595) Construction of each power plant location in the Han River system showing the arrangement of the position adjustment of the construction machine of the hull displacement control (678p) Construction of the connecting structure of the construction machine Road, (678p) in the Hwacheon hydroelectric power plant (678q), Soyanggang hydroelectric power plant (678r), Chungju hydroelectric power plant (678s) and Chuncheon hydroelectric power plant (678t) (678v) were distributed to Soyang River (678x) and Namhan River (678y) as shown in the table below, and the hydroelectric power capacity of the former Goethan Hydroelectric Power Plant (678z) (593,594,595), which is different from the marine hydroelectric power plant, because it is equipped with power generation facilities, it produces the power of the flood control unit (811) And a hydroelectric power production control unit (811b) of the hydro-hydroelectric power generation production system. ,

As shown in Figure 3f, this relation is called Torricelli's theorem. Actual is the actual speed of ejection υ ₂ 'is slightly smaller than the so υ ₂ are shown because of the frictional losses in the water viscosity, and vents.

3F, a conventional gate 293 has a rolling gate 293b at the de-intergate 293a, and thus a cylindrical gate made of steel is installed at the top of the dam, And it is widely used in the water intake dam 680 because it is rigid in structure and can withstand impact such as water flow.

Referring to FIG. 3G, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (593,594,595) of the hydro-electric power plant showing the regulation structure of the construction machine position control of the marine hydroelectric power plant floating structure (593,594,595)

As shown in Fig. 3G, in order to install a conventional hydraulic pressure pipe, a water pipe 191 from a water tank or a coarse water tank to a water turbine inlet of a power plant is called a water pressure pipe 191, 191) and other parts are collectively referred to as hydraulic pipes. The position of the hydraulic pipes 191 should be a straight line as short as possible according to the position of the water tank 680 m and the power plant, The diameter of the pipe is set to be 3-5 [m / s] in consideration of the construction cost and the loss head. In addition, the number of hydraulic pipes (191) is one for each aberration, but when the number of high-lifts is small, there may be one for two aberrations.

As shown in Fig. 3G, since the pressure due to the water hammer action, the water pressure, and the water hammer action acts as the internal pressure in the water pressure pipe 191, the thickness t [cm] of the pipe can be sufficiently large enough to withstand the maximum water pressure , The allowable stress (strain) of the steel material is σ [kg / ㎠], the joint efficiency of the pipe is η [%], the diameter of the hydraulic pipe is D [cm], the maximum water pressure is P [kg / ], And the allowable thickness for corrosion is ε [cm], the thickness t [cm] of the pipe is calculated by the following formula.

다음 수차 이후에는 방수로가 사용된다.

A watertight path is used after the next aberration.

This is a water channel for discharging the water coming out of the aberration to the original river, and the place where this and the main stream of the stream are joined is called the waterproof hole (169).

As shown in FIG. 3G, the structure of the waterproofing passage is substantially the same as that of the above-described waterway, but it is necessary to select a place as deep as possible as possible to smooth the flow of the river and to discharge it in the same direction as the flow of the river.

Similarly, the principle of hydropower generation is explained as follows.

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

As shown in FIG. 3G, in Korea, recently, a large dam has been constructed to make an artificial reservoir, and efforts have been made to regulate, develop and irrigate the flood. In addition, water has pressure and location energy. In many cases. This position energy can be changed into kinetic energy and pressure energy, or kinetic energy alone, so that it can be converted into mechanical energy.

As shown in FIG. 3G, the generated power of water P kg m m / sec is given by ( P = rHQ kg m m / sec), where the drop is H m, the flow rate is Q m 3 / sec, and the specific weight of water is r kg / Therefore, hydraulic power is determined by dropping and flow rate. Falling is usually constant when the status of stream or source is determined, and flow rate is related to watershed and rainfall. The output generated here is proportional to the product of fall depends on the plant's top packaging hydropower is to increase the output of this time to change the artificially leading to concentrate their water in one place, and were it should be selected for the development points to get the big-head now use quantity Q [㎥ / s] falls into the aberration when the effective drop H [m] falls and the power P _o [kW]

( P _o = 9.8 QH [kW]), which is usually called hydrodynamic.

As shown in FIG. 3G, when the theoretical hydraulic power is inputted to the aberration and the aberration and the generator are rotated, and the aberration output P _t and the generator output P _g are respectively a η _t and η _g , respectively, is represented by _{(P t = 9.8 QHη t [} kW]) (P g = 9.8 QH η t η g [kW]).

As shown in the drawing, the hull position moving construction machine control unit 811a of the flood control unit 811 is connected to the inside of the dispensing and inputting apparatus main body 1 of the flood control machine, the upper end of the marine power plant body dock hull deck SDU) of a hydroelectric power station (233) showing the arrangement of the construction machine position adjustment of the hull position movement control of a marine hydroelectric power station levitation stand (593, 594, 595) It should be constructed so that the required flow rate can be safely taken, and losses of drop and flow rate are minimized as much as possible. Hydropower facilities in hydroelectric power plants are classified according to their functions. Hydraulic facilities divided into 4 types of water supply facilities (680n), water supply facilities (680o), power generation facilities (680p) and waterproof facilities (680q) The hydroelectric plant of the hydroelectric power plant (233), which shows the configuration of the position control mechanism of the hull of the marine hydroelectric power plant, while the hydroelectric power plant is used as the input to the aberration The water turbine 680o and the power generation facility 680p and the waterproofing facility 680q and the hydroelectric power plant 233 are connected to the water intake equipment 680n equivalent to the arrangement of the multi- And hydraulic power generator 213 devices.

Referring to FIG. 3H, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, The structure of the microswitch 580 showing the construction machine position adjustment structure of the marine hydroelectric power plant flood control station 593, 594, 595 constituting the limit switch 580, the microswitch 183 and the diaphragm pressure switch 104a, Pressure switch (104b) Hydropower facility Construction machinery Straight configuration of connecting structure Road,

3h, in order to operate the micro switch 580 and the limit switch 183 to detect whether the door is open or closed or whether there is a workpiece, contact with an object is required, Sensor. The differences between these switches are slightly different in structure and usage. The microswitch 580 is a relatively small, non-sealed structure with a built-in contact mechanism in the molded article case and is mainly used for a measuring device or a detector of a small mechanical device. The limit switch (183) is used for production facilities that require mechanical protection from places where durability is required due to waterproof, rust-proof structure, or external force, and micro-switches with built-in micro switches in a solid die-cast case. Therefore, the limit switch 183 is also referred to as an encapsulated micro switch 580. In this micro switch 580, the micro switch is one type of the limit switch 183, which means that the limit switch 183 is very small. The microswitch 580 is widely used as an important component for operation and control, and is an element that can switch large power despite small shapes.

As shown in FIG. 3H, the micro switch 580 is operated by a specified force directly, so that the falling speed of the contact repeats switching regardless of the operating speed. It is also referred to as a precise snap action switch or a sensitive switch because it has high repeatability to faithfully repeat certain operating characteristics, and the switch operates on small forces and movements.

As shown in Fig. 3H, in the structure of the microswitch, the structure of the microswitch 580 is used as an actuator section for transmitting an external force to an internal mechanism. Since the micro-switch 580 has a repetition accuracy of about 0.01 to 0.1 mm, it is more accurate. Therefore, the switching frequency of the micro switch for detection is about 60 to 400 switching operations per minute. The life span is about 1 million times, but it depends on the usage environment. The shortcomings of the microswitches are as follows.

First of all, it is possible to open and close a small and large capacity electric power, and it is strong against vibration and shock because it has high repetition accuracy and high hysteresis by using precision snap action mechanism. However, the disadvantages of this method are the fact that there is contact bounce or chattering by using the metal contact first. Therefore, it is stress concentration type compared to the solidification small area such as electronic parts, , It is often advantageous to generate noises. In dry circuit circuits such as electronic circuits, the ability to open and close is limited. Since the structure is not completely sealed, there are restrictions on the use environment of the explosive environment. So it is necessary to pay attention to workability.

      <Microswitch Technical Data Sheet>

3H, one of the most representative object detection ON / OFF sensors of the mechanical sensor is the limit switch 183 and the micro-switch 580 in the detailed configuration of the limit switch 183, While the action of the electrical contact is changed by the external action, the lifetime of the contact reaches about 10 million times. In addition, since the allowable current of the contact part can be switched to a relatively large power compared to the external appearance, the snap operation mechanism provides a fast switching time in the range of 1 to 15 ms. Therefore, it is necessary to confirm whether the protection structure of the switch is suitable for the environment do.

3H, in the protection circuit of the limit switch 183, the contact point of the limit switch 183 and the micro switch 580 has a finite lifetime. Particularly, when the power supply which is being supplied to the device using the induction action is cut off, the magnetic field is reduced, and as a result, the pressure corresponding to the power supply voltage a number of times is the amount indicating the magnitude of the force, And the force acting on the normal direction. The state of a substance Among gases, liquids and solids, solids are different from gases and liquids. In solid, there is no flow due to pressure, so the directionality of the force is preserved. In other words, the pressure is directional, and the pressure at one point also varies greatly depending on the direction. In contrast to solids, liquids such as p gases, liquids flow with the bias of force, so the pressure is not directional and the pressure of the same magnitude is applied to the surface in any direction at some point. Therefore, one pressure value is determined for one point. It is called Pascal's name in the name of B. Pascal (1623-1622) who discovered the isotropic nature of this fluid. Pascal Pa (= N · m ^-2 ), which is used as a unit of pressure in SI units, is named after him.

As shown in FIG. 3h, the measurement of pressure is a key factor in understanding the state of the fluid, together with the temperature, from which the force or weight is deduced. In the unit for indicating a pressure, but many are being used, the type of the pressure range, it depends on the object to be measured, the calibration means by this absolute pressure sensor an absolute pressure sensor to a reference pressure by a vacuum (p = OP _a) The absolute pressure of the medium is measured. Therefore, the absolute pressure sensor is equipped with a gauge in a vacuum space. This gauge consists of a thin diaphragm which is deformed according to the pressure to be measured. Space forming a vacuum is not able to form an ultimate vacuum of about 0.1P uses _a relative pressure. This corresponds to about a millionth of atmospheric pressure.

As shown in FIG. 3H, the relative pressure sensor by the relative pressure sensor measures the differential pressure based on the atmospheric pressure given by P _amb . Atmospheric pressure is not a constant value but a pressure that varies with topographic and meteorological changes. Since the differential pressure sensor can be divided into a positive pressure sensor and a vacuum sensor for measuring negative pressure, the differential pressure sensor is not so different from the relative pressure sensor in the measurement principle, which measures the differential pressure between two given pressures The diaphragm type pressure switch 104a is determined by the difference in pressure that maintains the current state by the repulsive force of the spring and the tension of the spring.

As shown in FIG. 3H, the differential pressure switch can be used with the following three functions. Therefore, the pressure switch 104 is used as a pressure switch operated from 0.25 to 8 bar using P ₁ , and the vacuum switch is set to P ₂ It is used as a vacuum pressure switch that detects the range of -0.25 to -1 bar by using the differential pressure switch, and the detection range is adjustable between _-1 and 8 bar by using both P ₁ and P ₂ . The switching differential pressure is regulated by a spring, so that the pressure of P ₁ is at least 0.25 bar higher than the pressure of P ₂ , taking into account the influence of the hysteresis.

As shown in the drawing, the hull position moving construction machine control unit 811a of the flood control unit 811 is connected to the inside of the dispensing and inputting apparatus main body 1 of the flood control machine, the upper portion of the marine power plant body dock hull deck The structure of the microswitch 580 showing the construction machine position adjustment structure of the hull position movement control of the marine hydroelectric power plant flood control consoles 591 and 592 constituting the micro-switch 183 and the diaphragm type pressure switch 104a), a pneumatic-sensor pressure switch (104b), and a hydroelectric power plant construction machine connection structure.

3I, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 inside the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, (102b) in accordance with a thermocouple construction method (102a) of a fire heat temperature sensor detection sensor bimetal (102) showing a construction machine position adjustment structure of a marine hydroelectric power plant flood control console (593,594,595) And thermocouple 103 thermocouple for sensing sensor while distinguishing reference point 102e from measurement point 102d of thermoelectric power generation 102c.

As shown in FIG. 3 (i), in the fire heat sensor, the temperature indicates the amount of motion or vibration energy possessed by an atom or a molecule, and this energy is heat. That is, temperature is a type of physical state quantity, but it can not be measured directly, but it should be measured by converting it into other physical quantities such as displacement, pressure, resistance, voltage and frequency. Although ordinary materials and electronic devices can be temperature sensors because their electrical characteristics change with temperature, those suitable for the purpose of use are used in terms of detection temperature range, precision, temperature characteristics, reliability, mass productivity, and price have.

As shown in Fig. 3 (i), the temperature measurement is a contact measurement in which the temperature sensor is in thermal contact with the measurement object so that the temperatures of both are equalized (in a thermal equilibrium state). In this method, the sensor itself must withstand the measurement object temperature and perform a predetermined operation. On the other hand, there is a non-contact type measurement using a heat radiation without contacting the sensor with the object. The sensor at this time is a visible or infrared radiation detector and is independent of the temperature of the sensor itself and the temperature of the object to be measured.

           <Contact method and non-contact method>

As shown in Fig. 3 (i), in the configuration of the sensor, the semiconductor temperature sensing element in which the electrical resistance greatly changes in accordance with the temperature change is called a thermistor. Especially, it is used as a thermistor temperature sensor that is stable against temperature and has good reproducibility of temperature characteristics. Most of the thermistors that are used are ceramic thermistors, classified by their basic characteristics. They are NTC (negative temperature coefficient) thermistors with a negative temperature coefficient whose electrical resistance decreases exponentially as the temperature rises. Conversely, A positive temperature coefficient (PTC) thermistor with a significantly increased resistance and a positive temperature coefficient as a whole, or a critical temperature resistor (CTR) with the same characteristics as the NTC but with a sudden decrease in electrical resistance in any temperature economy, . When it is simply called a thermistor, it often refers to an NTC thermistor. PTC, CTR can not be used as a temperature sensor in a wide temperature range, but it is convenient to detect whether or not a temperature exceeds a specific temperature (a temperature at which a resistance rapidly changes).

For example, when a current is supplied to the PTC, it is heated. When the temperature exceeds the rapid temperature, the resistance is increased. As a result, the current is reduced and the heat is not generated. Therefore, it is attached to the electronic thermosensor to keep the internal temperature constant or to be attached to the drier or drier The switch can be operated.

As shown in Fig. 3 (i), in the case of an NTC thermistor, a thermistor whose electrical resistance continuously changes with a negative temperature coefficient is abbreviated as NTC. Currently, thermistor constants are widely used in the range of 2000 to 5000K, and the usable temperature range is up to about 300 ° C.

Since the thermistor is originally sintered at a temperature of 100 ° C or higher, if the method of use is not erroneous, the thermistor is sufficiently stable for a long period of time. But it does not change permanently, as all materials have aging. In the following figure, the relative value when the stability at 100 ° C is 1 is shown, and it can be seen that the stability becomes lower as the temperature becomes higher. This depends on the material and sintering conditions of the thermistor, but when used at a low temperature of about 100 ° C, the change due to this cause can be ignored. If there is a change in the low temperature, it is considered that moisture or solvent penetrated by the damage of the external shape.

As shown in FIG. 3 (i), in the case of a PTC thermistor, since the PTC thermistor has a simple structure, it is used as a current limiting element (fuse function element), a constant temperature heating element, have. That is, the characteristic that a large current is initially blurred and then decreases and is suppressed by a minute current is used for a self-erasing, reliable motor for color TV which requires a high heating current or a circuit for preventing excessive current, There are starterless switches. If the voltage applied to the device exceeds a certain value at the time of use, the current increases as the voltage increases and eventually breakdown occurs. Therefore, consideration should be given to the breakdown voltage and a safety margin for the rated operating voltage should be established.

As shown in FIG. 3 (i), the classification of the thermocouple includes the type symbol, the grade of the tolerance, the wire diameter of the wire, the length of the outer diameter of the protective pipe (when the protective pipe is provided), the protective pipe material, the name (thermocouple with protective pipe, .

Example ●: K class 1 1.00mm thermocouple

Example ●: J class 2 thermocouple with 0.05mm 6 550mm magnetic protection tube

In the type of thermocouple (103n), the wire constituting the thermocouple is in contact with the high temperature, and the following condition must be satisfied.

First, the heat will be great.

Secondly, the dispersion of the temperature-thermo-electric characteristic is small,

Third, the thermal power characteristics should be continuous and linear.

The fourth should be stable thermally, chemically, and mechanically.

In addition,

Finally, it is easy to process and the price is low.

It is widely used thermocouple and it is standardized as 7 kinds of B, R, S, K, E, J and T according to the constituent materials. The table below shows the operating temperature range and characteristics of the thermocouple configuration.

The thermocouple bimetallic bimetal 102 thermocouple configuration method 102a is composed of a change of the measurement point 102d and the reference point 102e with the generation of the heat current 102b and the generation of the thermoelectric power 102c .

Fluorescent lamps have a light bulb in it, so do not throw it away when you replace it, you can easily see that the U-shape is slightly stretched when you close the bulb glass and close the match fire. When the match fire is turned off, it is restored to its original state.

This is because a metal with a large thermal expansion and a small metal are bonded to each other and the thermal expansion is bent to a smaller side. This is called bimetal.

Electric rice cookers, electric irons, gas cookers, gas water heaters, and thermostats of refrigerators all use these things.

        <Thermocouple temperature range and characteristics>

As shown in Fig. 3 (i), the thermocouple can be selected as needed according to the use of the temperature-sensitive contact 103u or the protective pipe 103p for protecting the element wire from direct contact with the object, atmosphere or the like.

As shown in FIG. 3i, it can be measured when the temperature of the surface of the object is relatively low in the absence of the protective tube 103o. In the presence of the protective tube 103r, the protection tube 103p is used. However, in industrial use, it is used in a protective pipe for purposes such as mechanical strength, heat resistance and corrosion resistance. The thermocouple with the protective pipe 103p is composed of a temperature-side terminal 103t, a protective pipe, and a thermocouple wire. Protection tubes include metal protection tubes using stainless steel sheaths (103v) and non-metallic protection tubes such as aluminum foil. In addition, insert a thermocouple wire into a metal tube (metal sheath) such as a cistern (103s) to use it even in a place with a high temperature or a bad environment condition, tightly fill the insulator around the thermocouple wire, There is a cistern that prevents corrosion and deterioration by inserting insulation and keeping the wire wire in an airtight state. This is faster than thermocouples with protective tubes, has excellent heat resistance and vibration resistance, and can bend to a certain degree. The external dimension is about 0.2 to 8 mm and can be soldered to the object to be measured.

As shown in Fig. 3i, it is ideal to directly connect the thermocouple to the instrument in order to measure the service temperature of the thermocouple in the compensating wire 103l. However, if the distance between the measurement point and the instrument is long, The price will increase. Therefore, a conductor having the same or similar characteristics as the thermocouple is used. This conductor is referred to as a compensating conductor 103l. The compensating wire 103l has almost the same thermoelectric characteristics as the thermocouple used in combination in a considerable temperature range including room temperature and is connected between the thermocouple and the reference contact 103m by this, 103m) is compensated by using a pair of conductors to be insulated. The connection of the thermocouple and the compensating wire is to be connected to the plus side of the thermocouple at the plus side of the compensating cable 103l and the minus angle of the thermocouple at the minus side of the compensating cable 103l.

As shown in Fig. 3i, the thermocouple thermometer system 103a is provided with a potentiometer 103d for the ammeter temperature, a metal A 103e, and a metal B 103f at the temperature limits 103b and 103c, Is generated 103g and is provided as thermocouples 103j and 103k in the thermocouple 103d and the thermocouple contact 103i and as the reference contacts 103m in the compensating wire 103l.

As shown in FIG. 3 (i), the thermocouple is electrically connected to one end of two conductors for the purpose of generating thermoelectric power, and the thermocouple wire is connected to a metal wire or alloy wire serving as both ends of the thermocouple. The contact point shall be such that it is maintained at a constant temperature (eg freezing point) at the junction of the thermocouple, conductor, compensating wire (103h) and conductor. 103p must be a tube which is attached to the temperature-side contact 103i or the wire so as not to come into direct contact with the object to be heated, atmosphere, etc. Therefore, the compensating wire 103h is almost the same as the thermocouple used in combination in a considerable temperature range including room temperature As a pair of conductors that have a thermoelectric power characteristic and are used to compensate the temperature difference between the connecting portion of the thermocouple and the reference contact, When the reference contact point 103m is 0, the power should be determined to be a predetermined thermal power that generates a virtual thermocouple (reference thermocouple) corresponding to the temperature of the temperature-measuring contact point.

Therefore, the RTD 103w is widely used together with a thermocouple or a thermistor among the contact temperature sensors. Among them, the platinum RTD 103w is most stable and has a wide temperature range and is widely used for temperature measurement requiring high accuracy. In general, metals have a so-called positive temperature coefficient, in which the electrical resistance increases in proportion to the temperature, and the higher the purity of the metal, the larger the temperature coefficient. The temperature resistance (103w) is made of pure metals such as platinum, nickel, and copper. Widely used in standard thermometers and industrial measurements is a high purity (99.999% or more) platinum wire. As shown in the following table.

Figure 2-25 (a) shows the temperature change of the metal resistance when the resistance at 0 ℃ is 1. That is, since the resistance of platinum is 100.0? At 0 占 폚 and 139.16? At 100 占 폚, the temperature coefficient of resistance of platinum is 0.39% / 占 폚. Since the resistivity of pure metal is very small, it has a structure that uses a thin and long metal wire to increase the resistance value and protects mechanically and chemically by using a protective pipe 103p.

As shown in Fig. 3i, the platinum wire 103y is wound around the mica 103x and covered with the protective pipe 103p.

First, platinum resistance thermometer (103w) is most stable among practical sensors, widely used in temperature measurement where temperature range is high and high accuracy is required. The disadvantage is that the structure of the resistance element is complicated, the shape is large, the response is slow, and it is vulnerable to mechanical shock or vibration.

Secondly, in the copper temperature-measuring resistor 103w

It is a stable device with high purity, low cost and low dispersion of temperature characteristics after platinum. However, copper has a small resistivity, large shape, easy to oxidize at high temperature, and a narrow temperature range.

Thirdly, in the nickel resistance device 103w

Although it is cheaper than platinum and has a large resistance value, the inflection point of the temperature coefficient is found around 340 ° C. Also, the temperature resistance characteristics due to impurities are dispersed and it is difficult to obtain a compatible nickel wire.

Fourth, platinum-cobalt RTD (103w) contains 0.5% cobalt in a trace amount. The resistance value and resistance temperature coefficient for cryogenic temperature are larger than platinum, and the types and characteristics of RTDs are described as below.

As described above, the fire heat temperature sensor detecting sensor showing the configuration of the construction machine position adjustment of the marine hydroelectric power plant's floating position control (593, 594, 595) is controlled by the thermocouple configuration method 102a of the bimetal 102 The thermocouple thermometer switch 103 for the sensing sensor is separated from the measuring point 102d of the thermocouple 102b and the measuring point 102d of the thermoelectric power generating unit 102c by the mica 103x and the platinum wire (810b) for producing the power of the flood control section (811) inside the distribution dispensing apparatus main body (1) of the flushing control machine with the magnetic (103z) connection structures to the marine power plant body dock hull It is configured in the upper deck (SDU).

3J, a marine hydroelectric power production control unit 811b for producing the power of the flood control unit 811 into the distribution dispensing apparatus main body 1 of the flood control machine, an upper part SDU of the body of the marine power plant, Showing a partial side view of a relief valve 474 in a vane pump 142 and a plurality of gear pumps 326 showing a construction machine position adjustment arrangement of a hull locomotion control of a marine hydroelectric power station levitation stand 593,594, Side configuration Road,

3J, a gear pump 326 having a delivery pressure of 35 to 175 kgf / cm ² and a capacity of 5 to 300 L / min is installed on the gear pump 326 at present. Gear pumps are widely used because they are simple in structure, high in reliability, easy to operate and maintain, and relatively inexpensive. The gear pump (motor) is divided into an external gear pump and an internal gear pump. External gear pumps can be classified as spur, helical and helical thermal pump depending on the type of gear used.

As shown in the drawing, the detailed description of the external gear pump 326a

Figure 2-27 shows an example of an external gear pump.

The gear pump is composed of a set of gears, a gear case with the gears, four bearings, and a gear plate, and features fewer parts than other pumps. Unlike reciprocating pumps with oval valves, high speed operation is possible, and the gear type and gear type are appropriately selected, even if the viscosity of the used oil is high, because the gear pump does not require a valve at the entrance. The pump efficiency of about 70 to 80% can be easily obtained without the same obstacle. The gear pump causes a pumping action when the drive gear rotates and rotates while driving the variable gear. When the gears mesh with each other, the contact between the two gears is line contact, thus blocking the inlet side (low pressure) and the outlet side (high pressure). When the teeth of the gear are separated from each other at the inlet side, the volume of the suction chamber is increased by the volume occupied by one tooth, so that the hydraulic oil is sucked up by a slight vacuum. The sucked hydraulic oil is pinched between the gear teeth and the outer periphery of the casing and is sent to the discharge chamber. When the teeth are engaged with each other in the delivery chamber, the delivery chamber volume is reduced by the displacement amount when the teeth are engaged with each other, and hydraulic oil is extruded from the delivery chamber to the delivery port.

On the other hand, with respect to the internal gear pump 326b,

The internal gear pump operates similarly to an external gear pump. The internal gear pump consists of an external gear rotating around the center of the pump as shown in Figure 2-28, an internal gear eccentric from the center of the pump and a crescern-shaped spacer rotating in contact with the outer gear . When the inner gear is turned to be the drive gear and the outer gear is rotated, the hydraulic oil enclosed between the inner and outer gear teeth and the spacer surfaces is transferred from the suction chamber to the discharge chamber together with the rotation of the gear. In the figure, the intake port (269) and the discharge port (270) are drawn as if they are directly pierced on the outer periphery of the casing. However, the inlet and outlet of the actual internal gear pump are halfway between the inner contact and the spacer end, It is cut into a long shape and pierced on the end plate of the pump. When the inner gear is engaged with the outer gear and the outer gear is driven, the discharge chamber (high pressure chamber) and the suction chamber (low pressure chamber) are interrupted at the inner contact point and the inner and outer gears are separated from each other in the suction chamber. As a result, the pressure in the suction chamber becomes vacuum and sucks hydraulic oil. The sucked hydraulic oil is sandwiched between both sides of the spacer and the valley portions of the inner and outer gears, and is transferred to the delivery chamber. In the delivery chamber, as the gear rotates, teeth of the inner and outer gears mesh with each other, and the volume of the tapered portion gradually decreases, so that the hydraulic oil is transported to the delivery port 270. When the internal gear pump is worn out, the efficiency of the internal gear pump is lowered rapidly.

The gear pump is compact, lightweight and inexpensive. It can withstand severe operating conditions (contamination by dust, rising temperature of oil, overload), so it is especially suitable for hydraulic drive in construction machines, industrial vehicles, The limit of oil temperature is up to 65 ℃ when used in machine tools, but 80 ℃ for construction machinery and 100 ℃ for short time. The viscosity of suitable oil is 30-80 cst.

For a gear pump with a standard involute tooth profile,

In the following vane pump 142,

First, about the outline of the vane pump

The basic components of the vane pump are the inlet, outlet, drive electronics, vane, cam ring and casing. The vane flows through the groove in the rotor and changes the enclosed space surrounded by the vanes and the rotor of the cam ring according to the shape of the cam ring. As the airtight space is increased, it is sucked in the intake port, and the airtight space is reduced again while passing through the turning point in accordance with the rotation of the rotor. The delivery pressure of the first stage as a general industrial 70kg _{f /} cm ^{2, 2} dan 140kg _{f /} cm ^2, the capacity 4ℓ / min~280ℓ / min vane pump is usually commercially produced. In recent years it has been the emergence of the first-stage pump ^{_{150kg f / cm 2 ~140kg f /}} cm 2 as a high-speed high-pressure.

Vane pumps are classified into fixed capacity, variable capacity type, pressure balance type and complaint type. The vane pump currently being manufactured has the following form.

First, the equilibrium vane pump 142a,

Secondly, in the unbalance type vane pump 142b

Third, the constant capacity vane pump 142a and

Fourth, the variable capacity vane pump 142b

The equilibrium vane pump and the unbalanced vane pump are the cases where the axial load received by the pump shaft is dynamically balanced or unbalanced. The distinction between a constant capacity pump and a variable capacity pump is a function of changing the discharge amount during operation. Therefore, kinematically, the balanced vane pump corresponds to a constant capacity pump and the unbalanced vane pump corresponds to a variable capacity pump.

In the vane pump other than the vane pump described above,

Firstly,

Two single-stage vane pumps are connected in series, and one-stage pump discharge oil is injected into the second-stage intake port to generate twice as high pressure, but there is no change in flow rate. This pump uses two vane pumps, so that the load at each end is distributed at the same rate using the load distribution valve.

The following two pumps

It is used when two large and medium, or two, small and medium pumps are connected in parallel in one body and rotated by one drive shaft to obtain two hydraulic sources.

And the compound pump

Two or more pumps are driven on the same axis and valves necessary for circuits such as relief valves, no-load valves, check valves, etc. are installed.

Theoretical discharge rate of vane pump

Unbalanced ( Q = 2 πDeWn ) (2.12)

Equilibrium type < Q = 4 πDeWn = 4 eWn ( πD -bz )>

Where b is the thickness of the vane, D is the diameter of the cam ring, e is the eccentricity, z is the number of vanes, and W is the width of the vane.

On the other hand,

First, the advantages of a vane pump

First, the vane pump has less pulsation pressure than other pumps.

Second, it is smaller than the driving power of the pump.

Third, there is no pressure drop even if the tip of the vane is worn.

Finally, relatively few faults and easy maintenance.

Also: In the disadvantage of the vane pump

First, the vane, the rotor, and the cam ring are in contact with each other, so that the degree of work must be set, and it is necessary to select high quality materials.

Second, it requires careful attention to the viscosity and cleanliness of the oil.

The number of parts is large.

In fire fighting systems, hydraulic energy is transferred from the pump to the actuator along the piping. Proper hydraulic components are needed to control the system to meet the requirements for power, torque, speed, direction, etc. These are the valves.

These valves are largely divided into function, pressure control valve, direction control valve, and flow control valve. By combining these valves according to their functions, hydraulic systems with various characteristics can be constructed. Therefore, the hydraulic control valve is the most diverse and main component of the hydraulic system.

These pressure control valves can be classified as follows according to the purpose of use and structure.

In this way, the relief valve 474,

It is a valve that keeps the pressure of the circuit constant as a valve that limits the maximum pressure of the circuit. The control pressure is sensed at the inlet P port of the valve. This valve is necessary in the hydraulic circuit and is a safety valve that prevents the circuit from being damaged by overload.

First, in the direct-acting relief valve 474a,

Figure 3-2 shows the direct relief valve (474a). The poppet is pressed against the valve seat by the spring, and the spring can be adjusted using the handle, so that the relief setting pressure is adjusted. When the differential pressure is smaller than the spring force, the valve is closed while the pressure oil is blocked. When the differential pressure becomes larger than the spring force, the pressurized oil pushes the poppet and flows into the tank. The pressure at which the oil starts flowing into the tank is called cracking pressure, and the pressure when the valve is fully opened and the discharge amount of the hydraulic pump is all sent to the oil tank is referred to as the pressure at the time of full flow, and this is the set pressure of the relief valve.

Also, the difference between pressure and cracking pressure at full flow rate is called pressure override, and direct type relief valve has a large pressure override. In the figure, when the pressure of the P port is close to the set pressure, the poppet lifts to the right and a gap is created between the valve seat and the poppet. The oil is discharged to the tank through this gap. At this time, since the pressure energy of the oil in the circuit is changed into the velocity energy, the poppet is not opened or the pressure drop suddenly occurs and the sheet surface is hit hard. Such a phenomenon of repeated operation is referred to as chattering, which causes severe noise and damages the valve seat.

The following description of the balanced piston relief valve 474b is given below

Although the structure is more complicated than the direct-acting type, the function of the relief valve is assured and the chattering phenomenon can be prevented, which is widely used in general industrial machines. The balanced piston type relief valve consists of a capacity control section consisting of a main valve and a spring for escaping excess oil in the circuit, and a pilot section for controlling the operation of the main valve and regulating the pressure.

Meanwhile, in the pressure reducing valve 460

The pressure reducing valve 460 is a valve for controlling the secondary pressure by lowering the branch circuit pressure to the main circuit pressure. The secondary pressure constant type 460a which makes the pressure difference between the inlet and the outlet the same is used as the valve for controlling the secondary pressure. Pressure constant-pressure type 460b which reduces the pressure of the refrigerant at a predetermined ratio.

First, in the secondary pressure constant-pressure reducing valve 460a

Figure 3-4 shows the structure of the secondary pressure constant pressure reducing valve. Below the set pressure, the poppet valve is closed, and the pressure at both ends of the spring is the same. The spring is pushed downward by the action of the main spring, and the whole flow of the pump is discharged without resistance of the inlet pressure . When the pressure at the outlet becomes higher than the set pressure, the poppet valve opens and the pressure oil flows out to the drain line. At this time, both ends of the spring generate pressure difference due to the flow rate through the choke, and the spool moves upward to reduce the opening of the flow path of the outlet, thereby controlling the outlet pressure to be the set pressure.

Next, in the differential pressure constant pressure reducing valve 460b

Figure 3-5 shows the structure of differential pressure constant pressure relief valve (pressure compensation type). If the force of the fluid is neglected, the balance of the force acting on the valve becomes p ₂ × A = p ₃ × A + spring force and the difference of p ₂ - p ₃ is kept constant.

The sequence valve or auto pressure control valve 469 is described as follows.

In an oil pressure circuit having two or more branch circuits, the operation order is an otovalue which regulates the operation by the pressure of the circuit or the motion of the hydraulic cylinder.

This kind of valve is a direct acting type pressure control valve as shown in Figure 3-6, and the flow path between the primary side and the secondary side is closed by the adjustment spring. The pilot pressure is directed downward through the passage of the lower cover and pushes the spool upwards.

When this force becomes larger than the spring force, the flow path opens. The valve has the function shown in the figure according to the combination of the upper cover and the lower cover. In addition, there is a check valve built in to allow backflow from the secondary side to the primary side, and it is used as a sequence valve, a counter balance valve, a brake valve, and the like.

Other counterbalance valves described above are described below

For a flow in one direction, a set back pressure is given, while a flow in the opposite direction is a free-flowing valve.

The directional control valve is used to control the flow direction of the hydraulic oil to control the flow direction of the hydraulic oil and to start, accelerate, decelerate, stop and maintain the current state of the cylinder or hydraulic motor. Valve.

Such a direction change valve will be described as follows.

The directional control valve is classified into a poppet type in which balls or pistons are attached to or separated from a sheet, a rotary spool type in which the spool is rotated around the shaft, and a direct spool type in which the spool is moved in the axial direction , Manual operation spring return type, push button operation spring return type, hand lever operation type, hand lever operation position fixing type, and pedal operation spring return type can be classified according to the operation method. In addition, the directional control valve is represented by several connected squares, indicating the state of the flow path in the valve, the number of the conversion positions, the number of the connection ports, the operation method, and the like at the neutral position.

First, the 2/2-way valve

The 2/2-way valve is used to open and shut off the pressure flow. That is, whether it flows into the P port or not depends on the position of the spool according to the operation lever.

The following are for 3/2-way valves

The 3/2-way valve is used for direction control to open the pressure flow in one direction and shut off in the other direction. This valve is designed so that when the spool is in the neutral position,

block and it is open from A port to T port. When an external force is applied to the lever, the spool is returned to the neutral position by the spring when the P port and the A port are connected and the external force acting on the lever is removed.

And for 4/2-way valves.

The 4/2-way valve is used to control the bidirectional flow of pressure. This valve is connected to P → B and A → T from the normal position. When operation force is applied, the pressure flows from P → A to B → T. It is used for clamping, unclamping, forward and backward movement of double acting cylinder.

The following 4/3-way valves are described as follows.

Spool wool is in neutral position, P port is completely disconnected from all ports, all ports are connected, and P port and T port are connected, and only A port and B port are connected.

And in a check valve 451

The valve 451 limits the flow of pressurized oil to only one direction, and is a valve that suppresses the flow in the opposite direction. It is operated by the pressure of the hydraulic oil in the hydraulic circuit and secures the flow path in only one direction. By preventing backflow, movement of the actuator is ensured. There are an in-line check valve 451a and an angle check valve 451b.

The operation of the flow control valve and its characteristics are described below

By changing the flow rate of the pressure oil, the moving speed of the hydraulic motor or the hydraulic cylinder can be changed. It is the flow control valve that controls the flow rate. In other words, the flow control valve can be said to control the speed of the hydraulic motor or cylinder. First, the channel of the model shown in Fig. 3-16 is called a chock, and the channel shown in Fig. 3-17 is called an orifice.

The orifice is to adjust the flow rate by changing the cross-sectional area of the flow path, and the flow rate of the choke is controlled by the long and thin flow path, which is longer than the cross-sectional area.

However, even if it is a telescopic mechanism, it is strictly choked or orifice. In other words, when the area (flow rate) is large, the flow is orifice, and when the area (flow rate) is small, the flow rate is choked. Although the method of controlling the flow rate is different in this way, the orifice side is not influenced by the viscosity (temperature) of the oil, and the choke side is influenced by the viscosity. Therefore, there are two kinds of flow control valve. One of them is a throttle valve that only tightens the flow rate. However, this simple throttle valve can not cope with a change in pressure or a change in viscosity. Therefore, pressure-compensated flow control valves and temperature-compensated flow control valves appear.

The above-described pressure-compensated flow control valve will be described with reference to the drawings.

The flow rate through the throttle passage of a constant cross-sectional area changes in accordance with the pressure difference before and after the throttle. That is, the change of the pressure changes the flow rate of the actuator without changing the degree of opening and closing of the valve. These points are problematic in hydraulic circuits where load and pressure fluctuations are frequent. In order to solve this fundamental problem, it is necessary to always flow a constant flow rate, and a pressure compensating device is required to keep the pressure difference before and after the throttle.

In order to keep the flow rate constant, a valve equipped with a mechanism for maintaining the pressure before and after the throttle is called a flow control valve. This type of flow control valve automatically adjusts the size of the orifice as the system pressure changes. This is possible by the use of a spring action pressure compensated spool which reduces the size of the orifice when the upstream pressure increases relative to the downstream pressure. Once the valve is installed, the pressure drop of the valve is maintained at a constant value, and the flow rate can be kept constant since the valve is almost constant.

Figure 3-18 above shows a cross section of a pressure compensated flow control valve. The valve basically consists of a main spool and a pressure compensation spool, and the adjustment knob adjusts the size of the outlet orifice by adjusting the position of the main spool. The upstream pressure of the main spool acts on the left side of the pressure compensation spool through pilot line A. The downstream pressure of the main spool acts on the right side of the pressure compensation spool through pilot line B. If the upstream pressure of the main spool is relatively too high (i.e., the pressure drop is too large) relative to the downstream pressure, the pressure compensation spool will move to the right against the force of the spring, Keep the pressure drop constant to keep the flow rate almost constant.

On the other hand, the temperature-compensated flow control valve is described as follows.

As the temperature of the hydraulic oil increases, the viscosity decreases. Therefore, the temperature change of the hydraulic oil causes a change in the flow rate through the flow control valve. Hydraulic fluid with low viscosity can easily flow through the orifice than with viscous hydraulic fluid, so the temperature rise of the hydraulic fluid increases the flow rate of the selected flow control valve. Therefore, there is a flow rate control valve with temperature compensation that employs a mechanism that minimizes the occurrence of flow rate fluctuations due to temperature changes.

The temperature compensated flow control valve incorporates a temperature sensing element whose orifice size is proportional to the temperature rise. Figure 3-19 is a representation of a pressure-temperature compensated flow control valve with a check valve.

The following high-performance submersible pump 36 is selected in accordance with the specifications of the person skilled in the art and is equipped with a safety hook 13 on the handle and a wire rope 19 on the hook 18 for use as an anti- The flange 28 is selected as the design and the flange standard size is selected according to the size of the outlet of the delivery port (discharge port 270).

As a special feature

Highest power with high starting torque (Torque)

In the past, it has been used in civil engineering, building construction, tunnel construction, subway construction, and water and sewage construction.

Here, in the detailed description of the fire sensor pump device, fire fighting and disinfection systems for early fire and lifesaving of a large fire include a water supply valve (495) for a tap water supply pipe (14) 533), the middle elbow connection joint portion should be constructed as a fire water control valve as a valve of the flow meter 105 for checking the fire water quality after attaching the elbow 44 with the elbow socket bushing screw, The water supply piping 14 is connected to the hole hose 9 for detecting the fire detection sensor by means of the nozzle hose and the paraffin 100 is inserted into the hose 9. [ And the water supply pressure corresponding to the water pressure inside the hose is also capable of preventing the fire. The air for supplying the gas and the non-combustible gas 164 are also supplied A fire hose nozzle for a paraffin stop is disposed forward to suppress ignition of the flame 292 and the flame 293 while at the same time detecting a first ignition point, To the top of the nozzle body (B), it is attached to various places on the inner edge of the building wooden pillars, which are ignited, and the floor of the ceiling.

Referring to FIG. 3K, at the upper end of the floodgate 293 of the riverbed dam 680 showing the construction of the dam floodgate operation mode of the flood control facility, a first adjustment (231) Floating Depth Docking Deposition of the floodplain, located at the upper end of the water gate (293) of the riverbed dam (680)

As shown in FIG. 3K, at the upper end portion of the water gate 293 of the riverbed dam 680, a plurality of floats among the plurality of floats among the plurality of floating floats are connected to the first float dock top deck (SDU) (SDU) at the top of the hull deck (SDU), which is located in the river, to control the movement of the ship which is located at the dock. 680) so that the crane (861) inside the floodplain compartment can carry out ship movement control at the position of the upper part of the deck of the ship (SDU) in order to pass freely without collision with the car on the ground surface. (933) and the second lifting docking port (SDU) at the top of the ship deck (SDU). And a dam control unit (811g) of the dam control unit (811) of the dam.

Referring to FIG. 31, in the upper end portion of the floodgate 293 of the riverbed dam 680 showing the structure of the operation of the dam floodgate of the flood control facility, a first adjustment The shaft 231 is a floating construction side surface structure positioned at the upper end of the water gate 293 of the riverbed dam 680,

As shown in FIG. 31, at the upper end of the water gate 293 of the riverbed dam 680, a plurality of floats among the plurality of floats among the plurality of floats among the plurality of floats are located on the first floodgate dock upper deck (SDU) (SDU) at the top of the hull deck (SDU), which is located in the river, to control the movement of the ship which is located at the dock. 680) so that the crane (861) inside the floodplain compartment can carry out ship movement control at the position of the upper part of the deck of the ship (SDU) in order to pass freely without collision with the car on the ground surface. (933) and the second lifting docking port (SDU) at the top of the ship deck (SDU). And a dam control unit (811g) of the dam control unit (811) of the dam.

Referring to FIG. 3m, at the upper end of the water gate 293 of the riverbed dam 680 showing the construction of the dam water gate operation structure of the flood control facility, a first adjustment The shaft 231 is a floating construction side surface structure positioned at the upper end of the water gate 293 of the riverbed dam 680,

As shown in FIG. 3m, at the upper end of the water gate 293 of the riverbed dam 680, a plurality of floats among a plurality of floats among the plurality of floating floats are connected to a traveling ship (SDU) at the top of the hull deck (SDU), which is located in the river, to control the movement of the moving ship located at the deck. 680) so that the crane (861) inside the floodplain compartment can carry out ship movement control at the position of the upper part of the deck of the ship (SDU) in order to pass freely without collision with the car on the ground surface. (933) and the second lifting docking port (SDU) at the top of the ship deck (SDU). And a dam control unit (811g) of the dam control unit (811) of the dam.

Fig. 4 is a cross-sectional view showing a distribution dispenser position adjustment structure of the flood control apparatus of the distribution shaft shown in Fig. 3, preferably, the water pump 403 is provided with the power pump 304, In the pre-occurrence and post-dredging of the yellow storm according to the weather forecast including the circulation arrangement to provide a backward flow to the top of the intake dam located in the ridge, the pump with double pipe structure and the injection nozzle The jetting water 38 and the curtain water film 39 of circular shape are sprayed to form the jetting water 38 and the generation of yellow dust is controlled and at the same time, A safety passage can be secured so that the vehicle can pass through the upper part of the road while the hot air balloon is provided. At the same time, the upper part of the roof of the residence is formed into a straight circular shape The safety of the residential area is ensured by securing the control of the snow accumulating by supplying hot air with the water film and the heating fan (642) for keeping the air equal to the circular curtain water film (39). At the same time, The cooling water and the cooling air equivalent to the circular water film of the circular shape and the circular curtain water film 39 of the jetting water 38 from the jetting nozzle 38 are provided in the air conditioner of the cooling device 816 in the cooling device 816, (77) and the airship (78) are placed at the top of the road surface (GLU) and the upper part of the sea surface (SLU) before and after the occurrence of the typhoon, 641) together with the cooling air in the form of a straight circular water film of the jetting water 38 from the pump and the spray nozzle and the curtain water film 39 in the circular shape to secure the control of the hurricane The safety of the residence At the same time, at the same time before and after the occurrence of the tornade, the adevolun 77 and the airship 78 are floated to the top of the road surface upper surface GLU and the upper surface of the sea surface SLU to check the state of the air flow, A circular water film of a circular shape and a curtain water film 39 of a circular shape which are straight lines of the injection nozzle 38 and the jetting nozzle 38, The water is circulated to the water storage tank 292 and each water intake dam 680 by the water quality improvement devices of the water gate 293 and the water passage 294 by the power pump 304 and the nonmotor water pump 393, Which is connected to a pipe rack 854 equipped with a crude oil drilling machine 908 for controlling the flow rate of the flow of the water into the main body 1 through land and sea of the global village by improving water quality, ) Flood control facilities of the rotating body, And it is preferred that the flood control accommodated in the flood control equipment of the distribution shaft 357 as to control the flow of the flow of a device provided with a flood of construction machinery inside the casing (1) be made of the configuration to overcome the drought.

Preferably, construction machines with multiple excavators are installed on the barge to provide a mass discharge of the deep ocean water to the contaminated river bed, and underwater borehole construction is carried out, and a double pipe structure block pipe channel is installed so that the pump and injection nozzles are located on the river bed And a plurality of water discharging water acts as a water film device of the breakwater, thereby blocking the influx of the brine into the water film devices, and thus, the water contained in the construction machine and the barge line (933) Pumps and nozzles can be used to supply deep-sea water to the sea, replacing the equipment having a construction machine of the flood control system in order to cope with the various floods, to a cooling device 816 formed inside the flushing control device body 1 The construction machine and the anti-erosion machine 877 are installed on the deck plate top surface of the barge 933 and the file driver 882 A steam hammer 884 and a crude drilling machine 908 are mounted on the gel pile hammer 883 to excavate a number of deep water boreholes 936 into the river downstream and into the ocean, (1) In order to overcome the various wastes formed by piping and hoses and supplying the deep seawater together with purified seawater to the fish tank of the farm, equipment equipped with the construction equipment of the flood control system is installed in the flushing control device body 1, It is preferable that disinfection adjustment accommodated in the adjustment shaft 231 is performed by flood control facilities that control the flow rate of the water to overcome several water flushes inside.

Preferably, construction machines with multiple excavators are installed on the barge to provide a mass discharge of the deep ocean water to the contaminated river bed, and underwater borehole construction is carried out, and a double pipe structure block pipe channel is installed so that the pump and injection nozzles are located on the river bed And a plurality of water discharging water acts as a water film device of the breakwater, thereby blocking the inflow of the brine into the water film devices, It is preferable that disinfection adjustment to be accommodated in the adjustment shaft 231 is performed by the flood control equipments for controlling the flow rate of the flow rate into the main body 1 in order to overcome several floods with the pump and the nozzles

Preferably, the mixture of the water tank 292 located at the waterfront inside the main body 1 and the yellow loam mixture stored in the control dam 680 is cut off by a mixer 73 at a level of 5% After the mixing, the mud ridge 934 is adhered to the barge 933 and is transported to the pump and nozzles provided on the barge 933 on the ocean of the harmful red tide breeding area, The flood control equipments for controlling the flow rate of the flow into the main body 1 provided with the heating device 815 and the cooling device 816 facilities against the seasonal temperature change into the water tank 292 and the control dam 680 It is preferable that the flood control accommodated in the adjustment shaft 231 is performed.

Prior to the construction of the water intake dam 680 and the water channel 294 constituting the inside of the main body 1, evaluation of the environmental impact evaluation according to the local setting positions of the water intake dam 680 and the water channel 294 is performed While the design is finished with the design of the instrument to calculate the material of the gravel cement in the reinforcing bar and the sand which is the material of the intake dam 680. At the same time, the intake dam 680 is formed of a natural dam The construction machine and the cable car 256 are equipped with cutting machines near the dam construction site and are installed in the control shaft 231 by flood control facilities for controlling the flow rate of the flow rate into the main body 1 It is preferable that the flood control is performed.

Preferably, in the landslide occurrence area and the landslide occurrence flood area constituting the inside of the main body (1), preliminary geological survey is completed, and according to the calculation of the material amount, disaster prevention work for the axle reinforcement and maintenance work is constituted, In the expected area and the landslide area, the double struc- ture rubber balloon 914 of the same shape as the doctor ventilation 585 is provided to the buried area after the landslide, Air is injected into the emergency exit of the advertisement line 77 and the airship 78 by operating the gas cylinder 79 and the air compressor 80 to confirm the position of the airship 77 and the airship 78, 1) It is necessary to arrange the emergency escape by inserting the helicopter rescue personnel at the same time while securing the emergency exit protrusion to the upper part of the buried area in the inside. (1) It is preferable that the flood control is accommodated in the regulation of a number of flood control equipment for controlling the flow rate of the flow into the shaft 231 be made of the configuration.

Preferably, a barge line (933) for providing deep water supply to the underground floor of the main body (1) and a pile driver (882) are installed at an elevator (877) A steam hammer 884 and a crude oil drilling machine 908 are mounted on the diesel pile hammer 883 and a plurality of deep water drilling holes 936 are drilled in the downstream of the river and in the ocean to form the borehole 936, (1), which is provided with a connection structure of a pipe and a hose to supply deep water to the tank of a fish farm together with purified seawater, and a flood control device It is preferable that the flood control accommodated in the adjustment shaft 231 is performed.

The hydroelectric power plant 233 is installed in a hydraulic tank of the land hydraulic power plant 233 constituting the interior of the main body 1 and a pressure tank head tank 189 located above the hydroelectric power plant 233. [ An inlet pipe 191 serving as a water pressure pipe is connected to an upper portion of the hydroelectric power plant 233 having a connection structure with the head tank 189 and a discharge port 270 at the rear of the head tank 189 A plurality of introduction pipes 191 are connected to the turbine 267 and the pump aberration 264 and the francis aberration 229 to the lower portion of the body of the respective generators 213 located inside the hydroelectric power plant 233, A turbine 267, a pump aberration 264, and a prasic aberration 229 (hereinafter, referred to as &quot; turbine &quot; (269) in the form of a redeye (35) in front of the Pelton aberration 230, and at the same time Each of the aberrons is rotated by a plurality of vertical gears 379 provided at the rotary shaft 198 at a constant rotation speed while simultaneously converting kinetic energy possessed by the water into mechanical energy and generating electric energy by the hydrostatic generator 213 A marine hydroelectric power generation control unit 811 for generating power to control flood water accommodated in the control shaft 231 by flue gas control facilities for controlling the flow rate of the flow into the main body 1 composed of marine hydro- ).

Preferably, the hydropower generator 213 generates hydraulic pressure in the generator 213 to generate mechanical energy, and rotates the turbines 267 to generate power. A plurality of aberrons and turbines 267 and a generator 213 for converting the power generated from the aberrations and turbines 267 and a plurality of turbines 267 and the generators 213 An exciter 215 for supplying an electric current to the field coil of the AC electric motor is located below the rotational speed detector 214 at the upper end of the rotating shaft 198. A device 216 The upper rotation bearing 217 is positioned below the device 216 for pushing the annular collar and the device 218 pushing the rotation bearing under the upper rotation bearing 217 is positioned and the rotary bearing pushing device 218) The center stator 221 is located in the stator coil 219 and the stator frame 220 and the electric wire 71 is inserted in the center stator 221 and the fan 195 is positioned below the center stator 221, A low speed rotation bearing 225 is disposed in the braking device ring 223 and the braking device 224 below the fan 195. A low speed cooler 222 is positioned below the low speed rotation bearing 225, An armature coil for a generator, which is a non-rotating coil provided along the circumferential surface of the rotor coil, and a plurality of aberrators and turbines 267 located at the lower end of the rotating shaft 198 The turbine rotating bearing 227 and the impeller 228 are disposed inside the casing 141 of the hydroelectric power generator 213 to constitute the hydraulic power connection structure power production control unit 811, (229) and Pelton aberration (230) 7, the suction port 269 and the discharge port 270 rotate the several aberrations while moving the inside of the casing 141 and the pressurized flow with the pressure inside the hydrostatic power generator 213, The pump aber 264 is configured such that the flow rate stored in the stream is supplied from the nuclear power plant to the main valve (not shown) 265) to adjust the position of the water to the storage dam 680 located at the upper part of the power plant while controlling the pump aberration 264 while generating the hydroelectric power, so that the water can be adjusted by the distribution / The power is transmitted to the main body 1 constituted by the power generation devices so that the flood control equipment for controlling the flow rate of the flow of the water is controlled to be accommodated in the control shaft 231 By adjusting the voltage at which the transformer substation of marine hydropower device for controlling supply of power to the power transmission control unit 811 includes transformer room is preferably configured to be able to control the distribution to the respective industries.

Preferably, the distribution dispensing apparatus of the electric motor body 192 constituting the inside of the main body 1 is provided with a fan 195 in the hood 193 and the snap ring 194, a body front reinforcing steel plate 197 and the rotary shaft 198 are provided with a stator assembly 201 on the rotor assembly 199 and the front rotary support 200, a terminal box 203 on the motor protection casting frame 202, A gap 208 and a fan protection cover 209 are formed on the rear reinforcing steel plate 207 and a stator core 211 and a stator winding 212 are formed on the rotor 205 and the rear rotation bearing 206, ), And the hydroelectric power generation is supplied from the power transmitting unit and the diesel engine generator 226 to the respective pumps and the prime mover, and the winch 137 and the construction machine are used to distribute and install the flood control equipment A power pump 304 in which an impeller 143 is formed on a rotary shaft 198 and a power pump 304 having a connection structure, A plurality of linear gears 379 provided on the tiller rotary shaft 198 are connected to the chain and are rotated at a constant rotation speed to control the flow of the flow rate into the main body 1, (231).

FIG. 5 is a view showing a configuration of a flood control apparatus of a flood control facility for controlling the flow of a flow of a detailed assembly process shown in FIG. 4, in which the construction of a float- Fig. 2 is a representative structural view of the present invention showing an assembling method.

The water storage tank and the water intake dam are inserted into both sides of the distribution shaft 357 constituting the main body. An adjustment shaft 231 for controlling the water storage of the flushing control device flow rate is connected to the marine tunnel transportation device 941, The holding tank 590, which is connected to the buoyancy control tank, is connected to the inner block tank 596 equipped with the double structure block tank 598, (607) and a lug pin (608) are provided on the outer side portion of the outer tank tank (599) outside the tank lifting tanks (593, 594, 595) (593,594,595) on the marine tunnel transport system (941) are the same as those for unfolding the tabletop table legs, the barge hull is equivalent to the tabletop table, and the tabletop table legs are the holding tanks of the barge hull 590) and So that the tabletop table can freely move and unfold the holding tank 590 of the barge hull at the sea level position by moving the hydraulic rotary cylinder 620 and the hydraulic cylinder A butterfly valve 622 for adjusting the buoyancy provided in a connection structure with the buoyancy regulating tank of the barge hull by a hydraulic cylinder door 624 and a buoyancy regulating butterfly valve 622 having a connection structure to the solenoid valve 76 (66) operation of the main switch button (66) for the solenoid valve starter switch button is provided to the top of the holding tank The barge hull 591 and the barge hull 592 at the lower end of the holding tank are coupled to each other through a connecting structure of the holding tank 590, The holding tanks 590 having the boat tank-combined portable rubbers 607 of the barge hull are provided with a coupling structure at one side of both sides, while simultaneously installing and unfolding the holding tanks 590 of the ship- The buoyancy adjusting butterfly valve 622 provided at the sea level upper end portion SLU and connected to the buoyancy adjusting tank of the barge hull at the same time and the buoyancy adjusting butterfly valve 622 having the connection structure to the solenoid valve 76 are connected to the solenoid valve The operation of the hydraulic cylinder 623 between the empty space for diving control on the barge hull by providing the on-time main switch button 66 operation of the main switch button for the start switch button (76) ) Are opened and the electrolytic water is filled in the empty space for diving control while the barge hull gradually dives into the water while losing buoyancy At the same time, a holding tank 590 equipped with a block tank-engaging portable lug 607 of the barge hull, a plurality of vertical processing lugs 607 on one side, The connection shaft 606 structure is coupled by the operation of the hydraulic rotary cylinder 620 and the hydraulic cylinder 623 while the hydraulic cylinder doors 624 are fully closed and the horizontal holding tank 590 pipe pier (928) is connected to the horizontal state holding tank (590) at the position of the connecting shaft fore part having the connection structure at one side of the vertical lug (607) by the barge hull and lug (607) At the same time as the barge ship hull is gradually submerged in the water at the site, the holding tank lower barge hull 592 is seated on the seabed and at the same time, the connecting shaft aft portion of each holding tank 590, which is not connected to the barge hull, The stern section of each holding tank 590, which is not connected to the hull of the barge hull 591 at the upper end of the holding tank, (590) with a vertical position control at the top of the sea level in the completed state, and a connecting shaft position at the top of the holding tank top barge hull (591). At the same time, Adjustment of position and movement of the construction equipment of maritime cranes, anti-aircrafts and anti-aircrafts (877) mounted on the barge line and tugboat (636) on the semi-working submarine line (637) It is constructed so that the automatic manufacturing connection structure of the fixing and termination of the mooring device is provided by putting the device and the throttle control device, (593,594,595) of the marine hydroelectric power plant by putting the position shifting control device and the throttle control device of the distribution input device of the marine tunnel traffic equipment installed with the construction machine into the distribution input device, Block tank Combined with one side of a holding tank with a portable lug (607) Barge of connecting structure Hook holding tank (590) of the hull from the body of the barge hull, together with a buoyancy control device, 590) is a distributing device of the main body which constitutes the marine hydroelectric power station lifting tanks (593, 594, 595) provided in the holding block tank which can adjust the position of the hull at a constant angle from 0 ° to 350 ° vertically and horizontally. The barge ship (591) of the hydro-electric power station, which is constructed to overcome the disasters in order to relieve the anxiety of the people peacefully, The power transmission control unit 811 for transmitting hydraulic power to both the forward and aft ends of the central block of the plurality of inner block tanks 596 to the inside of the ship hull deck center SDM is provided to insert the control shafts The guide rails 618 are installed to the left and right sides of the deck deck to the positions of the upper deck portion SDU of the dual structure barge hull 591 at the upper end of the holding tank 590 and the crane 861 of 5000 ton capacity is mounted on the guide rail A double helix sliding hatch cover 153 is installed in a safe place where the crane 861 passes in order to provide a moving installation inside the barge hull while simultaneously forming a hull structure on the hull 618, And a hydraulic cylinder 623 for adjusting the position of each of the adjustment shafts provided as a connection structure for adjusting the position of the hull by the hydraulic cylinder 623 at one end of each of the adjustment shafts, (591) at the top of the double structure holding tank and the barge hull (592) at the bottom of the double structure holding tank. Disassembly of the block tank position shifting control unit. The shaft 606 includes a lug 607, a lug connecting shaft coupling bolt 603, a lug connecting shaft engaging and disassembling nut 604 and a lifting type poisoning hull position shifting facility regulating unit (811) Double structure of double structure block tank (598) at marine hydroelectric power plant lifting tank (598) Double structure block tank pipe pier (928) and double structure block tank pipe bridge (937) A plurality of distribution shafts for distributing and discharging the water into a connection structure capable of being disassembled and coupled, and a double structure barge hull 591 at the upper end of the holding tank of each control shaft, and a plurality of inner block tanks 596 inside the hull deck central portion (SDM) Connected to a connection structure It is possible to inject several hulls at the same time, and it is possible for the consumer to control the power consumption of some hulls according to their preferences, and to control the power consumption, A tunnel connection device is connected to the electronic control device connection structure of the hydroelectric power plant to improve the flood control facility for efficiently controlling the flow of the flow of the main body 1 while being constructed as the main body 1 as the connection structure of the tunnel traffic equipment, It is composed of distributing and inputting device for controlling the hull position so that the hull can withstand the natural disaster of the sea while having the connecting structure to the distribution shaft provided with each valve and the pumps automatically checking the power to each distribution shaft automatically.

In addition, the marine hydroelectric power plant lifting tanks 593, 594, and 595 are connected to the marine tunnel traffic device 941 constituting the interior of the main body 1 by a hydraulic power generator (not shown) included in the control shaft 231 of the hydro- 213 is a difference obtained by converting the kinetic energy of the gravity due to the fall of the gas energy and the liquid energy into the rotational energy of rotation of the propeller 146 and the turbine 267. The hydroelectric power plant 233 of the hydro- Of the hydroelectric power generation equipment is the difference between the water intake equipment and the water supply facility, the rotary hydroelectric power plant is equipped with the power production, The train 771 is driven to travel above the pipe pier 928 formed by the connection of the tank 598 and the guide rail 618 installed inside the marine tunnel traffic device 941 formed of the double structure block tank The power transmission control unit 811 for transmitting the power supplied with the power source is provided with the power transmission line 71 connected to the transmission line 775 to the inside of the marine tunnel traffic device 941 and at the same time the strut tank upper barge line hull 591 ) A switch located at the center of the center of the holding tank 590 below the deck plate center position. The valve that opens when the valve is turned on and closed when the valve is turned off includes a buoyancy adjusting butterfly valve 622 ) And a solenoid valve (76), while at the same time the door is opened when the switch is turned on and the hydraulic cylinder door (624), which is closed when the switch is closed, The bottom surface of the bottom tank barge hull 592 of the holding tank is located, the bottom surface of the undersurface is excavated by the coarse drill 917, the borehole 936 is excavated by the coarse drill 917 to the bottom surface of the undersea surface, (936) The natural loess soil 158 is kneaded with a loess and cement mixer mixer 649 in a kneading room to prevent the noxious gas from being blown into the gap 15 of the borehole 936 and the crude oil 841 or natural gas 922 are mixed with yellow clay and cement 931 by a mixer 649 and filled up with gaps in the excavation hollow space and at the same time as safety equipment when the equipment is exchanged with hydraulic cylinders 623 (1), which has a connection structure to the distribution shaft. It is a construction machine equipment that is equipped with a flood control process as a distributing and inputting device for hull position adjustment so that the hull can withstand the natural disasters of the sea. (593, 594, 595) to the undersea by means of an anti-tidal and anti-erecting device (877) to secure the wing crank (846) to the marine tunnel traffic device (941).

The marine hydro-power station lifting tanks (593, 594, 595) at the top of the sea level (S L L) that constitute the connection structure to the distribution shaft into the body (1) It is designed by manual work designed by taking into account the tensile strength and the welded dimension of the steel plate, which is the shape of various welded joint grooves, while performing the butt joint welding of the high-strength steel plate (597) The design dimension is connected to the memory 70 via the computer network input 68 to the laser underwater cut-off computation control unit, and the first auxiliary type steel for the block tank, which is processed by laser underwater cutting and computer cutting, A horizontal barriers 609 and a diaphragm manhole 610 are provided on the second auxiliary steel plate 601 for the block tank and the second auxiliary steel plate 601 for the block tank on the snap hole 602 and the block steel tower 116 and the vertical barriers 605, A manhole cover 152 of the partition wall manhole, a machining hole 615 of a hatch cover 153 and a large flange 614 for a block tank, a long hole 616 of the portable lug 607, Safety assembly tool bands The same double tube structure tank as yours The submerged saddle formwork 617 for each construction, the band guide 621 and the reinforcing steel plate 165 are heated in the form of an underwater laser beam to operate the cutter, A double structure block tank 598, which is processed to a 500M standard length dimension by a roll forming machine, is connected to a large flange 614 and a marine tunnel conveyance device 941 at one side of both the inner and outer parts, The marine hydroelectric power plant is a power generating unit that constitutes a connection structure to the distribution shaft of the marine hydroelectric power plant floating support (593,594,595) inside the main body (1).

The crude oil drilling machine 908, which constitutes a connection structure to the distribution shaft of the floating hydroelectric power plant floating support 593, 594, 595 inside the main body 1, connects the drilling machine 908 to the drum- A worm crank (917) for engaging and disengaging the operation to the pipe rack (854), while replacing the worm crank (133) to secure the anchor bolt (133) The hydraulic cylinder 623 centered on the key bed 616 constituting the connecting structure at the lower end of the holding tank 590 of the hull of the barge hull is referred to as an actuator 848, while the hull is moored with a crane crank 846 for crankshaft replacement on the seabed, and when the hull anchor is released, the crane 846 fixed to the borehole of the underside surface of the crane crank 846 attached to the lower part of the pier column, The wedge 185 is connected to the hydraulic cylinder 623 actuator 848, The hull position of the marine hydroelectric power plant lifting tanks (593, 594, 595) of each control shaft (231) is adjusted to the inside of the main body (1) inside the lifting dock to adjust the direction of the fixed paper webbing And a lifting / discharging device for adjusting the position of the hull by means of a lifting / detaching docking position shifting device adjusting unit 811 configured to perform flood control inside the main body 1 configured for movement control and disassembly and assembly.

As such, the marine hydro-power station lifting dock (593, 594, 595) at the top of the sea surface (S L L) constituting the connection structure to the distribution shaft into the main body (1) The satellite launch pad 643 and the space rocket launch pad 646 are mounted on the left side of the steel tower 116 located at the upper part of the center of the deck plate of the barge hull 591 and at the same time the satellite 611 and the space Incorporating a rocket (612), it includes both warfare based on global humanitarian disasters, instability caused by terrorism, nuclear tests or missile launches, recession, global economic crisis, unemployment and natural disasters In order to overcome the crisis and solve the crisis of unemployment and to create a reconciliation mood between the great and the weak countries, it is necessary to prevent the production of all kinds of commercial weapons in the Northeast Asia, Peace is shared, including treaty documents and constitutional content, and at the same time, And the territorial sea that should be respected without mutual respect, "I am mine is yours." In consideration of the national circumstances among the countries of contention, (598) The marine tunnel transport system (941) is equipped with a distance measuring system on the circumference of the earth, while at the top of the deck top of the sea level upper part (SLU) The location of the hull is controlled by a distributing and inputting device so that the load of the pipe bridge object can be distributed and refurbished while allowing the future civilization to flow freely while exchanging cultural knowledge information. (1) As the water pollution control facility that controls the flow of the flow of the distribution shaft into the main body And a seaweed processing is configured.

Therefore, the net type control nozzle (10) of the harmful rust prevention preventing and regulating unit (811) constituted by the irrigation control facility for controlling the flow rate of the distribution shaft into the main body (1) The control nozzle 10 for connecting the T-shaped elbow in the above-mentioned cross shape is a small-sized marine power plant lifting tank 593 at the upper sea level, a 15-mm fire hose 9 at the upper deck plate, 10) is connected to the bottom of the deck deck at the side of the deck plate and spreads like a net to the bottom of the sea floor, and is connected to the fire fighting hose (40) by the control hose. (40) valve of a predetermined amount of compressed and stored piping line while supplying air to the receiver tank (145), and a thermal crosshair type control system connected to the side of the deck plate by a control hose (9) The high-pressure air pressure is ejected from the nozzle 10 to disperse the marine products along with the sediments of the seabed without harming from the harmful tide. At the same time, as the equipment of the function of the marine cleaner, It prevents the influx of the brine in the downstream drinking water intake, and the control gate of the river mouth is constantly opened as a hydrological control membrane replacing the gate for the up and down operation. It works as an anal for the human body while restoring the ecosystem, And a harmful red tide prevention / control unit 811 configured to control the flow rate of the flow of the distribution shaft to the inside of the tank (1).

The harmful red tide prevention and control unit 811, which is composed of a malaria control unit for controlling the flow rate of the distribution axis into the main body 1, is equipped with a flood control process for the purpose of protecting marine fishery products, In other words, it is a series of measures that the creature can breathe and survive. At the bottom of the control line, the harmful red tide breeding before the occurrence of the harmful tide is removed with the tide basket 842 for the harmful tide inhalation dust collector And is operatively connected between the land rope and the land rope so as to form an unspecified sea pirate in the port when the landing basket 842 and the fishing resource securing net 932 or the waiar rope (593) and a peacekeeping force in a three-dimensional operation in the course of the passage and anchorage of a pirate ship using a net made of a small marine power plant, The poison (593) is submerged in the water, and when passing through the pirate ship, the water inside the barge ship is pumped out and the air is supplied from the air hose line at the bottom of the low- It is broadcasted to the world by the media report transmitted to the unmanned camera (184) where the captive is caught by the peacekeeping unit in the poison net, and the pirates are eliminated in the future and the people who are involved in territorial dispute It is more powerful than the atomic bomb. It has already been released to the world through the Internet. As a result, the people of each nation who give up the war are spreading their willpower for peace. At the same time, Terrains inside and maritime structures prepared for war And a tunnel traffic device 925 to control the flow rate of the flow of the distribution shaft to the inside of the main body 1 within one day. In the area where the harmful blooming prevention and control section 811 constitutes the flood control process, Lt; / RTI &gt;

Referring to FIG. 5A, a detailed partial structure of a partial cross-sectional side view of a connection structure of a dual structure block tank of a marine hydroelectric power plant lifting dock of a distribution input device according to the present invention and a total of a floating hydro- The construction method of the flood control system showing the construction of the whole structure showing the dual structure holding tank and the float type docking method for explaining the construction method is shown in Fig. FIG. 5 is a view showing the assembly method of the disposing apparatus of the disintegration-coupled type disinfection control apparatus in block tank units of the floating support poison shown in FIG.

The manufacturing process 705 of the marine tunnel traffic apparatus pipe of the main body is a connection structure that can be disassembled and coupled at the marine vessel manufacturing factory of the connecting shaft. The small-diameter electric resistance welding pipe 706 manufactured by the marine vessel manufacturing department, (707) While performing the process of forming (712) the uncoil 708 to the ring leveling 709 and the side trimming 710 by cutting and rough connection 711, welding and inner / outer surface bead removal 713 The welded portion heat treatment 715 is performed while the ultrasonic wave and the eddy current test 714 are completed and the cut 719 is subjected to the flatness test (722) of the structure tube 721 is subjected to the hot cutting 726 in the intermediate load 723 and the induction heating furnace 724 to the SRM 725 standard, (731) can be visually inspected by the weight and length meter (730) on the hydrostatic test (728) and the ultrasonic wave and eddy current test (729) Which is provided with a screw 733 on the screw 732 and a galvanizing pipe 735 for the general pipe 734 and a boiler tube 737 on the galvanized steel pipe 736, (706) manufactured by the manufacturing department, and the middle diameter square forming electric resistance welded pipe (739) is formed by forming the coil mage steel sheet raw material (740) to the side trimming (741) (742) connected to the gasket forming apparatus (742), the pipe forming ultrasonic waves (743) and the test test (744) And the large diameter steel pipe 747 of the oil industry steel pipe 746 of the oil pipeline is connected to the edge milling machine 748 and the three roll banding machine 749 by a post- Ding Machine (750) Consists of manufacture in body manufacturing department that controls production with dispensing equipment (755) and outer tube welds (754) to perform outer welds (754) while simultaneously performing a back weld (753) weld cut to the outer weld (751) and inner weld (759) to the spiral welded steel pipe (760) while performing the process of marking and shipment (759) to the X-ray test (757) and the cold cross spindle (758) The uncoated piping 763 of the structural pipe of the ring 761 and the steel pipe pile 762 is connected to the outer brass cleaning 764 by an inner brass cleaning 765 and a primary coating 766 of the inner surface 766, And the coating and coating 768 of the steel pipe 746 of the oil pipe 746 while performing the coating and the coating 768 and the coating of the coated steel pipe 769 through the process of the ultrasonic wave and the X- (593, 594, 595), and a water supply unit It is preferable that the main body 1 is constructed as a connecting structure capable of being disassembled and coupled at a marine vessel manufacturing factory of a connecting shaft of the main body manufacturing process 705 before and after the operation of the main body 1, Double structure block tank pipe bridge 929 Tunnel device 941 The distributing side 705 of the manufacturing process of the connecting shaft provided for making the disassembly-connectable connection structure of the connecting shaft has the body of the double structure block tank 598, The inner block tank 596 positioned at the outer block tank 596 and the outer block tank 599 positioned at the outer position of the inner block tank 596 are provided with a high strength stainless steel plate 597, In the welding process, a double structure block tank (598) manufactured and manufactured by a connecting structure distribution dispenser is connected to the distribution tank of the double structure block tank pipe bridge marine tunnel traffic device (941) The first auxiliary steel plate 600 and the second auxiliary steel plate 601 are connected to each other through a connecting shaft to the connecting position of the forward and aft ends of the block tank 598, The large flange (614) is provided with a large flange (614), which is connected to the large flange connection flange joint portion machining hole (615) of the large flange, and is provided with a drill lathe and a cutter. The double structure block tank 598 of the iron structure metal of the main body of the main body according to the manufacturing process according to the safe design of the main body is provided with the high tension spring 598, (597) of a stainless steel plate, and the double structure block tank (598) is connected to the crane crane 861) and a conveyer 633, and at the same time, a steel plate 597 of high tensile strength steel is formed by a forming machine and a roll forming machine according to the original size of the steel plate 597 of the high- ) Is folded in a rounded form (c) at a right angle bending (a) and a V-shaped bending (b) with a foroming bending machine and at the same time a bending method The bending method of this type of bending machine and the rouller bending machine and the bending method of three bending wool bending machine are performed by the banding and bending machine of high tension stainless steel plate (597) At the same time, it is necessary to adjust the position of the welded joint to be able to weld to the banding joint of the steel plate 597 of the high tensile strength steel by a tunnel crane and a conveyor (633) Cutting machine equipped with high tension The large flange 614 located at the connection position of the large flange 614 located at the stern connection position with the block tank 598 while performing the welding process to the banding joint portion of the steel plate 597 of the stainless steel An outer block tank 599, which is provided as a main connecting structure of the manufacturing and processing shelf process and has a predetermined size of a stopper plate 625 and is located at an outer position of the inner block tank 596 and the inner block tank 596, And simultaneously the inner block tank 596 is moved to the inside of the outer block tank 599 by the crane crane 861 and the conveyor 633 to complete the welding process, (598,594,595) double structural block tank (598) double structure block tank bridge pier (928) and double structure block tank bridge bridge (937) marine hydroelectric power plant equipped with structural cylindrical connection structure 941) Connection axis A plurality of distribution shafts and a double structure block tank 598 for distributing and discharging the water into a connection structure capable of disassembly and disassembly of the main body 1 are constructed to operate the marine tunnel traffic apparatus pipe manufacturing process 705 of the main body 1.

A plurality of external block tanks 599 and a first auxiliary mold steel 600 for a block tank and a second auxiliary steel plate 601 for a block tank are disposed outside the inner block tank 596 of the double structure block tank 598, The vertical partition wall 605 and the horizontal partition wall 609 are provided with steel beams 149 so that the first auxiliary steel 600 for the block tank and the second auxiliary steel plate 601 for the block tank are provided with the vertical partition 605, A metal beam 149 in the horizontal partition 609 and a partition wall manhole 610 in the snap hole 602 are cut by a computer laser cutter while being welded by a welder in a welding process to form a double structure block tank 598, And the vertical partition wall 605 and the horizontal partition wall 609 in which the partition wall manhole 610 is formed are constituted by the welding process of the hydraulic system cylinder door 624 and the emergency stairs and the springs 631 It is composed of a traffic system connecting structure for interior and exterior renovation with double structure block tank facility The plurality of stopper plates 625 are formed by a bending method of a press braking type bending machine and a rouller bending machine and a bending method of a bending roll bending machine (597) of the high-strength stainless steels and folded with a folding machine to form a cylinder-shaped coupling structure, and a double structure formed by a capping assembly of the double structure block tank (598) A plurality of inner block tanks 596 of the block tank 598 and a plurality of outer block tanks 599 are welded to the upper and lower ends of the block tanks individually and a large flange bolting connecting device coupling structure in the form of an egg bolting coupling assembly (625) without a large flange. It is equipped with a welding device as a welding process assembly. It is equipped with a double structure in the main body (1) to support the marine hydroelectric power plant (593,594,595) A double structure block tank bridge pier 928 of the block tank 598 and a double structure block tank bridge 937 and a marine tunnel traffic device 941 are connected to a plurality of distribution shafts It is divided into the distribution input device and the double structure block tank is configured to operate.

It is preferable that the marine tunnel communication device composed of the double structure block tank bridge 937 of each control shaft 231 and the connecting upright limb position shifting device control unit 811 into the main body 1 (593, 594, 595) Hydraulic power plant lifting tanks (593, 594, 595) The marine tunnel traffic apparatus pipe manufacturing process (705) of the control shaft,

An inner block tank 596 positioned at the center of the body of the double structure block tank 598 and an outer block tank 599 located at an outer position of the inner block tank 596, ) Is connected to the one end of double structural block tank (598) manufactured and distributed as a connection and disconnection structure to the cutting process and the welding process at the industrial site, and is connected to the distribution input device of the double structure block tank pipe bridge device, The first auxiliary steel plate 600 and the second auxiliary steel plate 601 are connected to each other through a connecting shaft to the connecting position of the forward and aft ends of the block tank 598, The large flange 614 is provided with a large flange 614 positioned as a connection structure at a connection position and a stopper plate 625 of a predetermined size as a main body of the manufacturing process, Manufacturing process of the main body according to the process The double structure block tank 598 of the iron structure metal of the installation main body is supplied with the double structure block tank 598 into the conveying process by the cutting process of the high- A crane crane 861 and a concrete conveyor 633 are provided, and at the same time, according to the original size of the iron plate 597 of the high tension stainless steel, (A) and a V-shaped bend (b) are cut in a rounded form in the form of a round-shaped bend (c), and at the same time, a press- The bending method of the big bending machine and the low bending machine and the bending method of the bending machine of the bending machine are used for the banding and bending of the steel plate, (633) into the high tension Stainles lecture In order to allow welding to the banding joint portion of the plate 597, while adjusting the positional movement, the welder and the cutting tool are provided with a drill lathe and a cutter, and the welding process is progressed to the banding joint portion of the steel plate, The large flange 28 positioned at the connection position of the large flange 614 positioned at the fore and aft connecting position is provided with a plug steel plate 625 of a predetermined size as a main connection structure of the manufacturing and processing shelving process, 596 and an outer block tank positioned outside the inner block tank 596 are connected to the crane crane 861 at the same time as the pre-stroke block manufacture and the inner block tank 596 are moved to the inner position of the outer block tank 599, A double structure block tank 598 having a double structure cylindrical connection structure inside the main body is formed in the main body 1 by completing the welding process while adjusting the positional movement to the inside of the main body 1 and the cover 633, It is preferable to construct the connection structure that can be disassembled and coupled at the marine vessel manufacturing factory of the connection axis of the mooring device, the diving buoyancy control device and the marine tunnel traffic device pipe manufacturing process (705) provided in the floating power plant of the marine power plant (593,594,595) Do.

(593, 594, 595) composed of a double structure block tank (598) inside the main body (1), a marine vessel of the connecting shaft of the diving buoyancy adjusting device and the marine tunnel traffic pipe manufacturing process (705) provided in the marine power plant lifting dock It is possible to disassemble and install the buoyancy control device of ship or barge ship even at a depth of 10 km from the bottom of the sea while the marine hydroelectric power plant is equipped with a multi-stage inlet type 1km distance, The hydroelectric power production control unit (811), which produces the power to make flood control to the inside of the main body (1) by the w / h generating capacity of the marine hydroelectric power generators, is composed of a plurality of generators, Power is produced and the power supplied to the power transmission control unit 811 is controlled.

The power supply 685 generated by the marine hydroelectric power plant constituting the coupling by the power transmission control unit 811 is supplied to the inside of the main body 1 and at the same time the high voltage substation 690 and the primary substation 691 with the transformer 96 voltage 684 regulating the supply of power 685 to the pipe bridge 937 lifting dock and marine tunnel traffic pipe manufacturing process 705 including the large plant 698 The connection shaft is supplied with electric power (685) from the raw material high-strength steel manufacturing plant (597) manufacturing plant and the steel beam (149) to the equilibrium type steel manufacturing plant (839) while the pipe bridge (937) ) With a pier diameter of 5M, and the shape of a redshoe (35) per 1m of the depth of the seabed, the pier diameter is increased by 1M to 5M, A flange 614 of the large flange 614 provided at the upper portion of the flange 614, The bridge type saddle form frame 617 having the same configuration as that of the bridge 621 is provided with disassembly and coupling at the same time as the bridge type saddle form frame 617 is connected in a symmetrical manner (22) to the breakwater (400) in the territory of the territorial dispute while attaching a jig (22) to the breakwater (400) A plurality of guide ribs 185 are connected to the link bars 249 at a plurality of guide holes 615 in the guide holes 615 so that a plurality of guide ribs 185 are simultaneously disassembled The crankshaft crank 846 and the bridge pillar lower base 851 are inserted into the saddle form frame body 617 from the side and the lower surface of the saddle form frame 617, (185) of the worm crank (846) replacing the worm gear (133) The hydraulic cylinder 623 located at the center of the small key bed 616 constituting the connecting structure at the lower end of the holding tank 590 of the barge hull is operated by the actuator 848, The crankshaft 184 fixed to the borehole of the underside surface of the worm crank 846 attached to the lower portion of the pier of the pier is pushed by the crankshaft crank 846 of the hydraulic cylinder 623, The control shaft 231 is connected to the inside of the main body 1 of the lifting dock to regulate the direction of the webbing 185 fixed by the chute 848 while simultaneously controlling the anchoring of the hull, The hull position of the poison (593, 594, 595) is adjusted to the inside of the main body (1) constituting the hull for the movement control and the disassembly and assembly of the hull, Device.

The main body 1 is constructed so as to adjust the position of the hull of the marine hydroelectric power plant lifting tanks 593, 594, 595 of each control shaft 231 to the inside of the main body 1, The double structure block tank 598 is moved to a marine assembly site by a tug line 636, which is constituted by a lifting / distributing device for adjusting the position of the hull by a lifting type poisoning ship hull moving device adjustment unit 811, (593,594,595) to the marine tunnel traffic system on the bridges and bridge piers by moving and adjusting the hull position of the marine hydro-power plant lifting dock (593,594,595) A tug line 636 having a double structure in which a diving position confirming rope 629 is bound to a ship by a rope knot claw 630 and a diving position confirming dive Block tank 598 While checking the state of the air inlet port, the electronic control unit valve operation state, the air hose 109 and the pump hose state, which are attached to the outside of the double structure block tank 598 while making the sub flagpole rubber balloon 628 medallion, The anti-submerging operation line 637 simultaneously performs the safety work of the double structure block tank 598 with the band guide 621 and the hydraulic cylinder operation key 623 while at the same time, The float line hull 591 of the double structure block tank 598 is exposed to the upper end of the sea level SLL and the floating docking tank 598 is assembled by the buoyancy control butterfly valve 622 and the hydraulic cylinder door 624, The hatch cover 153 for the hydraulic cylinder is pushed out to the outside of the tank by the discharge pump connected to the tug 636 at the same time while the cargo ship is moored at the ship sink prevention residence line 634 The emergency stairs 631 and the elevator 632 are transported in block units while the block steel towers 116 constituted by the divergent type river 149 and the pipes are transported in block units and at the same time the roof hull deck decks at the upper end of the holding tank are laid down, At the same time as assembling the block steel tower 116 with the crane lifter 861, the lower tank barge hull 592 of the holding tank is secured to the bottom of the barge hull deck at the upper end of the holding tank of the sea surface upper end portion SLU, A block unit block pylon 116 is combined with an emergency staircase 631, a bolt for connecting the elevator and the block unit coupling shaft, and a rupturing shaft coupling and disassembling nut, At the same time, the emergency stairs 631 and the elevator 632 are installed at the position of the airship cradle of the mooring tower 644. At the top of the block pylon 116, And a radio sonde 134 provided on the body of the weather balloon observing equipment located at the upper end of the lightning rod 500 while being provided with a lightning rod 500 which is a stick of a sieve and transmitted from the satellite 611 of the communication system And the weather control facility control unit 811 controls the weather control station 811 in order to prevent various natural disasters such as forest fires, dust storms, heavy snow, typhoons, floods, droughts and landslides. The disaster prevention prevention and control unit 811, which is constructed of weather observation equipment for controlling the flood control inside the main body 1 for providing a flood control facility, is a weather observation apparatus having a flood control process built into the main body 1, (357) to exchange diary information.

The disaster prevention preventive control unit 811 constructed inside the main body 1 includes an unmanned boarding unmanned camera 184 inside a basket 42 on which a pile is boarded under a weather observation equipment having a flood control process, The burner boom 920 is installed so that the adevolunes 77 of the weather observing apparatus can be adjusted to the upper and lower positions and at the same time the fuel gas is supplied to the fuel supply hose 694 while the fire hose 9 is connected to the fire- The hose 694 of the gas transportation means lighter than air is connected to the inside of the disaster prevention hose 9 by the wire rope 19 and the shackle 23 error 21, And is connected to an air storage tank and connected to the recycle tank 145 generated in the rear-end fire-fighting unit 40 and the air compressor 80, and a harmful gas located on the right side of the barrel hull block steel tower 116 at the upper end of the holding tank The burner boom (920) and high pressure storage A non aifice skid 918 of the aquifer generators and the transport system provided within the tank reservoir tank 145 and the large hydroelectric generator body 213 and the natural gas 922 and crude oil 841 ), A storage tank for storing the harmful gas from the storage tank, and a dust collector (794) having a flexible high pressure hose (190) when an emergency occurs when harmful gas is generated when excavating crude oil, A mixer 73 as a device for mixing the cement 931 with the loess material 158 for recovering the drilling space with the loess 158 and the cement 931 after harvesting and producing the crude oil 841, A satellite launch pad 643 for launching the satellite 611 and the space rocket 612 to the left of the safety control room and a crew work room 614 and a crew work room, a control room, The vessel is moored at the mooring device ballard (638) At the same time, the artificial satellite 611 and the space rocket 612 are arranged in the artificial launching platform 643, and at the same time, the air compressor 80 is provided with the nozzle 923 in the net hose 109, And the pipe rack 854 of the toothed support rollers 854 of the crude oil drill rod, which are located at the bottom of the sea floor at the same time and which are located in the machine room 908, While simultaneously conveying the crane boom 651 of the wire rope 19 of the crane crane 861 which adjusts the movement of the drill machine 908 to the shelf of the drill machine 908, A pipe rack 854 having a length of 15 meters at the upper end of the drill machine 908 has a stockpile for connection of the crude drill rods and at the same time a center of the barge hull at the bottom of the holding tank 590 Holding tank (811) which adjusts the flood control to the inside of the main body (1) while adjusting the installation with the coarse drill (917) which is joined to and separated from the crude drill rod to the excavator chamber And a power transmission control unit 811 for transmitting the power to supply the production power of the marine hydroelectric power plant to the entire installation equipment constituted by the disposal adjustment process, which is constituted by a distribution dispenser for hull position adjustment.

The SLD barge (SLD), which is constructed of a flood control unit, is composed of a loading / unloading device for adjusting the position of the hull by a lifting type poisoning ship hull locomotion controller 811 configured to perform flood control inside the main body 1, A partition wall manhole 610 and a manhole cover 152 and a hatch cover 153 are attached to the outer wall of the main body 592 by a hydraulic rotary cylinder key 623 and at the same time a partition wall manhole 610 and a hatch cover 153 (912), a suction collection machine (911) and a mineral collection tank (924) of a pneumatic conveying equipment (916), and a fishery netting net (910) The wire rope 19 and the rope 131 are configured such that the search equipment is prevented from being displaced to the seabed at a deep sea location while simultaneously preventing entanglement of the navigational equipment. At the same time, the seabed mineral resource manganese block 909 and other seabed Collect mineral and natural gas (922) and crude oil (841) And underwater lights 843 are projected on the sea surface lower holding tank 592 and the outer surface of the barge hull outer surface of the holding tank 592 at the bottom of the holding tank 592. At the same time, The pump aberration 264 is provided to the turbine 267, the pump aberration 264 and the Frances aberration 229, which have the flow rate of the airstream, And a plurality of vertical gears 379 provided at the rotary shaft 198 rotate at a constant rotation speed while simultaneously generating kinetic energy of water And the hydro-electric power generator 213 converts the mechanical energy into mechanical energy and generates electric energy. The hydro-electric power generator 213 controls the flow of the water to the inside of the main body 1, To be done The power transmission control unit 811, which is connected to the power generation control unit 811 at the same time that the marine hydroelectric power production control unit 811 that generates the power is installed on the barge ship, is supplied with power, And at the same time, the hull of the barge is placed on the outer wall surface of the outer block tank, the rubber tube (130) for preventing the collision of the sailing vessel and the trumpet (43) (625) Replacement equipment Other safety devices Tools and mooring systems Anchor and anchor chains Anchor bolts (640) Anchor bolts (640) Shock absorbers Mechanical magnetic magnets (645) and rubber material Tent (43) 133 and a first pressure sensor 86 and a second pressure sensor 87 which are opened when the ignition switch is turned on and the valve is shut off when the ignition switch is turned off, (635) to pump (909) transported to the top of the hull deck deck at the top of the sea surface by the pipeline, and the mounting arrangement of the pipeline nozzle frame and the wire rope safety net (401) The ship is constructed by a tug ship (636) and a loading / unloading device for adjusting the position of the hull by a lifting dockside locomotion facility control unit (811) which is controlled to flood inside the main body (1) And is connected to the distribution shaft 357 of the angle adjustment shaft 231 of the marine hydroelectric power plant floating attachment poison 593, 594, 595 at the upper end of the sea surface SLL where the flood control process is formed.

In addition, a hydraulic cylinder operation key (not shown) is provided, which is constituted by a loading / unloading device for adjusting the position of the hull by a lifting type poisoning ship hull moving device adjustment unit 811 configured to perform flood control within the main body 1 623, a band guide 621 provided in the hydraulic rotary cylinder 620, and a wrench in a male tool hammer are provided to perform a large flange-coupled bolting connection assembly, while the discharge pump and the air compressor 80 are operated The air pressure regulator inside the block tank and the water pressure regulator are used to connect the portable lug (617) to the portable lug (607) processing hole (615) located at each block tank connection portion while repeating diving and floating. The engaging pin 606 is engaged with the engaging screw 604 of the connecting shaft coupling bolt 603 and the engaging pin 604 is engaged with the engaging pin 608. At the same time, The pin 608 is broken It is possible to construct a double structure block tank line by connecting fixed and fixed nuts. By supplying power to the land, it is possible to prevent the occurrence of harmful tide, the operation of pump and air compressor (80) The air is supplied by the cross-shaped flexible high-pressure hose (190), and the dis- tribution water of the water pressure inside the piping line hose of the pump is discharged through the gap of the nozzle into the discharge jet water and the radial curtain water film, (925), it is necessary to control the flow of the downward current (926), thereby suppressing the power of the typhoon and preventing the global warming. By converting the people of the nuclear bomb manufacturing party, which is equivalent to the harmful red tide, (611) of a computer system combined with an information exchange communication means of the Internet network (50) which peacefully resolves international disputes while overcoming the dispute Equipment that includes information providing means that is transmitted to the unmanned camera (184) on the ship device radar. It is equipped with equipment to prevent humanitarian disasters in the global village, natural disaster prevention in the peaceful global village, and happy life of humanity. And a flood control unit 811 for controlling the flood control of the inside of the main body 1.

In addition, an environment-friendly, pollution-free energy hydroelectric power generator (hereinafter, referred to as an &quot; air-conditioner &quot;) equipped with a flood control process, which is constituted by a flotation- (901) in a furnace that dissolves iron ore as soon as it is collected and collects iron ore, crude oil (841) and pollution-free natural gas (771), which is a maritime tunnel transport device that regulates the supply of 922, is installed as a maritime trade volume control device, and is installed as a cooperative device for international economic development. At the same time, in order to resolve territorial maritime disputes, The bomb-making experiment should be kept at a designated location on the sea, , And it is provided as a floating equipment for displaying on the score conversion monitor 52 after confirming winning to a country or an individual having a high acquisition score through an unmanned camera 184 according to the achievement performance of the seabed resource reserves, It is equipped with a maritime anti-decontamination device, while changing one of the engine propeller (146) and the squirrel (147) wing while simultaneously allowing the pirates to dive into the water together with the pirate ship during engine operation. (1), (2), (3), (4), (5), (6) and (7) of the present invention, And air storage tanks and wire ropes with multiple frames and removable transport equipment. (811), which has a connection structure including a line, and which is constructed to adjust flood control to the inside of the main body (1), and a flood control process The gas and the liquid or solid disaster prevention material are mixed so that the piping nozzle can be quickly and precisely maintained in a solid state by the nozzle pouring nozzle 100 without fire before the fire occurs.

In this way, the flood control system is constructed as a distributing and inputting device for controlling the position of the hull by a floatation type poison hull locomotion control unit 811 configured to control the flood inside the main body 1, As the pipe is changed, the gap is formed with the gap 15 between the nozzle-shaped nozzle 15 and the gap 15 formed with the radiation-like nozzle, and the fire water is supplied to the plurality of radiation curtain water films 39 and the plurality of linear straight- (163) a pump of an electronic control unit consisting of vertical and horizontal curtain membranes to prevent any damage to life from dioxins and flame materials. Fire brigades, snow, heavy snow, extreme weather, typhoons, floods, droughts, and landslides. (685) is supplied to the fire-fighting and disinfection apparatus of the electronic control pump composed of the disaster control device and the flood control is made to the inside of the main body (1) constituting the connection to the upper and lower sides of the floating deck deck The hydroelectric power plant of the unmanned global marine hydroelectric power plant constructed with the disposal adjustment process constituted by the distributing and inputting device of the hull position adjustment by the poisoning hull locomotion facility adjustment unit (811) replaces the water intake facility to the power generation facilities and water supply facilities. And a non-motorized water pump (393) was installed to construct the inside of the main body (1).

Referring to FIG. 5B, a detailed partial structure of a partial sectional view of a connection structure of a double structure block tank of a marine hydroelectric power plant lifting dock of a distribution input device according to the present invention, The construction method of the flood control system showing the construction of the whole structure showing the dual structure holding tank and the float type docking method for explaining the construction method is shown in Fig. FIG. 5 is a view showing the assembly method of the disposing apparatus of the disintegration-coupled type disinfection control apparatus in block tank units of the floating support poison shown in FIG.

The distribution input device of the diving operation ready controllable control apparatus located inside the main body includes a block tank provided in a horizontal and vertical type coupling structure at respective portions of the strut tank upper barge hull 591 and the strut tank lower barge hull 592, The hull disassembly-type portable lug 607 is provided with a horizontal block tank hull disassembly portable lug 601 having a plurality of lug processing holes 615 and an elongated hole 616 for a block tank block unit hull disassembly position shifting regulator Pin connection shaft (606) Vertical block tank with machining hole (615) Hull disassembly Portable lug pin Connecting shaft (606) Block hole in machining hole (615) Block unit Unit hull disassembly Jig hole 616 are provided to form a plurality of processing holes (not shown) provided at respective portions in the vertical form of the connecting portion of the pillar-and-hold column 590 and the barge hull 591 at the upper end of each holding tank and the barge hull 592 at the lower end of the holding tank The block tank hull disassembly and connection portable lug pin connecting shaft 606 bound to a plurality of lug processing holes 615 is removed from a plurality of lug pin connecting shafts 606 bound to the lug pin 615, The double structure holding tank 598 is disassembled and disassembled into the distribution input apparatus of the sinking prevention stay line 634 of the sinking ship by the portable lug pin connecting shaft 606 having the connection shaft 606 bound thereto Completely assembled sea level surface as possible connection structure Connected to bottom part Connection to each part of barge hull Docking control unit Block tank block unit Ship's buoyancy control butterfly valve (622) and dumbbell control doctor's ventilation A double structure piping line automatic pneumatic valve transport device 916 is connected to the suction port 585a and the discharge port 585b of the block tank 582 and the hydraulic cylinder 426 for the block tank hull traffic control device and the stopper plate 625, And engine control The power motor control module 106 is provided with a preparatory operation for diving each time, and at the same time, a horizontal holding tank 590 is set to a vertical holding tank 590 so as to sink to the lower part of the sea level (SLD) (594, 595, 596) for preventing the sinking of the main body (1) into the main body (1) by the distribution and input of the prevention residence line (634).

The motor body 192 constituting the distribution shaft of the regulating shaft into the main body 1 and the central portion circumferential surface portion of the shaft 198 formed on the horizontal center line MBCL of the motor body 192, And a piston 127 attached to the rotating shaft 198 to a pump to which the vane 142 is not attached. The piston 127 is attached to the rotating shaft 198 by a pump having a guide vane 142 attached to the outer surface of the impeller 143, ) Pump and a generator 213 provided inside the power plant, a main valve on the side of the pump aberration 264 located under the power generator of the power plant, a main valve on the side of the turbine 267 and a balance nozzle in the Phelton aberration 230, The pump 140 is connected to the plunger pump 198 and the high pressure piston pump 127 to the propeller pump 146 and the viscous pump 343, 198) and a number of microcomputer-controlled &lt; RTI ID = 0.0 &gt; Unlike the case where the mouth type multi-stage pump 8 is formed inside the main body 1 and the conventional crude oil drilling rig is fixed on an anchor in a continental shelf area within 200m in depth, in the present invention, In the m area, the hull fixing is composed of a crank crank (846) for replacing the anchor, which is a remarkable difference from the previous hull fixing by anchor.

Referring to FIG. 5C, the flood control unit of the flood control system according to the present invention is a block tank unit of a floating tank showing the decomposition and binding in a unit of floating tank block tank of a marine hydroelectric power plant. Fig. 8 is a view showing the assembly method of the distribution dispensing apparatus of the facility.

The holding tank 590 provided in a connection structure with the buoyancy adjusting tank is provided with tank lifting tanks 593, 594, 595 for buoyancy adjustment between the inner block tank 596 equipped with the double structure block tank 598 and the empty space of the outer block tank 599, The marine hydroelectric power plant floating support tanks 593, 594, and 595 are connected to the marine tunnel communication device 941 provided with the pin connection shaft 606 and the lug pin 608 for lug 607 on the outside, It is the same as a device that unfolds the table legs. Since the barge hull is equivalent to a table table and the table table legs are equivalent to the holding tank (590) of the barge hull, the table table can be freely moved and unfolded The operation of freely pivoting and unfolding the holding tank 590 of the barge hull at the sea level position is performed by the hydraulic rotary cylinder 620 and the hydraulic cylinder 623, A buoyancy control butterfly valve 622 provided in a connection structure with the buoyancy control tank of the barge hull with use doors 624 and a buoyancy control butterfly valve 622 having a connection structure to the solenoid valve 76 are connected to a solenoid valve The operation of the on-time main switch button 66 of the main switch button 66 for the start switch button is provided and the barge hull 591 at the upper end of the holding tank is moved to the sea level upper end portion (SLU) And the barge hull 592 at the lower end of the holding tank is coupled to the holding tank 590 so that the barge hull can be freely lowered and unfolded from the holding tank 590 of the barge hull, A holding tank 590 equipped with a block tank combined portable lug 607 is mounted on one side of the sea side upper end portion SLU provided with a coupling and connecting structure, The buoyancy adjusting butterfly valve 622 provided in a connection structure with the buoyancy adjusting tank of the solenoid valve 76 and the buoyancy adjusting butterfly valve 622 having the connection structure to the solenoid valve 76 are opened by the solenoid valve 76, The operation of the on-time main switch button 66 of the button is provided so that the hydraulic cylinder door 624 is opened by the operation of the hydraulic cylinder 623 between empty spaces for diving control on the barge hull, The barge hull is gradually submerged in the water while the buoyancy is lost and at the same time the one side of the vertical lug 21 on one side of the holding tank 590 equipped with the block tank combined portable lug 607 of the barge hull, The pin coupling shaft 606 and the coupling structure are connected to the hydraulic cylinder 620 and the hydraulic cylinder 623 by a single number of vertically machined holes in the hydraulic cylinder At the same time that the cylinder doors 624 are fully closed and the horizontal holding tank 590 pipe piercing hole 928 is connected to the barge hull and the lug 607 in a state where the buoyancy is not lost, 607) connecting shaft having a connecting structure at one side horizontal state at the bow position The holding tank (590) at the position of the connecting shaft is first slowly submerged in the water together with the barge hull, and the holding tank lower barge hull (592) And the connection shaft aft part of each holding tank 590 which is not connected to the hull of the barge is moved vertically to adjust the positional movement of the holding tank upper barge hull 591 in a vertical position on the upper side of the sea surface, Each of the holding tanks (590) connected to the hull is connected to the vertical shaft of the vertical shaft, (590) and the top of the holding tank top barge hull (591). The submarine and semi-working line (637) are connected to the barge and tugboat (636) Installation and dismantling of marine cranes, anti-aircrafts and anti-aircrafts (877) equipped on the anti-submarine rescue ships, The construction of the automatic manufacturing connection structure of the marine tunnel is set up so that the installation base of the anti-sinking type washing and docking equipment is installed and the marine tunnel power supply facility flood control device (593, 594, 595) distribution unit, and at the same time, equipped with a block tank-mounted portable lug 607 of a barge hull (590) connected to one side of the main tank is connected to the one side of the main tank, and the holding tank (590) corresponding to the table table leg is vertically and horizontally rotated from 0 ° to 350 (593,594,595) equipped with marine hydroelectric power plants equipped with a holding block tank capable of adjusting the position of the hull at a constant angle of about 60 ° to the sea. The system is designed to overcome natural disasters in sequence, (591) of the marine hydroelectric power station to the inside of the ship hull deck center (SDM) of the marine hydroelectric power plant, the power transmission control unit 811 Are provided at the upper end of the hull deck (591) of the dual structure barge hull 591 at the upper end of the holding tank 590 The guide rails 618 are installed on the left and right sides of the deck deck and the crane 861 of 5000 ton capacity is formed on the guide rails 618 while the moving installation inside the barge hull is provided, The sliding hatch cover 153 having a double structure is installed as a double or triple structure in a safety place where the crane 861 passes and a hydraulic cylinder 623 is provided at one end of each of the control shafts to adjust the position of the hull (591) at the upper end of the double structure holding tank and a barge hull (592) at the lower end of the double structure holding tank are provided with a hydraulic cylinder (623) for adjusting the positions of the respective control shafts Movement of the block tank to the tank 590 Disassembly of the regulating device Connection pin of the portable lug To the connecting shaft 606, the lug (607) and the lug connection shaft bolt (603) The double structure block tank pier 598 of the double structure block tank 598 is attached to the floating hydrofoil detachable poison 593, 594, 595 by the nut 604 and the lifting / A plurality of distribution shafts for distributing and discharging the combined structure to a disassembly-connectable connection structure of the connecting shaft of the double structure block tank bridge bridge (937) and the marine tunnel traffic apparatus (941), and a double structure barge A double structure block 593 is attached to the marine hydroelectric power plant lifting dock 593, 594, 595 which is connected to several inner block tanks 596 as a connection structure inside the hull deck center portion SDM of the hull 591, The double structure block tank pipe bridge 928 of the tank 598 and the dual structure block tank bridge 937 and the marine tunnel traffic device 941 are connected to a disassembly- As a connection structure capable of being disassembled and coupled to the lifting tongues 593, the double structure block tank 598 of the side surface of the circumferential surface of the small lifting tongue 593, the hull connecting and separating portable lug 607, The pin connecting shaft 606 is connected to the hull connecting and separating portable lug 607 and the portable lug pin connecting shafts 606 located at the respective side portions of the middle lifting tongue 594 to the hydraulic cylinder 623, Detached portable tongue 593 and a middle tongue floating tongue 594 are connected to each other and at the same time a hull-detachable portable lug 607 and a portable lug pin 594, The connecting shafts 606 are connected to the hydraulic cylinders 623 by the hull coupling separated portable lugs 607 and the portable lugg pin connecting shafts 606 located at the respective side portions of the large floating hood 595, 623), each of which has its own diving regulating and separating coupling, The opening of the buoyancy control butterfly valve 622 having the buoyancy controlling butterfly valve 622 and the solenoid valve 76 connected to the inside of the buoyancy type poison is started and the solenoid valve 76 is started The operation of the on-off main switch button 66 of the switch button for the switch button is provided so that the hydraulic cylinder doors 624 are opened by the operation of the hydraulic cylinder 623 between empty spaces for diving control on the barge hull At the same time as the electrolytic water is filled in the dams for controlling the diving, the barge hull is gradually submerged into the water while losing buoyancy, and at the same time, a plurality of vertical tanks 590 on both sides of the holding tank 590 equipped with the block tank- The pin connecting shafts 606 for lug fitting into a single number of vertical machining hole portions on one side of the lug 607 are connected to the hydraulic rotary cylinder 620 and the hydraulic cylinder 623 While the hydraulic cylinder door 624 is fully closed and the displacement is controlled while the hydraulic cylinder door 624 is being operated, the submerged double block tank unit of the hydroelectric power plant of the hydrothermal (613), and at the same time, the hull is exposed to the upper part of the sea level to prevent sinking. The hydroelectric power station is installed in the marine tunnel transportation device (941) as a block tank unit of the floating hydroelectric power plant floating- And a distribution control unit for the flood control facility that provides the decomposition combination to the floating dock of the power plant and the floating dock of an independently floating hydroelectric power plant.

5d, the double structure block tank 598 of the marine tunnel transportation device 941 of the marine hydroelectric power plant lifting dock of the distribution input device of the flood control device according to the present invention, A double structure block tank side connection type construction showing the cutting and underwater welding preparation process with the marine safety tool tool band guide 621 at the upper half of the semi-submerging operation line, a double structure block tank 598 and a band (598) partial partial side view detailing coupling structure of the partial double structure block tank (598) partially showing the guide (621).

Double structure block tank (598) of marine tunnel transportation device (941) of marine hydroelectric power plant of marine hydroelectric power plant of distribution facility of above-mentioned flood control facility. (598) Marine anti-diving work (621) is provided to adjust a welding joint method and a flange jointing method, which are coupling means of the lifting dock, while simultaneously controlling the double structure block tank (598) and the detachable portable lug (607) The pin connecting shaft 606 is connected to the pin connecting shaft 606 at the sea level while the welding connecting lines are welded symmetrically. At the same time, in the double structure block tank 598, (621) to the upper end of the semi-submerging operation line (637) to connect the large flange (614) at the connection position in units of the double structure block tank (598) to the large flange (614) 598 are linearly coupled to the lever block 123 and the chain block 648 while the band guide 621 and the semi-submerging operation line 637 are welded to the double structure block tank 598 The joint and flange joints are welded and welded to the bolts with nut assembled tools to weld and flange joints to the double structure block tank 598 of the marine tunnel transport device 941 of the floating hydroelectric power plant.

The double structure block tank 598 of the marine tunnel transport device 941 of the marine hydroelectric power plant lifting dock of the marine hydroelectric power plant constructed inside the main body 1 has a buoyancy type poison top at the upper part of the sea water surface upper part SUL, A block pylon 116 is installed on a winding machine 137 inside a block pylon 116 accommodating several emergency stairs 631 while a block pylon connection connector An emergency step 631 is formed around the upper part of the inside of the block pylon 116 while the block pylon 116 is constructed in block units while binding in the processing hole 615 and binding with the lug shaft coupling nut 604 The emergency stairs 631 are formed by the positions of the moorings 78 at the upper end of the mooring tower 644 and are installed in the elevator 632 in the pipe rack transporting crane 861 to the lower central portion of the lower end of the mooring line, In order to protect the safety of the object while dispersing the load of the marine tunnel transportation device 941, the buoyancy-adjusting marine tunnel traffic device 941 constructed inside the main body 1 is moved to the position of the lower end portion 40M of the sea- .

The distribution input device for operating the construction machine as the connection structure of the main body is a connection structure of the marine tunnel traffic device 941 and is equipped with a diving buoyancy control tie- (909) for buoyancy control and at the same time replacing the connection structure of the submarine mineral resource manganese monolith (909) for buoyancy control, the manganese monoliths (909) (SLU) lifting seaworthy deck upper end (SDU) Upper end (SDU) of the offshore power plant located as a connection structure Crane boom to the crane boom of each crane to maintain the level of the crane (107), and at the same time, it is equipped with a mooring device and a connection structure, so that the hydroelectric power generation The marine hydroelectric power production control unit 811 for generating the power as a continuous connection structure is provided in the main body 1 as the floating marine equipment locating facility control unit 811 to control the flood control The distribution structure of the submarine mineral manganese nuts (909) as a connection structure of the main body includes a plurality of hatch covers (153) provided on the outer bulkheads of the respective portions of the body of the strut tank lower barge hull (592) A double structure piping line automatic pneumatic conveying device 916 having a connection structure and having a connection structure with a buoyancy control butterfly valve 622 of a diving control device of a pipeline and at the same time a connecting structure solenoid valve 76, Solenoid Valve Pressure Switch Solenoid Valve Start Switch Button Main Switch Button (66) Connecting Structure Power Cable (71) Connecting Structure Connecting Structure A connection structure with the internal parts of the power transmission control for transmitting power to control the flood be made the configuration of the main body (1) is configured for.

5E, an elevator machine room constructed with a speed reducer 251 and an electric motor body 192 on the roof of each building and a building connected to the mountain peaks near the body of the offshore hydroelectric power plant of the distribution input device of the flood control equipment according to the present invention The wire rope 19 is attached to the winch 137 for the water gate opening and closing control device on the driving wheel roller 135 by the upper part of the steel tower 116 and the fire fighting countermeasure anti- This is a schematic diagram showing the distribution input device configuration of the flood control machine of the elevator in which the fire prevention and disaster prevention line is constructed in the vicinity of the summit of the mountain valley and the fire prevention and disaster prevention line around the beach.

The disaster prevention prevention control section of the distribution dispensing apparatus distribution shaft constituting the flood control facility inside the main body 1 is connected to the distribution shaft 357 to connect the water stored in the mountain top intake dam 680 to the valve 409 A plurality of nozzles 10 connected to the power pump 304 and the piping and the fire hose 9 are provided to open the building and the building on the roof of the lower ridge line of the crest, The wire rope 19 is attached to the winch 137 for the opening and closing control device of the elevator machine room equipped with the wire rope 192 and the wire rope 135 on the top of the steel tower 116, Distribution of flood control machinery of elevators equipped with fire prevention and disaster prevention lines around the summit of the mountain valley and the beach where fire fighting and disaster prevention lines were constructed to carry out the initial evolution within one second by installing fire fighting and disaster prevention countermeasures to replace all fire trucks and fire helicoptersThe flood control unit 811, which receives the power supplied from the control unit for generating power by the marine hydro-electric power generator from the power transmission control unit, Power pump (304) At the same time as providing power to the machine room, the flood control section (811) provides flood control facilities in order to prevent various natural disasters such as forest fires, dust storms, heavy snow, extreme storms, floods and droughts and landslides And a disaster prevention preventive control unit 811 for controlling the flow of the flow rate to the pump, the valve, and the connecting structure of the injector nozzle, the non-powered pump and the cable car into the main body 1.

Referring to FIG. 5F, it can be seen that, in the distribution apparatus of the flood control apparatus according to the present invention, the marine power plant body of the marine power plant body is exposed to the initial stage within one second for each fire type, This is a schematic cross-sectional view showing the configuration of the dispensing apparatus of the flood control facility at the fire-fighting installation location.

The flood control unit 811, which is connected to the distribution shaft 357 into the main body 1,

The fire water 7 in which the flushing process is formed inside the main body 1 has 490 circular ejection nozzles 38 or curtain water film 39 in the shape of a mountain top, Eight water curtain water films 39 in the machine room collecting pump and the fire installation position distribute the body load of the fire cable car 256 by the buoyancy of the adevolun 77 and the airship 78, And at the same time, a loess mixture for the flood control, which controls the flow of the flow to the connection structure of the cable car which is secured, is ejected to the pipe nozzle 10, so that the fire of the global village and the large- A fire fighting cable car 256 equivalent to an elevator is installed in the main body 1 in order to rapidly move the equipment in which the flushing control process is formed, A plurality of pumps are attached to the fire sensor pump, and at the same time, the winch 137 for the water gate opening / closing control device receives the air supplied from the air compressor 80 to expand the air shutoff valve, The winch 137 for the opening and closing control device is provided in the rooftop fire fighting cabin 394 and the iron tower 116 of the high and low mountains 395 is provided with the driving wheel roller 135, The winch 137 for the opening and closing control device is provided with a vibration control device 396 and a speed control device 397 for controlling speed in the adjustment box 53 by winding the gear and wire rope of the motor rotation transmission 398, The disk braking device 399 is constituted so that the hydraulically operated cylinder 126 and the pneumatic cylinder 126 and the motor 192 and the switch integrally connected to the distribution shaft 357 into the main body 1, The regulator 811 regulates the flow rate It consists of two flood control to regulate the flow.

The disaster prevention preventive control unit 811 connected to the distribution shaft 357 into the main body 1 is an air compressor that is pumped up to about 50 times of the fall of the pump by the nonmotor power pump 393, Stage screw air compressor 147 connecting the heat exchanger 80 to the oil cooler 151 without the internal cooler 170 and the after cooler 182. At the same time, the life- Detachable inlet port 269 and outlet port 270 are provided in the air tub 130 to control the basket 220 for lifesaving structure and the bed nozzle 172 serving as a lifesaving structure, ) And a vacuum tube for storing the pressure air, and at the same time, the fluid is moved by the air pressure constituted in the pressure tank (303) inside the non-powered water pump (393) To be able to pump 50 times as much as The system consists of a ground valve (6) and a isolation valve (5), which allows simple initial evolution of the mountain fires, while at the same time, (1), which is connected to the distribution shaft (357) inside the main body (1) by a pressure control valve provided at the pipe nozzle of the fire-fighting and disaster prevention countermeasure device and a valve system of a valve classified as a flow control valve at the direction control valve The control unit 811 constitutes a flood control for controlling the flow of the flow rate.

In the disaster prevention preventive control unit 811 connected to the distribution shaft 357 into the main body 1, the detection sensor formed with the flood control process is used to check the amount of flow- The flow meter 105 is connected to the sensing sensor bimetal 102 and the sensing sensor thermocouple thermometer switch 103 through pressure switches 104 sensing the discharge level of the water, And the pressure change detection sensor electronic control unit, the flow meter 105 is connected to the upper end of the piping in front of the pump inlet port 269 by a high-pressure isolation valve installed in the middle of the pump suction connection flange 28, ) Is a control operating part of an automatic pneumatic valve that controls disaster prevention water conveyance. It is a collective term of a valve operated by a control operation signal, which is divided into a magnetic type adjusting valve and a force type adjusting valve. At the same time that the dehydration valve 76 or the butterfly valve 305 is constructed on the disaster prevention piping line 89 and the water intake port located inside the tank 34 is provided with a stopper steel plate 165 on the flange joint The filtering water is passed through the suction and confluence pipe (3), and the isolation valve (5) and the disinfecting water pipe Disaster control for controlling the flow of the flow rate to the disaster prevention prevention regulating unit 811 which is connected to the distribution shaft 357 into the main body 1 while passing through the valve 6 is constituted.

 The disaster prevention preventive adjusting unit 811 connected to the distribution shaft 357 into the main body 1 is connected to the on-off main switch button 142 by the hydraulic control rotary cylinder 620 for electronic control The plurality of hatch carvers 153 and the plurality of fire doors 154 are opened to the connecting structure and the mineral resources provided in the seabed mineral collecting site are connected to the holding tank lower barge hull 592, Vacuum pump for lifting device (635) Connected to structure Power cable (71) Connected structure On-switch main switch for start-up switch button Main switch button (66) The mineral resources provided in the seabed mineral collection site located outside the body of the barge hull 592 move to the inside of the barge hull 592 while the vacuum pump 635 is rotating And the marine tunnel transportation device 941 of the marine hydroelectric power plant lifting-type detoxification vessel is constructed as a solid connection structure even if a disaster occurs in the ocean, and the distribution shaft 357 is installed inside the main body 1, Disaster prevention control unit 811 connected to the disaster prevention control unit 811 controls the flow of the water flow.

The disaster prevention preventive control unit 811 connected to the distribution shaft 357 to the inside of the main body 1 is a fire fighting cable car which is installed in a fire occurrence area where a flame is generated for the first time when a fire occurs, The basket 42 provided at the upper part 256 of the flushing water reservoir is constructed such that the control device which is the temperature sensor at the upper end of the valve located at the upper end of the ground surface detects the fire occurrence and opens the valve, Is discharged from the disaster prevention piping by a predetermined water pressure in the injection nozzle while reaching the plurality of injection nozzles 10 of the fire occurrence area through the valve that is opened to the disaster prevention pipe, A disconnection piping 89 is provided at the lower end of the mouth-type multi-stage pump of the piping line, and a junction connecting emergency valve 84 and a hydraulic pressure control regulating valve 85 of the head tank 189, The first pressure check sensor 86 as a sensing sensor to be attached is connected to the inner multi-stage pump control box internal control board 53 and the pump is operated again to maintain the hydraulic pressure of a certain standard, The piping line 89 is connected to the distribution shaft 357 to the inside of the main body 1 while being provided as a hydraulic pressure regulating pressure reducing valve 85 at a constant distance from the floor bottom MFG of the machine room as the waterproofing piping line 89 of the water supply line Disaster prevention control section 811 constituting disaster prevention control for controlling the flow of the flow rate.

Referring to FIG. 5G, the wire rope and the spray nozzle of the disinfection control apparatus according to the present invention, and the disruption prevention preventive control unit 811 of the disinfection device of the disinfection control equipment in the double pipe structure fire hose installation operation, This is a schematic diagram of the operation of the flood control facility showing the configuration of the flood control to regulate the flow.

A fuel supply pipe line constituted by a flood control process comprising a disinfection control for controlling the flow rate of the flow of the flue gas into the disinfection preventing device 811 of the disinfection unit of the flushing control facility within the main body 1, A fire pipe nozzle 10, which refers to a nozzle composed of a hose of a pipe nozzle and a pipe body in a double pipe structure, is integrally formed with a lower end portion C of the injection nozzle body, (Length × width × height: 2500 mm × 2500 mm × 2000 mm) to the upper part of the body (B) with the injection nozzle body (B) detachably assembled to the upper part of the body lower part of the injection nozzle body (42) is installed in the basket (42), and the fuel supplied from the gas fuel supply pipe line is supplied to the inside of the basket (42) 173 are adhered to the lower portion of a vinyl tent (77) having a double structure in the form of an ad balloon (length × width × length: 10M × 10M × 10M), and the gas burner 173 for cooking is attached with an ignition device 187 The wire rope 19 or the rope 131 surrounds the outer circumferential surface of the adverb like a net and binds the lower part of the adobe together with the rope 131 and then mounts the unmanned camera 184 inside the adobe 77 A radiosonde 134 as a meteorological observation device is mounted so as to observe the diurnal state of the farther farther from a higher position and the lower part of the injection nozzle body B is equipped with the integral equipment of the mouth type multistage pump control system 150 A stowage opening 45 in a double pipe structure collecting tank 34 and a fire extinguisher 40 and an electronic control unit microcomputer system The flow of the internal flow of the communication equipment The engine 144 and the cylinders 138 constituted in the doctor ventilation and the tumbler winch 137 are connected to the air compressor 80 and the generator 124 via a plurality of interlocking valves, The head tank 189 and the high pressure hose 190 are connected to the spindle motor 185 and the tubing 188 by the spindle motor 179 and the sparking material other than the iron structure and the pump inner impeller 143 and the smother gas 163 The whole area where the fire, flame and pillar are generated is referred to as a fire sensor pump body, and it is possible to control the flow of the water to the inside of the main body (1) by the prevention and control section (811) The entire non-disaster global marine hydroelectric power plant, which is composed of the flood control process, is composed of the entire equipment of the fire-fighting and disaster prevention industrial products necessary for the entire life span and the early evolution.

A fire sensor pump having a flushing control process comprising flushing control for controlling the flow rate of the flow of the flushing water into the main body 1 through the distributor and dispenser disaster prevention preventive control unit 811 of the flushing control facility is firstly made of KSD 3507 Vinyl coatings are packed on the rolled steel for general piping and the connection coupling to the nozzle body is made of KSD 2331 die cast aluminum alloy and heat resistant plastic flow tube or KSD 3699 hot rolled stainless steels The temperature sensor is replaced by a conventional bimetallic or bridon pipe to a paraffin sensor type. It can be used in diesel engines, fire pumps, solenoid solenoid valves and other standardized general purpose hose pipes. In order to supply liquid and gas at the same time with the double pipe structure type according to the size, the size of the pipe nozzle is as follows: 7 hoses The tube nozzle type 1 is manufactured in the order of 200 mm, 180 mm, 150 mm, 130 mm, 100 mm, 80 mm, and 50 mm in the order of the tube nozzle type 2, (150 x 130) mm, (130 x 100) mm, (100 x 80) mm, (80 x 50) mm, (50 x 25) mm. It is composed of pipe type nozzles connected to the hose part and tube nozzles of many straight line type of finishing hole, and it is possible to work in a building or single house and road facility protection zone without distinction of neighborhood living area. And the general fire of forest, forest, paper, and futon which is the ordinary fire of the building belonging to each fire classification, evolved early from fire and fire of the combustible or large fire of the neighborhood living area, It was rescued as a fire-fighting disaster prevention product by airship, and many disasters disappeared (811) of the disinfection control device of the disinfection control device to the inside of the main body (1) while the installation position is set to the inside of a radius of 1200km sequentially from the center of the Korean Peninsula And disaster prevention control measures for the disaster prevention of the disaster-stricken region of the world.

(811) of the disinfection control device (811) of the disinfection control device to the inside of the main body (1), and is used as a plurality of pipe nozzles inside the marine power plant having the disinfection control process comprising the disinfection control process The fire pipe nozzle 10 is configured to have a length of 2 m or more and the pipe body is divided into seven stages in the case where the nozzle body is installed vertically above the height of the main body 1 in the basic type 1, The tube nozzle nomenclature is labeled "Nominal 50" 238 and "Nominal 40" 239, "Nominal 75" 236 and "Nominal 65" 237 to "Nominal 100" 234, "Nominal 90" And a firefighting nozzle 10 formed by separating the fire extinguishing water pipe 25 and the fire extinguishing water pipe 25 into the fire extinguishing water pipe line 168 and the fire extinguishing water pipe line 168, The pipe nozzle (10) was attached to the pipe line (diameter: 360 mm, vinyl coated flow tube, 60) 50 × 40 "245 and" 50 × 40 "244 are added to the" Title 100 × 90 "241 and the" Title 90 × 75 "242 and the" Title 75 × 65 "243 and" In the case where the fireman's nozzle is formed at a position higher than that of the basic 1 type in the "nominal 40x25" 246, the tube nozzle is sprayed by the reducer 35 having the above- A plurality of 8-segment gaps 15 in the normal position of the nozzle and a machining hole 20 for the 8-segment nozzle gap at 7 segments of the flange 28 are connected to the lower segment of the flange 28 when installed at a distance of 50 m for safety. And the ropes 131 (131) are temporarily bound to the shackles (23) and the bolts (24) at the two flange machining holes (20), which are the parts connected to the disaster prevention pipes To the upper end of the nozzle body 10 by pulling it up from both sides in the opposite direction of the binding position of the shackle 23 and fixing it with the bolt, The worker does not go up to the height of the telephone main body while dismantling the rope 137 and the safety work is finished while dismantling the rope 137. At the same time, the winding mechanism 37 is provided and the injection nozzle 10 is fixed with the needle- The fire-fighting nozzle 10 is provided with a plurality of 15-m fire-hose nozzle nozzles 10, each of which has a length of 1 km and a length of 3 km 2 km, and the disinfection device And a flood control unit for controlling the flow of the flow rate to the regulating unit 811.

The control shaft 231 is connected to one end of a marine hydroelectric power plant lifting tanks 593, 594 and 595 of a marine tunnel transmission device 941 of each control shaft 231 to the inside of the main body 1, 593, 595, 595, 595, 595, 595, 597, and 595) for dispensing disaster prevention water (7) to the upper end of the upper part of the mooring tower, Several water pipes (935) are supplied while water is supplied to the crane boom (651). Disaster prevention water is discharged into the disaster prevention nozzle (10) provided between the nozzle (10) and the fire hose connection and the fixed water pipe (77) or radiosonde (134) to the upright poisoned normal position with the wire rope (19) of the hose and the means for supporting the nozzle and the shackle (23) or the disjointing nozzle connection flange ) The basket on which the pilelet at the bottom of the lower part embarks ( 42) The connection line for protection of the disaster prevention nozzle is connected to the lower part. The wire rope (19) and the hose of the gas transportation means lighter than air are connected to the inside of the disaster prevention hose by a double structure so that the flood control is made inside the main body And a hull position moving facility adjustment unit 811.

The disaster prevention preventive control unit 811 connected to the distribution shaft 357 inside the main body 1 is connected to the hose 109 and the airbag 77 via the air cleaner 77 and the airship 78, It is equipped with a high-pressure hose (190) to control forest protection such as forest fires and large-sized fires, and to prevent the occurrence of typhoons and landslides. The loess soil (158) It is equipped with an alternate method of fixing the air supply by separating hot air and fixing it by wire rope and frame. It is equipped with a double structure of disaster prevention material according to the weather condition and it is controlled by the equipment inside the body. Combined fire-fighting equipment system, it is possible to use active and passive dis- While the upper portion has a carbon dioxide (174) gas reservoir 171 as a thielecoporous gas inlet, while the carbon dioxide serves as a powder and a compressed liquid gas, while ensuring the function of initial evolution 15 times faster than the firepower, And a gas inlet 171 for storing gas in the gas inlet 171. The gas inlet 171 is provided in a piping line 89 at the back of a high pressure inlet multi-stage pump composed of the gas inlet mixer 191, The injection system is the same as injecting injections into the internal blood vessels of the human body, while the disinfection control system that controls the flow of the flow by the disruption prevention and control unit (811) .

The multi-stage disaster prevention pump 8 includes a disinfection control process for controlling the flow of the flow rate to the disruption control device 811 of the disinfection device of the disinfection control device within the main body 1, The pressure suction and discharge piping 3 and 4 are coupled to the left and right sides around the suction port around the impeller 143 inside the protective cover of the protective cover 18b and the head tank 189 ), The water pressure of the fire water increases while the pressure of the fire water increases at a very high pressure. At the same time, the head tank is compressed and stored at a pressure that can withstand 8 liters capacity and 16 bar. When a constant pressure is reached, A large size piping 14 of a certain size and a piping connection elbow and a tie elbow 44, which are made of a suitable material capable of withstanding high pressure, Dispensing device of disinfection control facility Disaster prevention control unit (811) is composed of disinfection control facility that controls the flow of flow.

Next, after the water supply pipe 14 in which a flood control process is formed, which constitutes the flushing control for controlling the flow rate of the flow of the flushing water into the main body 1 through the distribution input device disaster prevention preventive control unit 811 of the flushing control facility Is connected to the disaster prevention piping 14 for disaster prevention, and then the injection nozzle joint is connected to the pipeline connecting subsidiary reed 35 so as to adjust the standard, 241), nominally 90 × 75 (242) and nominally 75 × 65 (243), nominally 65 × 50 (244) and nominally 50 × 40 (245) and nominally 40 × 25 "(246) The injection nozzle is connected to the pipe joint of a certain length and the pipe 14 of the nozzle body is connected to or connected to the middle of the pipe joint by one set, (10), the pipe (14) and the pipe (14) are joined to each other The flanges 28 are separately manufactured for each designation, and are connected in the order of the piping connection reed 35, the piping 14 of the disaster prevention nozzle body, and the piping connection reed 35, The flange 28 and the flange 28 are connected to the bolt 24 and the nut 25 for connecting the injection nozzle to the flange connection processing hole 20 in the circumference of the disaster prevention nozzle flange 28, (B) of the nozzle body (B), which is constituted by a disinfection control unit for controlling the flow rate of the flow of the liquid to the disruption prevention preventive control unit (811) ) Is composed of a basic 2-type connection structure.

Referring to FIG. 5H, in a rooftop tank and a pressure tank in which the fire inside the dispensing and dispensing apparatus according to the present invention is initially evacuated to a level of less than one second and the lifesaving structure is simplified, a water supply device water connection pump a flood control device FIG. 2 is a view showing a configuration of an installation method of a distribution dispensing apparatus.

A flood control process for controlling the flow of the flow rate to the disruption prevention preventive control unit 811 of the distribution input device of the flood control facility into the main body 1; ) Is adjusted to 0.5 millimeter or 5 millimeter while the bolt nut is easily used for disassembly and coupling, and the number of ejection nozzles 38 is controlled by controlling the radiation cortical water film 39 or the straight- (38) discharging the fire water quickly, accurately, more continuously, continuously and continuously to the nozzle gap (15) by the operation of the high-pressure inlet multi-stage pump (8) It is applied to the versatile range of the precaution to prevent disasters. The observation equipment of the meteorological observation system on the upper part of the discharge jet water curtain water column is composed of a number of airships (78) ) As a disaster prevention device for transporting the air generated by the air compressor (80) to the nozzle hose (109) and the connecting nipple (110) A pipe nozzle installed inside the body of the pipe nozzle for ensuring an installation position so as to emit disaster prevention material farther and farther into the main body 1 is installed in the main body 1, And a flood control system that controls the flow of the water.

The power transmission portion constituting the adjustment shaft into the main body 1 is continuously connected to the cable car 256 of the high and low mountains 395 and the connection point of the marine pipe bridge 937 and the marine tunnel traffic device 941 (685), while at the same time, it is located at the top of each mountain ridge at the bottom of the mountain surface of the mountainous mountain range (GLL) and at the top of the roof building of the high and low buildings near the beach The steel tower 116 for operating the cable car 256 is fixed to the steel tower 116 by an anchor bolt 133 by means of a hand tool while driving several ropes 19 And at the same time the winder 137 is connected to the lower portion of the steel tower 116 by connecting the wheel roller 135 and the sprayer 256 to the roof of the building, The lower part of the cable car (256) 7 distribute the power source 46 produced from the generator 213 or the engine generator 226 of the power generation plant 267 to the power transmission part through the transformer 96 and the poles 95 connected to several electric wires 71 A motor 192 having a micro-control function is supplied with power from a charging device and several air motors 80 are connected to several power motors 192 by a sensor sensor of several electromagnetic valves, The cable car 256 is connected to the vinyl tent 43 type collecting tank 34 which is integrally formed with the pump extinguisher 124 attached to the wire rope 19, It is also possible to equip the fire fighting nozzle hole 20 and the plurality of the addons 77 on the lifeline basket 42 with the airship 78 and the ropes 131 to provide a fire sensor pump, The voltage 684 of the transformer 96 of the substation is connected to the earth Is the supply of electric power from the power transmission part constituting the control shaft inside the casing (1) constituting the control shaft is configured.

A pump is connected to the upper side of the mouth multi-stage pump 8 and the diaphragm pump 144, which are connected to the distribution shaft 357 via a power transmission unit constituting an adjusting shaft, Is attached to a crank handle handle formed by a crank 248 and a link stand 249 above a rubber membrane or Teflon membrane 538 and a piston 127 And an air piping line 181 composed of a recycle storage tank 145 formed of a prime mover 80 and a hose 109 and a nipple 110 after the cylinder 126 is attached thereto, The marine hydroelectric generators combined with the gas fire extinguisher 124 of the pump fire extinguisher 124 and the gas canister 171 for storing the disaster prevention material in the fire fighting cable car 256 are combined with the non- Dispensing device of the facility Disaster prevention control section (811) is a flood control facility that controls the flow of the flow Jeolchuk connected to the distribution shaft 357 is configured.

It is possible to supply the power without the power source 46 from several generators 213 of several hydroelectric power plants 267 or several engine generators 226 constituting the control shaft into the main body 1, 393), and the flood control system of the distribution shaft 357 constituted on the control shaft to prevent natural disasters from evolving the fire of large fires within one second will be described as follows.

A pipeline 14 of a body of the injection nozzle 10 in which a flood control process is formed, which comprises a flushing control for controlling the flow rate of the flow of the flushing water into the main body 1, The nozzle gap 15 formed around the circumference has a number of straight-line water film discharging nozzles 38, which rapidly and accurately evolves the flame 292 and the flame 293, As evidenced by the size of the nozzle, the nozzle of the disaster prevention nozzle (10) forms a straight nozzle gap in two places around the piping circle, such as the arrangement of a telephone pole in the roads and roads around high and low mountains along the piping length of the body, Small pipes are used for disaster prevention water conveying equipment, and a pipe slightly larger than the small pipe is divided into half by using a bolt or a nut and a straight nozzle While the gap 15 is connected to the piping with a pipe length of 4 meters and connected to the high-pressure inlet multi-stage pump 8, the outlet spray number 38 is ejected simultaneously, and at the same time, , And the clearance (15) is adjusted so that the road is not frozen in winter when the weather condition deteriorates due to the installation length depending on the installation height of the triangular curtain water film, and after the fire-fighting nozzle is formed, In order to improve the quality of life of the working environment and improve the quality of life in the working environment, the fog is removed around the surface of the road and the view of the front of the road is widened to smoothly communicate traffic vehicles for safe driving of the driver. Protecting and cultivating the crops of the vinyl house farming complex and preventing the damage of the vinyl house. In addition, (17) of the 1 degree angle of inclination (91) of the ridge line which plays an important role in the control of the water of the ridge, and water (91) of the 1 degree angle of inclination Proper storage and storage, prevent hail damage in summer, and recreation area on the sandy beach of holiday resort. Cool the heat on the hot day with the coastline. In areas where there is a lot of mist and cover the field of view around the highway, The fog is removed by the means that the membrane and cold air are jetted together to smooth traffic flow and prevent the loss of grains by preventing the proximity of the sparrow grasshopper in the autumn harvest season and reducing the damage caused by spring dust. In order to preserve the bridge management, this wide area is connected to the distribution axis (357) to the extent applicable to the drought When a harmful tidal redemption warning is issued to the tank, the groundwater and the yellow soil mixture stored in the storage tanks and the control dam is supplied to the power pump 304 of the control dam to open the water gate valve 409, And a harmful red tide prevention / control unit 811 configured to perform flood control inside the main body 1 while preventing harmful tidal generation.

Referring to FIG. 5i, the distribution input device of the carbonic acid gas extinguisher according to the installation of the pipe nozzle collecting tank of the step-like non-powered water pump 393, which simplifies the forest fire prevention of the distribution input device of the flood control equipment according to the present invention, It is a configuration diagram of the installation method showing the device configuration.

The water stored in the peak intake water dam 680 is supplied to the power pump 304 and the piping and the fire hose 9 while opening the valve 409 of the water intake dam connected to the distribution shaft 357 into the main body 1 A plurality of connected nozzles 10 are provided to connect the flood control facilities to the entire lower crest ridge forest of the crest of the crest, The flood control unit control unit 811 received from the power transmission control unit controls the power pump 304 to supply power to the machine room and the flood control unit control unit 811 controls the flood control unit control unit 811 such as fire, Drought, and landslide In order to prevent various natural disasters, a fire-fighting water control system (hereinafter referred to as &quot; fire prevention &quot; 7) into the introduction tube (1 91, the water is stored through the intake ports 269 of several head tanks 189 of the ridge lines and then the fire extinguishing water 7 is supplied to the collecting tank 34 formed below the discharge port introduction pipe 191 of the tank 189, The spring type safety valve 473 is completely closed by the flow velocity and the pressure rapidly rises to the inside of the collecting tank 34 in which the safety valve 473 is completely closed, The valve 453 is opened and the fire water is pumped out by the pressure so that the water can be pumped up to about 50 times of the drop by the water hammer action 389. When the pressure rise 389 disappears, The safety valve 473 can be pushed by the force of the spring 186 when the pressure in front of the safety valve 473 is lowered The fire extinguisher 7 is opened again, And a plurality of water hammer pumps 393 of the ridge line steps of the water hammer action 389 are integrally formed while repeating the above-mentioned operation while repeating the above-mentioned operation. At the same time, a plurality of water hammer pumps 393 are installed on the side of the floating hydrofoil deck deck side of the hydro- The positional movement control of the marine hydroelectric power station floating structure (593, 594, 595) is constituted by the position shift control devices on the adjustment shaft to the inside of the main body (1) by the boom from the side of the deck deck on the lug (21) Promote power generation with power generation equipment.

(9) of a disaster prevention nozzle (10) in which a flood control process is formed, which comprises a flushing control for controlling the flow rate of the flow of the flushing water to the disruption control unit (811) ), A disaster prevention piping (14) to a high performance submerged pump (36), a portable wireless communication terminal (82) of a mouth type multi-stage pump system, an operation control inside a pipe nozzle body (66), a multi-stage multi-stage pump control board (53) and a power supply (46), which are used for spraying fire water according to weather forecasts Is installed inside the mouth type multi-stage pump control box 2 and is reconnected to the inverter 47 and the power source 62 by the power cable 80 and the power cable 80 is connected to the overcurrent breaker brake 61 Switch for on-off control of each pump after installation (73) in cooperation with the crew of the transport equipment (73), and the inside of the inlet type multi-stage pump is equipped with the isolation valve (5) for high pressure shutoff and the check valve 6 as a reciprocating pump which is installed by operating the emergency valve 84 with a piston and by a separator valve 5 for blocking the high pressure with a plunger and a check valve 6 for checking the check of backflow, 148 is suitable for use in the present invention and is constructed of a flushing control device for controlling the flow of the flow rate to the disruption control device 811 of the flushing control device in the main body 1 according to the present invention.

In the meantime, the disaster prevention nozzle having a disinfection adjustment process comprising a disinfection adjustment facility for controlling the flow rate of the flow of the disinfection device to the disruption control device 811 of the disinfection control device within the main body 1, The jet nozzle claw 13 and the hook hook claw 18 or the hook hook claw frame 11 and the vertical support frame 11 are provided so as to be capable of being separated by the vertical support frame 11 and the lower support frame 11, The hooking hook-engaging hook hole 20 is formed to protect the injection nozzle and the nozzle hose. The wire rope 11 and the wire rope knocking hook hole 20 are used for protection by bundling the injection nozzle and the nozzle hose. The connecting pawl rug 21 and the connecting pawl rug processing hole 20 or the connecting pawl safety pin shackle 23 are used for disassembling the injection nozzle and the nozzle hose, (29) Inner and outer evolving equipment. Capillary female thread (30) and disaster prevention equipment. Coupling male thread (31) is manufactured and machined. A paraffin stopper for a fire detection sensor is attached as a material replacing the packing 32 as a nozzle gap so as to suppress the fire and the flame when a fire occurs, Considering that it is difficult to cover the resources due to the change of the gap due to one manufacturing technology, it is necessary to prevent the environment from being damaged by the least cost. And a flood control unit that controls the flow rate of the flow to the unit 811.

Referring to FIG. 5J, there is shown a block diagram of a multi-pipe fire hose and a spray nozzle assembly model of a distribution dispensing apparatus of a flood control apparatus according to the present invention, and a distribution dispensing apparatus arrangement of a flood control apparatus in an assembly process.

The water stored in the peak intake dam 680 is connected to the distribution shaft 357 to the inside of the main body 1 through the main body 1 while the water pump 409 of the intake dam is opened, A plurality of nozzles 10 connected to the piping and the fire hose 9 are provided so as to construct the connection of the flood control facilities to the entire crest of the lower crest of the crest of the crest, The power control unit 811 receives power from the power transmission control unit and supplies power to the power pump 304. At the same time, the pollution control equipment control unit 811 controls the power of the fire pump, In order to prevent various natural disasters in advance, the disaster prevention control section (811), which is constructed to control the flood within the main body (1), which provides the flood control facilities in order to prevent the natural disasters, Distribution of control equipment The detection sensor 104 for checking the amount of fire with the low water level of the inside wall surface of the inside of the water collecting compartment in which the flood control process comprising the flood control unit for controlling the flow rate of the flow by the inlet device disaster prevention prevention control unit 811 is formed, The control box (2) of the high-pressure multi-stage pump control box (2) inside the connected machine room is connected to the detection wire. The control box (2) is sent to the electronic control sensor for checking the water level of the disaster prevention water. In the device, a spherical ball tab 499 is attached to the sensing rope 41 by a small thin wire acting as a lever, and when the ball tab 499 moves downward, The pumping operation stops and the sensing strip 41 is coupled to the existing ball tab 499 so that the sensing distance of the sensing strip 41 is changed to 90 or 120 degrees The water in the tank (34) is expanded by the air compressor (80) so that it can be adjusted before and after the disaster by using the double tank structure. (1) so as to include the means for simply evolving the ordinary fire separated by the fire A to prevent the disaster from occurring, and to prevent the disaster from occurring. The flood control system consists of flood control system that controls the flow.

As described above, it is applied when the large-scale fire can not be evolved, which comprises a flushing control process comprising a flushing control device for controlling the flow rate of the flushing by the disruption prevention preventive control unit 811 of the distribution input device of the flushing control facility However, the air hose 9, which is thinner than the disaster prevention hose 9, is installed inside the disaster prevention hose 9 inside the disaster prevention hose 9 of a level system applied to the previous industrial field, And the distribution control unit 811 of the flood control unit of the flood control unit into the main body 1 connected to the collectors of the collecting tank 34 and the motors of the elevator speed reducer 251 installed on the roof of a large number of large buildings, And a flood control unit for controlling the flow of the flue gas.

A disinfection control process comprising a disinfection control process for controlling the flow rate of the fluid to the disinfection prevention preventive control unit 811 of the disinfection control device of the disinfection control equipment into the main body 1, Substitute for carbon dioxide (174) and halon gas (175) in the interior of the industrial safety control room and machine room, which constitute a high-pressure multi-stage pump and communication equipment with carbon dioxide and halon gas, The natural loess soil 158 and the carbon dioxide 174 are mixed with the disaster prevention water by means of the powdered loess material 158. At the same time, It is a reality today that is used as a ship and helicopter relief equipment for sanitary and liquid sanitary insect pest control. Preventing disasters is the most prevalent, even if it can not be prevented.

Referring to FIG. 5K, a trickle-type pump fire extinguisher fire prevention collecting tank and an alternate manometer turn-type level balance tank which constitute an initial evolution within 1 second when a forest fire occurs in the distribution input apparatus of the flood control apparatus according to the present invention, Fig. 5 is a view showing a configuration of a distribution input device of a flush nozzle control installation of a pipe nozzle.

In order to prevent the disaster of the main body 1 from flowing into the main body 1, it is necessary to control the flow of the water to the disaster prevention preventive control unit 811 of the flood control facility. The piping body of the firefighting nozzle installed in each position of the valley, the road rice paddies and the neighborhood living room is standardized to a total length of 2100m m in a total length of 7m, with the distance of one part of the multi- There is a nozzle hole machining hole that is twice as big as the normalized fire hose diameter with a distance of 600 mm from the pipe nozzle at the fire hose connecting part. There are a total of 7 holes and a hole in the pipe body. Since the total hole is divided into 498 places, the installation position is the same as that of the pole arrangement at 50m length intervals. The height is adjusted according to the shape of the building and the forest, Hose and pipe body of double pipe structure on transportation equipment adver- tune and unmanned airship are controlled by elevation so that many disaster disasters are extinguished. As a disaster prevention and control system, air and CO2, which are disaster prevention materials, After the installation of the liquid fire water and the solid ocher powder and the fire sand, the fire pump and the air compressor were operated immediately after the detection of the heat of the sensor, and a large number of discharge water was discharged to the outside of the pipe nozzle and the fire, flame, This system is used to display the score on the monitor through the calculation of the control server of the mouth type multi-stage pump control system received from the unmanned camera or mobile service or mobile phone terminal. The pipe-nozzle-type fire-extinguishing sensor pump, which is composed of the pump, It is necessary to fix the crane on the rooftop of the building and to dispose the disaster prevention material mixed with the liquid and the solid into the gas valley or the beach road as a whole by simply burning the flammable gas (unburned gas) It provides a chilling action to prevent combustion by blocking the supply of air and a cooling action to lower the temperature of the combustible to below the firing point while at the same time a cooling action to put water on the hose at the same time, (1) which guarantees lifesaving and early evolution from a large fire. Dispensing device of disinfection control equipment Disaster prevention control unit (811) for controlling disruption prevention flow control No-accident fire-fighting fire-fighting countermeasure product with process configuration A power transmission control unit 811 connected to the distribution shaft 357 inside the main body 1 of the non-disaster-resistant global village to transmit power constituted by flood control to the inside of the main body 1 of each distribution shaft 357 The power generated by the offshore hydroelectric power plant of the constructed flood control facility supplies power to the fire sensor pump.

The large fire and large-scale fire that consists of the flood control process consisting of the flood control system that controls the flow of the flow to the disruption prevention preventive control unit (811) of the distribution input device of the flood control facility into the main body (1) In order to cope with the sudden occurrence of incidents that happen frequently without recognizing night and day, the inside of the pipe nozzle body having the water hammer function so that the forest fire evolves within one second so that the precautionary effort can be fully taken. Adjust the setting position with a hydraulic pump that can pump up to 50 times of the free fall by providing a diaphragm pump and a nonmotor pump of the membrane pump of firefighting disaster prevention countermeasure goods.

And a disaster prevention preventive control unit 811 configured to perform flood control on the control shaft to the inside of the main body 1. In the water tank of the mountain top surface upper portion GLU inside several water hammer pumps 393, On the lower surface of the tank 259, several fixed fire-fighting nozzles 10 formed at a distance of 50 m from the agate turn level fire hose 9 are provided with several nozzle processing holes and a plurality of gaps The bolts 24 are inserted into the flange bolt connection holes 20 so as to be disassembled and assembled with a plurality of flanges 28 formed in the body of the vehicle body 10 and then the nuts 25 are connected to the bolt screw tabs, The water pump 393 composed of the paraffin nozzle cap 100 in units of 15 meters of the fire hose ejects the compressed air supplied from the air compressor 80 to the lower hole of the water pipe 89 A non-powered pump unit that raises the water level A flexible high pressure hose 190 made up of a wire and a hydraulic device attached to the pump with a cloth so as to protect the firefighting nozzle 168 10) a non-powered pump for discharging the jetting water 38 and the jetting water film 39 which are jetted out of the body, and an unmanned camera 184 of an electronic sensor valve and a control system integrally formed in the water tank, (1) to the inside of the control shaft of the hydro-power plant, (593,594,595) mixes the loess soil (158) with the mixer of the pipe nozzle movable cable car fire- When the damage continues, the muddy water is discharged from the fire-fighting nozzle (10) and is used as a water gun or water cannon, so that the effect of preventing the disaster can be seen in advance. (911) are provided as maritime tunnel transportation devices (941), and the control unit for the flood control facilities (811) in the control shaft to the inside of the main body (1) is composed of forest fire, yellow sand, heavy snow, extreme weather, typhoon, flood and drought, landslide It is made up of flood control facilities to prevent it.

Referring to FIG. 5L, it can be seen that anyone of the double vinyl tent nozzle type fire water supply system of the ridge line within one second by the non-motorized water pump of the distribution input device of the flood control apparatus according to the present invention can easily control the flood control 1 is a configuration diagram showing a configuration of a distribution dispensing apparatus of an apparatus.

The double vinyl tent 43 composed of a flood control unit for controlling the flow rate of the flow of the flushing water into the main body 1 through the distribution inlet of the flushing control unit into the main body 1 is provided in the main body 1, The sensing wire 41, which is provided as a sensing sensor having a flood control process, is provided with a basket 42 for storing disaster prevention material distributed in a vast area, a fixed tent or a plastic pack 43 of a double structure structure, It is connected to the upper part of the disposal material containing the disaster prevention material by the sensing wire and installed at the outer wall of the building or land structure at a fixed distance from the outer wall of the building. And a sensing wire is connected to a sensing sensor for electronic control located at the upper end of a thrust type control valve in which a sensing sensor for electronic control is provided in a local unit of a region At the same time, the sensing rope 41 is fixed at four corners of the plural vinyl tents 43 at eight corners, and the installation position of the rope knot is clearly fixed to the tent fixing frame, At the same time, the easy-to-move vinyl pack 43, the water tanks 295 located at the top of the mountain, and the fire hose 9 control the flood control facility 811 to control the floods, the drought, the drought, the heavy snow, In order to prevent many natural disasters, it is constructed and connected to flood control facilities.

As described above, fire extinguishment in this way was the same as that in the fire-fighting house, because fire-fighting vehicles were usually dispatched after the previous fire, , A flushing control process comprising a flushing control unit for controlling the flow rate of the flushing by the disruption prevention preventive control unit (811) of the distribution input device of the flushing control facility into the main body (1) of the present invention is formed, The equipment of the fire extinguisher of the non-emergency pump for the structure is distinguished from the prior art so that the fire nozzle is used according to the fire hose specification standard used in the standard fire fighting nozzle specification. The nozzle body (B) And is constructed to be standardized exactly to the junction nozzle so as to be constituted.

The initial ignition-causing substances in which the flushing control process was formed in the main body 1 include flame-retardant flame-retardant flame retardant flame retardant flame retardant flame retardant flame retardant flame retardant flame retardant flame retardant flame retardant flame retardant flame retardant flame retardant flame- , Fire and fire pit after ignition lead to a large fire due to the occurrence of ash fire material, and at the same time a large fire in a commercial building in a building, wooden building, building fire, In order to prevent the fire, flame and pillar from spreading and to prevent human injury, it is necessary to precisely set the position of the large fire area at each ignition site, The fire prevention and disaster prevention measures of the global village are constituted as follows.

The fire of the building of A fire which is composed of the flushing control process which controls the flow of the flow by the disruption prevention preventive control unit (811) of the distribution input device of the flushing control facility into the main body (1) , Fire in forests and paper, general fire of fibers in high and low mountains of fire, thorny bushes in grassland, lawns, bushes and fallen leaves. Prevention of fire is the best way to prevent carbon dioxide gas and ocher powder from mixing with the fire water in the ignition site by mixing the cargo-type cable cargo gas and the loam powder in the machine room and mountain top of the rooftop of the large building, It encloses the flue gas with gas and blocks the supply of air, suffers suffocation and water, and puts the mixture of loess into 8 layers on a firing object And fire brigade fire extinguishing measures were prepared just before fire helicopter fire helicopter was dispatched so that the natural swamp composition was formed on the disaster prevention waterway of each ridge line. (811) to control the flow of the flue.

(811) for controlling the flow of the water to the inside of the main body (1) of the disinfection control device (811) of the disinfection control device, and a flood control device The disaster prevention fire fighting equipment mobilized by deterrence has various pipe nozzle holes installed in many mountains, buildings, and outsides, so as to construct passive disaster prevention system and active disaster prevention means, The pipe nozzle of the sensor type pipe nozzle is installed at a position where a plurality of pipe nozzle holes are formed, and the pipe nozzle is installed outside the water tank of the double pipe structure. The distribution input device of the flood control device The flood control facility (811) is a flood control facility that regulates the flow of water, such as forest fires, sandstorms, heavy snow, extreme weather, typhoons, floods and droughts, In order to prevent the advance of natural disasters consists of flood control equipment.

As a result of maintaining a close relationship of fire and disaster prevention materials in the first fire site where the flood control process for controlling the flow of the flow into the main body 1 is established, the communication equipments of the Internet control system And multi-stage pumps and pumps, and high-performance submersible pumps, air compressors, and fire-extinguishing cables in air storage tanks and wire ropes. It is a clearance nozzle in which piping nozzles are formed in the form of a radiation nozzle nozzle and a straight gap in the form of a partition, while the piping nozzle is kept in a solid nozzle stopper before a fire occurs by mixing solid disaster prevention materials and quickly and accurately. A plurality of radiation-curable curtain water films and a plurality of linear straight- Degassing gas released from a water film or discharged after a jet of fire Death gas generated from a dioxin and flame material evolves within one second from a large fire or large fire caused by a number of disasters so that there is no abnormality in the body and life. It is composed of flood control measures to prevent floods and droughts. In addition, it is composed of flood control facilities to thoroughly prevent floods and roads. Safety control device for the disaster prevention of the global village by overcoming calmly. Paraffin sensor nozzle stopper installed in the fire prevention disinfection nozzle with all equipment of manufacturing facility installation and lifesaving means installed in the mountains and buildings for the purpose of preventing fire In order to prepare for disaster, global village is standardized so that there is no disaster The fire sensor pump of the non-hazardous fire fighting and disaster prevention countermeasure product is installed in the ocean and the inside of the block tank 598 constructed under the barge hull 591 is connected to the main body of the marine tunnel traffic device 941 in the section of the train 771 1) Inside of the station, all fire-fighting equipment of fire type is controlled by the flood control facility control unit (811) in order to prevent various natural disasters such as wildfire, drought, heavy snowfall, typhoon, flood, drought and landslide. And a flood control facility to control the flow.

A pipe-nozzle-type fire-fighting sensor pump for a marine power plant-mounted disaster prevention fire fighting countermeasure product for a marine power plant, in which a flushing control process for controlling the flow rate of the flushing water is formed in the main body 1, comprises an electric motor body, The rotor is provided with a rotating choke pellet at the central portion of the shaft, which is the motor center axis formed on the horizontal center line (MBCL), a piston attached to the guide vane pump on both sides of the impeller, The pump body is equipped with a flow control sensor and a pressure sensor which are controlled by an electronic control device to control the pressure and flow rate of the fluid and the flow direction of the fluid to the isolation valve and the return valve. A power switch that supplies power energy, and a fire-fighting water that is suitable for A fire. A high-pressure tank for storing incombustible gas of coal, carbon monoxide, carbon dioxide, carbon dioxide, carbon dioxide, carbon dioxide, carbon dioxide gas, carbon dioxide gas, carbon dioxide gas and halon gas, a vinyl pack in a closed type and an open type and flowing type in each of the water tank tanks in the collecting tank, ) Inside The control unit for flood control facilities (811) is a flood control unit that controls the flow of the flow to prevent various natural disasters such as forest fires, snow, heavy snow, extreme weather, typhoon, flood and drought, And a flood control device of a pipe nozzle type in which the control process is assembled.

In order to prevent various natural disasters such as forest fires, snowstorms, heavy snow, extreme weather, typhoons, floods, droughts and landslides, the flood control facility controller 811, which controls the flow of the flow into the main body 1, The fire pipe nozzle formed by the fire pipe nozzle is connected to the fire cable car. The fire pipe nozzle is divided into the basic 1 type and the basic 2 type according to the standard fire hose standard. The movable pipe nozzle is fixed at a distance of 50 m between the high and low mountains and the same inclination angle of the ridge line at the bottom of the ground surface (GLL). Building of high and low building near the beach of the beach Beach roof separate and nearby mountain peaks Summit firefighting in each separate station Cable car And a plurality of wire rope driving rods and pipes are installed on the upper part of the steel tower, and the lower part of the steel tower is connected to the top of the mountain top and the building roof top The firefighting nozzle is connected to the fire hose connecting portion of the fire-fighting material conveying device mounted on the fire-fighting cable car, and a mobile firefighting nozzle having a plurality of pipe nozzle holes is installed on the circumference of the firepower nozzle pipe body, After the generated power source is passed through a power supply line of a transformer and a telephone pole connected by a plurality of electric wires, each pump electric motor and each compressor electric motor receives the rotational power of each compressor by sensor detection of each solenoid valve, It is possible to have flusher pumps to regulate the flushing water back to the top of the high acid Without the power supply from the seaweed facility and the generator and the engine generator of the power plant, the fire water is refluxed to the top of the high mountain by the non-powered pump and the loess mixture is restored to the proper level. The flushing and regulating facility control unit 811 in the main body 1 is a device that can evacuate and rescue the flamingo and flame in a short time, , Fire, typhoon, flood, drought, landslide Firefighting device installed in firefighting cable car installed in flood control facility to prevent various natural disasters. It is composed of fire-fighting equipment with flood control equipment to control the flow.

In order to prevent various natural disasters such as forest fires, snowstorms, heavy snow, extreme weather, typhoons, floods, droughts and landslides, the flood control facility controller 811, which controls the flow of the flow into the main body 1, A double pipe hose composed of a collecting tank and a pressure tank in a large number of fire fighting and fire hydrants, and an electronic heat detecting sensor and flow control valve installed in a fire disaster prevention piping line by having an air compressor in a pipe nozzle, Each turn-level hose and a fire-sensing nozzle, which is a fire detection sensor, are connected to the flame nozzle by a flapper nozzle stopper. The choking action to prevent combustion and the cooling action to lower the temperature of the combustible material to the temperature below the ignition point are applied to the fire hose pipe processing hole. In the cooling action fire fighting device, a relief refugee is loaded on an ad-balloon and a basket under the airship in the early stage of a fire, so as to evacuate to a safety area by a fire cable car, and the adve- lon and the airship disperse the load of the object To ensure the safety of the pump body and to protect the life structure and the initial evolution from large-scale forest fires and large-scale fires in sequence to a number of non-powered pumps in a tank tank and a collecting tank, an electronic sensor valve and a man- Firefighting and Disaster Prevention Items constituting firefighting and disaster prevention piping lines are installed in the main body (1), and the flood control facilities control section (811) is responsible for various natural disasters such as forest fires, yellow dust, heavy snow, extreme storms, floods and droughts, landslides In order to prevent the occurrence of floods, it is necessary to establish a marine hydroelectric power plant Has to pass through that even a double pipe structure of each part of the ridge to support expression dock (593 594 595), the tunnel 672 is inserted is configured in the body (1).

The flood control facility controller 811 for controlling the flow of the flow to the inside of the main body 1 controls the flow of the flow to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme weather, typhoon, A hose (9) provided in a plurality of double pipe structures inside a pipe nozzle including a whole body of fire fighting and disaster prevention measures of a fire prevention sensor pump body of a marine power plant formed with a flushing control process, The clearance 15 of the injection nozzle 10 and the processing hole 20 of the nozzle 10 are provided at a distance of 300 mm from the body of the pipe 14 to the bolts 24 and the nuts 25 A plurality of eight nozzle openings are formed by a shoe 26 and a plurality of processing holes 20 having a diameter of 5 mm or less are formed along the circumference of the cylindrical pipe in the piping body. The total machining hole clearance is 498 The injection nozzle body (B) has a multi-stage inlet type cylindrical shape, A plurality of flanges 28 attached to the body 14 of the piping 14 are provided with eight machining holes at an angle of inclination of 45 degrees at an angle of inclination 16 to the upper end of the piping body 14, And a stopper plate 165 is attached to the upper end portion of the flange 28. An upper end portion of the flange 28 and an upper end portion of the flange 28 are connected to the upper end portion of the flange 28, The capillary 29 body is moved to the center position of the disc plate 165 of the stopper cap so that the halide 176 and the fuel 131 are supplied with the flammable water 7 through the capillary ring 174 and the halon gas 175, (30) and a through hole (20) in which a water pipe (89) for a small fire hose and a wire rope (19) are formed inside a capping male thread body (31) The total length of which is connected to the single end of the seven regions, which is standardized by a dimension of 2100 mm, The wire rope 19 formed of the water pipe 89 for supplying the disaster prevention material has a flood control facility control unit 811 that binds the fire hose 9 to the inside of the fire hose 9 such as a forest fire, , Floods, droughts, and landslides. It is composed of flood control facilities to control the flow of the flow into the main body (1) in order to prevent various natural disasters.

As described above, the flood control facility controller 811, which controls the flow of the flow to the inside of the main body 1, is designed to prevent floods, drought, heavy snowfall, typhoon, flood, drought, landslide, A plurality of fire prevention disaster prevention product hoses 9 and a fire pipe nozzle 10 provided in the body of the pipe 14 and a nozzle processing hole 20 are provided in the inside of the disaster- A parapet tape 177 for a fire detection sensor and a nozzle stopper 100 for connecting a paraffin pipe joint are connected to a high and low mountain 395 and a roof 333 of a high and low building near a swimming beach Each wire rope (19) Fire cable cable (256) No fire prevention fire prevention device Fire pipe sensor of the moving type nozzle of movable fire prevention measure article We install the pump and the building belonging to the kind of A fires and the wooden building (332)When a combustible fire occurs in the forest (266), the helicopter and the fire truck of the fire truck start to fire at the fire source while the fire engine of the fire truck starts to fire. At this time, Fire fighting helicopters in the mountains have firepower that is turned on and off to carry fire water. The fire that has been turned off is renewed again. For this and other reasons, the digestion activity on the fire scene is controversial. Of course, in order to solve the danger of losing life, the fire-prevention sensor pump of the nozzle-free type fire-prevention sensor pump of the accident-free fire-fighting disaster prevention product which will be initially evolved in the early stage immediately before the first fire outbreak or the helicopter dispatch, The flood control facility control unit 811, which controls the flow, controls the flow of water such as wildfire, yellow dust, heavy snow, The number and droughts, landslides Fire extinguishing equipment that is less than one second, which consists of a flood conditioner to regulate the flow of the flow in order to prevent the advance of multiple natural disasters.

In order to prevent various natural disasters such as forest fires, snowstorms, heavy snow, extreme weather, typhoons, floods, droughts and landslides, the flood control facility control unit 811, which controls the flow of the flow of water into the main body 1, A plurality of unmanned paraffin nozzle plugs 100 formed inside the nozzle body 10 and a double pipe nozzle crevice hole sealed with a paraffin tape 177 are opened Fire heat sensor The paraffin does not spread fire and flame easily to the large fire because of the match fire (166) and the low temperature sensing of the candle. The pump is a fire extinguisher for the fire extinguisher (124e) in the fire extinguisher (124e) and the fire extinguisher (124b), which are adapted to A fire. (Gas that does not burn) to enclose the combustible material and shut off the supply of air (oxygen) to prevent combustion and to reduce the temperature of the combustible material to below the firing point. The pump nozzle fire extinguisher 124 of the non-disaster fire prevention and disinfection countermeasure product which guarantees the rescue structure and the early evolution from the large-scale fire and large-scale fire generated at the same time as the human rescue, The flow rate of the flow of the air supplied to the membrane pump 144 and the compressor 80 through the fire extinguishers of the internal cooler 170 is controlled by introducing the fire extinguisher 159 into the collection tank 34 with the mixer 73 In order to prevent various natural disasters such as forest fires, drought, heavy snowfall, typhoons, floods, droughts and landslides, the control unit of flood control facilities (811) And a flood control facility to control the flow.

In order to prevent various natural disasters such as forest fires, snowstorms, heavy snow, extreme weather, typhoons, floods, droughts and landslides, the flood control facility control unit 811, which controls the flow of the flow of water into the main body 1, In the inside of the fire sensor pump formed with the flood control process, which is composed of a flushing water circulation system and a flushing water circulation system, , The problem of ecological environment restoration project. In order to prepare for the disaster of the ship, it is possible to solve the water supply facilities according to the evacuation facility of the anchor mooring device formed in the route by combining the connection structure that controls the flow of the flow. The present invention is remarkably different from the prior art in that it changes from a water-deficient country to a water-rich country.

The flood control facility controller 811 for controlling the flow of the flow to the inside of the main body 1 controls the flow of the flow to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme storms, floods, A predetermined amount of the disaster prevention material formed in the impeller 143 inside the spiral casing 310 of the plurality of pump bodies is introduced into the inside of the fire sensor pump formed with the flood control process, The impeller 143 is connected to the rotating shaft 198 which is the center of rotation of the electric motor. The impeller 143 is connected to the left and right head tanks of the industrial machine room internal pump for compressing and storing the water pressure of the inflowing water 7, A plurality of fire protection disaster prevention piping lines 168 of a certain amount of fire water 7 transfer device and a disaster prevention water path 17 of a mountain line of a certain standard and a constant inclination angle 16 of the disaster prevention water path 17, At a constant distance A detection sensor ball tap 499 for detecting the level of the flushing water into the water collection tank 34 and a water supply tank 440 for preventing foreign matter from flowing into the water collection tank 34 And a plurality of solenoid valves 76, which are deployed at the switch turn-on time and provide a switch turn-off time, are connected to the intake port (269) A capillary 29 is attached to the tee elbow 44 of the binding apparatus so that the disaster prevention material carbon dioxide 164 and the halon gas 175 are introduced into the rear of the head tank 189 and the rear end of the disaster prevention pipe 14 A low pressure shut-off valve 83 for shutting off the supply of the high-pressure type carbon dioxide 164 and the natural loess 158, and a mixer 73 and a motor control module 106, At the same time as the multi-stage pump 8 is operated, the fire extinguishing water is circulated through the piping continuous tie elbow 44, And a plurality of flanges 28 connected to the flange 28 at the same time as the processing hole 20 and the gap 15 around the plurality of pipe circles passing through the disaster prevention pipe 14 and connected to the nozzle hose 9. [ A first pressure check sensor 86 provided at the front of the isolation valve 5 while constituting a connection structure of a flood control device control part for controlling the flow rate of the flow rate by providing a gap 15 at the joint part, A second pressure check sensor 87 connected to the isolation valve 5 and a bypass disruption piping line 168 installed to bypass the isolation valve 5 by connecting the front and rear sides of the isolation valve 5, An emergency valve 84 installed to open and close the isolation valve 5 in a manner opposite to the isolation valve 5 and a pressure value from the first pressure check sensor 86 and the second pressure check sensor 87 The integral electronic control unit 88, which controls the operation of the emergency valve 84, It is preferable that the control unit 811 is a control unit for controlling the flow of the water to the inside of the water tunnel.

Therefore, when air is stored in a plurality of container-sized air tubes 130 in which a flushing control process is performed by a flushing control facility controller 811 for controlling the flow rate of the flow of the flushing water into the main body 1, (77) on the upper part of the top surface of the earth's surface was raised so that the disaster relief planner and the refugee were all boarded on the rescue basket (42) at the bottom of the Advisory (77) Large-sized forest fire Safety control device of pipe nozzle to prevent large-sized fire. Facility It is installed in a mountain and a building by a paraffin sensor nozzle stopper (100) installed in a firefighting nozzle by equipment of manufacturing method and lifesaving structure. In addition, the fire-fighting (40) and fire hydrant (179), which are standardized so that there is no disaster damage in the global village, The air pipe line 181 equipped with the pump sensor and the detection sensor switch in each valve is provided with the pump fire extinguisher 124 in the fire cable car 256 so that the flame and the pillar can be easily eliminated and eliminated within 1 second And a flood control unit 811 for controlling the flow of the flue gas.

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood and drought, The pump formed is connected to a speed reducer 251 for various motors in a rooftop collection tank 34 inside a machine room in a rooftop of a large building and an elbow to the wire rope 19 of the winder 137 to the motor 192 It is operated by pushing the top and bottom of the building with the switch button. The disaster prevention water (7) of the line of fire prevention disaster prevention pipeline (168) is integrated into the equipment inside the pump fire extinguisher body, 158) and the fireman (159) are connected to the fire pump (144).

In order to prevent various natural disasters such as forest fires, yellow dust, heavy snow, heavy snow, typhoon, flood, drought, and landslides, the control unit 811 controls the inside of the main body 1, The diaphragm pump 144, in which the control process is formed, can also pump fluid containing a large amount of fluid, mud or sand. The rubber membrane or teflon membrane 538 is moved up and down to suck and discharge The crank 248 and the link belt 249 are formed on the rubber film 538 at the upper end of the diaphragm pump 144 so that the fluid containing the sludge particles is not easily worn or closed. It is suitable for prevention of early evolution and at the same time it can be completely prevented without leakage because it can be completely leaked without grand packing. It is effective for chemical and harmful fluids. It is suitable for heating.

In order to prevent various natural disasters, the flood control unit (811) controls the flood control system composed of flood control facilities such as forest fires, yellow dust, heavy snow, extreme weather, typhoon, flood and drought, The centripetal force pump 308 having the impeller 143 disposed inside the body casing 141 of the centripetal force pump 308 that provides the rotating shaft 198 of the electric motor 92 The guide vane 142 is attached to the wing of the pump vane 142 so that the vane 142 is closely attached to the pump driving vane portion and the circumferential surface of the rotation shaft 198 located at the center line of the casing 141 is provided with a conical seal 156 The control box of the pump control board 53 is connected to the inlet of the control box of the pump control board 53. The control box of the pump control board 53 is connected to the cooler 391 of the mechanical seal with which the balance hole 376 is formed in the partition wall 372, Type multi-stage pump control board 53 includes a flow rate meter 105 for checking the amount of water and a flow rate meter The pressure prevention switch 108 is constituted by a pipe line sensor formed by a separate thielevel 44 in the line pipe 168 of the stop valve 114 above the water pipe 169 line pipe, And a disaster prevention prevention and control unit 811 configured to perform flood control inside.

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood and drought, The associated line relationship of the control unit inverter 47 and the collecting tank 34 at the same time as being interconnected by the pressure tank 189 of the inlet multi-stage pump and the control system, the collecting tank 34 and the control unit inverter 47, In the suction port 269, when the fire extinguishing water is sucked, the air operation preventing device 271 and the reverse valves of the respective pumps are formed so as to be able to control the full closing and the opening of the inverters in the inverter 47, The pressure tank 189 and the control unit inverter 47 are connected to the discharge confluence pipe 4 (4) after the setting positions are clearly set in front of the isolation valves 5, which are the respective pumps 8 and the front- ) Line, a first pressure check sensor 86 which is a discharge pressure check sensor The second pressure check sensor 87 controls the predetermined amount of fire pressure by the overpressure prevention switch 108 while controlling the number of fire nozzles 10 which are the ejection nozzles as the ejection openings 270 to fire each fire A within one second The flood control device for injecting the loess soil 158 into the mixer 73 to prevent the fire in the neighborhood living area and the large fire that belongs to the general fire by the cable car 256 is installed in the main body 1) The construction of the fire fighting cable car (256) in which the flood control process is formed is composed of a plurality of high and low mountain peaks and a plurality of buildings having different height, Disaster Prevention and Control Section (811), which is constructed to provide flood control with a hose (9) of the mesh type (401) type hose including a wire rope of a cross or a sperm type, Facility adjustment 811, it is a technical feature flood control process for configuring a flood control equipment to the fire, dust, snow, pokseo, hurricanes, floods, droughts, landslides advance prevention of several natural disaster formed.

The configuration of the three-stage multi-stage pump (8) in which the flood control process is formed in the main body (1) is as follows.

Details of the mouth type multi-stage pump in which the flood control process is formed inside the main body (1) are as follows.

Details of the control method of such a three-stage multi-stage pump system are as follows.

· Pressure control method (Figure 1)

The operating range of the system is formed from the operating point (Pon) of all the pumps to the operating stop point (Poff1) of the full load operation pump and the operation stop point (Poff2) of the law firm. After the operation stop point of Poff2 of the pressure control type system is reached, it stops completely after the minimum operation between 180 seconds to 210 seconds (CO-CR) and 0 to 120 seconds (CO-ER). Although the width of ΔP can not be kept narrower than the inverter control method, it is mainly used for absorption pressure of low layer by detecting input change of about 1 bar.

· Frequency modulation control decoration (Figure 2)

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

When the flow rate of each operating pump reaches 100%, and the pressure of the operation standby pump is the operating point Pon and the pressure of the individual maximum operation pump is the stop point Poff before stopping.

Therefore, the frequency modulation method can maintain the narrow width of ΔP and control the rotation speed of the main pump with the frequency modulator, so as to compensate for the sudden pressure change occurring when the operation standby pump is in operation or when the operation pump is stopped do.

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

The detailed description of the main functions of the three-stage multi-stage pump in which the flood control process is formed inside the flushing control device body 1 will be described in detail as follows.

As described above, the flood control facility control unit 811 inside the main body 1 is constructed of flood control facilities to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme weather, typhoon, flood, drought and landslide In the mouth type multi-stage pump in which the flood control process is formed, it is indicated by the city symbol. Urine tube nozzle gap type pump Extinguisher The inside of the body describes the main function in detail, so that anyone can easily fire it without being close to the fire scene or near the pump machine. (1), which is constructed in such a way that the fire fighting helicopter is initially evolved within 1 second before the arrival of the fire site, (811).

On the other hand, inside the main body (1), the control unit for the flood control facilities (811) is a flood control system composed of flood control facilities to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme storms, floods, An isolation valve 5 opened when the switch is turned on and closed when the switch is turned on, a regulator 136 for reducing the pressure of the disaster prevention water to a predetermined pressure, A multi-stage multi-stage pump 8 as a mixer and a power motor control module is operated so that the disaster prevention water is supplied to the shutoff valve 61, The clearance machining holes around the periphery of a plurality of pipes 14 that pass through the opening and are connected to the nozzle hose 9 and the waterproofing water whose internal water pressure is formed by the clearance between the flange joints are formed in the shape of a straight discharge jet 38 Or (811), which is constructed to prevent flooding of the inside of the main body (1) by ejecting a plurality of water films (39) in a shape of a water film (39) Prevent multiple natural disasters before and after the disaster.

In addition, in order to prevent various natural disasters such as forest fires, snowstorms, heavy snow, extreme weather, typhoons, floods, droughts and landslides, the flood control facility control unit 811 inside the main body 1 controls flood control The disaster prevention aisle beam (149) and the three-step stepped wire rope net (safety net, 401) of the mountain road cut-out are installed in the form of the process, A lifeboat 188, a life-saving basket 42, and a lifesaving basket 42, which are provided integrally with a ship for the purpose of preventing the sinking of a marine vessel from a storm surge generated at sea, A fire box 159 on the life-size combination bed nozzle 172, a sand bag wall provided as an explosion-proof firearm including a disaster prevention system provided with an air storage vinyl tube, (910) for collecting iron ore manganese block (909), which is formed by disaster prevention control device for disaster prevention and which improves future machine civilization, and pneumatic conveying equipment (911), a submarine mineral recharge robot (912) and an ingot baskets are equipped with a searchlight for search equipment and a submersible light sensor, and a detection sensor is integrated into the main body (1) A first pressure check sensor 86 provided at the front of the isolation valve 5 while being constructed as an upper and a lower end of a barge hull 591 of a marine hydroelectric power plant in which a flood control process is formed by the control unit 811, A second pressure check sensor 87 provided integrally with the check valve 6 and a fire prevention disruption piping line 87 connected to the front and the rear of the valve 5 based on the isolation valve 5, (168), the bypass disaster prevention ship The emergency valve 84 provided in the line 168 to be opened and closed as opposed to the isolation valve 5 and the pressure value from the first pressure check sensor 86 and the second pressure check sensor 86 And an electronic control unit (88) for controlling the operation of the emergency valve (84) so that the disaster prevention control unit (811) The upper and lower ends of the barge hull 591 of the hull structure 591 constitute a mounting structure operating device.

(3) a flange (28) at the upper end of the road surface; (4) a connecting joint portion The fire water contained in the solenoid valve 76 of the pump room and the collecting tank 34 outside the pump room is detected by a fire water level sensor and connected to the hose 109 provided inside the nozzle hose 9 And an emergency engine generator 226 at the upper end of the ship's deck in order to catch the airship 78 at the upper end of the sea surface, While the power source is supplied to the power motor control module 106 of the air compressor 80 and the air generated by the operation of the air compressor 80 is stored in the recycle high pressure storage tank 145, In the event of a disaster, the emergency valve (181) emergency valve (84) is opened and air is blown into the inside of the hull. In case of a disaster, the air pressure in the high pressure storage tank (145) Air is stored in a tube 130 of a plurality of container sizes attached to the piping frame, and at the same time, the adevalon 77 on the upper part of the life structure deck is lifted up to the upper end of the sea surface, Safety control system to prevent disasters on the land and sea of the world by constructing overcoming the crisis situation calmly after confirming the structure of the crew of the disaster ship in the structural basket (42) A paraffin 100 attached to a spray nozzle is provided on a marine vessel to control flood control facilities in the main body 1 in order to prevent fire or other disasters (811) is a fire-fighting disaster control system that controls the spray-type nozzle-controlled electronic control pump, which is composed of flood control system composed of flood control equipment, in order to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme storms, floods, This is because the pipe-nozzle type fire-fighting pump supplies the production power inside the marine power plant.

Inside the main body (1), the control unit for flood control facilities (811) is provided with a closed spray nozzle composed of flood control facilities to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme weather, typhoon, The nozzle hole diameter of the linear hole 15 and the circular-shaped gap 15 machining hole 20 along the circumferential surface of the pipe body B of the pipe line at the rear end of the valve of the electronic control device in which the nozzle hole is opened is 5 millimeters or 490 nozzles adjusted to 10 millimeters and flange joints 8 crevice nozzles connected to the injection nozzle connected to the fire hose part and the hose part formed inside the fire hose (9) so as to supply the liquid and gaseous obstacles together (9) is formed in the injection nozzle body (B), which is formed to separate the nozzles constituted by the bolts and nuts and to adjust the clearance nozzle of the flange joints of the wafers, by means of the disaster prevention material The discharge jetting water 38 and the curtain water film 39 collapse a plurality of pellets by the clearance 15 of the spray nozzle 10 in which the harmful tidal microorganisms 921 are collected, And a vertically descending air current, which is a mass of cold air over the sea, is returned to the jet stream above sea level 10 kilometers above sea level and the vertical descending air current is returned, so that the typhoon can not reach the land. Pressure air compressor 80 and the control system 150 of the mouthpiece multi-stage pump 8 to display the score on the monitor through the calculation of the control server 51 And connected to a distribution shaft 357 formed with the hose 109 and the nozzle 923 together with the air compressor 80 and the cooling device, When a hazardous blooming warning is issued, a mixture of ground water and yellow soil stored in the storage tank and the control dam is provided to the power pump 304 of the control dam to open the water gate valve 409 to release the yellow loam mixture control water into the ocean in a large amount And a harmful tidal blocking prevention / control unit 811 configured to control the flooding inside the main body 1 while preventing harmful tidal generation.

Here, in the detailed description of the fire sensor pump device, fire fighting and disinfection systems for early fire and lifesaving of a large fire include a water supply valve (495) for a tap water supply pipe (14) 533), the middle elbow connection joint portion should be constructed as a fire water control valve as a valve of the flow meter 105 for checking the fire water quality after attaching the elbow 44 with the elbow socket bushing screw, The water supply piping 14 is connected to the hole hose 9 for detecting the fire detection sensor by means of the nozzle hose and the paraffin 100 is inserted into the hose 9. [ And the water supply pressure corresponding to the water pressure inside the hose is also capable of preventing the fire. The air for supplying the gas and the non-combustible gas 164 are also supplied A fire hose nozzle for a paraffin stop is disposed forward to suppress ignition of the flame 292 and the flame 293 while at the same time detecting a first ignition point, To the top of the nozzle body (B), it is attached to various places on the inner edge of the building wooden pillars, which are ignited, and the floor of the ceiling.

A bimetal sensor 102 for detecting when the paraffin tape 177 and the paraffin tape 177 formed by the paraffin tape 177 and the ignition non-substance wire 177 are ignited and the detection cord 41 is cut at the same time and connected to the fire water supply control valve, A thermocouple thermometer switch 103 and a solenoid operation ON / OFF switch button 66 formed in the solenoid valve 76 and an emergency siren 93 after a switch operation are sounded and the solenoid valve switch operation weight 107 The solenoid valve 76 of the electronic control unit is opened and the fire water is quickly discharged to the stair-step injection nozzle 10, the wall-position injection nozzle 10 and the ceiling-mount injection nozzle 10, And the flame 293 and the pillar 294 of the ignition point are irradiated with the radiation type gap 15 and the linear gap 15 into the linear spray discharge 38 The number of ejection ejection number curtain films 39, (402) to prevent landfill disaster by pre-eliminating fire, flame, and pylon before the arrival time of the fire truck (402). At the same time, As a constitution of the equipment system, it can be identified by the internet network of the weather forecast control system or the naked eye in the form of the jetting number 38 and the curtain water film 39, and by the water level detection inside the collecting tank, The present invention, which is configured to detect directly or indirectly by a detection sensor, is distinguished by a remarkable difference from the prior art

Inside the main body 1, the flood control facility control unit 811 controls flood control facilities to prevent various natural disasters such as forest fires, sandstorms, heavy snow, extreme weather, typhoons, floods, droughts and landslides. In order to operate the micro switch 580 and the limit switch 183 to detect whether there is an opening or closing of a workpiece or the presence of a workpiece, contact with an object is required, and these sensors are referred to as a mechanical contact type contact sensor. The difference between these switches is that they are slightly different in structure and usage, and micro switches are relatively small and have a built-in contact mechanism in the molded case and are not sealed. They are mainly used for measuring devices and detectors of small machines. The switch is equipped with a micro switch in a rugged case. The switch is sealed and sealed by a limit switch (183) at the same time as it is put into production equipment and factory automation equipment requiring mechanical protection from places where durability is required, Also called an enclosed micro switch.

In the connection configuration of the micro switch 580,

A micro switch is a type of limit switch that is very small among the limit switches. Since the micro switch is widely used as a main component in the operation and control, and is a large power switching element in a small shape, It has a high repetition accuracy to repeat the switching operation repeatedly regardless of the operation speed while faithfully repeating the specific operation characteristic while the falling speed of the contact point is directly operated by the force. Since the switch operates with small force or movement, The power transmission control unit 811, which is referred to as a Tib switch and is connected to the distribution shaft 357 to the inside of the main body 1 to transmit the power constituted by the water distribution control shaft 357, (811), forest fires, yellow dust, heavy snow, extreme weather, typhoons, floods and droughts, and landslides. (231) for controlling the flow of water through a flood control facility in order to prevent the advancement of the marine hydroelectric power plant (941) to the marine hydroelectric power plant (593,594,595) A coarse drill 917 which is equipped with a charging device and which is connected to a pipe rack 854 equipped with a drilling hole 936 of a construction machine, (936) as a distribution control device for the flood control facility, and at the same time, the groundwater located in the aquiferous rock bed and the aquifer on the riverbed is provided with a power pump (304) A single number of double structure block tanks 598 constituting a plurality of distribution shafts for distributing the ejection and distributing and storing the water storage tanks and the inside of each intake water tanks includes a number of inner block tanks 596 and the inner block tanks 596, Outside A double structure block tank 598 connected to the plurality of outer block tanks 599 and constructed inside the main body 1,

In order to prevent various natural disasters from occurring, the flood control facility control unit 811 is installed in the main body 1. The flotation control facility control unit 811 controls flood control facilities including flood control, A large flange on the outside of the outer block tank of the nozzle frame The flange joint is fastened to the flange machining hole by a bolt 603 of high strength and a nut 604 of high strength and a gasket or rubber packing 32 And connected to the block tank at the joint part of the elbow 44 of the disaster prevention pipe and the disassembly nozzle frame connection part 44. At the same time, the searchlight 232 of the submarine mineral resource search equipment and the submarine surveying lens An underwater light 843 of glass is arranged at the outer side wall of the outer pipe of the disaster prevention nozzle frame at regular intervals with the outer side wall of the vertical tank and at the same time, The movable lug pin connecting shaft 606 or the pin linkage is coupled to the emergency nozzle support frame engaging and separating portable lug 607 and the disaster prevention nozzle support frame engaging and separating lugs 21 by the hydraulic engaging key 623 At the same time, the large flange 614 moves the joining site portable lug pin 608 to the sea surface by the combination of the lug 607 and the block engagement with the elongated hole 616 of the joint site pin- It is equipped with a marine structure and it is connected and connected to the upper part of the lifting dock to extend the life of the object by dispersing the load of the object. When the object is exposed to the sea level according to the fluctuation of the algae, The floating hydrofoil deck of the marine hydroelectric power plant constructed inside the main body 1 constituting the collision avoidance with the tires 919 adjusts its position to the sea level upper end portion 100M.

In order to prevent various natural disasters from occurring, the flood control facility control unit 811 is installed in the main body 1. The flotation control facility control unit 811 controls flood control facilities including flood control, Vertical and horizontal diagonal or symmetrical vertical tanks of nozzle frame, connecting lug and lug pin in block unit in the block unit. Docking and levitation are repeated after joint assembly of block tank unit on the sea level line. Or water pressure control, the disaster prevention water (7) is discharged over the sea surface by the operation of the pump and discharged by the straight discharge water (38) and the radial discharge water film curtain, and the power of the typhoon is suppressed and the global warming The harmful breezes are controlled in advance, and the Francis aberration 229, the Pelton aberration 230 and the sea water produced by the marine hydroelectric power generator 231 are supplied to the head tank and the water pressure pipe of the large- (841) and non-polluting natural gas (922), or manganese block (909), which is loaded on the bottom of the seabed, is collected by the power supplied to the land and the seabed is driven by its power. (937) bridge pier (928), and a multi-purpose multi-purpose equipment for constructing tunnels at sea. This equipment is designed to prevent marine disasters and develop the marine environment industry. The boom hoist 651 of the conventional construction machine is connected to the barge hull 591 of the conventional construction machine and several hoisting boats 935 are installed on the side deck of the deck deck. It is combined with a number of 500m block unit so that it can be used as a long axis, and it is constructed with a length of 20km to install a foundation concrete pier at the bottom of the seabed and to suppress the path of the typhoon The equipment of the present invention may be selected from the weather forecasting and weather prevention policy institute of the international society as a device for distributing the water storage tank of the flood control facility and the marine tunnel transportation equipment of the marine hydroelectric dam construction machine into the main body 1 Can

In order to prevent various natural disasters from occurring, the flood control facility control unit 811 is installed in the main body 1. The flotation control facility control unit 811 controls flood control facilities including flood control, (598) of the nozzle frame and the double structure block tank (598) of the outer block tank (599) to the bottom of the floatable dock bottom at the bottom of the deck deck at the same time as the crude drilling machine And a coarse drill 917 attached to a pipe rack 854 connected to a crude drill rod at the center of the inner block tank 596 in which the drilling machine 908 is located, The auxiliary steel plate 165 for supporting the piping moves the excavated soil generated after the drill rod is operated and the noxious gas in the borehole, and the double structure block tank 598 is provided with the isosceles- The inner block tank 596 and the outer block tank A first auxiliary mold steel 600 for a block tank for supporting the block tank 599 and a snap hole 602 for welding to a second auxiliary steel plate 601 for a block tank are provided on the vertical partition wall 605 The flood control manhole 610, the disaster prevention water passage manhole cover 152 and the horizontal partition wall 609 are fixed on the welding portion and the flood control equipment control portion 811 is provided with the fire control equipment, Storm, flood, drought, and landslide In order to prevent various natural disasters, the flood control equipment is installed inside the main body (1) and the water storage tank of the flood control facility and the marine tunnel transportation equipment. .

In order to prevent various natural disasters such as forest fires, snowstorms, heavy snow, extreme weather, typhoons, floods, droughts and landslides, the flood control facility controller 811 is installed inside the main body 1, A deck deck helicopter station 619 located at the lower part of the stable control room and the weather observation equipment management room is formed and arranged on the left side of the safety control room as a satellite launch pad 643 and a space rocket 612 inside the satellite launch pad, The air compressor (80), which blocks the breeding, and the net hose are used to supply oxygen and air to the sea bed to protect the marine environment. At the same time, it is installed at the upper part of the inside of the block tower The crude drill rod connecting operation pipe rack 854 is bound to the block steel tower internal winding 137 and the wire rope 19 of the crane 861 to be connected to the excavation picking pipe rack 854, At the upper end of the core drill 917 located at the lower end, a draft basket 909 is formed in the machine room where the drilling machine 908 for crude drilling is located, A submarine mineral collection robot 912 and a mineral collecting trough 924 are connected to the automatic pneumatic suction collecting machine 911 and the trench 922 is connected to the outside of the marine tunnel transportation device (938) to the inside of the main body (1) by the outer wall of the hull so that marine life can not be inhabited. Distribution of marine hydroelectric dam construction machinery to the water storage tank of marine hydroelectric power storage facility and marine tunnel transportation device Device.

In order to prevent a plurality of natural disasters from occurring, the control unit 811 of the flood control facility 811 inside the main body 1 controls the flood control unit 811 in order to prevent floods, drought, heavy snow, A power generator lifting tongue 593,594,595 is installed outside the power generation room in which the large generator 213 is provided by the burner boom 920 for removing the harmful gas and installed in the right side of the block steel tower 116 and the recycle tank 145 (918) of the transport system and a mortar (158) and cement (931) to fill the boreholes with the mortar (158) and the cement (931) after the oil borehole work. This equipment consists of a water storage tank of a flood control facility and a distribution input device of a marine hydroelectric dam construction machine in a marine tunnel traffic facility.

In order to prevent various natural disasters such as forest fires, snow, heavy snow, heavy snow, typhoons, floods, droughts, and landslides, the flood control facility control unit 811 inside the main body 1 is formed Discharging water is discharged to the end of the disaster prevention nozzle by the operation of high pressure piston type disaster prevention pump and discharged in the shape of a straight discharge jet (38) and a radial discharge jet water curtain (39) The portable radio communication terminal 82 of the high pressure piston type disaster prevention pump system 150 inside the safety control room and the switch 66 for controlling the disaster prevention pump or the control power switch button 67 for the disaster prevention water spraying, The control box 2 is constituted of a safety control room and a flood control facility adjustment unit 811 inside the main body 1 of the disaster pump operating machinery room.

In order to prevent various natural disasters such as forest fires, snowstorms, heavy snow, extreme weather, typhoons, floods, droughts and landslides, the flood control facility controller 811 is installed inside the main body 1, And a vertical support frame (11) and a top support frame lower support frame (68), which are installed inside the support (651) inside the connection between the control nozzle (10) and the control hose connection joint part. (15) of the radiation type spraying nozzle (10), which is always disposed at the point of occurrence, while the installation equipment is standardized, and the floating type poison which sinks the harmful red tide is moved to the tugboat and the high pressure piston type control pump and the air- (651) and the control hose (9) at the top of the sea level by means of an organic bond, The air compressor is operated while being discharged to the outside of the nozzle in the form of a membrane curtain 39 and the air and the control water are sent to the seabed at the bottom of the seabed together with the net-shaped cross- As a precautionary equipment for preventing harmful red tides or preventing the occurrence of marine disasters and development of the marine environment industry, it is equipped with equipment for harmful red tides and comprehensive disaster prevention system. It minimizes the damage caused by typhoons and dusts in large fires and harmful red tides. According to the weather forecast, the typhoon, which causes the drought of the typhoon, which has a small power, is not enough. It is necessary to pass it by pretending not to know it. However, natural disaster and artificial disaster are preferable.

In order to prevent various natural disasters such as forest fires, snowstorms, heavy snow, extreme weather, typhoons, floods, droughts and landslides, the flood control facility control unit 811 inside the main body 1 has a double structure A plurality of inner block tanks 596 and a plurality of outer block tanks 599 formed inside the block tank 598 are provided with a first auxiliary mold steel 600 for a block tank and a second auxiliary steel plate 601 for a block tank The first auxiliary mold steel 600 for the block tank and the second auxiliary steel plate 601 for the block tank which are provided with the vertical beams 605 and the steel beams 149 on the horizontal partition 609 and the vertical barriers 605, And the steel beam 149 on the horizontal partition wall 609 are divided into a snap hole 602 and a partition wall manhole 610 that are formed inside the main body 1 with welding assembly processed by a computer laser cutter, The block tank 598, and the lifting / poisoning hull position locating facility regulating unit 811. As shown in FIG.

Meanwhile, in order to prevent various natural disasters, the flood control unit 811 of the main body 1 controls flood control, which is composed of flood control facilities, in order to prevent various natural disasters such as forest fires, yellow dust, heavy snow, The upper surface of the sea surface and the harmful tidal microorganisms 921 are also controlled by the air compressor 80 and the air inlet 952 so that the upward airflow 925 and the downward airflow 926 of the typhoon are controlled together with the yellow dust fine dust 927, Type multi-stage pump 8, the unmanned camera 184 transmits the scene, and when the disaster is removed, the unmanned camera 184 transmits the scene through the operation of the pump control server 51 of the electronic pump control system or the control system 150 (909) for improving the future civilization of civil engineering, and a fire-fighting and disaster control device of an injection-type nozzle-controlled electronic control pump configured to display a score on the iron- (924) of the pneumatic transportation equipment, a submarine mineral collection robot (912), a mineral picking basket (842), and a submarine survey lens (924) are installed on the rotary shaft (198) A drilling machine 908 for a crude oil rotary table 908 integral with a detector lamp 232 for an undersea mineral resource search instrument, a detection sensor integrator and an electronic control valve, a large hydroelectric generator or a water turbine generator 213 and the Francis aberration 229 and the Pelton aberration 230 and the other part of the main body 1 which is connected to the main body 1 and connected to the flood control unit 811, 928, and the marine tunnel traffic device 941 are as follows.

That is, in order to prevent various natural disasters from occurring, the flood control facility controller 811 controls the flood control facility 811 in the main body 1 in order to prevent floods, drought, snow, heavy rain, typhoon, flood, A plurality of add-ons 77 installed above the sea level SLL on which the adjustment process is formed and installed at a height of about 10 km on the upper deck of the barge main body 591 at the upper end of the holding tank, The unmanned camera 184 and the burner boom 920 are connected to the fuel supply hose 694 so that the unmanned camera 184 and the adevolun 77 can be vertically positioned in the weather observation equipment radio sonde 134 and the weather observation rail 840, The fuel rods 19 are connected to the inside of the fire hose 9 so as to be connected to the fire hose connecting portion together with the disaster prevention nozzle 10 and to the inside of the basket 42 with the igniter spark lighter 187 (77) (644) at the top of deck deck to supply the fuel gas to the inside of the hose so that hot air is filled into a plurality of the adboards so that all the weather observation equipment of the airship (78) 83 of the hose 109 and the recycle tank 145 connected to the air compressor 80 by the hose connection device nipple 110 and the reservoir tank 145, The multi-stage pump 8 is operated to connect the outside of the collecting tank 34 to the outside, and the disaster prevention material made of gas and liquid is stored in the high pressure state of the water pressure, The submersible pump 36 is installed at a height of 100M intervals at an intermediate position of the fire hose 9 and has a stepping motor 393 of nonmotor power to extend the lifetime of the pipe level object, Facility adjustment (811) is composed of an ascending air stream (925) and a descending air stream (926) in which a flood control process consisting of flood control facilities is formed to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme weather, typhoon, flood, ).

In order to prevent various natural disasters from occurring, the control unit 811 of the flood control facility 811 is installed in the main body 1 in order to prevent floods, snow, heavy snow, extreme weather, typhoon, flood, The filter 262 having the regulating process is configured to filter the foreign substances contained in the gaseous fuel supplied from the fuel tank so that only pure fuel can be supplied. In addition, when the air compressor 80 is operated, The pump isolator valve 5 is configured to be opened and closed when the switch button is turned on, while at the same time allowing the pump to be regulated The low pressure shut-off valve 83 reduces the pressure of the high-pressure fuel guided through the isolation valve 5 to a predetermined pressure. When the pressure is excessively reduced in the low-pressure shut-off valve 83, While the mixer 73 is at the same time the mixer 73 is connected to the fuel introduced through the low pressure shut-off valve 83 or the natural gas 922 or crude oil 841 in the bottom of the sea bed, the chemical substance 930 and the turbine pump 140 The control unit 627 checks the state of the fuel pressure on the regulator 136 side of the engine control module 627, and if the fuel supply state is abnormal, the warning means is operated to stop the supply of the fuel and the disaster prevention material. (591) on the top of the tank No damage to the top of deck deck A certain amount of electric power is supplied to the inside of the main body (1) so as to supply economic energy to the global village. The flood control unit control unit (811) Flood, drought and landslide In order to prevent various natural disasters, a power control transformer (96) of a substation in which a flood control process consisting of flood control facilities is installed is supplied.

In order to prevent various natural disasters such as forest fires, snowstorms, heavy snow, extreme weather, typhoons, floods, droughts, and landslides, the control unit 811 of the main body 1 has a flood control facility A plurality of the disaster prevention nozzles 10 and the nozzle gap 15 at the upper end of the power plant lifting tongues 595 are constructed of pipeline connections to the north pole NP and the south pole SP of the natural water pressure, A plurality of nozzles (935) positioned at the deck plate side surface position of the holding tank upper barge main body (591), which is discharged to the discharging portion drop jetting water (38) or the water film (39) (The boom having a length of at least 15 K M and a maximum length of 20 K M boom formed by equilibrium type steel and small pipes, 651), the disaster prevention water is sprayed to the upper part of the sea surface 10k Vertical downward currents in the ideal position (seeds of typhoon with cold air mass, 9 26) Attach the inhalable hopper doctor ventilation (intake port a, outlet b; 585) and maintain the level of the crane boom to level the load balance of the boom-to-object on the boom stand (651) The worm 107 is provided on the wire rope 19 and the guide rail 618 so as to be adjustable so that the boom can be adjusted to the lowest position by a water hammer pump 393, After the introduction pipe 191 formed of a plurality of the respec- tors 35 is formed along the surface of the pumping pipe 181, the pumping pipe 89 is provided and the air pipe line 181 is connected to the doctor- The control of the air flow is controlled by the air pressure regulated by the heating fan 642 connected to the air compressor 80 connected to the air compressor 80 and the cooling fan 641 to prevent the warming of the earth and to eliminate the typhoon or to change the course of the typhoon, Of the land. As the foundation of the maritime city construction or the function of driving the underwater marine passageway and the bridge construction business of the inter-country transportation means, the present earth is an ellipsoid, and the island land of the equatorial part is left unattended due to global warming, (1) Inside The control unit of flood control facilities (811) is composed of flood control facilities composed of flood control facilities to prevent various natural disasters such as forest fires, heavy snow, heavy snow, extreme storms, floods, droughts and landslides It can be selected as a measure of the wasted land of the island nation.

As described above, the flood control facility control unit 811 inside the main body 1 comprises flood control facilities to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme weather, typhoon, flood, drought and landslide The bottom of the crude oil drilling ship which sells the underwater oil in the inside of the hydroelectric power plant of the ocean is the old technology level that it sits in the water and serves as a buoy. The buoy role is not limited to the crude oil drilling rig. Because it is a sinking ship, the influence of wave is less at 100m below the sea level. Therefore, considering the safety of the object, it is necessary to adjust the typhoon and the storm to avoid the sinking. While diving into the water for a while, several rubber balloons 914 of the size of the container 132 are inserted into the main body 1 Generated by attaching to the hull in the air compression chamber (402) is still typically used to

In order to prevent various natural disasters such as forest fires, snow, heavy snow, extreme weather, typhoon, flood, drought and landslide, the control unit 811 of the main body 1 controls the distribution of the control shaft The multi-stage multi-stage pump 8 constituting the shaft controls the pressure and the flow rate of the fluid and the direction of the flow rate of the fluid to and from the several isolation valves 5 and 6 constituted inside and outside the multi- A second pressure sensor 87 for controlling the valve control sensor of the electronic control system and the first pressure sensor 86 and a second pressure sensor 87 for controlling the flow of the disaster prevention material within the pipe, A gas cylinder 171 for storing the ignition gas 159 and the helium gas 176 in the loess 158, and a plurality of collectors Several tank tanks 295 and a plurality of tank tanks 295 are provided in the tank 34 and several pressure tanks 189, A plurality of manhole covers 153 and a plurality of hatch covers 154 are provided on the upper part of the closed type tank so that bolts 24 are screwed into screw holes 167 in several tank manholes and gaskets 32, the bolts are fixed with a tool monkey spanner, and several tank tanks 295 are provided in a stepped open type and a floating type with ridge lines below the peak of the mountain peaks, The wire 178 is attached to the ignition sense cord 41 by a non-ignition material wire 178 so as to be able to move together with the tent 43 and then to the vinyl pack or tent tent center portion and the vinyl pack section, The tie rods are fixed to several tanks and the tie rods are installed in several vinyl pack tank tanks 295 at each ridge line according to the height of the tanks, A plurality of pressure tanks 189, The fire and disaster prevention piping line 168 inside the fire extinguishing water pipe line 34 and the pipe nozzle 10 of the firefighting fire extinguisher nozzle 10 are divided into the basic 1 type and the basic 2 type according to the standard fire hose 9 standard The flange 28 is connected to the junction firefighter nozzle and the coupling 29. The tube nozzle 10 connected to the firefighting nozzle is provided with a plurality of movable pipe nozzle fire sensor pumps in the firefighting cable car 256, (685) from the marine hydroelectric power plant to the distribution shaft in the marine hydroelectric power plant so that the power transmission portion constituting the control shaft to the inside of the main body 1 is connected to the pipe bridge 937 and the marine tunnel transportation device 941 are configured to be able to continuously operate at a speed of 100 km / h.

In order to prevent various natural disasters such as forest fires, snow, heavy snow, extreme weather, typhoons, floods, droughts and landslides, the flood control facility control unit 811 inside the main body 1 The water hammer pump 393 constituting the water hammer adjustment shaft is provided with the position energy of the fluid without the compressor in the power pump so that water at a high position flows through the water hammer action 389 in which high pressure is generated when water is flowed rapidly, A head tank 189 having a ridge line formed to control the potential energy in the same manner as the head tank 189 introduced into the inlet pipe located on the upper surface of the power generating turbine 267 in a hammer manner is provided with several inlet pipes 191 to the bottom of the high pressure ball tank 303 formed on the upper surface of the collecting tank 34 and the bottom of the collecting tank 34 ) Top-side bonding The water hammer 935 is installed at the crane boom 651 in the ocean while the water hammer pump 393 is installed at the bottom of the sea level SLL so as to simplify the repair of the boom 453, The upper part of the upper surface of the sea surface (SLU) is pumped to the upper part of the sea surface (SLU) over several km and then the flow rate is sprayed to the nozzle (10) A plurality of submarine mineral water gardening bladders 849 for controlling the positional shift of the fluid and the flow rate of the tidal airflow 925 and the descending airflow 926 and connecting the course of the typhoon to the crane boom 651, It will be constructed to subdue the typhoon.

The water control tank (811) inside the main body (1) of the water storage tank and the hydro-hydroelectric dam construction equipment of the above-mentioned flood control facility is controlled by the forest fire, Pressure multistage air compressor 80 composed of a flood control device and a multi-stage screw 80 in which heat is dispersed to the oil cooler 151 without an after-cooler 182 in the internal cooler 170 to prevent various natural disasters The bed nozzle 172 and the inside of the building are connected to a tube 130 which can be lifted and demountably coupled to the intake port 269 and the discharge port 270 formed integrally with the air compressor 147, A water storage tank of a flood control water tank formed by a membrane curtain water film (39) and a distribution pipe of a marine hydroelectric dam facility construction machine.To achieve zero-accident fire-fighting sensor pumps, flood control facilities flow into the 1200-km radius from the center of Northeast Asia, which encompasses the Korean peninsula in sequence, to flood control with water distribution tanks and distribution equipment of marine hydroelectric dam construction equipment. So that the equipment of the present invention can be provided to the global community according to the order specifications of the international peacekeeping force and the defense policy organization.

Meanwhile, in order to prevent various natural disasters, the flood control unit 811 of the main body 1 controls flood control, which is composed of flood control facilities, in order to prevent various natural disasters such as forest fires, yellow dust, heavy snow, The harmful tidal redevelopment equipment installed on the floating uptake dock which is formed by the process is to improve the awareness of marine environmental preservation by measures for the marine environment conservation in land maritime and to provide the marine environment management strategy Establishment and implementation of comprehensive plan for environmental conservation Marine water quality and marine ecosystem for preventing marine pollution Establish detailed action plan with active marine conservation comprehensive plan focused on preventive management of marine resource management and infrastructure construction In accordance with the weather forecast, each rescue equipment has a marine cleaner function and an artificial waterfall function, As the global village without electricity (226) is installed, the power supply of the pipe-level hydroelectric generator inside the main body (1) is used as red tide relief equipment, and the reclamation and landfill work for future ocean- A comprehensive and comprehensive disaster prevention equipment for the development of the marine environment industry, characterized by the purpose of comprehensive comprehensive disaster prevention required. Marine water quality and marine ecosystem in the coastal area A number of measures including measures to prevent marine pollution The air compressor 80 is operated by the electric power generated by the emergency engine 226 so as to drastically reduce the harmful biorhythm-to-breeding condition by using the natural condition as much as possible, And is compressed and stored in the receiver tank 145 by the air hose 109 while the cooling fan 641 is operated, Through the cooling water inlet 287 of the tank 145 with the installation at the upper end of the bed frame 286 provided with the suction filter 262 and at the same time the valve opening of the aftercooler 182, The control means of the disaster prevention apparatus for forming the same high-pressure hose connection-associated coupling ring 29 connected to the high pressure hose 190 as the net 932 for securing the stockyard and simultaneously eliminating the red- Inside the main body (1), the flood control facility control unit (811) is a flood control system composed of flood control facilities to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme storms, floods, droughts and landslides. .

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood and drought, (95) to the top of the sea level where the formed typhoon occurred or the expected occurrence area of the occurrence of the typhoon. A triangular-shaped drop in the form of a doctor ventilation (585) (38) curtain water film (39) to form a pipeline doctor line, such as a spray nozzle for the prevention of high and low acid forest fires, such as the Rocky Mountain Andes on the land, (933), which is the same as the Andes Mountains of the Rocky Mountains, is a water mountain range, and at the same time a typhoon is submerged. It has a jet nozzle, Line 628 and the air supply unit, and at the same time, recognizes that a close relationship is also formed with the global warming phenomenon. According to the configuration of the preferred embodiment, It is a dense and dispersed type of radiation that embraces rain clouds as it moves by the power of the wind due to the artificial waterfall falling down and replaced by caves, gongs, bells, and drums in the upper and lower angles. Thunderstorm is replaced with a repeat explanation, sound vibration frequency, sound vibration and wavelength transmission, as well as the sound of a blown sound over the sea surface by the trump tube discharge water piping gap (15) to prevent the occurrence of a severe typhoon (500) on the airplane (77) and the airship (78) in the sky above the cumulonimbus (840) The control tower is stored in the marine tunnel transportation device (941), which is made of the desire of mankind for the preservation of a peaceful earth environment, from the lightning and lightning to the marine hydroelectric power plant (593,594,595) Inside the body (1) of the flood control device of the unemployed global village composed of the flood control facilities that control the flow of the flow to the inside of the main body (1) on each distribution shaft (357) The control unit 811 is a disaster prevention system in which a flood control process consisting of flood control facilities is formed to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme weather, typhoon, flood, drought and landslide .

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood, The number of injected water jetted into the gap 15 of the injection nozzle 10 formed therein is a method for preventing harmful tidal conditions simultaneously while preventing natural disasters according to the shape of the nozzle. The first pressure check sensor 86 is operated by the pressure reducing valve 85 or the safety valve 258 without the electronic control unit 88 and by the electronic control unit 88 formed by the connecting air- And the second pressure check sensor 87. The air suction filter 262 and the aft cooler 262 are attached to the pulley 250 and the belt cover 261 on the motor mounting vibrating belt 252 according to the dimensions of a certain standard, (182) are formed and simultaneously The inner cooler 170 in the air compressor 80 is provided with a cooling water inlet 287 and is formed at the upper end of the channel base of the bed frame 286 and is provided with means for producing air together with the injection nozzle 10 Pressure hose connection coupling 29 to the life-saving air tubing 130 and the flexible high-pressure hose 190 as the supply means to supply the ascending air stream 925 and the descending air stream 926 of the typhoon to the dust- (Not shown) and the lower part of the sea surface so as to be controlled together with the sound of the artificial waterfall, the sound of the artificial waterfall is changed by changing the clearance of the ejection number (38) And wind instrument sex phone devices which are designed to make the sound of the air flow rate control flap inside the hose of the manometer turn instrument equipped with devices for preliminary warning and typhoons equivalent to tsunami In addition to the number of sprayers that fall and fall as a result of continuous sequencing of the same level as that of the artificial waterfall, an unrelenting action is taken to convert the wild, (840) in the weather observing center, the unmanned camera (184) and the weather observation equipment radiosonde (184) are installed inside the basket (42) in which the lower end fillet is boarded, And the meteorological observatories (840) are installed at the same time, while at the same time the pilots on board the ship can not be boarded, and at the same time, It is necessary to confirm the course of the typhoon by means of a number of devices and change the clearance of the number of jetting (38) so that typhoon does not flow into the land. As a result of disaster prevention, a number (38) eruption can be prevented, and the above-mentioned monthly average path of the typhoon and the abnormal path of the typhoon, as well as the details of the change of the typhoon course that returns the downward current of the vertical structure of the typhoon to the air, For the sake of explanation, it is explained as the following figure inserted.

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood and drought, (38) of the Disaster Prevention Line (933), which sinks the typhoon that formed the typhoon, with a vertical drop of 10 km from the top of the storm horizon to the sea level at the top of the SLD The cumulonimbus disappears and the disaster prevention water is transported through the pipeline of the equatorial line from the top of the North Pole so that the natural disaster like the artificial waterfall can be taken as the pipeline of the natural disaster, The introduction pipe (191) corresponding to the facility is a pipe level seismic power generation dam device of the marine hydroelectric dam, and the previous typhoon is an atomic bomb dropped on Hiroshima Estimating the number of hydropower, the potential heat of the atomic bombs will sink into the Pacific Ocean and the Atlantic Ocean, so that the humanity of the planet will be cleaned up from the calamity and calamity. It is equipped with air piping lines (181) which reduce the damage of the land typhoon by changing the course of the typhoon by a jet stream of 10 km above the sea level, and the flood control And a device for controlling the global warming phenomenon by the harmful tidal blocking prevention / control unit 811 of the facility control unit 811.

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood and drought, The air pressure and air flow are measured by combining the flow meter with the flow meter and the magnetometer to measure the air pressure and the direct flow rate and flow rate Is to measure the fine air pressure of 1: 1,000,000 mm / wg in the alcohol liquid main system for substituting the mercury liquid main system, and to propose that it can be explained in detail in the future, In the turn measurement form, the floating type poison is provided with air piping lines (181) at a depth of 10 km to the inside of the holding tank and the auxiliary supporting tank so that the flood control can be performed inside the main body Is a device for controlling the global warming phenomenon by the harmful red tide prevention / control unit 811 of the malaria control equipment control unit 811.

In order to prevent a plurality of natural disasters from occurring, the control unit 811 of the flood control unit 811 controls the disaster prevention piping (hereinafter, referred to as &quot; flood control pipe &quot; 14) A curtain water membrane, which forms a straight double-type gap along the length of the piping circumference (15), is a triangular curtain water membrane, which prevents the global warming phenomenon, which is installed at the upper end of the sea level surface (SLU) The curtain water film 39 is a control means constituted by the disaster control device. As the control means, the sulfur dioxide gas and the fluorine gas, which are the main substances of global warming, and the carbon dioxide 164 and the death gas (163) It is the disaster control device of the means which makes the dioxin fall on the sea surface.

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood and drought, (SLD), which is connected to the South Pole and the North Pole, is a disaster prevention piping or disaster prevention hose at the bottom of the sea that connects the South Pole and the North Pole. The suction port 269 of the non-powered water pump 393 including the method of moving the disaster prevention water without the multi-stage pump 8 is provided with a multi-stage pump 144 having a rubber or Teflon membrane formed on a reed- A flood control facility control unit 811 configured to control the flood control inside the main body 1 while preventing the occurrence of harmful tidal breeze, It consists of the apparatus for controlling the global warming phenomenon by blocking harmful bloom prevention control unit 811.

In order to prevent various natural disasters from occurring, the control unit 811 of the flood control facility 811 is installed in the main body 1 to control the flood control line 933) is a pipeline in which a flood control process is established. It controls the rising temperature of the sea surface by releasing the seawater to the falling spray nozzle at a distance of 10 km to the upper end where the typhoon is subdued. The temperature difference varies with the height above the sea level The temperature difference of about 1 ° C in the upper part of the metric unit and the temperature difference of about -70 ° C at about 7 km in the upper part of the air causes the process of falling down from the liquid to the solid during the drop, (933) as an opportunity to create a snowbath as snow accumulates as the rain falls, (842) for the harmful redeye suction dust collector is connected to the wire rope (19) by the pre-removing device for harmful tidal redevelopment before and after the harmful red tide, and the inside of the main body (1) (811) of the flood control facility control unit (811) configured to control the flood control of the inside of the main body (1) while discharging water in large quantities to the ocean, Detecting that the warming phenomenon disappears and is removed.

As described above, since the frequency of occurrence of typhoons is high at a sea surface temperature of 26 ° C or higher, measures and methods for solving the problem of reducing the warming phenomenon are made up of a control device. Thus, typhoons and intensive rainfall phenomena, Conversion of disaster prevention system to reduce tsunami damage Prevention of earthquake and tsunami Disaster Local residents themselves are actively coping devices, which are installed at the source of the disaster area as a source of blockage. At the bottom of the control line (933), harmful red- (842) is used to pre-remove harmful red tide from the wire rope (19) before and after the harmful red tide, and to circulate the yellow loam mixture water to the inside of the main body (1) To prevent harmful blooming and to prevent the occurrence of harmful blooming, and to control flooding to the inside of the main body (1).

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood and drought, The equipments are divided into the semi-circular area and the danger zone in the typhoon along the equatorial line of the typhoon, such as the water sprinkler that sprays water on the flower field, (933) as an organic cooperation with the communication equipment of the forecasting observation system, and a hedge basket (842) for the harmful redeye suction dust collector to the wire rope (19) by the harmful red tide breeding pre- It is possible to control the flood control inside the main body (1) while discharging a large quantity of yellow soil mixture control water into the vessel (137) and the main body (1) Lu be configured to consist of harmful red tide off prevention control unit 811.

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood and drought, (357) is connected to the distribution shaft (357) in order to achieve a better living environment in which the earth environment is better, such as a rice straw planted in a field of rice, and when a harmful red tide warning notice is issued in the drought period, And the loess mixture is installed in the main body (1), the power pump (304) of the dam is opened to open the water gate valve (409) to discharge the yellow loam mixture control water into the ocean in a large amount, (811) Arranging and arranging the equipment is a shortcut of the breeder, and the huge equipment is the environment of land and sea It is an opportunity to raise extreme fire damage by heavy help with development.

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood, In the countermeasures to mitigate the formed typhoon, equipment required to smoothly distribute and shut off the air circulation is connected to air intake ventilation that connects the South Pole and the North Pole, while at the same time, It is composed of plastic hose pipes in curved form so that it is protruded to the upper side and sinks to the bottom of sea level. At the same time, cold air and hot air are mixed in one place and at the same time, The equipment that turns a typhoon at sea while switching to a composition is treated like a crude oil drill ship, An internal description of the operation of the engine installed in the disaster prevention line by the equipment of the air conditioning system is omitted hereunder, and the inventor of the present invention has used the old oil rig drilling line (933) The ship was taken as a test agent of the marine vessel safety system confirming the ship class made up of the chuck and checked the safety of the equipment to the top and bottom of the crude oil drilling rig by pointing out the fault to the person in charge of each production department, The equipment of the present invention according to the experience of the present invention has the advantage that it is possible to use the injection nozzle 10 installed in the middle of the connection portion of the nozzle hose 9 with the safe safety control means Water storage tanks of flood control facilities according to the global weather forecast to remove the seeds of typhoons in advance by the air pressure and jetting water to be jetted And a distribution chute of marine hydroelectric dam construction machinery on maritime transport tunnel device.

As described above, what is urgent is the cause of the harmful rust occurrence and the cause of the typhoon that the flood control process is formed in the main body 1. The reason for this is to be clarified.

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood, The ignitable material that is formed includes fine fiber dust and ignition accumulation materials, fine dust on the top of the wire, wire covering, sparks due to electric welding inside the industrial field, and spartan. Spark from oxygen cutting and spartan, crude oil or chemicals, paper, activated liquid oil, activated solid ignition material, disposable gas container, many of which are caused by spark caused by lightning, gas lighter, Of the sea surface, and at the same time in the event of a disaster, puncture and steel plate corrosion on the outside of the ship due to the friction of the reefs and waves of the oil tanker (797) (SLD) from the sea surface (SLL) to the SLU at the bottom of the sea (SLL) as it is sinking from the sea surface (SLL) to the sea bottom (SLD) In the event of a disaster, a number of personnel are mobilized for the control activities at the sea level or on the coastal beaches. The technical level of the present invention is such that it can not be expressed by the adsorbent used in the pollutant removal work, and the technical level of the present invention is to remove the word 'control activity' altogether while at the same time eliminating the snow blowing disaster damage. ) Inside The control unit for flood control facilities (811) is composed of flood control facilities to prevent various natural disasters such as forest fires, drought, heavy snow, extreme weather, typhoons, floods, droughts and landslides.

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood, The injection nozzle formed is a remarkable difference from the conventional injection nozzle in that the discharge amount of disaster prevention material is higher than that of the conventional standard injection nozzle, The jet head of the pump 393 is connected to the inlet pipe 191 and the intake port 50 times and the jet nozzle is connected to the disaster prevention hose by the small pipe 14 and the high pressure multi- The injection nozzle 10 is installed in the injection nozzle 10 connected to the rear end of the pipe and is installed in the middle between the injection nozzle 10 for mounting the transportation equipment and the connection part for connection of the disaster prevention hose. In the nozzle support frame 11 and the hook 13, (18) and a wire A nut 25 is attached to the shackle 29 for the safety pin and the bolt 24 and a nut 25 for the stopper is provided on the spring 186 and the hook- A high-performance submersible pump control system and a high-performance submersible pump control system 36 comprising a wire netting or a flange 28 and a terminal mobile phone of a communication means and a transportation equipment engine, 811) constitute a flood control process.

Accordingly, the jetting water 38 ejected to the nozzle gap 15 is a cornerstone for suppressing a fire for the initial evolution of a large-sized fire with a straight line or a radiation curtain film 39. However, While the B fire and the C fire are controlled by the flammable gas 164 and simultaneously the inside of the main body 1 is controlled by the flushing control unit control unit 811. The flushing control unit control unit 811 controls the flushing, In order to prevent natural disasters, a high-pressure multi-stage pump (8) having a flood control process composed of a flood control facility is generally used to supply fire water having a height of about 100 meters, The conventional high-pressure inlet multi-stage pump is a water supply system of water supply type. In the step drive system in which each pump is controlled to be on / off, inverter drive A tendency which is changed by the following formula.

In order to prevent various natural disasters, the flood control facility control unit 811 of the main body 1 controls flood control system composed of flood control facilities such as forest fire, drought, heavy snowfall, extreme weather, typhoon, flood and drought, The equipment is provided with a series of measures to enable the living organism to breathe and to survive while at the same time being selected and applied in a very urgent situation for the purpose of protecting marine fish and shellfish products. At the same time, a garden basket for a harmful rust- (842), it is possible to discharge a large quantity of yellow loam mixture control water into the winding machine (137) and the main body (1) on the wire rope (19) by the pre- And a harmful red tide prevention and control unit 811 configured to control flooding inside the main body 1 while preventing the generation of the malfunction.

As described above, the control of the flood control facilities (811) inside the main body (1) constitutes the flood control facility in order to prevent various natural disasters such as forest fires, drought, heavy snow, extreme weather, typhoon, The water storage tank and the water intake dam are inserted into both sides of the distribution shaft 357. The control shaft 231 for controlling the water storage of the flood control device flow rate is connected to the marine tunnel transportation device 941, Dock (593,594,595) Drilling machine for drilling machine (936) Drilling machine for drilling machine (936) Drilling machine for drilling machine (908) A plurality of boreholes 936 are provided by a distribution and dispensing apparatus of the flood control equipment of the coarrer 917 which is coupled to the flood control unit 854 and at the same time the groundwater located in the aquiferous rocks of the river bed and the aquifers above the metamorphic rocks (304) A plurality of distribution shafts 357 for distributing the ground water discharge to the water storage tanks and the respective intake dams and the hull positions of the marine hydroelectric power storage tanks 593,594,595 of the control shaft 231, The floatation control unit 811 for adjusting flood control inside the main body 1 configured to perform the movement control and disassembly and assembly of the marine power plant, (593,594,595) on the marine tunnel transport device (941) composed of the space rocket launcher (646) in the sea according to the international hierarchy in the launch pad (643) of the deck deck top of the dam construction machine (611) and a space rocket (612) are mounted on SDL, which are installed in the main body (1). To be selected.

In order to prevent various natural disasters from occurring, the control unit 811 of the flood control facility 811 inside the main body 1 is provided with a flood control system, which is composed of flood control facilities, such as forest fire, drought, heavy snow, extreme weather, typhoon, flood, The marine hydroelectric power generating apparatus of the marine hydroelectric power plant lifting tanks 593, 594 and 595 is installed in the apparatus 941 with the large generator body 213 installed at the upper end of the fire protection line 933 and the disaster prevention line 933, The head tank 189 is installed at each position of the frame 11 of the injection nozzle 10 of the control line 933 by receiving power from the engine generator 226 of the power transmission control unit 811 And discharging the electrolytic water 7 into the large generator body 213 through the water pressure pipe 191 and discharging the same while controlling the flow rate of the water to the rear end position inside the generator By providing the butterfly valves 305, So that the transformer of the substation of the power transmission control unit 811 can control the power supply of the high voltage power supply 685 at the same time as the power supply control of the power supply 685 can be performed by the multi- (1) Ocean hydroelectric power plants are constructed inside.

A marine hydroelectric power production control unit connected to the distribution shaft 357 to the inside of the main body 1 to produce a power to be adjusted to the inside of the main body 1 by the distribution shafts 357 A power transmission control unit 811 connected to the distribution shaft 357 for transmitting power to the inside of the main body 1 to control flood control; (811) is an internal Francis turbine auger (229) where a flood control process consisting of flood control facilities is installed to prevent various natural disasters such as forest fires, yellow dust, heavy snow, extreme weather, typhoons, floods, droughts and landslides The electrolytic water 7 produces the generated power while the rotating shaft is rotated in the clockwise direction due to the inflow of the power generation dam, and at the same time, the hydroelectric power of the sea hydroelectric power is supplied to the inside of the generator without the power generating dam 680 Speed-regulating The discharge port 270, which regulates the flow velocity of the intake port 269 in the form of a dewatering 35 to produce a high amount of high power 685 and at the same time regulates the flow rate of the water to the inner rear end position of the generator, The power transmission control unit 811 is provided to generate power of high power 685 and to control the power supply of the power supply 685 while simultaneously supplying the power of the power supply 685 to each of the marine hydroelectric generators by multi- The hydroelectric power plants of the substation are composed of the transformers inside the main body (1).

As described above, the present invention provides a distribution input device of a construction machine for a water storage tank flood control facility to a global village.

According to the preferred embodiment of the present invention, in order to prevent casualties from burning due to a fire, it is necessary to save lives from various disasters so that there is no burden, It is noted that the above embodiments are for illustrative purposes only and not for the purpose of limiting the scope of the present invention to the above-mentioned claims It will be appreciated that the scope of the claims is dependent upon the other applications described below in accordance with the various embodiments.

"자 "

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" 형태의 지그),(23)샤 클,(24)볼트,(25)너트,(26)와샤,(27)힌지,(28)플랜지 또는 플랜지마개철망,(29)카플링,(30)카플링 암나사산 몸체,(31)카플링 수나사산 몸체,(32)가스켓트 또는 고무패킹,(33)노즐호스장비거치대,(34)집수정탱크,(35)레듀사,(36)고성능수중펌프,(37) 펌프수차,(38)토출분사수,(39)물막 또는 커텐물막,(40)소방정,(41)감지노끈,(42) 바스켓,(43)이중비닐텐트 또는 봉지,(44)엘보 또는 티이엘보,(45)소방용 펌프,(46) 동력 전원 공급장치인 전원,(47)인버터,(48)인버터 브이오,(49)억세스포인터,(50) 인터넷망,(51)입형다단펌프의 관제서버,(52)모니터,(53)펌프제어보드 또는 타구어윈치 조정박스,(54)근거리무선통신안테나,(55)근거리무선통신장치의무선통신제어모듈,(56)디스플레이,(57)전자제어장치 에이 디이 씨,(58)스위치 입력회로, (59)전자제어장치 엠씨유,(60)전자제어장치 디이 에이 씨,(61)과전류차단기용 브레이크, (62) 전원부,(63)디스플레이 화면,(64)아날로그입력,(65)디지털입력,(66)각 펌프의 온 오프 제어용 메인스위치버턴,(67) 보조스위치 버턴,(68)입형다단펌프 디스플레이 입력 또는 컴퓨터 전산망 입력,(69)현재 압력값 또는 설정 압력값 압력설정수치 인식명판,(70)메모리,(71)동력전선,(73)방재물질 혼합기믹서,(74)터어빈수차,(75) 헝겊꺼즈,(76)솔레노이드밸브,(77)애드벌룬,(78)비행선,(79)가스통,(80)공기 압축기,(81)모바일서비스,(82)휴대용단말기,(83)저압차단 밸브,(84)비상 밸브,(85)감압 밸브,(86)제1압력체크센서,(87)제2압력 체크센서,(88)전자제어유닛,(89)방재 배관라인 또는 양수관,(89a)수직 양수 관,(89b)수직 하향 관,(90)볼밸브 핸들,(91)드 렌처헤드,(92)밸브몸체 내부 디스크,(93)비상싸이렌,(94)최초발화원인물질인 스파크 또는 낙뢰,(95)전신주,(96)변압기,(97)레듀사 붓싱 소켓,(99)점멸 경고등, (100)파라핀노즐마개,(101)압력계,
(102)감지센서 바이메탈,(102a)열전대의 구성 방식,(102b)열전류 발생,(102c)열기전력 발생, (102d)측정점,(102e)기준점,
(103)감지센서용 열전대 온도계 스위치,(103a)열전대 온도계의 구성방식,(103b)측온한계,(103c)온도 1,(103d)전류계 온도의 눈금,(103e)금속A,(103f)금속B,(103g)전위차가 발생,(103h)열전대와 보상도선,(103i)측온 접점,(103j)열전쌍,(103k)보상 접점,(103l)보상 도선,(103m)기준 접점,(103n)열전대의 종류, (103o)보호관이 없음,(103p)보호관,(103q)고온물체,(103r)보호관이 있음,(103s)시스형,(103t)측온단자,(103u)측온접점,(103v)스텐 금속시스,(103w)보호관 부착 백금 측온 저항체,(103x)마이카,(103y)백금선,(103z)자기,
(104)레벨 또는 압력스위치,(104a)다이어프램식 압력스위치, (104b)공압-센서 압력스위치, (105)방유량 체크용 유량계,(106)전동기제어모듈,(107)밸브스위치작동용 추 또는 크레인 붐대 레벨 유지 웨이트,또는 납덩이 추,(108)과대압력 방지스위치 또는 스위치박스,(109)공기호스,(110)공기호스 연결장치 닛플,(111)스프링 쿨러헤드,(112)반사관,(113)가용금속용 퓨우즈,(114)정지밸브 또는 수도밸브,(115)지하매설관,(116)철탑 또는 블록철탑,(117)부자,(118)부자회로개폐기,(119)벨,(120)경보밸브,(121)시험밸브,(122)고압수도펌프,(123)레버 블럭,(124)소화기(소화기a, 소화기b, 소화기c, 소화기D, 소화기e, 소화기f) (125) 체인,(126)실린더,(127)피스톤 또는 피스톤펌프,(128)소화기 고정용 핀,(129)빗장 장금장치,(130)인명구조용튜우브,(131)로프,(132)컨테이너,(133)앙카볼트,(134) 라디오존데,(135)구동바퀴 로라 용 도루레,(136)레귤레이트,(137)동체에 감긴 밧줄이나 쇠사슬로 수문개폐 조절장치용 타구어윈치,(138)시린더,(139)철개망태,(140) 터어빈펌프,(141)케싱,(142)베인펌프또는가이드베인,(143)임펠러,(144)다이어후렘펌프,(145)고압저장탱크,(146)프로펠러펌프 또는 프로펠러,(147)다단식나사 공기 압축기 그리고 나사펌프,(148)플런저펌프,(148b)사축식 플런저펌프,(148c)레이디얼 플런저펌프,(149)철재 빔,(150)방재펌프 제어시스템 또는 관제시스템,(151)오일 냉각기,(152)맨홀덮게,(153)해치카버,(154)방화문,(155)글랜드패킹,(156)매커니컬 시일 또는 각개의 시일,(157)제트펌프,(158)황토,(159)방화사,(160)옥내소화전상자 (161)자동소화전,(162)호스걸이,(163)질식 가스,(164)불연성 가스의 이산화탄소, (165)보강철판,(166)성냥불(a) 또는 발화물체(화재유형별의 A급, B급과 C급으로 분류함),(167)나사탭, (168)송수구 또는 소방방재 배관 라인,(169)방수구,(170)내부냉각기,(171)배기가스,(172)인명구조겸용 침대 노즐,(173)토치 또는 버너,(174)탄산가스,(175)하론 가스,(176) 핼 륨,(177) 발화물질 파라핀테이프,
(178)비 발화물질 철사,(179)소화전(단구형a, 쌍 구 형b),(180) 비닐포대, (181)방재공기배관라인,(182)후미냉각기,(183)리밋스위치 또는 리미트스위치,(184) 무인카메라,(185)지그대 쇄기(끝이 뾰족한 틈새 결합공구),(186)스프링,(187)무인점화기 스파크라이터,(188)구명정,(189)헤드탱크(압력탱크),(190)플렉시블고압호스 또는 유압호스,(191)도입관 또는 수압관,
(192)동력모터 전동기 몸체,(193)후드,(194)스냅링,(195)팬,(196)몸체프레임,(197)몸체 전방 보강철판,(198)회전축,(199)회전자조립,(200)전방 회전축받이, (201)고정자조립,(202)모터보호용 주물프레임,(203)단자박스,(204)인양볼트,(205) 단자박스 카버,(206)후방 회전축받이,(207)후방 보강철판,(208)공극,(209)팬 카버 또는 보호 카버,(210)회전자 철심,(211)고정자 철심,(212)고정자 권선,
(213)수력발전기,(214)회전속도 검출기,(215)여자기(교류발전기이거나 동력전동기의 계자 코일에 전류를 공급하는 직류발전기를 칭함),(216)고리 관을 밀어넣는 기기,(217)상부 회전축받이,(218)회전축받이를 밀어넣는 기기,(219)고정자 코일,(220)고정자프레임,(221)중심부고정자,(222)저속냉각기,(223)제동장치 링,(224)제동장치 또는 잭,(225)저속 회전축받이,(226)엔진 발전기,(227)터빈 회전축받이, (228)날개바퀴,(229)프란시스 수차,(230) 펠톤 수차,
(231)조절축, (232)탐조등,(233)수력발전소 또는 해양 수력발전소,(234) 호칭별 노즐 몸체 "호칭 100", (235) 호칭 "90", (236) 호칭 "75", (237) 호칭 "65", (238) 호칭 50, (239) 호칭 "40", (240) 호칭 "25", (241) 호칭 "100×90", (242) 호칭 "90×75" (243) 호칭 "75×65", (248)크랭크,(249)링크대,(250)푸레, (251) 감속기,(252)브이 밸트,(253)플런저,(254)고정핀,(255)타임머,(256)케이블카아, (257)공기밸브,(258)안전밸브,(259)자동밸브,(260)드레인밸브,(261)벨트카버,(262) 흡입필터,(263)압축기본체,(264)수차 또는 펌프수차,(265)메인밸브,(266)산림,(267) 터빈,(268)플라이휠,(269)취수구 또는 흡입구,(270)방수로 또는 토출구,(271)공 운전 방지장치,(272)펌프전원,(273)제어전원,(274)비상운전회로,(275)직류파워공급회로,(276)마이크로 콘트롤 유니트,(277)디 아이피 스위치설정회로,(278)디스플레이회로,(279) M/C 구동신호 접점출력회로,(280)모터 과부하 신호입력회로,(281)인버터운전 데이트 입출력회로,(282)압력감지회로,(283)외부상태 입력회로,(284)토출 압력 트랜스미터어,(285) 흡입/토출 스위치,(286)베드 프레임,(287)냉각수 입구, (288)유분리탱크,(289)흡입밸브,(290)기어드라이븐,(291)건조기,(292)물탱크,
(293)수문,(293a)데인터 게이트,(293b)롤링 게이트,(293c)설계수위,(293d)수면,(293e)앵커부문 고정부,(293f)고정부,(294)수로 또는 회전수로,(295)수조탱크,(296)게이트밸브,(297)리턴밸브,(298)부시 또는 트로틀부시,(299)드렌처 헤드(a,b,c,d)의 종류,(300)진동경보장치,(301)드레인,(302)역 정지밸브,(303)고압 보울탱크,(304)양수펌프,(305) 버터플라이밸브,(306)중탄산 소다,(307)재 유입구,(308)센튜리 퓨우걸 펌프,(309) 오수펌프,(310)스파이럴 케이싱,(311)블류우트 펌프,(312)후드밸브,(313)양수구, (314)펌프 본체,(315)플로우트,(316)볼 밀어넣기 기기,(317)플랙스블카프링,(318) 플로우트 스위치,(319)뒷날개,(320)퍼올림 밸브,(321)빨아올림 밸브,(322)분출 수면계,(323)실제 양정,(324)분출 양정,(325)제트펌프,(326)기어펌프,(327)윙 펌프, (330)분리 실,(331)마그넷 스위치,(332)목조건물,(333)빌딩 또는 대형건물,(334) 밸런스,(335) 언밸런스,(336)옥내 소화용 펌프,(337)로터리펌프,(338)로터리 회전자,(339)프라이 밍,(340)자흡식 펌프,(341)축류펌프,(342)혼류펌프,(343)점성펌프,
(344) 표준형 글랜드패킹,(345)글랜드,(346)주액랜턴 링 부착패킹,(347)랜턴패킹,(348)2중 글랜드형 패킹,(349)드로틀부시부착패킹,(350)냉각수출구,(351)봉 수,(352)냉각수 입구,(353)슬리이브 내면 냉각병용 워터 재킷부착패킹,(354)슬리 이브의 내부 냉각실,(355)보조 글랜드,(356)누설액의 냉각실,
(357)분배축,(358)여덟가닥짜기,(359)봉지짜기,(360)격자짜기,(361)플래싱 홀,(362)O링,(363)스톱더,(364)중동링,(365)밀봉단면,(366)시이트링,(367)피동링, (368)퀀칭,(369)쿠울링,(370)되돌림 관,(371)핸들,(372)격벽,(373)축 방향의 하중을 밀어넣기 기기,(374)임펠러 전면에 작용하는 압력,(375)임펠러 뒷면에 작용하는 압력,(376)밸런스홀,(377)흡입압력,(378)배면압력,(379)기어,(380)전면웨어링, (381)토출압력,(382)배면 회전축받이 링,(384)뒷날개,(385) 뒷날개 설치로 인한 압력분포와 임펠러,(386)다단펌프의 임펠러 배치,(387)수주분리,(388)수주결합, (389)수격작용,(390)축봉부,(391)매커니컬 시일의 냉각기,(392)스트레이너,(393) 수격펌프,(394)옥상 소방운전실 또는 크레인운전실,(395)높고낮은 산,(396)진동 암호장치,(397)속도조절장치,(398)전동기회전변속기,(399)디스크 제동장치,(400)방파제 겸용 방제탱크,(401)안전그물망(로프그물),(402)공기 압축실,
(403)슬루우브 밸브,(404)밸브몸통,(405)밸브덮개,(406)슬루우스밸브,(407) 패킹누르게,(408)패킹누르게 너트,(409)밸브,(410)핸들,(411)핸들너트,(412)패킹, (413)웨지게이트밸브,(414)단체밸브,(415)플렉시블 밸브,(416)패럴렐 슬라이드 밸브,(417)더블 디스크 게이트밸브,(418)스톱밸브,(419)플랜지형 글로우브밸브, (420)플랜지형 앵글밸브,(421)몸통,(422)덮개(본네트),(423)디스크,(424)덮개붙임밸브 시이트,(425)밸브대,(426)밸브 누르개,(427)핸들,(428)덮개끼움 링,(429)패킹 누르개 링,(430)패킹 누르개,(431)나사 끼움형,(432)덮개 볼트,(433) 패킹 누르개 보울트,(434)핀,(435)덮개 볼트용 너트,(436)패킹 누르개 볼트 용 너트,(437)핸들 너트,(438)멈춤나사,(439)와셔,(440)패킹,(441)가스킷,(442)밸브누르게,(442a)평면 누르게,(442b)원뿔누르게,(442c)구면누르게,(442d)스터트 누르게,(443)콕(cock;1형 (444)콕(2형),(445)청동나사넣기 메인콕,(446)주철플랜지형 글랜드형,(447)청동 나사 넣기 글랜드 콕,(448)삼방콕,(449)사방콕,(450)핸들콕
(451)첵밸브,(452)스윙형 첵밸브,(453)리프트형 첵밸브,(454)첵밸브 몸통, (455),덮게,(456)디스크,(457)디스크핀,(458)플러그,(459)조정밸브,(460)감압밸브, (461)파이로트 작동식 감압밸브(자력식),(462)2차측 감지구멍,(463)다이어프램 (464)파이로트밸브,(465), (466)메인밸브,(467)메인밸브스프링,(468) 조정스프링, (469)자동압력조절밸브,(470)나사형 자동압력조절밸브(a),(471)플랜지형 압력조절밸브(b),(472)안전밸브,(473 스프링식 안전밸브,(474)리리이프식 안전밸브,
(475)증기용 포프스프링식 안전밸브,(476)포프식 안전밸브,(477)온도조절밸브,(478)자동급수기(자동수준조정기),(479)자동급수기(a),(480)자동수준조정기, (481)공기빼기밸브,(482)자동공기 배기밸브 열 동 형(증기용),(483)자동공기 배기밸브 바켓트형(온수형),(484)냉매배관용 밸브,(485)냉매 스톱밸브,(486)팩드밸브, (487)팩레스밸브(벨로우즈형),(488)팩레스밸브(다이어프램형),(489)팽창밸브, (490)다이어후렘형 팽창밸브,(491)벨로우스형 팽창밸브,(492)부자밸브,(493)냉매용 압력조정밸브,(494)전자밸브,(495)자동급수밸브,(496)일반형 수도꼭지(수전),
(497)지수선,(498)분수전,(499)볼탭,(500)피뢰침,(501)나사이음형 Y형 스트레이너 외형도(a) 단면도(b),(502)U형 스트레이너,(503)V형 스트레이너,(504)관 고정 금속,(505)터언버클부 지지밴드,(506)지지밴드,(507)로울러부 지지밴드,(508) 수직관 매몰용 밴드,(509)철재 안경밴드,(510)바닥밴드,(511)트랩,(522)앵글형 열 동식 트랩,(523)스트레이트 열동식트랩,(524)버키트트랩,(525)상향식 버키트 트랩, (526)하향식 버키트트랩,(527)플로우트트랩,(528)임펄스 증기트랩,(529)수도꼭지몸통,(530)패킹상자,(531)패킹 누르게,(532)꼭지대,(533)핸들,(534)디스크,(535)디스크패킹,(536)내수패킹,(537)내 노화성 물건패킹,(538)고무막 또는 테프론 막,
(539)열팽창이 큰 금속,(540)열팽창이 작은 금속,(541)타임머 또는 레벨스위치,(542)하이레벨알람,(543)베이컴페일루어알람,(544)스어멀 릴레이 알람,(545)알람 리셋트 버턴,(546)로워 레벨 스위치,(547)플랩(밸브의 혀),(548)사운드캡, (549)첵노즐,(550)루우버카버,(551)플로이트 인셔어트 스위치,(552)지시눈금스케일,(553)오우버플로워 콘넥션,(554)벤트 파이프 콘넥션,(555)플랜지 콘넥션,(556) 이중비닐 개방형 침(바늘),(557)솔레노이드밸브 몸체,(558)카버,(559)스폴,
(560)스플패킹,(561)파이로트(안내),(562)코일,(563)콘넥터,(564)메니폴드(8" 대유량형),(565)매니폴드,(566)나사볼트,(567)에어호스결속구유니온 카플링,(568)유니온 카플링(몸체결속),(569)2위치싱글,(570)2위치더블,(571)L L; 중앙 수직형,(572)L; 수직형,(573)수평형; M,(574)F; 피팅포함,(575)도시기호 싱글,(576)더블,(577)에이취,(578)아이,(579)제이,(580)마이크로스위치,(581)직접배관형,(582)베이스 배관형,(583)파이어 댐퍼,(584)댐퍼 스핀들,(585)닥터 벤츄레이션(흡입구a, 배출구b),(586) 몽골 피에의 열기구,(587)블량샤르의 열기구,(588)켈리의 열기구,(589)증기비행선,
(590)교각겸용 지주탱크,(591)지주탱크 상단의 바지선 선체,(592)지주탱크 하단의 바지선 선체,(593)소형의 수력발전소 부양식독,(594)중형의 수력발전소 부양식독,(595)대형의 수력발전소 부양식독,(596)이중구조 내부블록탱크,(597)고장력의 철판,(598)이중구조 블록탱크,(599)이중구조 외부블록탱크,(600)블록 탱크용 제1 보조형강,(601)블록탱크용 제2 보조철판,(602)스냅홀,(603)휴대용 러그 연결축 결합용 볼트,(604)휴대용 러그 연결축 결합분해 너트,(605)수직격벽,(606)휴대용 러그 결합용 핀 연결축,(607)휴대용 러그,(608)휴대용 러그핀,(609)수평격벽, (610)격벽맨홀,(611)인공위성,(612)우주로켓,(613)러그힌지소켓,(614)대형플랜지, (615) 대형플랜지 접속연결구 접합부위 가공홀,(616)계류장치용 작키 베드 또는 가공홀 또는 러그 가공홀,또는 장공홀,(617)이중관 구조 탱크교각 건설용 부교식 새들형틀,(618)가이드레일,(619)헬리콥터 정류장,(620)유압회전실린더(로터리 실린더[랙＆피니 언 형-NRP]),(621)밴드 지그대,(622)부력조절용버터플라이밸브,(623) 유압실린더 또는 유압 작키,(624)유압실린더용 도어,(625)마개 철판,(626)화력발전소,(627)엔진제어모듈(엔진제어시스템),
(628)부이깃대 고무풍선,(629)밧줄용 로프,(630)로프 매듭 갈고리,(631)비상계단,(632)승강기,(633)콘베이어,(634)선박침몰방지체류선,(635)진공펌프,(636)예인선,(637)반잠수 작업선,(638)볼라드,(639)앙카,(640)앙카용 체인,(641)냉각 팬, (642)공기 보온용의 가열팬,(643)인공위성발사대,(644)계류탑,(645)전기자석 마그넷,(646)우주로켓발사대,(647)헬리콥터,(648)체인블럭,(649)황토와 시멘트 혼합장비 믹서기,(650 애자,(651)크레인 붐 또는 붐 대,(652)크레인붐 걸고리,
(653)비 또는 구름,(654)우물,(655)항상 같은 방향으로만 흐르는 전류인 직류,(656)시소가 오르내릴 때마다 흐름의 방향이 바뀌는 전류인 교류,(657)전류가 근사치로 일정해지도록 하는 안정기,(658)전류의 세기를 여러 가지로 바꾸는 장치 인 슬라이 댁,(659)전류가 잘 흐르지 않는 선인 니크롬선,(660)전구 몸체,(661)베이스,(662)아르곤가스,(663)필라멘트,(664)유리,(665)형광 방전관,(666)점등관, (667)방전,(668)탄소막대,(669)양극(플러스; (+)로 표시함),(670)음극(마이너스; (-)로 표시함),(671)건전지 또는 밧데리,(672)어도터널,(673)조력발전 설비장치 고정대용 시이소 중심축 프레임,(674)한류,(675)난류,(676)베링해협,(677)추코트 반도,
(678)하천,(678a)총낙차,(678b)방수로,(678c)유입식 발전소의 개념도,(678d)저수지식 발전소의 개념도,(678e)조정지식 발전소의 개념도,(678f)조력발전의개념도,(678g)취수구,(678h)상부조정지,(678i)하부조정지,(678j)가역식펌프수차,(678k)발전력,(678l)양수전력,(678m)양수,(678n)발전,(678o)조력조정지,(678p)한강수계에서의 각발전소위치구성도,(678q)화천 수력발전소,(678r)소양강 수력발전소,(678s)충주 수력발전소,(678t)춘천 수력발전소,(678u)의암 수력발전소,(678v)청평 수력발전소,(678w)팔당 수력발전소,(678x)소양강,(678y)남한강,(678z)괴산 수력발전소,
(679)제방,(679a)토질차수벽,(679b)상류측 록필,(679c)필터,(679d)본체 록필,(679e)부벽댐,(679f)표면차수판,(679g)부벽,(679h)이용수심,(679i)중공부,(679j)주변전실,(679k)표층콘크리트,(679l)물의위치에너지,(679m)물의운동에너지,(679n)기계에너지,(679o)전기에너지,(679p)이론수력,(679q)수차출력,(679r)발전기출력,(679s)수력발전의 개요도,(679t)댐식 발전소의 개념도,(679u)스크린,(679v)취수탑,(679w)볼탭밸브,(679x)입구밸브,(679y)주요기기,(679z)주요변압기,
(680)댐,(680a)저수지 또는 조정지,(680b)취수댐,(680c)양수댐,(680d)양수식,(680e)양수발전,(680f)댐수로식,(680g)댐식,(680h)수로식,(680i)압력수조,(680j)조압수조,(680k)침사지,(680l)무압수조,(680m)상수조,(680n)취수설비,(680o)도수설비,(680p)발전설비(양수),(680q)방수설비,(680r)고수위,(680s)저수위,(680t)암벽,(680u)상류면보호층,(680v)배수층,(680w)토질재료,(680x)기초암반,(680y)흙댐, (680z)암석댐,
(681)교량,(682)웨일스,(683)전류,(684)전압,(685)전력,(686) 출구(전원), (687)입구(전원),(688)감은수(전선코일),(689)파력발전기,(690)초고압변전소,(691) 1차 변전소,(692)송전소 내부 중심에 7가닥의 강철선,(693)54가닥의 알루미늄선, (694)연료호스,(695)송전선 직경,(696)오대양 육대주 횡단철도 변전소,(697)중간 변전소,(698)대단위 공장,(699)중단위 공장,(700)2차 변전소,(701)소단위 공장, (702)가정(태양열 주택이 포함됨),(703)스탭 발판 걸고리,(704)전선 균형용 케인크(초고압 전선 균형 애 자),
(705)해양터널 교통장치 관제조공정,(706)소구경 전기저항 용접관 및 SRM(3/8∼8 i n c h O.D),(707)원재료,(708)언 코일링,(709)레벨 링,(710)사이드 트리밍,(711)절단 및 대강연결,(712)성형,(713)용접 및 내외면 비드제거,(714)초음파 및 와류탐상시험,(715)용접부열처리,(716)공냉,(717)수냉,(718)진원성형,(719) 절단,(720)평 평도 시험,(721)구조관,(722)교정,(723)중간적재,(724)유도가열로, (725)에 스 알 엠(S R M),(726)열간절단,(727)면취,(728)수압시험,(729)초음파 또는 와류탐상시험,(730)무게 및 길이측정,(731)육안 및 치수검사,(732)나사,(733) 도유,(734)일반 배관용,(735)아연도금,(736)아연도 강관,(737)보일러 튜브,(738) 냉각대,
(739)중구경 케이지 성형 전기저항 용접관(8∼24 inch O,D),(740)코일마게철판(원재료),(741)사이드 트라밍,(742)케이지성형,(743)송유관,(744)초음파 탐상시험,(745)진원성형,(746)송유관(석유산업용 강관),(747)대구경강관(22-82inch O.D), (748)엣지밀링,(749)3롤 밴딩,(750)포스트밴딩,(751)가용접,(752)내면용접,(753) 백가후징,(754)외면용접,(755)관단싸이징,(756)관단면취,(757)X-선시험,(758)냉간 익스팬딩,(759)마킹,포장,출하,(760)스파이랄 용접 강관(400A∼2600A),(761)언코일 링,(762)구조관 및 강관말뚝,(763)비도복 배관용,(764)외면브라스트크리닝,(765) 내면 브라스트 크리닝,(766)내면도장,(767)1차도장,(768)도장 및 도복,(769)도복 장 강관,(770)초음파 및 X-선검사,(771)해양터널교통장치 내부전동차,(775)송전선, (776)송전철탑,(777)개폐시설,(781)중앙제어실(생산전력 제어실),(782)송전측정실, (783)보일러내부,(784)주전자,(785)바람개비,(786)가스렌지,(787)자석,(791)불(화력),(802)태양,(803)햇빛,(804)반사경,(805)반사경반사각도 조절프레임,(806)조명시설,(809) 풍력발전기,(810)양수,
(811)수해조절부,(811a)선체위치이동 건설기계조절부,(811b)해양수력발전 동력생산조절부,(811c)동력전달조절부,(811d)유해적조차단 예방조절부,(811e)재해차단 예방조절부,(811f)어패류 산란조절부,(811g)댐의 수문통제조절부,(812)토사,
(813) 계곡, (814) 보온재 (815) 가열 장치, (816) 냉각장치 (817) 소음기, (818)기체·액체분리기,
(819)유압탱크,(819a)열판,(819b)유면계(오일 포트장),(819c)드레인(배유구),(819d)탱크밑판,(819e)격판(버플 플레이어),(819f)석션 스트레이너,(819g)위판 패킹(내유고무),(819h)흡입구패킹,(819i)흡입구뚜껑,(819j)탱크위판,(819k)에어 블리저 겸 주유구(콤비네이션 에어 블리저),(819l)탱크각판,(819m)청소창 패킹(내유고무),(820)유압모터,(821)유압펌프,
(822)로드앤드피스톤시일,(823)피스톤시일,(824)부프시일,(825)웨어링,(826)스라이드링,(827)디유부시,(828)오링,(829)로드시일,(830)백업시일,(831)로드시일 ＆백업시일,(832)다스트시일,(833)핀다스트시일,(834)다스트위프시일,(835)부프링(836)피스톤링,(837)다스트링,(838)물레방아,(839)등변산형강 또는 부등변산형강, (840)기상관측장비레이다,(841)원유(기름),(842)해저광물뜰채바스켓,(843)심해저탐색 수중조명,(844)버킷 또는 빠레트,(845)심해저 굴착기(스큐르드릴),(846)앙카 대체용 쇄기 크랭크,(847)착암기 또는 네트,(848)엑츄레이트,(849) 해저광물 뜰채용 공기주머니,(850)턴박클,(851)교각용 레벨기초 밑받침대,(852) 고정용 쇄기 받침목,(853) 용접기(Arc 또는 Arj 아아 크 또는 아르곤),(854) 파이프 랙,
(855) 불도저,(855a)크롤러형 도저,(855b)휠형 도저,(855c)스트레이트 도저,(855d)딜터 도저,(855e)앵글 도저,(855f)힌지 도저,(855g)트리 도저,(855h)레이크도저,(855i)하이드릭리퍼,(855j)도저의동력전달장치,(855k)캠기타장치용 흡입펌프,(855l)기관,(855m)냉각계통,(855n)최종기어장치,(855o)기동륜의스프로킷, (855p)유동륜의아이들러,(855q)조항클러치,(856)굴삭기,(856a)백호,(856b)파워셔블,(856c)드래그라인,(856d)어스드릴,(856e)크램셸,(856f)스키머,(856g)리퍼와 루터, (857) 로더, (858) 지게차,(859)스크레이퍼,(859a)견인식 스크레이퍼,(859b)동력식 스크레이퍼,(859c)에어프런,(859d)이젝트,(859e)볼,(859f)커팅테지,(860)덤프트럭,(860a)트레일러,
(861)크레인 또는 기중기,(861a)기중기 구조의 각부명칭,(861b)익스턴트케이블,(861c)하중계,(861d)브리들,(861e)붐벡스들,(861f)메이로프,(861g)붐호이스트로프,(861h)상부프레임,(861i)하부프레임,(861j)호이스트로프,(861k)전방드럼,(861l)중간드럼,(861m)후방드럼,(861n)균형추,(861o)케이블크레인,(861p)기중기의 6개 전부장치,(861q)갈쿠리(Hook)장치,(861r)조개(Clamshell)장치,(861s)삽(Shovel)장치,(861t)긁어파기(Dragline)장치,(861u)도량파기(Trenchhoe)장치,(861v)기둥박기(Pile driver)장치
(862)모터그레이더,(862a)머플러,(862b)기관플라이휠,(862c)냉각팬,(862d)전후전달러치,(862e)트랜스러치,(862f)고정기어식변속기,(862g)주차브레이크,(862h)차등기어,(862i)트랜스퍼카아중성기어감속기,(862j)디스크 브레이크,(862k)그레이더의 외부구조,
(863)롤러,(863a)진동 롤러,(863b)소일콤팩터,(864)노상 안전기,
(865)콘크리트배칭플랜트,(865a)콘크리트호퍼,(865b)운반장치차징차트,(865c)조정판,(865d)물멧처,(865e)대칭호퍼,(865f)스케일 프레임,(865g)저장 빈,(865h)종합벨트콘베이어,(865i)턴헤드,(865j)버킷엘리베이트,(865k)운반시멘트차드,(865l)조정판,(865m)기록장치,(865n)원형믹서,(865o)시멘트 사일로,(865p)스쿠르 콘베이어,
(866)콘크리트 피니셔,(866a)스쿠르 스프레이,(866b)제1 스크리드,(866c)진동기,(866d)피니싱 스크리드,(866e)가이드롤러,(866f)가이드레일,(866g)마무리면,
(867)콘크리트스프레더,(868)콘크리트믹서트럭,(869)콘크리트펌프,(870)아스팔트 믹싱 플랜트,(871)아스팔트 피니셔,
(872)아스팔트살포기,(872a)동력피동펌프,(872b)밸브제어,(872c)분무바,(872d)버니,(872e)버림관,(873)골재 살포기,
(874)쇄석기,(874a)자이레토리크러셔,(874b)새시프레임,(874c)피더호퍼, (874d)진동그리스리피터,(874e)파쇄헤드부의 1차 조크러셔, (874f)파쇄실 후미의 2차 조크러셔, (874g)진동스크린,(874h)드럼엘리베이터,
(875)공기압축기,(876)천공기,(877)항타와 항발기,(878)사리 채취기,
(879)준설선,(879a)펌프준설선,(879b)버킷준설선,(879c)스팟드시어,(879d)운전실 또는 조정실,(879e)레드시어,(879f)스팟드,(879g)블러스트탱크,(879h)블러스 트펌프,(879i)레드,(879j)기관실,(879k)디퍼 준설선,(879l)그래브 준설선,(879m)버킷구동장치,(879n)후부스팟드,(879o)스팟드윈치,(879p)버킷,(879q)좌우의전부스 팟 드,(879r)디퍼,(879s)윈치,(879t)닻줄창고,(879u)벨트 컨베이어,(879v)그래브,
(880)별도의 지정 건설기계,(882)파일드라이버,(882a)붐, (883) 디젤파일 해머, (884)증기해머, (885)유압크레인,(885a)피스톤 모터,
(886)타워크레인,(886a)가이 데릭 구조의 각부명칭, (886b)가이 데릭,(886c)주측,(886d)붐,(886e)붐호일,(886f)턴버클,(886g)공망,(886h)3각데릭,(886i)주측,(886j)붐,(886k)붐호일,(886l)레크,
(887)드레그 크레인,(887a)드레그 크레인의 구조,(887b)호이스트케이블,(887c)덤프케이블,(887d)버킷,(887e)하부붐,(887f)레터렉트케이블,(887g)케이블롤러,(887h)붐케이블,(887i)케이블롤러,(887j)붐 호이스트 케이블,(887k)케이블드럼,(887l)케이블드럼,(887m)평행추,
(888)클램셀 부착물을 가진 크레인,(888a)홀딩 라인,(888b)개폐라인, (888c)클램셀버킷,(888d)상부프레임,(888e)하부프레임,(888f)랙라인,(888g)로프가이드,(888h)붐탠던트,(888i)브리들,(888j)붐 호이스트 로프,(888k)전방드럼,(888l)후방드럼,(888m)평행 추,
(889)머캐덤롤러,(890)탠덤롤러,(891)탬핑롤러,(892)타이어롤러,(893)트랙터,(894)트레일러,(895)램,(896)리드,(897)냉각수냉크,(898)파일,(899)헬밋,(900) 연료펌프,(901)캠,(902)연료탱크,(903)기동장치,(904)붐전핀,(905)캐드워크,(906) 어댑터,(907)어군탐지기 소나,
(908)원유시추용 드릴링 머신,(909)망간단괴,(910)뜰채그물,(911)흡입 채집기계,(912)해저광물 채취로봇,(913)잠망경,(914)고무풍선,(915)와이어로프 체인, (916)이중구조 배관라인 자동공압식 밸브운송장치,(917)코아드릴,(918)비이오 피 이 스키드,(919)고무타이어,(920)버너 붐,(921)유해적조 미생물,(922)무공해의 천연가스,(923)에어 노즐,(924)광물채집 뚜레박,(925)상승기류,(926)하강기류,(927) 황사 미세먼지,(928)교각(다리기둥),(929)양식장,(930)화학물질,(931)시멘트, (932)어족자원 확보용 그물,(933)바지선 또는 방제 선,(934)우뭇가사리,(935)시이 소(지 렛 대),(936)시추공,(937)관교량,(938)아노드(전극 판),(939)냉각공기방울, (940)비트,(941)해양터널 교통장치,
도크 선체 갑판 상단부(SDU), 선체 갑판 중심부(SDM), 도크선체갑판하단부(S DL),기계실 바닥표면 상단부(MFGU), 기계실 바닥표면(MFG) 기계실 바닥표면 하단부(MFGL) 밸브 몸체중심선(VBCLorPBCL),방화수수면하단(WLD),방화수수면(WL L),분출수면(WLU),펌프몸체(PB),펌프몸체수직라인(PBVL),펌프몸체 수평 중심라인(PBCL),
적도전선(EL),북극(NP),남극(SP),경도(longitude;ld),위도(latitude;lt로 약칭함),
도로지표면 상단부(G L U), 도로지표면(G L L), 도로지표면 하단부(G L D),
해수면 상단부(S L U) 해수면(S L L) 해수면 하단부(S L D)
기계실 외부(O M R),기계실(M R), 기계실 내부(I M R),
분사노즐 상단부(A), 분사노즐 몸체(B), 분사노즐 하단부(C),(1) Dispensing device for flood control equipment for flood control equipment Abbreviated as main body or 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, (9) Nozzle hose or fire hose, (10) Firefighting nozzle, (11) Fire nozzle frame, (12) Sensing sensor, (13) Piping or nozzle piping,
(19) a wire rope, (20) a machining hole, (20) a machining hole, (20) a machining hole, (21) hook lugs or portable lugs,
(22) Jig or various types of jigs ("

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(28) flange or flange stopper wire mesh, (29) couplings, (30) couplings, (30) bolts, (25) nuts, (26) washers, (27) hinges, (32) Gaskets or rubber seals, (33) Nozzle hose equipment mounts, (34) Corrugated tanks, (35) Reeducers, (36) High performance submersible pumps, (42) basket, (43) double vinyl tent or bag, (44) elbow or (42) water jet, (38) discharge water jet, (39) water film or curtain water film, (46) a power source which is a power supply, (47) an inverter, (48) an inverter V, (49) an access pointer, (50) an internet network, (51) a multi- (55) a wireless communication control module of a short range wireless communication device, (56) a display, (57) a display control device, (57) (58) Switch input circuit, (59) Electronic control unit MCU, (60) Electronic control unit (62) Power supply, (63) Display screen, (64) Analog input, (65) Digital input, (66) Main switch button for on / off control of each pump, 67) Auxiliary switch button, (68) Stage multi-stage pump display input or computer network input, (69) Current pressure value or set pressure value Pressure setting numeric nameplate, (70) Memory, (71) Power line, (74) turbine aberration, (75) cloth gas, (76) solenoid valve, (77) adverbone, (78) airship, (79) gas cylinder, (80) air compressor, (83) a low-pressure shut-off valve, (84) an emergency valve, (85) a pressure reducing valve, (86) a first pressure check sensor, (87) a second pressure check sensor, 89) Discharge piping line or pumping water line, (89a) Vertical pumping pipe, (89b) Vertical downward pipe, (90) Ball valve handle, (91) Drencher head, (92) Valve body inner disc, (93) Emergency siren , (94) Spark, which is the initial ignition source material The lightning stroke, (95) a telephone pole, 96 transformer, 97 is re reducer bushing socket, 99 blinking warning light, 100 paraffin nozzle stopper, 101 manometers,
(102a) a thermocouple, (102b) a thermocouple generation, (102c) a thermoelectric power generation, (102d) a measuring point, (102e) a reference point,
(103a) thermocouple thermometer switch for the sensor, (103a) thermocouple thermometer configuration, (103b) temperature limit, (103c) temperature 1, (103d) scale of the ammeter temperature, (103m) potential difference occurs, (103h) the thermocouple and the compensating wire, (103i) the thermocouple contact, (103j) the thermocouple, (103k) the compensating contact, (103p) Protection pipe, (103p) High temperature object, (103r) Protection pipe, (103s) CISS, (103t) Temperature measurement terminal, (103u) Temperature measurement contact, (103v) Sheath, (103w) platinum resistance thermometer with protective tube, (103x) mica, (103y) platinum wire, (103z)
(104) level or pressure switch, (104a) diaphragm type pressure switch, (104b) pneumatic-sensor pressure switch, (105) flow meter for flow rate check, (106) motor control module, (108) Overpressure protection switch or switch box, (109) Air hose, (110) Air hose connection nipple, (111) Sprinkler head, (112) Reflector, 113 Fusible metal fuselage (114) Stop valve or water valve, (115) Underground pipe, (116) Pylon or block pylon, (117) Rich, (118) Rich circuit breaker, 120) alarm valve, 121 test valve, 122 high pressure water pump, 123 lever block, 124 fire extinguisher a, fire extinguisher b, fire extinguisher c, fire extinguisher D, fire extinguisher e, Chain, (126) cylinder, (127) piston or piston pump, (128) fire extinguisher fixing pin, (129) bolt lock device, (130) life casting tube, (131) rope, (132) ) Anchor Bolt, (134) Radio Sonde, (135) Old (136) Regulate, (137) Tugwing winch for regulating the opening and closing of the gate with a rope or a chain wrapped around the fuselage, (138) Cylinder, (139) Steel barrel, (140) Turbine pump (143) impeller, (144) diaphragm pump, (145) high pressure storage tank, (146) propeller pump or propeller, (147) multistage screw air compressor and screw pump (148) plunger pump, (148b) bossable plunger pump, (148c) radial plunger pump, (149) steel beam, (150) disaster control pump control system or control system, (151) oil cooler, (153) hatch cover, (154) fire door, (155) gland packing, (156) mechanical seals or individual seals, (157) jet pump, (158) loess, (159) ) Fire hydrant box (161) Automatic fire hydrant, (162) Hose hanger, (163) Fume gas, (164) Carbon dioxide of incombustible gas, (165) Reinforced steel plate, (166) Match fire Class A, Class B and Class C (167) a screw tab, (168) a water supply or fire-fighting piping line, (169) a water outlet, (170) an internal cooler, (171) exhaust gas, (172) a combined life bed nozzle, Burner, (174) carbon dioxide gas, (175) halon gas, (176) halium, (177) pyrophoric material,
(180) Vinyl bag, (181) Disaster air piping line, (182) Rear cooler, (183) Limit switch or limit, (178) Non-ignitable wire, (179) Fire hydrant (184) an unmanned camera, (185) a starter, (186) a spring, (187) an unmanned igniter spark lighter, (188) a lifeboat, (189) a head tank (pressure tank) , (190) flexible high-pressure hose or hydraulic hose, (191) introduction pipe or hydraulic pipe,
(193) a retaining ring, (195) a fan, (196) a body frame, (197) a front reinforcing steel plate, (198) a rotating shaft, (199) a rotor assembly 200 forward rotation bearing 201 stator assembly 202 motor protection casting frame 203 terminal box 204 lifting bolt 205 terminal box cover 206 rear drive bearing 207 rear (209) a fan cover or a protective cover, (210) a rotor iron core, (211) a stator iron core, (212) a stator winding,
(213) a hydrodynamic generator, (214) a speed detector, (215) an exciter (referred to as a dc generator that supplies current to the field coil of an alternator or a motorized motor), (216) (228) a braking device ring, (224) a braking device, (224) a braking device ring, (224) a braking device, (226) an engine generator, (227) a turbine rotary bearing, (228) a wing wheel, (229) a Francis turbine, (230) a pelton turbine,
(231), (231), (231), (231), (231), (233) and (234) the control shaft, (232) the searchlight, (233) the hydroelectric power station or the offshore hydroelectric power plant, (243) Title "65", (238) Title 50, (239) Title "40", (240) Title "25", (241) Title "100 × 90" (251) a speed belt, (252) a V belt, (253) a plunger, (254) a fixing pin, (255) a time (256) a cable car, (257) air valve, (258) safety valve, (259) automatic valve, (260) drain valve, (261) belt cover, (262) suction filter, (264) aberration or pump aberration, (265) main valve, (266) forest, (267) turbine, (268) flywheel, (269) intake or intake port, (270) watertight or discharge port, 272 pump power source 273 control power supply 274 emergency operation circuit 275 DC power supply circuit 276 micro control unit 277 DIP switch setting circuit 278 display circuit, (279) M / C drive signal contact output (282) a motor overload signal input circuit, (281) an inverter operation data input / output circuit, (282) a pressure sensing circuit, (283) an external state input circuit, (284) a discharge pressure transmitter, (286) bed frame, (287) cooling water inlet, (288) oil separation tank, (289) suction valve, (290) gear drive, (291) dryer, (292) water tank,
(293), (293a), (293b), (293b), (293c) and (293c) the design water level, (293d) the water surface, (293e) the anchor section fixing section, B) a kind of a drencher head (a, b, c, d), (300) a vibration tank, (295) a tank tank, (296) a gate valve, (297) (308) re-inlet, (308) drain, (302) reverse stop valve, (303) high pressure bowl tank, (304) amphibious pump, (305) butterfly valve, (306) A centrifugal pump, a centrifugal pump, a waste water pump, a spiral casing, a 311 bell pump, a hood valve, a pump 313, a pump body 315, a float 316, A ball pushing device 317 a flexible carriage 318 a float switch 319 a rear wing 320 a scoop valve 321 a sweep valve 322 an ejection water gauge 323 an actual head, (324) jet pump, (326) gear pump, (327) wing pump, (330) separation chamber, (331) magnet switch, (332) wooden building, (333) (334) Balance, (335) Unbalance, (336) Indoor fire extinguishing pump, (337) Rotary pump, (338) Rotary rotator, (339) Priming, (340) Self-priming pump, , (342) mixed flow pump, (343) viscous pump,
(344) Gland packing, (345) Gland, (346) Liquor lantern ring attachment packing, (347) Lantern packing, (348) Double gland packing, (349) Throttle bushing packing, (350) (351), (352) the cooling water inlet, (353) the sleeve for the inner cooling water bottle jacket, (354) the inner cooling chamber of the sleeve, (355) the auxiliary gland, (356) A cooling chamber,
(357) distribution axis, (358) eight strand weaving, (359) bag weaving, (360) lattice weaving, (361) flashing hole, (362) O ring, (363) stop, 365 sealing section 366 sheet ring 367 passive ring 368 quenching 369 curing 370 return pipe 371 handle 372 partition 373 axial (374) pressure acting on the front of the impeller, (375) pressure acting on the back of the impeller, (376) balance hole, (377) suction pressure, (378) back pressure, (379) 384) Wear ring, (381) Discharge pressure, (382) Rear bearing ring, (384) Inside wing, (385) Pressure distribution due to rear wing installation and impeller, (386) Impeller arrangement of multi- (398) water hammer, (399) shaft seal, (391) mechanical seal cooler, (392) strainer, (393) water hammer pump, (394) (395) high and low mountain, (396) vibration cryptographic device, (397) speed control device, (398) motor rotation transmission, (399) disc brake device, The tank 401 safety nets (net rope), 402 air compression chamber,
(403) a squeeze valve, (404) a valve body, (405) a valve cover, (406) a sluice valve, (407) a packing press, (408) a packing press nut, (409) (411) a handle nut (412) packing, (413) a wedge gate valve, (414) a single valve, (415) a flexible valve, (416) a parallel slide valve, A flange type glow valve, (420) a flange type angle valve, (421) a body, (422) a cover (bonnet), (423) a disk, (424) (426) Valve pushbutton, (427) Handle, (428) Shroud ring, (429) Packing pushbutton, (430) Packing pushbutton, (431) Screw-on type, (432) Cover bolt, (433) (434) pin, (435) nut for cover bolt, (436) nut for packing push bolt, (437) handle nut, (438) detent screw, (439) washer, (440) packing, (441) gasket, (442), (442), (442), (442), (442), (442), (442), (442), (442) and (443) 445) Bronze Screwing Main Cock, (446) Cast Iron Flanged Gland Type, (447) Bronze Screwing Gland Cock, (448) Sam Bangkok, (449)
(451) check valve body, (455) cover, (456) disk, (457) disk pin, (458) plug, (451) check valve, (452) swing type check valve, (469) pilot valve, (465) pilot valve, (461) pilot valve, (469) regulator valve, (460) pressure reducing valve, (461) pilot operated pressure reducing valve (466) Main valve, (467) Main valve spring, (468) Adjusting spring, (469) Automatic pressure regulating valve, (470) Screw type automatic pressure regulating valve (a) ), (472) safety valve, (473 spring type safety valve, (474) leaky type safety valve,
(475) Puff spring safety valve for steam, (476) Pof type safety valve, (477) Temperature control valve, (478) Automatic water dispenser (automatic level adjuster), (479) Automatic water dispenser (a) (482) Automatic air exhaust valve (484) Air vent valve (482) Automatic air exhaust valve Thermostatic (for steam), (483) Automatic air exhaust valve Bakett type (hot water type) A refrigerant stop valve (486) a push valve, (487) a charge valve (bellows type), (488) a charge valve (diaphragm), (489) an expansion valve, (490) a diaphragm type expansion valve, (492) pressure regulating valve for refrigerant, (494) solenoid valve, (495) automatic water supply valve, (496) general type faucet (faucet)
(A) sectional view (b), (502) U-shaped strainer, 503 (a), 503 (b) ) V-type strainer, (504) tube fixing metal, (505) turnbuckle support band, (506) support band, (507) roller support band, (508) 521 bottom tray 511 traps 522 angled thermal trap 523 straight thermal trap 524 bucket trap 525 bottom bucket trap 526 top down bucket kit trap 527 float trap 528 impulse steam trap 529 faucet body 530 packing box 531 packing press 532 stem 533 handle 534 disk 535 ) Disk packing, (536) domestic water packing, (537) internal aging packing, (538) rubber or teflon film,
(531) a metal having a large thermal expansion; (540) a metal having a small thermal expansion; (541) a timer or a level switch; (542) a high level alarm; (543) a bay compile alarm; 545) alarm reset button 546 low level switch 547 flap valve 548 sound cap 549 check nozzle 550 leak coverer 551 float retainer Switch 552 indicating graduation scale 553 overflow connection 554 vent pipe connection 555 flange connection 556 double vinyl open needle 557 solenoid valve body , (558) Carver, (559) Spole,
(561) manifold, (566) screw bolt, (566) connector, (564) manifold, (560) spooling, (561) pilot, (562) 567) Air hose coupling Union coupling, (568) Union coupling (569) 2 position single, (570) 2 position double, (571) LL Central vertical, (572) (573) Horizontal, M, (574) F, with fittings (575) City symbols Single, (576) Double, (577) 581) Direct piping type, (582) Base piping type, (583) Fire damper, (584) Damper spindle, (585) Doctor's ventilation (Inlet a, Outlet b), (586) ) Bull Shah's Hot Air Balloon, (588) Kelly's Hot Air Balloon, (589) Steam Airship,
(591) Piers hull at the top of a holding tank, (592) Barge hull at the bottom of a holding tank, (593) Small hydropower station floodplain, (594) Medium hydroelectric power station floodplain, (595) (596) Double structure inner block tank, (597) High tension steel plate, (598) Double structure block tank, (599) Double structure outer block tank, (600) First aid for block tank (601) a second auxiliary steel plate for a block tank, (602) a snap hole, (603) a portable lug connecting shaft coupling bolt, (604) a portable lug connecting shaft coupling and disassembling nut, (605) (607) a portable lug, (608) a portable lug pin, (609) a horizontal bulkhead, (610) a bulkhead manhole, (611) a satellite, (612) a space rocket, (613) a lug hinge socket , (614) large flange, (615) large flange connection connection joint hole machining hole, (616) jetty bed or machining hole or lug machining hole or elongated hole for mooring teeth, (617) (618) guide rail, (619) helicopter stop, (620) hydraulic rotary cylinder (rotary cylinder [rack and pinion type -NRP]), (621) band guide, (622) buoyancy control Butterfly valve, (623) hydraulic cylinder or hydraulic actuator, (624) hydraulic cylinder door, (625) stopper plate, (626) thermal power plant, (627) engine control module,
(638) rope, (630) rope knot hooks, (631) emergency stairs, (632) elevators, (633) conveyors, (634) ship sinking rescue ships, (635) Vacuum pump, (636) tugboat, (637) semi-submerged operation line, (638) bollard, (639) anchor, (640) anchor chain, (641) cooling fan, (642) 643) Launcher, (644) Mooring Tower, (645) Electro Magnet Magnet, (646) Space Rocket Launcher, (647) Helicopter, (648) Chain Block, (649) Loess and Cement Mixing Equipment Mixer 651) Crane Boom or Boom Stand, (652) Crane Boom Hook,
(653) a rain or cloud, (654) a well, (655) a direct current that only flows in the same direction, (656) an alternating current that changes direction of flow each time the seesaw moves up and down, (658) a slicer that changes the current intensity to various degrees, (659) a nichrome wire that does not flow well, (660) a bulb body, (661) a base, (662) an argon gas (663) filament, (664) glass, (665) fluorescent discharge tube, (666) starter, (667) discharge, (668) carbon rod, (669) ) Negative (-) negative (671) battery or battery, (672) Adot tunnel, (673) tidal center shaft frame for tidal power plant fixture, (674) (676) Bering Strait, (677) Chuukot Peninsula,
(678a), (678a), (678b), (678c), (678c), (678d), (678e), (678e) and (678f) concept of tidal power generation, respectively. (678h), 678h, 678i, 678i, 678i, 678k, 678k, 678l, 678m, 678n, (678p) Hwacheon Hydroelectric Power Plant, (678r) Soyanggang Hydroelectric Power Plant, (678s) Chungju Hydroelectric Power Plant, (678t) Chuncheon Hydroelectric Power Plant, (678p) , (678v) Cheongpyeong Hydroelectric Power Plant, (678w) Paldang Hydroelectric Power Plant, (678x) Soyanggang River, (678y) Namhan River, (678z)
(679a), (679a), (679b), (679b), (679c), (679d) (679i) hollow space, (679j) surrounding whole room, (679k) surface layer concrete, (679l) water potential energy, (679m) water kinetic energy, (679n) mechanical energy, (679o) electrical energy, (679p) (679q) aberration power, (679q) aberration output, (679r) generator output, (679s) hydroelectric power generation outline, (679t) concept of dam type power plant, (679u) screen, (679v) intake tower, (679w) ) Inlet valve, (679y) main equipment, (679z) main transformer,
(680a) Reservoir, (680b) Reservoir, (680b) Reservoir, (680c) Reservoir, (680d) Biomass, (680e) Pumped storage, (680f) (680i) pressure water tank, (680j) seawater seawater, (680k) geyser seepage, (680l) no seawater tank, (680m) water tank, (680n) ), (680q) waterproofing facilities, (680r) high water level, (680s) low water level, (680t) rock wall, (680u) upstream surface protection layer, (680v) drainage layer, (680w) soil material, ) Dirt dam, (680z) rock dam,
(681) Bridge, (682) Wales, (683) Current, (684) Voltage, (685) Power, (686) Outlet (Power), (687) (689) wave generator, (690) high voltage substation, (691) primary substation, (692) seven stranded steel wire in the center of the transmission line, (693) 54 strand aluminum wire, (694) fuel hose, Transmission line diameter, (696) Transponder substation, Transmission substation, (697) Intermediate substation, (698) Substation, (699) Interrupted substation, (700) Second substation, (701) Substation factory, Housing), (703) step scaffolding hooks, (704) key for balancing wires (ultra high voltage wire balancer),
(705) marine tunnel traffic equipment pipe manufacturing process, (706) small diameter electric resistance welded pipe and SRM (3/8 ~ 8 inch OD), (707) raw material, (708) uncoiling, (709) (710) side trimming, (711) cutting and rough connection, (712) molding, (713) welding and internal and external bead removal, (714) ultrasonic and eddy current testing, (715) welding heat treatment, 717) water cooling, (718) full molding, (719) cutting, (720) flatness test, (721) structural tube, (722) calibration, (723) intermediate loading, (724) (730) weight and length measurements, (731) visual and dimensional inspection, (733) visual inspection, and (758) (732) screw, (733) cast iron, (734) for general plumbing, (735) galvanized, (736) galvanized steel pipe, (737) boiler tube,
(739) Heavy-duty cage-shaped electric resistance welding pipe (8 ~ 24 inch O, D), (740) Coil mugger steel plate (raw material), (741) Side trimming, (742) Cage molding, (743) 744) Ultrasonic Flaw Test, (745) Ultrasonic Forming, (746) Oil Pipeline, (747) Large Diameter Steel Pipe (22-82inch OD), (748) Edge Milling, (749) (757) X-ray test, (752) internal weld, (753) internal weld, (753) backgauge, (754) external weld, (755) pipe siege, 758) cold expansing, (759) marking, packaging, shipment, (760) spiral welded steel pipe (400A to 2600A), (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) X-ray inspection, (771) Internal tunnel for marine tunnel, (775) Transmission line, (776) Transmission tower, (777) Opening and closing facility, (781) Central control room (Production power control room), (782) 783) Boyle (804) sunlight, (804) reflector, (805) mirror, (791) fire, (804) fire, (804) Reflector angle adjustment frame, (806) lighting facility, (809) wind power generator, (810) pumping water,
(811a) a hull position moving construction machinery control unit (811b) a marine hydroelectric power generation control unit (811c) a power transmission control unit (811d) a harmful red tide prevention / control unit (811e) (811f) Control of fishery and shellfish scattering control (811g) Control of the hydrological control of the dam, (812)
(813) valley, (814) insulation material (815) heating device, (816) cooling device (817) silencer, (818) gas / liquid separator,
(819) a hydraulic tank, (819a) a hot plate, (819b) an oil level meter (oil port), (819c) drain, (819d) tank bottom plate, (819e) diaphragm Strainers (819g) Teflon packing (819h) Inlet packing, (819i) Inlet lid, (819j) Tank top plate, (819k) Air blender and combination air purifier (819l) (820) Hydraulic Motor, (821) Hydraulic Pump, (820) Cleaning Window Packing (Oil Resistant Rubber)
(822) a load and piston seal, (823) a piston seal, (824) a bush seal, (825) a wing ring, (826) a slide ring, (827) a diehard bush, (831) a load seal & backup seal, (832) a dead seal, (833) a pin seal seal, (834) a multistage seal, (835) (838), (839), (840) Meteorological observation equipment radar, (841) Crude oil, (842) Submarine mineral deposit basket, (843) Underwater exploration Underwater lighting (844) Bucket or pallet, (845) Deep-water excavator (Skill drill), (846) Wrench crank for anchor replacement, (847) Rock drill or net, (848) (851), (851), (851), (851), (852), (853) Welding machines (Arc or Arj arc or argon), (854) pipe racks,
855b bulldozer 855a crawler type dozer 855b wheel dozer 855c straight dozer 855d deleter dozer 855e angle dozer 855f hinge dozer 855g tree dozer 855h (855i) HYDRICAL RIPPER, (855J) DOZER POWER TRANSMISSION, (855k) CAM OTHER EQUIPMENT DRIVE PUMP, (855L) ENGINE, (855m) COOLING SYSTEM, (855N) (855p), a clutch (856) an excavator, (856a) a backhoe, (856b) a power shovel, (856c) a drag line, (856d) an earth drill, (856e) (856) Skimmer, (856g) Ripper and Luther, (857) Loader, (858) Forklift, (859) Scraper, (859a) Traction Scraper, (859b) Power Scraper, (859c) Air Front 859d) Eject, 859e Ball, 859f Cutting Tee, 860 Dump Truck, 860a Trailer,
(861) Cranes or cranes, (861a) Name of each part of the crane structure, (861b) Extension cable, (861c) Loadmeter, (861d) Breeze, (861e) Boomboxes, (861f) Boom hoist rope, 861h upper frame, 861i lower frame, 861j hoist rope, 861k front drum, 861l middle drum, 861m rear drum, 861n balancer, 861o cable crane (861p) All six units of the crane, (861q) Gook, (861r) Clamshell, (861s) Shovel, (861t) Dragline, (861u) ) Trenchhoe unit, (861v) Pile driver unit
A motor gear grinder 862a a muffler 862b an engine flywheel 862c a cooling fan 862d front and rear front and rear values 862e translators 862f fixed gear transmission 862g parking brake , (862h) differential gear, (862i) transfer car neutral gear reducer, (862j) disc brake, (862k)
(863) rollers, (863a) vibrating rollers, (863b) soil compactors, (864)
(865) Concrete Batch Plant, (865a) Concrete Hopper, (865b) Conveyor Charging Chart, (865c) Adjustment Plate, (865d) Water Meter, (865e) Symmetric Hopper, (865f) Scale Frame, (865i) Conveyor belt, (865i) Turnhead, (865j) Bucket elevator, (865k) Transportation cement Chad, (865l) Adjusting plate, (865m) Recording device, (865n) Circular mixer, (865o) Cement silo 865p) scour conveyor,
(866) a concrete finisher, (866a) a scour spray, (866b) a first screed, (866c) a vibrator, (866d) a finishing screed, (866e) a guide roller, (866f) a guide rail, (866g)
(867) Concrete spreaders, (868) concrete mixer trucks, (869) concrete pumps, (870) asphalt mixing plants, (871) asphalt pavers,
(872) Asphalt Sparger, (872a) Power Driven Pump, (872b) Valve Control, (872c) Spray Bar, (872d) Bunny, (872e) Discard Pipe, (873) Aggregate Duster,
(874) a crusher, (874a) a gyration crusher, (874b) a chassis frame, (874c) a feeder hopper, (874d) a vibration grease repeater, (874e) a primary jaw crusher of a crushing head, (874f) Tea jar crusher, (874g) vibration screen, (874h) drum elevator,
(875) air compressors, (876) perforators, (877) horses and anti-erectors, (878)
(879) Dredger, (879a) Pump dredger, (879b) Bucket dredger, (879c) Spotdish, (879d) Cab or control room, (879e) Red Shear, (879f) Spotted, (879g) Blast tank, (879h) Blast pump, (879i) Red, (879j) Engine room, (879k) Dipper dredger, (879l) Grab dredger, (879m) Bucket drive, (879n) Backspot, (879o) Spot Winch, (879p) bucket, (879q) All right and left spots, (879r) Dipper, (879s) Winch, (879t) Anchor warehouse, (879u) Belt conveyor, (879v) Grab,
(882) boom, (883) diesel file hammer, (884) steam hammer, (885) hydraulic crane, (885a) piston motor,
(886) tower crane, (886a) the name of each part of the girder structure, (886b) Gide derrick, (886c) main side, (886d) boom, (886e) boom foil, 886f turnbuckle, (886g) ) 3 Derek, 886i, 886j Boom, 886k Boom Foil, 886l Leak,
(887) Drake cranes (887a) Structure of drag cranes, (887b) Hoist cables, (887c) Dump cables, (887d) Buckets, (887e) Lower boom, (887f) Letter cable, (887h) cable drum, (887i) cable roller, (887j) boom hoist cable, (887k) cable drum, (887l) cable drum, (887m)
(888) Clamp cell attachment, 888a Holding line, 888b Closing line, 888c Clamshell bucket, 888d Upper frame, 888e Lower frame, 888f Rack line, Rope guide, 888h crowbar, 888i bridle, 888j boom hoist rope, 888k front drum, 888l rear drum, 888m parallel weight,
(899) Tandem Roller (891) Tamping Roller, (892) Tire Roller, (893) Tractor, (894) Trailer, (895) Ramp, (896) Lead, (897) Cooling Water Cooler (898) file, (899) helmets, (900) fuel pump, (901) cam, (902) fuel tank, (903) starter, (904) boom front pin, (905) , (907) fish finder sonar,
(908) Drilling machine for crude oil, (909) Manganese nodule, (910) Nets net, (911) Suction collecting machine, (912) Undersea mining robot, (913) Periscope, (914) Rubber balloon, Wire rope chain, (916) double structure pipeline automatic pneumatic valve transport device, (917) core drill, (918) biopi skid, (919) rubber tire, (920) burner boom, (921) harmful tidal microorganism , (922) non-polluting natural gas, (923) air nozzle, (924) mineral picking trough, (925) ascending air stream, (926) descending air stream, (927) dusty fine dust, (928) (930), (931) cement, (932) fishing net, (933) barge or control line, (934) umbrella, (935) Shiisa 936) Borehole, (937) pipe bridge, (938) anode (electrode plate), (939) cooling air bubble, (940) bit, (941)
(SDU), the center of the hull deck (SDL), the bottom of the deck of the hull deck (S DL), the top of the machine room floor (MFGU), the floor of the machine room floor (MFG) the bottom of the machine room floor (MFGL) (PBL), pump body horizontal center line (PBCL), pump body horizontal center line (PBCL), pump body vertical line (PBVL)
(EL), the north pole (NP), the south pole (SP), the longitude (ld), the latitude
The road surface top surface GLU, the road surface GLL, the road surface GLD,
Sea Level (SLU) Sea Level (SLL) Sea Level (SLD)
Machine Room Outside (OMR), Machine Room (MR), Machine Room Interior (IMR),
The injection nozzle upper end A, the injection nozzle body B, the injection nozzle lower end portion C,

Claims (36)

In a distribution dispenser for a flood control machine of a flood control facility,
(231) for controlling the storage of water in the water storage tank and the intake water dam, and a marine tunnel transportation device ( 941) is equipped with a power generation dam construction machine and a borehole (936) distributing and inputting device composed of the inside of a marine hydroelectric power plant flood control station (593,594,595) A plurality of boreholes 936 are installed in the downstream of the vessel and the marine vessel by inputting the distribution input device of the flood control machine of the core drill 917 which is coupled to the pipe rack 854 provided in the crude drilling machine 908 And a power pump (304) for pumping groundwater located in the aquifer of the descending section. A water storage tank for distributing the groundwater discharge and adjusting the flow of the groundwater while pumping the groundwater over the river water surface and a water storage tank A plurality of distribution axes 357 for regulating and distributing the flow of the flow;
The control shaft 231 is connected to one end of a marine hydroelectric power plant lifting tanks 593, 594 and 595 of the marine tunnel transmission device 941 to move the hull positions of the marine hydroelectric power generation lifting tanks 593, A flood control unit 811a, which is composed of flood control units 811 for controlling the flow rate of the flow of the water into the main body 1 of the flood control equipment constituted for controlling and disassembling, Wow;
And a flood control unit (811) connected to the distribution shaft (357) for controlling the flow of the flow rate to the distribution dispenser main body (1) of the flood control machine on each of the distribution shafts (357) A hydro-hydroelectric power production control unit 811b;
And a disinfecting control unit 811 connected to the distributing shaft 357 for controlling the flow of the flow rate to the distribution dispensing apparatus main body 1 of the flood control machine on each of the distribution shafts 357 A power transmission control unit 811c;
When a harmful tidal adjustment warning is issued to the distribution shaft 357, a mixture of the groundwater and the yellow soil stored in the storage tank and the control dam is supplied to the power pump 304 of the control dam to open the gate and the valve 409 And a flood control unit 811 for controlling the flow rate of the flow of the loess mixture to the inside of the main body 1 of the flood control machine while releasing the water for controlling the loess mixture to the ocean to prevent harmful blooming. A harmful tidal blocking prevention control section 811d;
The water stored in the peak intake water dam 680 is connected to the distribution shaft 357 and is supplied to the power pump 304 and the plurality of nozzles 10 connected to the piping and the fire hose 9 while opening the valve 409 of the intake dam ), Which are connected to the flood control machinery in the entire crest of the lower crest of the crest, and are supplied from the hydro-hydro power production control unit 811b which produces power by the marine hydro- The flood control unit 811 receives electric power from the power transmission control unit 811c and supplies power to the mechanical pump of the power pump 304 while the flood control unit 811 controls the flood control unit 811 such as fire, And drought and landslide. Dispensing device of the flood control apparatus for providing various flood control facilities for prevention of natural disasters Into the main body (1), a connection structure of a spray device nozzle, a non-dynamic pump and a cable car (256) Flow in the flow A disaster prevention preventive control unit 811e constituted by flood control machines for controlling the disaster prevention control unit 811e;
And a control unit for controlling the operation of the control unit such that the control unit is connected to the control shaft to connect the control unit to the control shaft, (811f);
The hydraulic power generator connected to the control shaft 231 and located at the marine hydroelectric power plant of the marine tunnel traffic device 941 is equipped with a flow rate control distributing and inputting device for the inlet port 269 for controlling the flow rate of the algae, A power production control unit 811b connected to a distribution shaft 357 constituted by flood control machines for controlling the flow rate of the flow of water into the main body 1 of the control machine,
A plurality of power pumps 304 connected to the control shaft 231 to supply the groundwater and the deep ocean water in the river are connected to the control shaft 231 so that the flow of the flow of the water into the main body 1 A hydrological control regulator (811g) of the dam, which consists of regulating flood control machines;
(1) of the flood control apparatus is provided with a distribution input device for controlling the flow rate of the flood control machine so as to rapidly control the flood and flood overcoming drought. Dispensing device for flood control machinery. The method according to claim 1,
The distribution shaft 357 is a marine hydroelectric power plant auxiliary lifting tanks 593, 594, 595 of the control shaft 231, a marine tunnel transmission device 941, and a through hole through which a tunnel 672 is inserted, And a plurality of valves 409 and 409 are provided in the water storage tank 292 and the water intake dam 680 through the wall of the water intake dam 680, A fire pump 45 is connected to the piping 14 and the fire hose 9 so as to be connected to the fire pipe 9 and a part of the fire hose 9 and the water pump 293 of each water intake dam 680 ) And the rotating water channel (294), which are arranged in the main body (1) of the flood control machine;
The artificial tunnels 672 of the respective intake water dams 680 constituting the inside of the distribution and dispensing apparatus main body 1 of the flood control machine pass through the walls of the intake water dams 680, A plurality of reflectors 804 are provided to provide sunlight and at the same time illumination facilities 806 are installed inside the tunnel 672 to control the movement of the fish and shellfish located in the tunnel 672 to the scattering site, An air compressor 80 connected to the plurality of disaster prevention waterways 17 while being rotated at a predetermined inclination angle along the outer circumferential surface of the dam 680 to control opening and closing of the water gate 293 of each water intake dam 680, A main body 1 of a flood control apparatus for controlling the flow of a flow of a tidal winch 137 for a hydrometer opening /
A plurality of water storage tanks 292 located in ridge valleys of the mountain bottom lower ridge where the tunnels 672 of the respective intake water dams 680 are inserted into the through passages and the position adjustment connection is provided by the distribution shaft 357, A tunnel 672 is connected to the water intake 293 and the water discharge passage 294 of each water intake dam 680 by pavement roads and unpacked roads of respective ridges so that each water storage tank 292 and each intake dam 680) for adjusting the flow rate of the flood control equipment accommodated in the flood control equipment (1);
Water is inserted into each of the water intake dams 680 and is coupled to the outer circumferential surface of the control shaft 231 and connected to a plurality of disaster prevention waterways 17 so that the rainwater of the natural water and the flow rate A control shaft 231 for dispersing and storing the water in the control water storage tank and the control dam in each coastal beach and a water intake dam 680 for controlling the flow rate of the water control facility accommodated in the distribution shaft 357, And at the same time, each road for flood control to control the flow of the flow into the main body (1) of the distribution control unit of the flood control machine is equipped with a construction machine of the flood control unit to produce the power for flood control And a power transmission control unit (811c) for transmitting power to the hydro-hydroelectric power production control unit (811b). 3. The method of claim 2,
The distribution input device construction machine of the flood control machinery constituting each road for flood control in the artificial tunnel 672 of each water intake dam 680 passes through the wall of each water intake dam 680, A plurality of water storage tanks 292 located in ridge valleys of the lower crest of the crest of the lower part of the mountain where the tunnels 672 are connected to the outer circumferential surface of the water intake dam 680, The water stored in the mountain top water intake dam 680 of the intake port 294 of the water intake dam 294 is supplied to the power pump 304 while the valve 409 of the water intake dam is opened while a plurality of nozzles 10 connected to the pipe and the fire hose 9 It is possible to control the overcoming of water quickly by constructing the connection of the flood control machine which controls the flow of the flow to the whole lower crest ridge forest, and at the same time, 864), an asphalt spreader (872) and a bulldozer (855) for unpaved roads Wherein each of the ridge lines constituted by the machine (856) and the roller (863) construction machines is constituted by machines for distributing and dispensing equipment of the flood control machinery. 3. The method of claim 2,
The offshore hydroelectric power station docks 593, 594, 595 of the control shaft 231, the marine tunnel traffic device 941,
The penetrating passages through which the tunnels 672 are inserted are formed in the marine hydroelectric power station submersible docks 593, 594, 595 of the marine tunnel traffic device 941 and penetrate through the walls of the respective intake dams 680 A plurality of valves 409 and a plurality of pipes 14 and a plurality of fire hoses 9 are connected to the water storage tank 292 and the respective intake water dams 680 to a part of the pipe 14 and the fire hose 9 A fire pump 45 connected to a fire nozzle disposed in the main body 1 of the water intake dam 680 and a flood control unit 811 for controlling the flow rate of the flow of water to the inside of the main body 1 of the water gate 293 and the water passage 294 of each water intake dam 680 A first adjustment shaft 231 of the double tunnel structure type artificial tunnel 672 provided with a floating pick-up hull position moving facility adjustment unit 811a;
The tongue tunnel 672 of each intake dam 680, which is formed inside the tongue tunnel 672 of the double pipe structure provided with the floatation control unit 811a of the flood control unit 811, The sunlight is supplied to the reflectors 804 through the wall of each of the water intake dams 680 to control movement of the fish and shellfish located inside the island tunnel 672 located at the center of the dam to the scattering site And a plurality of disaster prevention waterways 17 connected to the water intake dams 680 at predetermined inclination angles along the outer circumferential surfaces of the water intake dams 680, 293 are opened and closed by an air compressor (80) for controlling the opening and closing of the water main body (293) and a winch (137) (80) and a connection structure for a hydrant opening / closing control device And winch control 137;
A plurality of water storage tanks 292 located in ridge valleys of the mountain bottom lower ridge where the tunnels 672 of the respective intake water dams 680 are inserted into the through passages and the position adjustment connection is provided by the distribution shaft 357, A tunnel 672 is connected to the water gate 293 and the water passage 294 in each water intake dam 680 to control the flow rate of the water pollution control equipment accommodated in the respective water storage tanks 292 and the water intake dam 680 Dispense and dispense apparatus for a flood control construction machine for regulating flow A plurality of adjustment shafts (231); And
Water is inserted into each of the water intake dams 680 and is coupled to the outer circumferential surface of the control shaft 231 and connected to a plurality of disaster prevention waterways 17 so that the rainwater of the natural water and the flow rate A control shaft 231 for dispersing and storing the water in the control water storage tank and the control dam in each coastal beach and a water intake dam 680 for controlling the flow rate of the water control facility accommodated in the distribution shaft 357, (1) is equipped with a flood control facility to control the flow of water to the inside of the main body (1) of the construction machine of the flood control system, and to control the production of the hydroelectric power of the hydroelectric power generating power to achieve flood control A power transmission control unit 811c for transmitting power to the unit 811b;
And a control unit for controlling the operation of the control unit. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The shaft seal formed in the cylinder 126 used as a transportation machine constitutes a high pressure pump in front of the cylinder 126 and a high pressure hose 190, a coupling 29, The crank 248 and the linkage 249 used as a connecting device to the crank 248 and at the same time the cylinder 126 and the piston 126 constituting the body of the hydraulic cylinder 623, 127 are provided with a rod-and-piston seal 822, A backup seal 830 is provided on the o-ring 828 and the load seal 829 to the buffer seal 824 at the work 823 and the slide ring 826 to the warehouse 825, A piston ring 836 and a rubber zero piston 127 of a multistring 837 on the piston seal 834 and on the piston seal 834 on the seal 831 and on the piston seal 833, And the inner circumference of the cylinder 126 and is divided into a high pressure valve and a low pressure valve of a hydraulic pump and a connection structure is formed by a motor, a hydraulic tank, and hydraulic hoses, (593, 594, 595) of the marine hydroelectric power plant of the marine tunnel transportation device (941) of the marine tunnel transmission device (941) to adjust and disassemble the hull position of the marine hydro- The moving facility adjustment unit 811a of the flood control unit 811 inside the main body 1 controls the flow of the flood control Wherein the standard atmospheric pressure of the hull position of the floating arrangement comprising the distribution devices of the system is constituted by the distribution input devices of the construction machine connected to the pressure of the force applied to the unit area of the object, Input device. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The distributing and inputting device of the motor body 192 constituting comprises a fan 195 in the hood 193 and the snap ring 194, a body front reinforcing plate 197 in the body frame 196, A terminal box 203 is attached to the casting frame 202 for motor protection and a terminal box cover 205 and a rear rotation bearing 206 for the lifting bolts 204 are fixed to the assembly 199 and the front rotary support 200, A gap 208 and a fan protection cover 209 are formed on the rear reinforcing steel plate 207 and a stator iron core 211 is formed on the rotor iron core 210, And a sperm winding 212. The sump rotor 212 is powered by the power transmission unit and the diesel engine generator 226 to generate hydroelectric power. The sphygmomanometer is wound around the pump and the compressor by a rope or a chain. And a distributing and dispensing apparatus of a flood control construction machine coupled with a machine having a connection structure with the colloquial winch (137). The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine According to the configuration of the control block diagram and the configuration of the multi-stage pump operation mode of the non-FEP model, the control power supply 273 is separated and divided into the pump power supply 272, Is contacted with the output circuit front end of the drive signal contact output circuit 279 of the power supply spool supply circuit 275 and then contacted with the switch contact of the pump power supply 272 and the circuit contact of the inverter 47, At the same time, The microcomputer 276 is supplied with the DIP switch setting circuit 277 and the switch input circuit 58 in the unit 276 by the decision power supply circuit 275 of the power source 273, The motor overload signal input circuit 280 outputs a signal to the circuit 278 and the drive signal contact output circuit 279 so that the circuit contacts of the unit 276 and the pump power supply 272 are connected to the contacts of the inverter 47 Output circuit 281 is constituted by an inverter 47 circuit, a microcontroller unit 276 and a circuit for mutual input and output, and the discharge pressure transmitter 284 is connected to the pressure sensing circuit 282 The suction pressure switch 285 is connected to the external state input circuit 283 after the circuit 282 in which the flood control process is formed is connected to the unit 271 and is set in the unit 276. [ Then, Stage pump operation mode is automatically provided in the microcontroller unit 276 in an inverted manner so that the connection structure can be established inside the floating positioner control unit 811a of the flood control unit 811 And a dispenser for dispensing the construction machine of the flood control system. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant floodgate 593,594,595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine In the control system using the micro-computer of the multi-stage pump and the digital pID control system, the unmanned camera of the control system is installed in the inverter system and the inverter system in which the fire water is discharged from the injection nozzle and the equipment of the control system The ignition device 166 in which the flood control process is formed inside the flood control device 811a of the flood control device 811a, The flammable water stored in the fire extinguishers is stored in the inside of the fire extinguisher and is discharged to the outside of the fire extinguisher body at the same time to the gap 15 of the fire extinguisher nozzle 10 When the burning puddles 294 are removed at the moment when the burning puddles 294 are removed by a plurality of discharge jetting number 38 and the discharge jetting number curtain water film 39, this scene is transmitted to the unmanned camera 184 installed at the height of the electric pole around the fire scene Configured to display the status of the fire at the monitor (52) through the information detection function of the pump control server (51) of the multi-stage multi-stage pump (8) A digital control system, an inverter 47, a speed control system, and an algebraic control system, and is connected to an internal control unit 811a of the floating hood, And a distribution input device of the construction machine. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The solenoid valve 76 at the connecting joint portion of the flange 28 of the lower stage road surface upper intake suction confluent pipe 3 and the fire extinguishing water installed in the collecting tank 34 at the upper portion of the pump machine chamber An air hose 109 installed inside the nozzle hose 9 and an air outlet for connecting the air hose 109 and the socket hose 109 separated and connected to each other, The nipple 110, and the landfill before and after the disaster The diesel engine generator 226 at the upper part of the machine room is operated so that the airship 78 is tied to the upper end of the upper surface of the ground surface so that the power source 46 is controlled by the motor control of the prime mover 80 Pressure storage tank 145 before the occurrence of a disaster so that the air generated by the operation of the electric motor 192 of the prime mover 80 supplied to the module 106 is stored in the receiver high pressure storage tank 145, The emergency valve 84 of the disaster prevention air piping line 181 is expanded and air is blown into the building and attached to the piping frame outside the building and at the same time the pressure gauge 101 and the pressure switch A piston 127 and a cylinder 126 are fixed to a crank handle handle composed of a crank 248 and a link bar 249 in the compressor main body 263 and an excessive pressure prevention switch box 108 of the motor control module 106 ) Is The belt cover 261 is attached to the pulley 250 for safety operation while connecting the pulley 250 and the pulley 252 corresponding to the speed reducer 251 to the prime mover 80 and the motor 192, And a suction filter 262 installed on the circumference of the V-belt 252 for controlling the rotational speed of the prime mover 80 and at the upper end of the compressor main body 263 to apply foreign substances to the air suction port 269 The piston 127 of the compressor main body 263 and the air discharge port 270 to which the cylinder 126 is attached are connected to the receiver high pressure storage tank 145 and connected to the high pressure storage tank 145 at 6 kg per 1 cm 2 of air pressure, The pressure gauge 101 and the pressure switch 104 connected to the safety valve 258 cut off the operation of the electric motor 192 and the pressure is lowered to 6 kg per 1 cm 2 of the air pressure in the high pressure storage tank 145 At the same time as the operation of the electric motor 192 is resumed, the high-pressure storage tank 145 is provided with the air valve 257 The air compressor (80) is equipped with a drain valve (60) in the valve (259) and an air hose (109) and an air hose connection nipple (110) And a multistage screw cooler 147 in which heat is dispersed to the oil cooler 157 without the internal cooler 170 and the after cooler 182 is connected to the suction port 269 and the discharge port 270 such that the multi- A basket 42 and a bed nozzle 172 for lifesaving structure are provided in the air tube 730 for life rescue, and an automatic machine having a connection structure inside the flood control unit 811a And a distribution input device of the construction machine. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control type construction machine The hydraulic cylinder (623) constituting the power transmission unit is automatically adjusted to the lathe. Multi-axis drill and transfer machine to steel machine to shearing and winding machine Metal machine to casting machine and synthetic resin machine to injection machine and extruder to hot press machine It is also equipped with wood conveying lane, bobbins / printing machines, rotary presses for offset printing, and other devices such as rockets and robots in incinerators and leisure facilities. That that it is configured as a solenoid valve 76, automatic machine with a structure connected to the distribution chute for a construction machine of the flood control characterized flood adjustment construction machine distribution of the input device. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant floodgate 593,594,595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control type construction machine The high-pressure storage tank 145 is formed by disassembling and assembling the oil separating tank 288 into the gear train 290 to which the oil separating tank 288 is adhered and the suction valve 289 to the skewer compressor main body 263 connected to the electric motor 192 A suction filter 262 attached to the interior of the dryer 291 and a suction filter 262 attached to the inside of the dryer 291 while being connected to the air inlet 269 of the rear cooler 182, To be adjusted by the dispensing devices of the construction machine Dock Hull form positioning equipment control unit (811a) distributed for the construction machine according to the flood control in automatic machines with a connecting structure into the flood In adjusting the distribution chute for a construction machine characterized in that the device consists of. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control type construction machine (179a) of an outdoor fire hydrant, a twin shell type ground fire hydrant, an excretory type fire hydrant, and an underground fire hydrant manhole at the lower part of the road surface of an underground double fire hydrant (179b) At the same time, a fire hydrant 179 is provided in the automatic fire hydrant 161 and the fire hydrant box 160 inside the fire hydrant box 160 and the fire hydrant box 169 in the water supply port 168 and the fire extinguisher fire extinguisher 169 A large-scale fire hydrant system (a) and a small scale fire hydrant system (b) of the indoor fire hydrant piping system are provided, and an automatic machine having a connection structure to the inside of the flood- And a control unit for controlling the operation of the control unit. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant floodgate 593,594,595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine A plurality of drencher heads 299a, b, c, and d are provided on the sprinkler head 111 of the trench head of the trencher and the number of the fusible metal 113 and the number of stop valves The block 114 is connected to the underground pipe 115 and the block 117 is connected to the bell 119 and the alarm valve 120 to the rich valve 117 and the rich circuit breaker 118 via the test valve 121 and the high-pressure water pump 122 as the vibration alarm devices 300, 811a) of a construction machine of a flood control system, characterized in that it is an automated machine having a connection structure to the inside of the dam construction machine. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant floodgate 593,594,595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The piston pump 127 and the plunger 253 function as a reciprocating pump which is a reciprocating pump and has a plurality of gears connected to the rotary shaft 198 of the electric motor 192 to replace the gear 250. The rotary pump 311 and the turbine pump 140 and the wing pump 327 can be easily mounted on a wall by a simple pump having suction and discharge in two chambers by moving the handle to the left and right You can move the drum's oil. A sewage pump 309 is provided at the same time as the sewage pump 309 is widely used for discharging the bottom water of the ship, and an automatic machine having a connection structure to the inside of the flood control unit 811a of the float- And a distribution dispensing apparatus for dispensing a construction machine for flood control. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The control valve 459 is integrally provided with a pressure reducing valve (not shown), and the control valve 459 is connected to the control valve 459, 460 and the pilot operated pressure reducing valve 461 and the magnetic force type reducing valve 461 is connected to the diaphragm 463 and the pilot valve 464 and the main valve 466 in the secondary side detection hole 462, An automatic pressure regulating valve 469 and a screw (not shown) are provided in the valve spring 467 and the adjusting spring 468, A spring type safety valve 473 is attached to the safety valve 472 and a safety valve 475 for steam is attached to the relief type safety valve 474 on the automatic pressure control valve 470a, And a Puff type safety valve 476 are provided with a temperature control valve 477 and an automatic level adjuster 478 for an automatic leveler 478 and an automatic level adjuster 480 for supplying an air vent valve 481 and a thermally- Type automatic air exhaust valve 483 of a bucket type and a refrigerant stop valve 485 and a push valve 486 to a refrigerant pipe valve 484 are connected to an automatic air exhaust valve 482 for bellows- Type expansion valve 491 and the rich valve 492 are connected to the expansion valve 489 and the diaphragm-type expansion valve 490 in the diaphragm-type supply valve 487 and the diaphragm-type supply valve 488, 493) and a solenoid valve (494), and at the same time a faucet of the piping accessories The conventional type faucet 496 has a packing press 531 on the faucet body 529 and the packing box 530, a disc packing 535 on the handle 533 and disc 534 on the stick 532, (536) is provided with an anti-aging article packing (537), a rubber membrane and a Teflon membrane (538), and an automatic machine having a connection structure to the inside of the float- And a dispensing device for dispensing the construction machine. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The standard gland packing 344 comprises a double gland packing 348 and a throttle bushing packing 349 on the lantern packing 347 with a gland 345 and a liquid lantern ring packing 346 And a cooling water inlet 352 is provided in the water outlet 351 and the cooling water outlet 350. At the same time, the water jacket attaching packing 353 for the inner surface cooling bottle and the inner cooling chamber 354 of the sleeve A land 355 and a cooling chamber 356 for a leakage liquid, The method includes laminating weaves 360 on eight strand weaves 358 and encapsulation weaves 359 to provide a stopper 363 on the flashing hole 361 and the O ring 362 and a seal 363 on the middle ring 364, A quenching 369 and a quenching 369 are provided on the seat ring 366 and the driven ring 367 and the axial load 373 is applied to the handle 371 and the partition wall 372 The suction pressure 377 and the back pressure 378 are applied to the balance hole 334 and the unbalance 335 by the balance hole 376 so as to adjust the pressure 374 acting on the impeller front surface and the pressure 375 acting on the impeller rear surface, The discharge pressure 381 to the front wear ring 380 of the balance hole 376 is equal to the pressure distribution due to the installation of the rear rotation bearing ring 382 and the under wing 384 and the pressure distribution due to the installation of the impeller arrangement shaft bar 384 of the multi- The water hammer 390 is constituted by the distributing and introducing devices of the flood control machine equipped with the cooling method 391 of the mechanical seal and at the same time the water hammer pump 393 is connected to the return pipe 370, The water hammer pumps 393 having the order separation 387 and the water supply coupling 388 in the impeller arrangement 386 of the multistage pump are provided with a water hammer action 389 to be connected to the inside of the floating pick- Wherein the control unit comprises a dispenser for dispensing the construction machine of the flood control system. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine A plurality of sluice valves 403 constituting the fire pump and the prime mover are connected to the valve body 404 and the valve cover 405 and the packing press nuts 408 to the packing press 406 and the packing press 407, The wedge gate valve 413 is separated from the valve 419 by the flexible valve 415 while the wedge gate valve 413 is provided by the handle 410 and the handle nut 411 by the valve 409, (416) and the double disk gate valve (417) The top valve 418 is divided into a flange type glow valve 419 and a flange type angle valve 420 and is attached to the body 421 and the bonnet 422 which is a lid by a disk 423 and a lid attaching valve seat 424 The valve 425 and the valve pusher 426 are provided with a handle 427 and a packing presser ring 429 on the cover fitting ring 428 and a screw fitting 431 and a cover bolt 432 on the packing presser 430 The washer 439 and the packing 440 are attached to the nut 437 for the lid bolt and the nut 437 for the packing bolt and the detent screw 438 to the packing press bolt 433 and the pin 434, While the valve pusher 442 is provided with a flat pusher 442a and a spherical pusher 442c and a stator pusher 442d on the conical pusher 442b while being provided with a gasket 441 at the same time, The cock 443 is divided into bronze threading main cock 445 and bronze flange type gland type 446 by bronze threading gland cocks 447 while two type cock 444 is divided into three sides The swivel type check valve 452 and the lift type check valve 453 are constituted by the handle cocks 450 and 444 and the handle cocks 450 at the same time while the check valve 451 is divided into the swing type check valve 452 and the lift type check valve 453, And a disc 457 and a plug 458 are provided on the disc 456 and the cover 454 to control the flood control by an automated machine having a connection structure inside the floating pick- And a dispensing device for dispensing the construction machine. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine Type Y strainer outer shape 501a and the U-shaped strainer cross-section 502b are provided with a plurality of strainer 392 constituting the expansion line 498 and the exponent line 497 of the pipe 14, Type strainer 503 and at the same time the tube fixing metal 504 is attached to the supporting buckle support band 505 and the support buckle portion 506 by a roller support band 507 and a straight pipe- The spectacle band 509 and the bottom band 510 have a connection structure and at the same time, Type bucky trap 526 on the buckle trap 524 and the bottom type bucket kits 525 on the straight type thermal trap 523 and the impulse steam trap 528 on the float trap 527. [ , And an automatic machine having a connection structure to the inside of the floating position control unit (811a) of the float-type hood position shifting facility, and a distribution input device of a flood control construction machine, Device. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine While the electric motor 192 constituting the plunger pump 148 of the reciprocating pump of the positive displacement type pump type and the suction merging pipe 3 are connected to each other by the discharge sluicing pipe 4 and the belt carver 261, The rotary pump 336 and the external gear pump 326 and the other rotary pump rotor 338 are connected to the suction port 269 through the discharge port 270) and equipped with water movement, And an automatic machine having a connection structure inside the transfer facility control unit (811a), and configured to control the distribution of the construction machine of the flood control system. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The turbine pump 140 includes a plurality of gears for coupling the electric motor 192 and the turbine pump 140 to the rotary shaft 198 of the electric motor 192 and replacing the electric motor 192 with the gear 250, The axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146 are connected to the self-priming pump 340 having the discharge joint pipe 4 and the priming 339 in the suction / The viscous pump 343, the viscous pump and the impeller 143 are connected to the inside of the main body 1 In the ensured function of the pump in which the closed position and the expanded position inside the positive displacement pump in which the adjustment process is formed are clearly defined, the fluid delivery is provided in the same manner as a certain amount of fluid is shoveled to be introduced into the floating pick- An automatic machine with a connection structure, and a distribution input device of a flood control construction machine. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant floodgate 593,594,595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The electric motor 192 constituting the centrifugal pump 308 is connected to the horizontal center line PBCL of the pump body 30 of the centrifugal pump 308 constituting the position outside the collecting tank 34 constituting the centrifugal pump, The centrifugal fuselage pump 308 is connected to the rotary shaft 198 of the electric motor 192 by a plurality of gears coupled to a plurality of gears and is disposed in front of the collecting tank 34 Outer wall manhole covers (152) Pipes located in the center (1 4 and the accumulation tank 34 is fixed to the bed frame 286 at the lower end of the accumulation tank 34 while the accumulator tank 34 is fixed to the bed frame 286, A turbulator pump 308 is coupled to a valve 315 operated by the water level of the pressure switch 104 for the low water level and the valve 315 is connected to the water collecting tank 34 The flange 28 coupled to the louver cover 550 is inserted into the louver cover 550 while the bolt and the nut are coupled with a male tool while the male plug 315 is pushed into the through hole and the flexible carriage 317 is pushed in. In the switch input circuit 58, the main switch button 66 and the auxiliary switch 318, which are switches for on / off control of the respective pumps, are connected to the suction / discharge switch 285, the flow rate check flow meter 105, The module 106 is connected to the stop valve 114 and the feed / discharge port 168 with the automatic valve 259, A high temperature alarm 542 and a high temperature alarm 542 are provided with a metal 539 having a large thermal expansion and a metal 540 having a small thermal expansion. The alarm reset button 545 to the alarm 544, the flap 547 to the lower level switch 546 and the check scale 549 to the check nozzle 549 and the float in switch 551 to the sound cap 548 552 and the overflow connection 553 are connected to each of the instruments, the switch and the piping line 554 so as to adjust the water storage level in the collecting tank 34 with the vent pipe connection 554 and the flange connection 555. [ (811a) of the flood control system. The automatic control system of the flood control system of the construction machine of the flood control system Characterized in that the flood control system In the distribution system of the machine. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine A solenoid valve pressure switch of each solenoid valve 76 provided with the pressure air generated in the prime mover 80 as a connection structure of the main body 1 that provides a plurality of solenoid valve actuating assemblies attached to the constituting hydraulic pneumatic cylinders When the user manually depresses the on-time main switch button 66 of the main switch button 66 of the solenoid valve start switch button, the butterfly valve 622 is opened and the open switch of the main switch button 66 When the position button 66 is manually depressed, the connection structure of the butterfly valve 622 is manually pressed to the on-time main switch button 66 of the main switch button 66 for the start switch button, The connection structure of the main butterfly valve 622 is expanded and the pressure air generated in the air compressor 80 is operated to pass through the pipeline line connection structure and at the same time the construction machine is provided with a plurality of hatch covers 153 for ships and a plurality of fire doors The solenoid valve body 557 of the oil, pneumatic, and sensor technology application type according to the structure of the sensor according to the constitution of the detection switch integrally constitutes the main body 1 as a connection structure for providing a connection structure to the body, The equipment is connected to the spool 558 and the spool 559 by the spool packing 560 and the pilot 561 by the coil 562 and the connector 563 and at the same time the 8 inch large flow type manifold 564 and the manifold 564, (565) (566), and at the same time, union couplings (569) of body binding to the threaded bolt (567) and the air hose coupling former coupling unit (568) 575 in the horizontal type 575 including the horizontal type 574 and the fitting in the vertical type 572 and the vertical type 573 in the two-position double 571 and the double 577 in the double type 577, And the air flow rate of the inlet port 585a of the doctor ventilation 585 and the outlet port 585b of the direct piping type 582 connected to the micro switch 581 via the nozzle 580 to the eye 579, While providing a pneumatic cylinder operating control to provide a connection structure to the damper spindle 584 of the fire damper 583 to control the internal combustion engine Divergence Control Device Connection Structure Doctor Ventilation (38) The connection structure allows the pressurized air generated in the compressor Pipeline line to be supplied to the system Automatic pneumatic conveying device (916) Belllister butterfly valve (622) of diving control device of piping line equipped with connection structure Connection structure to provide connection structure to overcome flood control And an automatic machine having a connection structure inside the flood control unit (811a) of the flood control system. The system according to any one of claims 1 to 7, wherein the flood control system comprises: The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant floodgate 593,594,595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine (680), which stores the water of the flood control facilities such as the dam and the water gate on the floodgate, which is constructed to control the flood and the drought in the reservoir and the river, and the water pressure Is connected to the through hole of the dam 680 and the rear end of the introduction pipe 191 is connected to the suction port 269 of the head tank 189 having the pressure, Lt; RTI ID = 0.0 &gt; 189 &lt; / RTI & A plurality of introduction pipes 191 are connected to the sphere 270 to supply hydraulic pressure to each of the plurality of hydraulic power generators 213 inside the hydraulic power plant located at the lower end of the multipurpose dam 680, (213) of the power generating unit by rotating several aberrations while moving inside the vessel, and is capable of overcoming adjustment of the flood control by the distribution input unit of the construction machine of flood control. (811a) of the construction machine of the flood control system, and a distribution machine of the construction machine of the flood control system. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The hydraulic power generator 213 includes a number of aberrators that generate hydraulic energy in the generator 213 to generate mechanical energy, a number of aberrators that rotate the turbine 267 to generate power, A generator 213 for converting the power generated from the aberrations and turbines 267 and an upper end portion of a rotary shaft 198 connecting the turbines 267 and the generators 213, Under the rotational speed detector 214, An exciter 215 for supplying an electric current to the field coil of the electric motor is positioned below the exciter 215 and a device 216 for pushing the ring vane into the device 216 for pushing the ring vane, A device 218 for pushing the rotary bearing is disposed below the upper rotary bearing 217 and a stator coil 219 and a stator frame 220 are provided below the rotary bearing pushing device 218. [ The center stator 221 is positioned and the electric wire 71 is inserted into the center stator 221 and the fan 195 is positioned below the central stator 221. A brake ring 223 A rotor coil which is a rotating electromagnet constituted by a low-speed rotation bearing 225 on the braking device 224 and a low-speed cooler 222 located below the low-speed rotation bearing 225 and along the circumference of the rotation shaft 198; The circumferential surface of the rotor coil The turbine rotation bearing 227 and the impeller wheels 228 are connected to the hydraulic power generator 213 in the turbine 267 and a plurality of turbines 267 located at the lower end of the rotary shaft 198. [ The Frances aberration 229 and the Pelton aberration 230 are configured such that the shape of the turbine 267 is different from that of the intake port 269, And the discharge port 270 generate hydroelectric power by rotating several aberrations while moving the pressure inside the casing 141 and the pressure inside the hydroelectric power generator 213. In this case, The pump aber 264 adjusts the opening and closing of the main valve 265 by the power supplied from the nuclear power plant to the pump aberration 26 4) and at the same time producing hydroelectric power, while the position of the water in the storage dam 680 located in the upper part of the power plant can be adjusted by the distribution and input devices of the flood control part 811, Is equipped with a hull position moving facility adjustment unit 811a and is configured as an automatic machine having a connection structure inside a floating hooded ship hull positioning facility adjustment unit 811a, Dispensing device of construction machinery for flood control. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The floatation control unit 811a of the flood control unit 811 of the flood control device for the flood control device for flood control equipment,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The construction equipment excavating machine is constituted by a bulldozer 855 and a scraper 859 separated by an excavator 856 and a lute and is formed at the upper end of the deck deck of the pontoon hull 591 to be used for excavation, The engine generator 226 with the underwater illumination 843 and the unmanned camera 184 is isolated from the respective construction machine bodies and connected to the unmanned monitor 52 operating device and distribution machine of the construction machine Disassembly and assembly (936) excavation in the downstream of the river and in the ocean, and the borehole (936) is provided with the pump of the pumping station, the pipe and the hose The deeper water is supplied to the aquarium tank of the farm with the purified seawater, the water supply and traction of the soil (812) are constructed at the top of deck deck of the barge hull (591) and used for excavation, transportation and traction. At the same time, The engine generator 226 with the illumination 843 and the unmanned camera 184 is isolated from the respective construction machine body and is controlled by an unattended monitor 52 operating device to overcome flood control Construction equipment, and a flood control device (811a), which is connected to the inside of the flood control system In the distribution device of the flood adjustment construction machine according to claim consisting of the distribution chute of the system. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control type construction machine The following apparatuses are used as basic operators. They are separated from the pile driver 882 and the diesel pile hammer 883 by steam hammers 884 and are formed at the upper end of the deck deck of the barge hull 591 to be used for excavation, The engine generator 226 with the underwater illumination 843 and the unmanned camera 184 is isolated from the respective construction machine bodies and connected to the unmanned monitor 52 operating device and distribution machine of the construction machine Configure disassembly and assembly (936) excavation to the river downstream and the ocean, and the borehole (936) is connected to the pump of the pumping station, the piping and the hose The deep water is supplied to the water tanks of the farms together with the purified seawater, the water is supplied to the tanks of the farm, and the transportation and traction of the soil 812 are carried out, Wherein said control means is constituted by a dispensing device for dispensing the construction machine of the regulating construction machine. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The crawler 861 is separated into a hydraulic crane 885 and a tower crane 886 by a crawler crane 887 and a truck crane 888 and at the same time the loader 857 in the loading machine is connected to the shovel loader 857a The underwater light 843 and the unmanned camera 184 are attached to the bottom loader 857b at the position of the deep sea floor while being separated by the payloader 857c and constructed at the upper end of the deck deck of the barge hull 591 to be used for excavation, One engine generator 226 is connected to each of the construction machine bodies &lt; RTI ID = 0.0 &gt; (52) Unmanned operation monitor (52) Disconnecting device of construction machine of flood control system which is constructed so that disassembly and assembly can be overcome by constructing disassembly and assembly linking operation device and distribution machine of construction machine. A plurality of deep water boreholes 936 are excavated in the ocean and the borehole 936 is provided with a pump of a pumping station and a pipe and a hose to supply deep water to the tank of the aquaculture tank together with the purified sea water, And an automatic machine having a connection structure inside the control unit (811a) of the floating position control unit (811a). The control unit Device. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The crane 861 constituting the loader 857 is separated into a hydraulic crane 885 and a tower crane 886 by a crawler crane 887 and a truck crane 888 and at the same time a loader 857 in the loading machine, The shovel loader 857a and the payloader 857b are divided into a payloader 857c and an upper deck deck of the barge hull 591 to be used for excavating, transporting and towing. At the same time, The engine generator 226, with the camera 184 attached, (52) Unmanned operation monitor by isolating it from the body of the construction machine. (52) Connection to the distributing and inputting devices of the operating device and the construction machine. Dispensing input device of the flooded control construction machine (936) excavation was carried out in the downstream of the river and the ocean, and the borehole (936) was provided with a pump of the pumping station, a pipe and a hose to supply deep water to the aquarium of the aquaculture tank together with the purified water, (812) is provided with an automatic machine having a connection structure to the inside of the floating posture hood position shifting facility control unit (811a), and is constituted by a distribution input device of a construction machine of a flood control system. Distribution equipment for construction machinery. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The next stopping machine to be constructed is separated by a motor grader 864 and the compaction machine is divided into a machine roller 889 and a tandem roller 890 by a tamping roller 891 and a tire roller 892 to form a barge hull 591, The engine generator 226, which is constructed at the upper part of the deck deck and is used for excavating, transporting and towing, and at the deep sea location, the underwater light 843 and the unmanned camera 184 are separated from each other, The monitor (52) (936) excavation of a deep water borehole (936) excavation to the river downstream and the sea by means of the distributing and input device of the construction machine of the flood control system which is constructed to overcome the flood control by constituting the connection disassembly assembly by connecting and distributing with the distribution equipment of the construction machine. The borehole 936 is provided with a pump of the pumping station and a pipe and a hose to supply deep water to the purified water and the water tank of the farm together with continuous water supply and transportation and traction of the soil 812, (811a) of the construction machine of the flood control system, and a distribution machine of the construction machine of the flood control system. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The packing machine constituting the packing machine is divided into a concrete finisher 866 with an asphalt finisher 871 and an asphalt distributor 871a with a concrete batching plant 865 and an asphalt mixing plant 870 with an aggregate spreader 873 to form a barge hull 591, The engine generator 226 with the underwater light 843 and the unmanned camera 184 at the deep sea floor position is isolated from each construction machine body and used for unmanned operation (52) It is a distributing and input device of construction machine of flood control system which is constructed to overcome the control of flood control by constituting disassembly and assembly by connecting operation device and distribution machine of construction machine. The borehole 936 is provided with a pump of a pumping station and a pipe and a hose to supply deep water to the aquarium tank of the aquaculture tank together with the purified sea water, And an automatic machine equipped with a connection structure inside the float control unit (811a) of the floatation hood postal position shifting facility. The dispenser dispenser of the construction machine for flood control according to claim 1, The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant floodgate 593,594,595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The transporting machine constituted by the dump truck 860 and the tractor 893 is constituted at the upper end of the deck deck of the barge hull 591 and is used for excavating, transporting and towing. At the same time, the underwater light 843 and the unmanned camera The engine generator 226 with the engine 184 attached thereto can be isolated from the individual construction machine bodies to form a disassembled assembly of the unattended monitor 52 and the construction machine dispensing devices to overcome and control flood control Configurable to A plurality of deep water borehole drilling holes 936 are provided in the lower river and the ocean as the distribution equipment of the construction machine of the flood control system, and the borehole 936 is provided with the pump of the pumping water pump, the pipe and the hose, A continuous water supply to the tank tank of the farm, a conveying and traction of the soil 812, and an automatic machine having a connection structure inside the flood control unit 811a, And a control unit for controlling the operation of the control unit. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The conveying machine constituting the conveying machine is separated from the trailer 894 and the fork lift truck 858 by a conveyor 633 so as to be constructed at the upper end of the deck deck of the barge hull 591 and used for excavating, transporting and towing. At the same time, ) And an engine generator 226 with an unattended camera 184 are isolated from the individual construction machine bodies to form a disassembled assembly of the unattended monitor 52 operating device and the construction machine dispensing devices, Adjust overcontrol (936) excavation to the river downstream and the ocean to provide a pumping station (936) with pump, piping and hose at the pumping station to purify the deep seawater (812) is provided with continuous water supply to the aquarium tank of the fish farm together with the seawater, and an automatic machine having a connection structure to the inside of the flood control unit (811a) And a distribution dispensing apparatus for dispensing a construction machine for flood control. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The dredging machine constituting the dredging machine 879 is divided into a pump dredging line 879a and a bucket dredging line 879b by a dredge dredging line 879c and a grab dredging line 879d, And an engine generator 226 having underwater lights 843 and an unmanned camera 184 at the deep seated position is isolated from each of the construction machine bodies and is used for an unattended operation monitor 52 ) Operating device and gun (936) excavation in the river downstream and in the sea by means of the distributing and input device of the construction machine of the flood control system which is constructed to overcome the control of the flood control by constituting the disassembly and assembly by connecting and disassembling the machine with the distributing and inputting devices, (936) is equipped with a pump of the pumping station, a pipe and a hose to supply deep water to the aquarium tank of the farm together with the purified sea water, and to transport and tow the moss nuclides (909) And an automatic machine having a connection structure to the inside of the floatation posture hull locomotion facility control unit (811a), and a distribution dispenser for the flood control construction machine. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine The main construction machine is constituted by a crusher 874 and an air compressor 875 at the top of the deck deck of the barge hull 591 and is used for excavation, The engine generator 226 with the unmanned camera 84 and the unmanned camera 184 are isolated from the respective construction machine bodies and connected to the unmanned monitor 52 operating device and the dispensing devices of the construction machine. To control the flood (936) excavation to the river downstream and the ocean by means of a distributing and dispensing device of a harmonically adjustable construction machine which is composed of a pumping station (936), a pumping station of a pumping station, a pipe and a hose, (812) is provided with continuous water supply to the aquarium tank of the farm with the purified seawater, and an automatic machine having a connection structure inside the flood control unit (811a) And a distribution dispensing apparatus for dispensing a construction machine for flood control. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine A file driver 882 and a diesel pile hammer 883 are installed on the upper side of the deck deck of the barge line 933 so as to supply deeper water in the underground floor of the ocean floor to be replaced to the cooling device 816, The steam hammer 884 and the crude oil drilling machine 908 are installed at the upper end position of the deck deck of the barge hull 591 so as to be used for excavation, transportation, and traction. At the same time, (184) The electricity 226 is isolated from the respective construction machine body and connected to the unmanned monitor 52 operating device and the dispensing devices of the construction machine to constitute disassembly and assembly so as to overcome the flood control. A plurality of deep water boreholes (936) are drilled into the river downstream and the ocean as distribution equipment of the construction machine. The borehole (936) is provided with a pump of a pumping station, a pipe and a hose to connect the deep water with the purified sea water, (811a), which is equipped with a continuous water supply and a conveying and traction of the soil (812), is installed in the flood control unit (811a) And a control unit for controlling the operation of the control unit. The method according to claim 1,
The floatation control unit 811a of the flood control unit 811,
The control shaft 231 is connected to one end of the marine hydroelectric power plant flood control console 593, 594, 595 of the marine tunnel communication device 941 of each control shaft 231 to the inside of the main body 1, The moving facility adjustment portion 811a of the flood control portion 811 inside the main body 1 provided for the movement control and disassembly of the position adjusts the flow of the flow rate by the distribution input devices of the flood control construction machine A file driver 882 and a diesel pile hammer 883 are installed on the upper side of the deck deck of the barge line 933 so as to supply deeper water in the underground floor of the ocean floor to be replaced to the cooling device 816, The steam hammer 884 and the crude oil drilling machine 908 are installed at the upper end position of the deck deck of the barge hull 591 so as to be used for excavation, transportation, and traction. At the same time, (184) The electricity 226 is isolated from the respective construction machine body and connected to the unmanned monitor 52 operating device and the dispensing devices of the construction machine to constitute disassembly and assembly so as to overcome the flood control. A plurality of deep water boreholes (936) are drilled into the river downstream and the ocean as distribution equipment of the construction machine. The borehole (936) is provided with a pump of a pumping station, a pipe and a hose to connect the deep water with the purified sea water, (811a), which is equipped with a continuous water supply and a conveying and traction of the soil (812), is installed in the flood control unit (811a) And the control axis of the flood control and the distribution axis. The weather information transmitted from the satellite of the flood control system is divided into the holding tank It is equipped with a barge hull at the top and a barge hull at the bottom of the holding tank. It is equipped with a small, medium and large sized marine hydroelectric power station. The valve further includes a dispenser and dispenser (672) in the connection structure of the dispenser nozzle, the non-powered pump and the cable car (256) to provide a connection structure of the dispenser and dispenser, Wherein the harmful red tide prevention control unit of the flood control unit (811) and the hydrological control control unit of the dam are constructed to overcome flood damage by the power production transfer unit and the disaster prevention preventive units. .

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