KR20110009805A - Small-hydroelectric complex powergeneration ship for ocean stand type - Google Patents

Abstract

PURPOSE: A small-hydropower hybrid power generating system is provided so that the water, which flowed into the water tank of a small-hydropower hybrid power generating ship, is discharged to the outside of the water tank using the sea level change to generate power. CONSTITUTION: For a small-hydropower hybrid power generating system, a water tank is installed in the seawater, which has an abundant amount of water through 365 days. A power generating chamber is located on the upper end of the water tank at a given height. Continued power generation is performed by the seawater, which flow into the power generating chamber. A lever and a piston are mounted on the water tank. The seawater is discharged to the outside of the water tank using the control of an electric valve and the sea level change to continuously generate power.

Description

Marine upright small hydro power generation system {SMALL-HYDROELECTRIC COMPLEX POWERGENERATION SHIP FOR OCEAN STAND TYPE}

Offshore Upright Small Hydro Power Generation Field

A technology that forms a certain drop inside the reservoir of a small hydro power plant standing up to the sea to form a power generation system, and discharges the inflow of water introduced into the reservoir to the outside of the reservoir using the difference between tides.

Up to now, small hydro and tidal power generation have blocked the dam at a certain position and formed waterways so that the difference between the water level of the dam and the tidal gap can be used to develop the small hydro power at the bottom of the dam. Its low efficiency and dams have had a significant impact on natural ecosystems and the climate environment.

Reservoir is locked upright on the sea where abundant water level is maintained for 365 days a year, and the power generation chamber is located at a certain height at the top to maintain continuous development with the incoming seawater and to support the seawater introduced into the reservoir. Equipped with lever and piston and using the opening and closing operation of the electric valve and the difference between the tides

Synergy effect of power generation is possible by generating more than 90% of efficient power generation in the sea and natural tidal power plant, which is a natural resource, and minimizing the influence of natural environment and ecosystem and installing multiple power facilities in an upright manner. Economical power generation system

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is a cross-sectional view of a marine upright combined cycle power generation system according to the present invention, in which a water reservoir 30 and a generator 71 in which a piston lower plate 51 of a piston 50 is mounted from the bottom on the basis of pile driving are mounted on the sea floor; Piston submersible (80), piston water receptacle (90) with a built-in power generation chamber (70), piston upper plate (54) and lever (120), hydrogen production chamber (100) equipped with a hydrogen production plant and an integrated inverter Comprised of a control room 110 mounted on the top of the control room 110 is a representative view of the present invention equipped with a photovoltaic generator 210 and a wind power generator 220 and a subsidiary generator 60 at the bottom of the auxiliary box 60 It is a cross-sectional view of the food complex power generation system 250

2 is a plan view of a marine upright combined cycle power generation system according to the present invention, and the top view is a schematic plan view of the machinery, and the generator 71 and the water discharge passage 73 of the power generation chamber 70 mounted in the reservoir 30 in the center thereof. There is a subsidiary box 60 in three directions around the outside of the reservoir 30 and the projector 62 and the upper plate of the upper plate 64 are coupled with the lever 120 to the inside of the reservoir 30. An extended piston 50 is a plan view of a marine upright hydroelectric power generation system 240 coupled to a piston upper plate 54 mounted on a piston submarine 80 and a piston water reservoir 90.

The bottom view is an external schematic plan view of the photovoltaic generator 210, the wind generator 220, and the tidal generator 230 on one side of the auxiliary box, on the top of the three-way auxiliary box 60 of the central control room 110 and the reservoir 30. It is a plan view of the combined marine installed power generation system 250 of the plan view.

3 is a water storage diagram according to the present invention, the water storage piston sphere 31 in the center of the upper end of the water storage box 38 from the upper end, the water storage mechanism 32 on the upper lower wall three sides, and the lower lower wall three sides The water storage outlet passage 33 is formed, and the bottom surface of the water storage compartment 37 is formed as a water storage drive valve mechanism 34 and constitutes a water storage compartment 39 to form a piston 5 in the water storage piston sphere 31. Piston rod 53 of the () is operated and the external air to the water storage mechanism 32, the piston water box lever 91 of the piston water box (90) and the piston submarine plate plate 81 of the piston water box (80) and Intake 190 or intake 200 through the power generation chamber air tool 75 of the power generation chamber 70 and the water outlet passage 73 of the power generation chamber 70 at the water outlet passage 33 of the power storage chamber 77. It is equipped with the operation of the outlet drive valve, the seawater outside the reservoir 30 through the discharge passage 73 of the power generation chamber 70 inside the reservoir 30 It is introduced into the reservoir tank valve (34) is equipped with a reservoir tank valve (35) is operated by the operation of the reservoir tank valve 35 and the piston (50) to store the seawater introduced into the reservoir 30 (30) It serves to discharge to the outside.

4 is a piston diagram according to the present invention, a piston seal member 58 is attached to the outside of the piston lower plate 51, and a piston motor valve port 52 is formed on the outer side surface thereof, and a piston rod 54 is attached to the center thereof. The upper piston plate 55 is attached to the upper portion, and the upper piston hole 56 is formed on the upper piston plate 55 so that the piston seal member 58 may prevent friction between the wall of the water storage chamber 39 and the piston lower plate 51. Reduces and closes the voids to control the seawater flowing into the water storage chamber (39) and the piston electric valve (52) is equipped with a piston electric valve (53) in conjunction with the operation of the piston 50 to open and close the piston electric valve (53) By discharging the seawater introduced into the storage compartment 39 to the outside of the storage compartment 39, the piston rod 54 connects the piston lower plate 51 and the piston upper plate 55, and the piston upper portion of the piston upper plate 55 Plate ball 56 is matched with the piston port 123 of the lever 120 coupled to the piston pin (57) Stir suham 30 onto the piston 50 from the inside. Serves to control the inflow of the water storage hamsil 39 to work less.

5 is an auxiliary box according to the present invention, the auxiliary box 60 is provided with a slab when the solar cell generator 210 or the wind generator 220 is mounted on a cylindrical or upper end where the auxiliary box lever cod 61 is formed on one surface of the upper part. The lever cod 61 is operated by each lever 120, and the inside of the projector 62 mounted inside the tide between the high and low water level 130 and the middle water level 140 and the low water level 150 is operated up and down It serves to operate the lever 120.

6 is a power generation room diagram in accordance with the present invention in conjunction with the power generation chamber groove 36 of the top of the reservoir 30, the generator 71 is mounted on the top of the power generation chamber groove 36 and the reservoir 30 power generation chamber groove 36 The water outlet passage 73 is installed at the inlet 72 formed at the top of the water storage outlet passage 33 and the power generation chamber cover 74 formed at the bottom, and the generator chamber cover 74 is installed to complete the inlet 72 side. The inlet drive valves 76 and the outlet drive valves 77 are mounted on the external outlet passages 73 of the oversized water storage outlet passage 33 and the power generation chamber tools 75 inside the top of the power generation chamber cover 74. Is formed to store the outside air intake (190) or exhaust (200) in the inlet (30) and the inlet drive valve 76 and the outlet drive valve 77 by opening the sea water into the power generation chamber (70) to the high water level 130, the middle water level 140, the low water level 150, the generator is operated by the discharge passage 73, the free fall height of the power generation room 70 serves to produce power.

Figure 7 is a composite view 1 according to the present invention from the bottom to the first view of the piston submersible piston submerged in the piston 80, the upper end is clogged and the lower end of the cylindrical cylinder in the upper center of the upper slab and three sides A piston submersible lever (82) is formed at the upper end of the water storage box (38) of the reservoir 30, and the piston upper plate (54) of the piston (50) is mounted on the piston submarine upper plate (81). .Operating under the piston submerged lever lever (82) of the lever rod 121 of the lever 120 is operated and the outside air intake 190 or exhaust 200 to the power generation chamber 70 and the reservoir 30 )

Figure 2 from the lower end of the piston is a water-repellent piston piston piston 90 is clogged at the top and the bottom is a cylindrical cylinder is coupled to the upper end of the piston submarine 80 and the piston water lever lever cod 91 is formed on the bottom three sides of the wall lever The lever rod 121 of 120 is operated and serves to intake 190 or exhaust 200 air from the outside of the power generation chamber 70 and the reservoir 30 to the outside air.

3 is a hydrogen production chamber view from the lower end of the hydrogen production chamber 100, the upper end is blocked and the lower end is a cylindrical cylinder coupled to the upper end of the piston receiving box 90, the pump port 101 is formed on both sides of the lower hydrogen production chamber The pump 102 and the hydrogen production plant 103 are mounted inside the 100 to operate the pump 102 and the hydrogen production plant 103 by utilizing a part of the power produced to produce and supply liquefied hydrogen. And

4 is a view of the control room from the bottom, the manufacturing room 110 is clogged in the upper end and the lower end is a cylindrical cylinder, the integrated inverter controller 111 is mounted inside the control room 110, so that the electric equipment such as the pump of the power generation system, each electric valve, etc. It supplies power by converting each power that is automatically controlled and produced into a constant output.

8 is a composite view 2 according to the present invention, the left side is a protor diagram and the right side is a lever diagram. A proter upper plate hole 65 is formed at the upper center of the upper upper plate 64 in a shape in which the 64 is mounted on the floating body 63, and the protering port of the lever 120 is disposed between the upper upper plate 64. (122) is mounted and mutually coupled to the piston pin (66) and the floating body (63) at sea high water level 130 and the medium water level 140 and the low water level 150. It operates downward to operate the piston 50 mounted in the reservoir 30 by the operation of the lever 120 serves to discharge the seawater introduced into the reservoir 30 to the outside of the reservoir 30

The lever 120 is a protruding hole 122 is formed at the end of the lever rod 121, the piston port 123 and the lever base 127 is formed at a third point on the opposite end and divided into two pedestals (124) in the upper portion of the pedestal opening 125 is formed so that the pedestal 124 is the piston submarine between the bottom of the auxiliary bin lever (61) of the auxiliary box 30 and the piston water holder lever (91) of the piston receiving box (90) 80 is mounted on the top of each other as a lever 120 of the structure to combine the support base 127 and the support base 125 of the lever support base 127 of the lever rod 121 as a support pin 122 Combined with the rotor (62) mounted on the auxiliary box (30) and coupled to the piston (50) mounted on the water tank (30), the high water level 130 and the medium water level 140 and the low water level 150 at sea . The lever 120 is operated to interoperate to discharge the seawater introduced into the reservoir 30 to the outside of the reservoir 30.

9 to 16 are assembled views of the marine upright combined cycle power generation system according to the present invention.

FIG. 9 shows the storage of the reservoir 30 at the upper end of the central pile 20 and the pile 20 at the upper end of the central pile 20 at the position of the reservoir 30 to be installed at sea and the respective subsidiary vessels 60. Assembled view of the lower box 37

FIG. 10 is a bottom plate 51, a piston rod 54, and a piston upper plate (15) mounted with a bottom plate storage valve (35) on a bottom plate storage valve valve (34) formed at the bottom of the bottom plate (37). 55) is assembled to the piston 50 is assembled to the bottom of the water storage compartment (37) to the bottom of the assembled piston piston valve (52) formed in the piston lower plate 510, the piston electric valve 53 is assembled.

FIG. 11 constructs a low water load box 38 in which a water storage piston hole 31, a water storage air hole 32, a water storage outlet passage 33, and a power generating chamber groove 36 are formed on an upper side of the water storage box 37. One assembly drawing

12 is a water discharge passage 73 in which a generator 71 is mounted on a bottom of a power generation chamber groove 36 formed in a water storage box 38, and an inlet drive valve 76 is mounted at an upper end and an outlet drive valve 77 at a lower end thereof. Of the oil supply / reduction valve 77 of the oil pump is mounted on the water storage tank passage 33 formed on the bottom wall of the water storage tank 38 and the water outlet passage on the inlet 72 formed on the upper outer wall of the power generation chamber cover 74. 73 is an assembly drawing of the power generation chamber, which is built and constructed in accordance with the inlet driving valve 76 of FIG.

FIG. 13 is an assembled view in which the auxiliary box 60 formed with the auxiliary box lever cod 61 is formed on the upper side of the pile for the auxiliary box 60 in contact with three surfaces of the storage box 30.

FIG. 14 shows that the projector 62 is mounted inside each subsidiary box 60, and the piston submersible plate plate 81 and the piston submersible lever on the upper end of the reservoir 30 of the reservoir 30 are shown in FIG. An assembly drawing of the piston submarine 80 with the sphere 82 formed thereon

FIG. 15 temporarily fixes and supports the pedestal 124 of the lever 120 on which the lever rod 121 is mounted at the upper end of the subsidiary lever lever 61 and the piston submarine 80 formed in each auxiliary box 60. The upper upper plate 65 of the protruder 62 built in the 60 and the upper piston plate 56 of the piston 50 built in the reservoir 30 of the lever 120 are temporarily fixed. Temporarily fixed and fixed to match the pedestal 125 and the protop pins 66 of the lever rods 121 and the upper upper plate spheres 65 of each of the projectors 62 are coupled to each other. And the piston pins 57 of the piston 50 by matching the piston upper plate hole 56 of the piston 50 with the piston hole 123 of the lever rod 121 and mounting the respective pedestals 124 of each lever 120. Permanently settled at the end of the piston submarine 80 and the subsidiary box 60 of the subsidiary box 60 of the subsidiary box 60, and if the lower level of the heavy water level 140 and the projector 62 coincides, 30 pros An assembly diagram for releasing the temporary fixing device of the rotor 62 and the piston 50.

FIG. 16 is an assembly view of the marine upright hydroelectric power generation system 240 completed by constructing the piston receiving box 90 in which the piston receiving box lever 91 is formed on the upper end of the piston subsea 80. As shown in FIG.

17 to 20 is a power generation system diagram according to the present invention

FIG. 17 shows that the upright small hydroelectric power generation system 240 fixed at a fixed height from the sea bottom starts power generation at a high water level 130. In this case, the positioner of each auxiliary box 60 is shown. The lower portion of the floating body 63 of the 62 is located at the high water level 130 of the sea, and the protruding hole 122 of each lever 120 is located above the auxiliary box 60 and the piston port 123 and the piston 50 The piston upper plate 55 is located at the upper portion of the piston subsea 80 and the piston lower plate 51 of the piston 50 is located at the lower portion of the water storage chamber 39 of the intake passage 73 of the power generation chamber 70. As the inflow motor valve 76 and the outflow motor valve 77 are opened, power generation starts at the high water level 130. At this time, a small amount of sea water is stored in the lower part of the water storage chamber 39 to reduce the impact of the water tank 30. .

The upper left side of FIG. 18 shows that seawater is introduced into the inflow power valve 76 of the power generation chamber 70 by the inflow water 160 into the water outlet passage 73 and operates the generator 71 to produce electric power and open outflow. As the outflow water 170 is discharged by the electric valve 77, the outflow water 170 flows into the storage chamber 39 through the open piston motor valve 53, and the air is stored in the storage chamber 39. It is exhausted to the outside through the water storage mechanism 32 of the power generation chamber 32 and the power generation chamber tool 75 of the power generation chamber 70 and the piston upper plate hole 81 of the piston submersible 80 and the high water level according to the difference between tides. From the 130 to the middle water level 140, each lever 120 is horizontal, the lower portion of the float 63 of the auxiliary box 60 is located in the center of the auxiliary box 60 and the piston upper plate 55 is the piston water level ( 90 is located in the lower portion of the piston lower plate 51 is a system diagram raised to the center of the storage compartment (39)

 The upper right side is the same situation as the upper left side by the continuous inflow of sea water, the outflow water 170 is doubled in the storage chamber 39, the position of the protorgu 122 of the lever 12 is lowered and the piston port 123 The position of the ascending float 63 is located in the lower portion of the auxiliary box 60, the piston upper plate 55 is located in the upper portion of the piston receiving box 90, the piston lower plate 51 is raised in the storage compartment 39 above And

In the same situation as the lower left side, the upper left side, first, close the piston motor valve 53 mounted on the Fston lower plate 51 of the piston 50, and open the reservoir motor valve 35 of the reservoir 30 to prepare for drainage. and

In the lower right side, the lever 120 is horizontal in accordance with the change of tidal tide, and the piston lower plate 51 descends to the center of the storage compartment 39 to open the outflow water 170 which was in the lower part of the piston lower plate 51. (30) The discharge water 180 is discharged from the storage compartment 39 through the reservoir storage valve 35 in the lower portion, and the discharge water 170 is stored in the upper portion of the piston lower plate 51.

The upper left side of FIG. 19 shows that the protruder hole 122 of the lever 120 rises and the piston hole 123 descends as the tidal tide changes, and the piston lower plate 51 descends to the lower portion of the storage compartment 39. ) The outflow water 17 at the lower part is discharged to the discharge water 180 through the open water storage valve 35 and the upper part of the piston lower plate 51 is a flow diagram in which the outflow water 170 is stored twice.

The upper right side diagram is a system diagram in which, in the same situation as the upper left side diagram, first, the reservoir motor valve 35 in the lower part of the reservoir 30 is locked and the piston motor valve 53 is opened.

In the lower left side, the lever 120 becomes horizontal and the piston lower plate 51 rises to the center of the storage chamber 39 according to the change of tidal current, and the outflow water 170 stored in the upper part of the piston lower plate 51 is opened. It flows through the valve 53 to the lower portion of the storage compartment 39 and is stored three times

The lower right side, as the tidal tide changes, the protruder 122 of the lever 120 descends and the piston port 123 rises so that the piston lower plate 51 rises to the upper portion of the storage chamber 39 and the outflow water 170. This is a system diagram filled in the storage chamber 39.

The upper left side of FIG. 20 is a system diagram in which water is prepared by first closing the piston motor valve 53 and opening the water storage valve 35 in the same situation as the lower right side of FIG. 19.

In the upper right side, the lever 12 is horizontal in accordance with the change between tides, and the piston lower plate 51 descends to the center of the storage compartment 39, and stores the outflow water 170 stored in the piston lower plate 51. Is discharged to the external discharge water 180 and is a system diagram in which the discharge water 170 is stored on the upper piston lower plate 51.

The lower left side of the lever as the tide 120 changes the protor sphere 122 of the lever 120, the piston port 123 is lowered, the piston lower plate 51 is lowered to the lower portion of the storage chamber 39 stored effluent 170 Is discharged to the discharged water 180 outside the storage chamber 39, and the flow chart of the double discharge water 170 is stored in the upper portion of the piston lower plate (51)

The bottom right diagram is a schematic diagram in which the water storage valve 35 is closed and the piston motor valve 53 is closed in the same situation as the bottom left diagram. The subsequent power generation diagram is repeated from the upper right side of FIG. 19 to the lower right side of FIG.

The lower piston plate 51 is a system diagram showing the movement at a distance speed twice as large as the tidal difference, which is in the structure of the lever 120 and the support 124 of the lever support 127 of the lever rod 121. By utilizing the lever principle located at 1/3 and 2/3 of the entire length of the lever rod 121, the double discharge water 170 stored in the lower piston plate 51 is discharged to the outside of the storage chamber 39. And the size of the reservoir 30 is formed more than four times larger than the inflow rate of one cycle, so that the piston lower plate 51 reciprocates the upper and lower portions of the storage compartment 39 in four cycles. Marine upright hydroelectric power generation system (240) that continuously maintains 95% or more power generation efficiency

1 is a cross-sectional view of a marine upright combined cycle power generation system according to the present invention.

2 is a plan view of a marine upright combined cycle power generation system according to the present invention;

3 is a water storage according to the present invention

Figure 4 is a piston diagram according to the present invention

Figure 5 is an auxiliary box according to the present invention

Figure 6 is a power generation room according to the present invention

7 is a composite view according to the present invention 1

8 is a composite view according to the present invention 2

9 to 16 is an assembly view of the marine upright combined cycle power generation system according to the present invention

17 to 20 is a power generation system diagram according to the present invention

<Brief description of the main parts of the drawing>

10: Submarine ground line 20: File

30: reservoir 31: reservoir pistons

32: water storage mechanism 33: water storage passageway

34: water storage valve valve 35: water storage valve

36: power generation room home 37: low load

38: water storage box 39: water storage room

50: piston 51: piston lower plate

52: piston electric valve port 53: piston electric valve

54 piston rod 55 piston upper plate

56: upper piston plate 57: piston pin

58: piston seal material

60: Auxiliary sum 61: Auxiliary ship lever

62: PROTERTER 63: Float

64: upper upper plate 65: upper upper plate

66: proterpine

70: power generation room 71: generator

72: inlet 73: water outlet

74: power generation chamber cover 75: power generation chamber

76: inlet drive valve 77: outlet drive valve

80: piston underwater 81: piston underwater upper plate

82: piston submersible lever

90: piston receiving box 91: piston receiving box lever

100: hydrogen production room 101: pump port

102 pump 103 hydrogen production plant

110: control room 111: integrated inverter controller

120: lever 121: lever

122: protor sphere 123: piston sphere

124: base 125: support

126: support pin

130: high water level 140: medium water level

150: low water level 160: influent

170: outflow 180: outflow

190: intake 200: exhaust

210: solar power generator 220: wind power generator

230: algae generator 240: offshore upright small hydro power system

250: offshore integrated power generation system

Claims (2)

The water storage piston sphere 31 is formed at the center of the upper end of the water storage box 38 from the upper end, the water storage mechanism 32 is formed at three upper surfaces of the lower lower wall, and the water storage passageway 33 is formed at the three lower surfaces of the lower lower wall. The piston rod 53 of the piston 5 is operated at the bottom of the water storage compartment 37 by forming a water storage compartment valve 34 on the bottom bottom surface of the water storage compartment 37 to operate the water storage compartment piston 31. External air is supplied to the water receiving mechanism 32 by the piston receiving lever 90 of the piston receiving box 90, the piston upper holding plate 81 of the piston receiving box 80, and the power generation chamber tool 75 of the power generating chamber 70. Intake 190 or intake 200 through the outlet and the water outlet passage 73 of the power generation chamber (70) is installed in the water storage passage (33), the outlet port valve (77) side is stored by the operation of the outlet valve (30) The external seawater flows into the reservoir 30 through the water discharge passage 73 of the power generation chamber 70, and the reservoir tank valve (34) is installed in the reservoir tank valve (35) acts to discharge the seawater introduced into the reservoir 30 by the operation of the reservoir tank valve 35 and the piston 50 to the outside of the reservoir 30 Reservoir (30) and The piston seal member 58 is attached to the outside of the lower piston plate 51, and the piston motor valve opening 52 is formed on the outer side of the piston. The piston rod 54 is attached to the center and the piston upper plate 55 is disposed on the upper portion. The piston upper plate opening 56 is formed in the piston upper plate 55 so that the piston seal member 58 reduces the friction between the wall of the water storage chamber 39 and the piston lower plate 51 and prevents air gaps in the water storage chamber 39. By controlling the flow of seawater and installing the piston motor valve 53 in the piston motor valve opening 52, the piston motor valve 53 is opened and opened in conjunction with the operation of the piston 50 to flow into the reservoir 39. Discharge the sea water to the outside of the storage chamber 39, the piston rod 54 connects the piston lower plate 51 and the piston upper plate 55, and the piston upper plate hole 56 of the piston upper plate 55 is the lever 120 Matched with the piston port 123 of the piston pin 57 is combined to raise the piston 50 in the reservoir 30. A piston 50 which acts downward to control the inflow of the storage compartment 39 and A hollow cylindrical shape in which the auxiliary box lever cod 61 is formed on one side of the upper end, or if necessary, a slab is formed at the top to mount the photovoltaic generator 210 or the wind power generator 220, and the auxiliary box lever cod 61 has a respective lever ( 120 is operated, and the inside of the projector 62 mounted inside the high water level 130 and the middle water level 140 and the low water level 150 during the tidal operation is to operate the lever 120 to operate up and down when low and low A plurality of auxiliary boxes (60) in contact with the water box (30) Reservoir outlet passageway 33 formed in the bottom of the reservoir chamber 36 is connected to the generator chamber 36 at the top of the reservoir 30, the generator 71 is mounted on the top of the reservoir chamber 36, the reservoir chamber 36. And the outlet passage 73 is installed at the inlet 72 formed at the top of the power generation chamber cover 74, and the generator chamber cover 74 is installed to complete the inlet 72 and the outside of the water storage passage passage 33. The inlet drive valves 76 and the outlet drive valves 77 are respectively mounted on the outlet passage 73, and a power generation room air tool 75 is formed inside the top of the power generation chamber cover 74 to store external air (30). Intake 190 or exhaust 200 to open the inlet drive valve 76 and the outlet drive valve 77 to open the seawater into the power generation chamber 70, the high water level 130, the medium water level 140, the low water level (150) the power generation room 70, which serves to produce electric power by operating a generator by the discharge passage 73 of the power generation room 70; The upper end is blocked and the lower end is a cylindrical cylindrical piston submarine upper plate hole 81 in the center of the upper slab and the piston submarine lever lever 82 on three sides is mounted on the upper of the water reservoir 38 of the reservoir 30 The piston upper plate 54 of the piston 50 is operated up and down in the piston underwater upper plate hole 81, and the lever rod 121 of the lever 120 is operated in the piston underwater lever 90. Piston submersible (80) that serves to intake 190 or exhaust 200 to the air in the power generation chamber 70 and the reservoir 30 and The top is blocked and the bottom is a cylindrical cylinder that is blown to the upper end of the piston submarine 80 and the piston water lever lever 91 is formed on the bottom three sides of the wall to operate the lever rod 121 of the lever 120, the outside air Piston water box (90) which serves to intake 190 or exhaust 200 to the power generation chamber 70 and the reservoir 30 and The upper end is blocked and the lower end is coupled to the upper end of the piston receiving box (90) and the pump port 101 is formed on both side walls at the bottom, so that the pump 102 and the hydrogen manufacturing plant 103 are formed inside the hydrogen production chamber 100. Hydrogen production chamber 100, which serves to manufacture and supply liquefied hydrogen by operating the pump 102 and the hydrogen production plant 103 by utilizing a part of the power produced and mounted. The upper part is blocked and the lower part is a cylindrical cylinder. The integrated inverter controller 111 is mounted inside the control room 110 to automatically control and produce electric power such as pumps and electric valves of the power generation system. The control room 110, which serves to supply power by converting The upper portion of the upper portion of the upper plate 64, the upper portion of the upper portion of the upper plate 64 in the shape of the cylindrical upper body 64 is divided into two, the upper portion of the upper body plate (65) ) Is formed so that the protopor 122 of the lever 120 is mounted between the upper plate 64, and is coupled to each other by a piston pin 66, the floating body 63 is the high water level 130 and the middle water level of the sea (140) and the low water level (150). Operated downward to operate the piston 50 mounted in the reservoir 30 by the operation of the lever 120 to discharge the seawater introduced into the reservoir 30 to the outside of the reservoir 30 And 62 A protruder 122 is formed at one end of the lever rod 121, a piston port 123 is formed at the opposite end, and a lever support 127 is formed at a third point and divided into two pedestals 124. A pedestal opening 125 is formed at an upper portion thereof so that the pedestal 124 is located between the lower portion of the auxiliary box lever 90 of the auxiliary box 30 and the piston water box 90 of the piston water box 90 of the piston holder 90. When each mounted, the lever support 120 as a lever 120 of the structure that combines the lever support base 127 and the pedestal 125 of the lever rod 121 to be coupled to the support pin 126 (30) Combined with the rotor (62) mounted on the water tank (30) and the piston (50) mounted on the high water level 130 and the medium water level 140 and the low water level 150 when combined. The lever 120 is operated by interoperating with the lever 120 which serves to discharge the seawater introduced into the reservoir 30 to the outside of the reservoir 30 The pile 20 drives the pile 20 to the rock layer below the seabed ground line 10 at the position of the reservoir 30 and each auxiliary box 60 to be installed at sea, and the reservoir 30 of the reservoir 30 at the upper end of the central pile 20 ( Building 37) Mounting the water storage valve 35 to the water storage valve valve 34 formed on the bottom of the low storage box 37, the piston lower plate 51, the piston rod 54 and the piston upper plate 55 The piston 50, which is constructed and assembled, is upright on the bottom of the water storage box 37, and the piston motor valve 53 is mounted on the piston motor valve port 52 formed on the piston lower plate 510. A low water load box 38 is formed in which a water storage piston port 31, a water storage air hole mechanism 32, a water storage outlet passageway 33, and a power generation chamber groove 36 are formed on the top of the water storage compartment 37. The oil outlet of the water discharge passage 73 is equipped with a generator 71 on the bottom of the power generation chamber groove 36 formed in the water storage box 38, and an inlet drive valve 76 at the top and an outlet drive valve 77 at the bottom. A portion of the electric valve 77 is mounted on the water storage inlet passage 33 formed on the bottom wall of the water storage compartment 38 and the inlet 72 formed on the upper outer wall of the power generation chamber cover 74 of the water outlet passage 73. Construct the power generation chamber in accordance with the inlet drive valve (76) Auxiliary box 60 formed on the upper end of the pile for the auxiliary box 60 is formed in contact with the three sides of the reservoir 30, Each projector 62 is mounted inside each auxiliary box 60, and a piston submarine upper plate hole 81 and a piston submarine lever 90 are mounted on the upper end of the reservoir 30 of the reservoir 30. ) Is built piston submersible (80) Temporarily fixing and supporting the base 124 of the lever 120 mounted with the lever rod 121 to the upper end of the auxiliary storage lever 60 and the piston submarine 80 formed in each auxiliary box 60 (60) Pedestal opening of the lever 120, the upper portion of the upper plate (65) and the upper portion of the piston (50) of the piston 50 built in the reservoir 30 is temporarily fixed to the built-in 125, and temporarily fixed and fixed, and the protor pin 122 of each lever rod 121 and the upper upper plate sphere 65 of each of the projectors 62 coincide with the proterpenes 66, and the piston The piston upper plate (56) of the (50) and the piston hole (123) of the lever rod 121 is matched to mount the piston pin (57), and each pedestal (124) of each lever (120) in the piston water Permanent settled at the end of the box 80 and the bottom of the auxiliary box lever cod 61 of the auxiliary box 60, if the lower level of the water level 140 and the projector 62 coincide with each of the auxiliary box 60 and the reservoir 30 Pro's Release the temporary assembly of the fixing device 62 and the piston 50 and         Marine upright hydroelectric power generation system 240, characterized in that for constructing the piston receiving box 90, the piston receiving box lever 90 is formed on the upper end of the piston submarine 80; The pump 102 and the hydrogen production chamber 103 are mounted on the upper end of the piston water box 90, the water production chamber 100 is constructed, and the integrated inverter controller 111 is mounted on the top of the hydrogen production chamber 100. 110 to the top of the control room 110 and the top of the auxiliary box 60 is equipped with a photovoltaic generator 210 and the wind generator 220 on the top of the auxiliary box (60) to build a slab and the algae generator ( Marine upright combined cycle system 250 characterized in that the mounting 230 In claim 1 The offshore upright hydroelectric power generation system 240 is a fixed upright hydroelectric power generation system 240 fixed to a fixed height from the bottom of the sea to start the power generation from the high water level (130) at this time the position of each member If you look at the lower portion of the floating body 63 of the protor 62 of each auxiliary box 60 is located in the high water level 130 of the sea and the protor port 122 of each lever 120 is located in the upper of the auxiliary box 60 and the piston port The piston upper plate 55 of the piston 123 and the piston 50 is located at the upper portion of the piston submarine 80, and the piston lower plate 51 of the piston 50 is located at the lower portion of the water storage chamber 39. The inflow drive valve 76 and the outflow drive valve 77 of the water intake passage 73 of 70 are opened and start generating power at the high water level 130. At this time, a small amount of seawater is stored in the reservoir 39 to lower the reservoir. To reduce the impact of (30) The sea water in the sea into the open inlet motor valve 76 of the power generation chamber 70, the inflow water 160 flows into the water outlet passage 73, and operates the generator 71 to produce power and to the open outlet motor valve 77 As the outflow water 170 flows out, the outflow water 170 flows into the storage compartment 39 through the open piston motor valve 53, and the air is stored in the storage compartment 39 of the storage compartment 30. ) And the exhaust chamber 200 of the power generating chamber 70 and the piston upper plate opening 81 of the piston submersible 80 are exhausted to the outside 200 and the water level at the high water level 130 according to the difference between tides. Changed to 140, each lever 120 is horizontal, the lower portion of the float 63 of the auxiliary box 60 is located in the center of the auxiliary box 60 and the piston upper plate 55 is located below the piston water box 90, The piston lower plate 51 rises to the center of the storage compartment 39  Due to the continuous inflow of sea water, the same situation as the upper left side was repeated, and the outflow water 170 was doubled in the storage compartment 39, and the position of the protruder 122 of the lever 12 was lowered, and the position of the piston port 123. The float 63 is located at the bottom of the auxiliary box 60, the piston upper plate 55 is located at the upper portion of the piston receiving box 90, and the piston lower plate 51 is raised above the storage chamber 39. In the same situation, first, close the piston transmission valve 53 mounted on the proston lower plate 51 of the piston 50 and open the reservoir transmission valve 35 of the reservoir 30 to prepare for drainage. As the lever 120 is horizontal as the tidal tide changes, the piston lower plate 51 descends to the center of the storage compartment 39 to open the outflow water 170 that was in the lower portion of the piston lower plate 51. The discharge water 180 is discharged from the storage compartment 39 through the lower reservoir transmission valve 35 at the lower portion, and the discharge water 170 is stored at the upper portion of the piston lower plate 51. As the tidal tide changes, the protor port 122 of the lever 120 rises and the piston port 123 descends, so that the piston lower plate 51 descends to the lower portion of the storage compartment 39 and the outflow water 17 below the storage compartment 39. ) Is discharged to the discharged water 180 through the open reservoir tank valve 35 and the discharged water 170 is stored twice on the piston lower plate 51. In the same situation, first close the reservoir motor valve 35 under the reservoir 30, and open the piston motor valve 53. In accordance with the change in tidal pressure, the lever 120 becomes horizontal and the piston lower plate 51 rises to the center of the storage chamber 39, so that the outflow water 170 stored in the upper portion of the piston lower plate 51 is opened. Flows down the storage compartment 39 through As the tidal tide changes, the protor port 122 of the lever 120 descends, the piston port 123 rises, and the piston lower plate 51 rises to the upper portion of the storage chamber 39, and the outflow water 170 is stored in the storage chamber. Quadrupled to 39, In the same situation, first close the piston motor valve (53), open the water storage valve (35) to prepare the drainage According to the tide change only, the lever 12 becomes horizontal and the piston lower plate 51 descends to the center of the storage compartment 39 to discharge the outflow water 170 stored in the piston lower plate 51 outside the storage compartment 39. 180 and discharged to the upper portion of the piston lower plate 51 is stored 170 In accordance with the change between the tides 120, the protor port 122 of the lever 120 is raised and the piston port 123 is lowered so that the piston lower plate 51 descends to the lower portion of the storage compartment 39 to store the stored effluent 170. (39) is discharged to the external discharge water 180 and the double discharge water 170 is stored in the upper portion of the piston lower plate (51) In the same situation, first, the water storage drive valve 35 is closed and the piston drive valve 53 is closed. The power generation system is repeated from the upper right side of FIG. 19 to the lower right side of FIG. The piston lower plate 51 is moved at a distance speed twice as large as the difference between tidal tides in the structure of the lever 120 and the support 124. The position of the lever support 127 of the lever rod 121 is the position of the lever rod. (121) By utilizing the lever principle located at 1/3 and 2/3 of the length of the total discharge of the double outflow water 170 stored in the piston lower plate 51 to the outside of the storage chamber 39 and the reservoir The size of the (30) is formed more than four times larger than the inflow rate of one cycle, so that the piston lower plate 51 reciprocates the upper and lower portions of the storage chamber 39 in only four cycles, without affecting the change between tides alone. Offshore upright small hydro power system (240) to maintain the power generation efficiency of more than 95% Offshore, characterized in that each of the power produced in the photovoltaic generator 210, wind power generator 220 and tidal current generator 230 mounted on the built structure outputs a constant high-quality power by the integrated inverter controller Upright Combined Cycle Power Generation System (250)

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