CN216566681U - High-potential difference hydrostatic circulating power generation equipment - Google Patents

Abstract

The utility model discloses high-potential-difference hydrostatic circulating power generation equipment which is characterized in that a high-potential-difference water circuit mechanism is connected with a high-potential-difference pressure valve pump circuit mechanism, the high-potential-difference pressure valve pump circuit mechanism is connected with a water turbine power generation mechanism, the high-potential-difference pressure water circuit mechanism is arranged below the water turbine power generation mechanism, the high-potential-difference pressure water circuit mechanism is arranged above the high-potential-difference pressure valve pump circuit mechanism, a high-potential water pipe is arranged below a high-potential water pool, the high-potential water pipe is connected with a second straight water discharging valve through a third connecting pipe, the second straight water discharging valve is connected with a first straight water discharging valve through a second connecting pipe, and the first straight water discharging valve is connected with a generator set mechanism through the first connecting pipe. The design is novel, the structure is simple, the manufacturing, the installation and the use are convenient, the occupied area is small, the environment is not polluted, the sanitation and ecological balance protection is good, the static noise does not disturb people, and the device is the preferred equipment device of the hydroelectric power generation system.

Description

High-potential difference hydrostatic circulating power generation equipment

Technical Field

The utility model belongs to hydroelectric equipment, and particularly relates to high-potential-difference hydrostatic circulating power generation equipment.

Background

The traditional hydroelectric power generation is that water flows upward to build a dam, water flows down from a high place to impact water turbine blades to directly generate power, and a small amount of power can be generated when water level is more than one meter in rural areas, so that the power generation is enough for household illumination. The Guzhou dam also uses high water level to rush down a water turbine to generate a large amount of power. As many problems are involved in building the dam, people move and build water to destroy the forest in the field and destroy the ecological environment, and the heavy rain in the sky has the risks of flood control, flood fighting and emergency rescue. Reference 1, application No.: CN201120254925, title of the utility model: the utility model provides a big moment runner hydroelectric generation device and ditch power generation facility, includes runner, runner main shaft, many spokes, main shaft bearing, and the runner includes a plurality of arc blades, and a plurality of arc blade equipartitions are on the blade frame, and the blade frame is installed on the spoke, and the runner main shaft passes through speed change mechanism and connects the generator. The runner of the utility model can be arranged in a ditch, and the runner is rotated by the impact of flowing water on the runner blades, thereby driving a generator to generate electricity. Reference 2, application No.: CN200710197054, invention name: a reciprocating water pump type variable-pressure tidal power generation device mainly comprises a foundation column, a water cylinder, a piston, an annular buoyancy tank, a high-pressure water tank, a normal-pressure water tank, a hydraulic generator, a connecting water pipe, working water and the like. When tide rises, the annular buoyancy tank drives the piston to rise, the water cylinder sucks working water from the normal-pressure water tank, and when tide falls, the annular buoyancy tank drives the piston to fall, and the working water is pressed into the high-pressure water tank. The working water of the high-pressure water tank flows through the hydraulic generator at a high speed and returns to the normal-pressure water tank. The hydraulic generator generates electricity under the driving of water flow. The structural features of the comparison documents 1, 2 are different from those of the present patent application.

Disclosure of Invention

The utility model aims to utilize the impact of high-level water on a water valve and a ball valve to form differential pressure in an up-down direction, pump the water to a water wheel mechanism, push a wheel disc to rotate, and drive a generator set to generate power by the aid of a rotating shaft and a variable speed wheel arranged on the wheel disc, so that the generator set is connected to a power grid for supply, and the generator set is beneficial to the nation and the people. The high-level water pool is built below the water turbine and used for draining and recycling water discharged by wheel blades of the water turbine, the high-level water pool is connected to a water valve through the high-level water pipe, the water pump is punched to open a valve core to open and close a water path of the water pipe, and water of the water pump is injected into a wheel disc of the water turbine so as to drive the generator to work. The design is advanced novel, simple structure, and installation convenient to use builds individual cistern and deep water pond and can install and use, and area is few, selects land for use to require the condition lowly, can extensively popularize and apply.

The technical scheme of the utility model is as follows: a high-potential-difference hydrostatic circulating power generation device comprises a bearing seat, a wheel disc, a driving wheel, a water tank, a driven wheel, a power generator, a water injection pipe, a ball valve body, a top plate, a ball valve inner cavity, a water inlet, a seat plate, a first connecting pipe, a first flange, a first straight drain valve, a cover plate, a balancing weight, a valve seat, a first connecting rod, a first sleeve, a water valve core, a water valve inner cavity, a second connecting pipe, a neck, a second balancing weight, a second connecting rod, a second straight drain valve, a third connecting pipe, a switch, a high-level water pipe, a high-level water pool, a water injection port, a water outlet, a compression cylinder water outlet, a cylinder bottom inner cavity, an outer cylinder body, an inner cylinder body, a compression cavity, a pressing block, a connecting rod, a first ferrule, a cylinder upper cavity, an inner cylinder top, an inner cylinder bottom edge, a bottom plate, a water inlet pipe, a bottom edge plate, a water cavity, a core, a shell, a sealing plate, a panel, a second ferrule, a shaft, a reset plate, a valve panel, a buffer cavity, a first sleeve, a second sleeve, a water inlet, a water outlet, a water inlet, a water outlet, a water inlet, a water outlet, a water inlet, a water outlet, a water inlet pipe, a water outlet, a water inlet pipe, a water inlet, a water outlet, a water inlet, a water pipes, a water outlet, a water pipes, a water outlet, a water inlet pipe, a water outlet, a water pipes, a water outlet, a water pipes, a water, The water-saving ball-type water turbine is characterized in that a high-level water tank 32 and a high-level water pipe 31 form a high-level water pressure pipeline mechanism, a water injection pipe 7, a water injection port 33, a wheel disc 2, a driving wheel 3, a water tank 4, a driven wheel 5 and a generator 6 form a water-wheel generating mechanism, a first straight water discharge valve 16, a second straight water discharge valve 28 and a ball valve body 8 form a high-level pressure valve pump pipeline mechanism, the bottom port of the high-level water pipe 31 below the high-level water tank 32 is connected with the second straight water discharge valve 28, the second straight water discharge valve 28 is connected with the first straight water discharge valve 16, the first straight water discharge valve 16 is connected with the ball valve body 8, the ball valve body 8 is connected with the water injection port 33 of the water-wheel generator, the first straight water discharge valve 16 is provided with a water valve inner cavity 23, a water valve core 22 is arranged at the bottom end of a first connecting rod 20, the top end of the first connecting rod 20 is provided with a balancing weight 18, the bottom opening of a compression cavity 40 of an inner cavity of a first direct-drain valve 16 is communicated with the inner diameter of a water pipe 62, a water valve core 22 slides up and down between the compression cavity 40 and the inner diameter of the water pipe 62, the water valve core 22 is pulled by a first connecting rod 20 to move up and down, a balancing weight 18 and the water valve core 22 move up and down synchronously under the pulling of the first connecting rod 20, a ball valve 10 is arranged in a ball valve inner cavity 11 of a ball valve body 8, the ball valve inner cavity 11 is provided with a water inlet 12 and a water outlet 34, and a ball pressing plate 61 is arranged on the top of the ball valve 10.

The first direct drainage valve 16 and the second direct drainage valve 28 have the same structure, and the counterweight 18, the first connecting rod 20 and the water valve core 22 are installed and used in the same way.

The bottom of the first connecting rod 20 passes through the central hole of the cover plate 17 to install the water valve core 22.

Compared with the prior art, the utility model has the outstanding effects that: the two water valves are provided with matching blocks for resetting, the regulating valve core is communicated with water up and down, a ball valve is connected in series to automatically regulate water inlet and outlet, high-level water is utilized for stamping, and circulating water is utilized, so that water discharged by the wheel disc is recycled to be recycled water to drive the generator to generate electricity. Simple structure, the modern design, it is easy to make the installation, and area is few, and the place utilizes diversely, and usable electricity generation of mountain area plain, the input fund is few, and equipment lectotype is simple, sanitation, the non-staining, ecological balance protection is good, and the silence does not disturb residents, is the preferred equipment of power generation system.

Drawings

Fig. 1 is a front view schematically illustrating the assembly of the overall structure of the present invention.

Fig. 2 is a top view of the overall structural assembly of the present invention.

Fig. 3 is a schematic front view of a valve core of a ring plug and water valve structure in an upward water flow state according to embodiment 2 of the present invention.

Fig. 4 is a schematic front view of a downward water shut-off state of the ring plug and the valve element of the water valve structure in embodiment 2 of the present invention.

Fig. 5 is a schematic main view of a valve core assembly weight of an embodiment 2 of the present invention.

Fig. 6 is a front view schematically illustrating the assembly of a damper valve core according to embodiment 3 of the present invention.

FIG. 7 is a schematic cross-sectional view B-B of FIG. 3 according to the present invention.

3 FIG. 38 3 is 3 a 3 schematic 3 cross 3- 3 sectional 3 view 3 A 3- 3 A 3 of 3 FIG. 35 3 according 3 to 3 the 3 present 3 invention 3. 3

FIG. 9 is a schematic cross-sectional view E-E of FIG. 5 according to the present invention.

FIG. 10 is a schematic cross-sectional view of C-C of FIG. 6 according to the present invention.

FIG. 11 is a schematic cross-sectional view of D-D of FIG. 6 according to the present invention.

FIG. 12 is a top view of FIG. 5 in accordance with the present invention.

FIG. 13 is a top view of FIG. 3 in accordance with the present invention.

Fig. 14 is a schematic view of the connection of the high position direct drainage valve of the present invention.

Reference numerals: the water injection device comprises a bearing seat 1, a wheel disc 2, a driving wheel 3, a water tank 4, a driven wheel 5, a generator 6, a water injection pipe 7, a ball valve body 8, a top plate 9, a ball valve 10, a ball valve inner cavity 11, a water inlet 12, a seat plate 13, a first connecting pipe 14, a first flange 15, a first direct drain valve 16, a cover plate 17, a counterweight 18, a valve seat 19, a first connecting rod 20, a first sleeve 21, a water valve core 22, a water valve inner cavity 23, a second connecting pipe 24, a neck 25, a second counterweight 26, a second connecting rod 27, a second direct drain valve 28, a third connecting pipe 29, a switch 30, a high-level water pipe 31, a high-level water tank 32, a water injection port 33, a water outlet 34, a compression cylinder water outlet 35, a cylinder bottom inner cavity 36, an outer cylinder body 37, a piston ring 38, an inner cylinder body 39, a compression cavity 40, a pressing block 41, a connecting rod 42, a first ferrule 43, a cylinder upper cavity 44, an inner cylinder top 45, an inner cylinder bottom edge 46, a bottom plate 47, a water inlet pipe 48, a bottom plate 49, a top plate, The water cavity 50, the core 51, the shell 52, the sealing plate 53, the panel 54, the second sleeve ring 55, the shaft 56, the reset plate 57, the valve panel 58, the buffer cavity 59, the cap neck 60, the ball pressing plate 61, the water pipe 62, the first high position straight drainage valve 63, the second high position straight drainage valve 64, the support 65 and the valve panel 66.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Embodiment 1, take a direct-discharge water valve combined with an automatic ball valve pump as an example, and the general design concept of the utility model is that, referring to fig. 1-2, a high-level differential pressure water pipeline mechanism, a high-level differential pressure valve pump pipeline mechanism and a generator set mechanism are provided, wherein the high-level differential pressure water pipeline mechanism is composed of a high-level water pool, a high-level water pipeline and other components; the high-potential-difference pressure valve pump pipeline mechanism is formed by connecting two valve bodies which have the same structure and act in the same way to form synchronous action in series, and a ball valve is connected to the two synchronous valve bodies at a distance of more than 20cm to form a differential pressure pipeline; the water outlet of the ball valve is connected to a water turbine disc blade of the generator set, and the water turbine drives the generator to work. The mounting structure is as follows: the high-potential-difference water pressure pipeline mechanism is arranged above the high-potential-difference pressure valve pump pipeline mechanism, the high-potential-difference water pressure pipeline mechanism is arranged below the generator set mechanism, the generator set mechanism is arranged on the ground, a high-potential water pool is built below the engine set mechanism, a water pool is built below the ground, the high-potential-difference pressure valve pump pipeline mechanism is arranged above the water pool, and water in the high-potential water pool comes from water pumped by a water pipe or water introduced into a mountain or water discharged by a water turbine. After the high-level water pipe is connected with a high-level water tank to introduce water to the water valve and the valve pump to work, the water turbine is injected to drive the generator set mechanism to work. The method comprises the following steps: the high-level water pipe 31 is installed below the high-level water tank 32, the high-level water pipe 31 is connected with the second direct-discharge water valve 28 through the third connecting pipe 29, the second direct-discharge water valve 28 is connected with the first direct-discharge water valve 16 through the second connecting pipe 24, the first direct-discharge water valve 16 is connected with the ball valve body 8 through the first connecting pipe 14, the ball valve body 8 is connected with the water injection pipe 7 through the water outlet 34, the water injection port 33 of the water injection pipe 7 is injected into the water tank 4, the water tank 4 is a wheel blade structure on the outer diameter edge of the wheel disc 2, the wheel disc 2 rotates under the gravity of the water tank 4, and therefore the generator 6 is driven to rotate to generate electricity. The first direct drainage valve 16 and the second direct drainage valve 28 are of the same structure of two valves and are installed in series, first flanges 15 are arranged on two sides of the first direct drainage valve 16, a neck 25 is arranged above the first direct drainage valve 16, a cover plate 17 is arranged at the top opening of the neck 25, the cover plate 17 is a flange, a first connecting rod 20 penetrates through a middle opening of the cover plate 17 up and down, a water valve core 22 is installed at the bottom end of the first connecting rod 20, a balancing weight 18 is installed at the top end of the first connecting rod 20, the top end of the first connecting rod 20 is fixedly arranged on the bottom surface of the balancing weight 18, a first sleeve 21 is installed in a center hole of the cover plate 17, a gap is formed between the center hole of the first sleeve 21 and the outer diameter of the first connecting rod 20, and the first connecting rod 20 containing the first direct drainage valve 16 slides up and down. The water valve core 22 is arranged in the water valve inner cavity 23, the water valve inner cavity 23 is not less than the water valve core 22, the inner diameter of the neck 25 is not less than the water valve core 22, and the water valve core 22 slides up and down in the water valve inner cavity 23 and the neck 25 under the traction of the first connecting rod 20. When the water valve core 22 descends to block the water valve inner cavity 23, water is stopped for closing the channel; when the water valve core 22 moves upwards and moves to the bottom of the cover plate 17 to stop moving, the water valve core 22 leaves the water valve inner cavity 23 to discharge water as a passage. The first connecting rod 20 is pressed down under the action of gravity of the balancing weight 18, the water valve core 22 is also pressed down to the water valve inner cavity 23, the high-pressure water introduced by the second connecting pipe 24 pushes the water valve core 22 to move upwards to open a water channel and to move to the height of the bottom surface of the cover plate 17, and the balancing weight 18 pushes the water valve core 22 to move downwards so as to achieve the automatic up-down purpose. The first direct drainage valve 16 and the second direct drainage valve 28 are connected in series synchronously and are connected through a first flange 15, the first direct drainage valve 16 is communicated with the water inlet 12 through a second connecting pipe 24, the ball valve 10 is pushed to roll up and down to be separated from and close to the water inlet 12, water is introduced into the inner cavity 11 of the ball valve and is connected to the water injection pipe 7 through the water outlet 34, the water enters the wheel disc 2 of the water turbine of the power generation mechanism, the power generator 6 is driven to work through the driving wheel 3 and the driven wheel 5 in a variable speed mode, the wheel disc 2 can be driven to rotate when the water in the water tank 4 of the wheel disc 2 is stored to be above 10kg in weight, the bottom end of the wheel disc 2 is provided with a high-level water tank 32, and the high-level water tank 32 can convey water to the high-level water pipe 31 to enter the next cycle. The static water in the high-level water tank 32 is converted into high-pressure water for use.

Embodiment 2, referring to fig. 3, 4, 5, 7, 8, 9, 12 and embodiment 1, the first straight drain valve 16 and the second straight drain valve 28 are modified into a piston type straight drain valve, the valve comprises a cylinder body, a piston and a piston ring, the cylinder body has a water inlet and a water outlet, the water inlet and the water outlet also work as the first cylinder is connected with the second cylinder, the outer diameter of the inner cylinder body 39 is provided with the piston ring 38, the top surface of the inner cylinder body 39 is provided with a pressing block 41, the pressing block 41 and the piston ring 38 form a compression cavity, the top plate of the inner cylinder body 39 is provided with a central hole and a connecting rod 42, the top end above the connecting rod 42 is provided with the pressing block 41, the bottom end of the connecting rod 42 is arranged above a bottom plate 47, the inner cylinder body 39 is arranged in the inner cavity of the outer cylinder body 37, the inner cylinder body 39 and the pressing block 41 slide up and down in the inner cavity of the outer cylinder body 37, the compression cylinder body 37 is provided with the water outlet 35, the lower part of the outer cylinder body 37 is provided with a water inlet pipe 48, the bottom edge 46 of the inner cylinder body 39 is a cylinder bottom cavity 36, the water outlet 35 of the compression cylinder is arranged in the inner cavity 36 of the cylinder bottom, the water inlet pipe 48 is arranged in the inner cavity 36 of the cylinder bottom to push the inner cylinder body 39 to the top, the bottom edge 46 of the inner cylinder body is higher than the water outlet 35 of the compression cylinder, the water path is opened and water is discharged from the water outlet 35 of the compression cylinder, when the inner cylinder body 39 ascends to the bottom surface of the top plate of the outer cylinder body 37 to stop, the inner cylinder body 39 is pushed to the cylinder wall to shield the water outlet 35 of the compression cylinder by the gravity of the pressing block 41 and the compression force between the piston ring 38 and the pressing block 41 to be closed, then high-pressure water entering from the water inlet pipe 48 enters and pushes the inner cylinder body 39 to the top again, and the inner cylinder body 39 descends under the gravity of the pressing block 41 to realize the water opening and closing circulation. The inner cylinder body 39 and the outer cylinder body 37 are similar to the structure of a common cylinder.

Embodiment 3, referring to embodiments 1 and 2 and fig. 6, 10, 11 and 13, the first straight drain valve or piston straight drain valve is changed into a pressure storage buffer type straight drain valve, the housing 52 has a bottom plate 49 to form a water chamber 50, the panel 54, the closing plate 53 and the cap neck 60 form a pressure storage buffer chamber 59, the closing plate 53 and the panel 54 have a hole at the center to accommodate a second collar 55, the shaft 56 is accommodated in the center hole of the second collar 55 to slide up and down, the top surface of the shaft 56 is provided with a reset plate 57, the reset plate 57 is provided with a valve panel 58, the core 51 is arranged in the water chamber 50, the water chamber 50 is connected with a water pipe waterway, the core 51 is lifted up by water entering the water chamber 50, the outer diameter of the core 51 is quite large as the inner diameter of the water pipe waterway, but the water chamber 50 can slide up and down the core 51 moves up to the shaft 56 and the reset plate 57 to enable the buffer chamber 59 to form pressure storage, the reset plate 57 moves up to the bottom surface of the valve panel 58, and then the reset plate 57 moves to the bottom surface of the reset plate 57, the push-down core 51 blocks the water pipe waterway to stop water, otherwise, the core 51 goes up the water pipe waterway and is water-through, and the installation connection of the pressure storage buffer type direct drainage valve is also formed by connecting two water valves with the same structure in series and then connecting the two water valves to the ball valve. Realizing automatic water absorption and drainage up and down.

Embodiment 4, refer to embodiments 1, 2, and 3, change the water valve into the gravity plate automatically regulated high-order direct drainage water valve, refer to fig. 14, its modified structure is: the first direct water discharge valve 16 and the second direct water discharge valve 28 are changed into a first high-position direct water discharge valve 63 and a second high-position direct water discharge valve 64, the first high-position direct water discharge valve 63 and the second high-position direct water discharge valve 64 are installed on the water pipe 62 in series and communicated with the inner diameter of the water pipe, the water valve core 22 is vertically arranged in the inner diameter of the water pipe 62 through the compression cavity 40, the outer diameter of the water valve core 22 is smaller than or equal to the inner diameter of the water pipe 62 and smaller than the inner diameter of the compression cavity 40, the valve seat 19 of the first high-position direct water discharge valve 63 is fixedly installed above the water pipe 62, the top surface of the compression cavity 40 is provided with a valve panel 58, a cushion is arranged on the top panel, a support 65 is arranged above the top plate 9, a flange is arranged above the support 65, a weight 18 is arranged above the flange, the weight block 18 is fixedly arranged on the top of the first connecting rod 20, the bottom end of the first connecting rod 20 is provided with the water valve core 22, the first connecting rod 20 pulls the water valve core 22 up and down, the water core 22 moves up and up by the water pressure of the water pipe 62, the water valve core 22 is higher than the inner diameter of the water pipe 62 for water passing, the water valve core 22 moves upwards to the bottom surface of the valve panel 66, and the inner core cavity 22 is pressed down by the gravity of the balancing weight 18 on the top of the first connecting rod 20 to return to the inner diameter of the water pipe 62 for water stop. The water buoyancy lifts the water valve core 22 away from the inner diameter of the water pipe 62 to supply water, the ball pressing plate 61 is installed on the top surface of the ball valve body 8, when the water supply from the water inlet 12 is insufficient, the ball pressing plate 61 and the ball valve 10 press down to block water, and the water inlet 12 feeds water to jack the ball valve 10 up to realize reciprocating circulation.

According to the utility model, differential pressure is formed between the high-level water tank 32 and the valve pump structure, water passes through the synchronous direct-discharge water valve and the pump, and then differential pressure is formed, so that the water with pressure enters the water injection port 33 to the water tank 4 and then the water turbine wheel disc 2 rotates, and the generator 6 is driven to work in a load mode.

Claims (3)

1. A high-potential-difference hydrostatic circulating power generation device comprises a bearing seat, a wheel disc, a driving wheel, a water tank, a driven wheel, a power generator, a water injection pipe, a ball valve body, a top plate, a ball valve inner cavity, a water inlet, a seat plate, a first connecting pipe, a first flange, a first straight drain valve, a cover plate, a balancing weight, a valve seat, a first connecting rod, a first sleeve, a water valve core, a water valve inner cavity, a second connecting pipe, a neck, a second balancing weight, a second connecting rod, a second straight drain valve, a third connecting pipe, a switch, a high-level water pipe, a high-level water pool, a water injection port, a water outlet, a compression cylinder water outlet, a cylinder bottom inner cavity, an outer cylinder body, an inner cylinder body, a compression cavity, a pressing block, a connecting rod, a first ferrule, a cylinder upper cavity, an inner cylinder top, an inner cylinder bottom edge, a bottom plate, a water inlet pipe, a bottom edge plate, a water cavity, a core, a shell, a sealing plate, a panel, a second ferrule, a shaft, a reset plate and a valve panel, The water turbine is characterized in that a high-level water tank (32) and the high-level water pipe (31) form a high-level pressure water pipeline mechanism, a water injection pipe (7), a water injection port (33), a wheel disc (2), a driving wheel (3), a water tank (4), a driven wheel (5) and a generator (6) form a water turbine generating mechanism, a first straight drain valve (16), a second straight drain valve (28) and a ball valve body (8) form a differential pressure valve pump pipeline mechanism, the bottom port of the high-level water pipe (31) below the bottom of the high-level water tank (32) is connected with the second straight drain valve (28), the second straight drain valve (28) is connected with the first straight drain valve (16), the first straight drain valve (16) is connected with the ball valve body (8), and the ball valve body (8) is connected with the water injection port (33) of the water turbine generator, the first direct drain valve (16) is provided with a water valve inner cavity (23), a water valve core (22) is installed at the bottom end of a first connecting rod (20), a balancing weight (18) is installed at the top end of the first connecting rod (20), a bottom opening of a compression cavity (40) of the inner cavity of the first direct drain valve (16) is communicated with the inner diameter of a water pipe (62) and communicated with the inner diameter of the water pipe, the water valve core (22) slides up and down between the compression cavity (40) and the inner diameter of the water pipe (62), the water valve core (22) is pulled by the first connecting rod (20) to move up and down, the balancing weight (18) and the water valve core (22) move up and down synchronously under the pulling of the first connecting rod (20), a ball valve body (8) is provided with a ball valve inner cavity (11) for installing a ball valve (10), the ball valve inner cavity (11) is provided with a water inlet (12) and a water outlet (34), and a ball pressing plate (61) is arranged on the top of the ball valve (10).

2. The high head hydrostatic cycle power generation facility of claim 1, wherein the first direct drainage valve (16) and the second direct drainage valve (28) are identical in structure, and the counterweight (18), the first connecting rod (20), and the water valve core (22) are identical in installation and use.

3. A high head hydrostatic cycle power plant according to claim 1, wherein the bottom of the first connecting rod (20) has a water spool (22) mounted through a central hole in the cover plate (17).

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