SU1765485A1 - Wave floating hydroelectric power station - Google Patents

Abstract

Use: to convert wave energy into electrical energy. SUMMARY OF THE INVENTION: A hydroelectric power plant contains a main support with pumps connected to a hydraulic unit, and floats with levers, the free ends of which are hingedly attached to the support and connected to the working bodies of the pumps, the latter being made part-turn double-sided. The support is equipped with vertical stabilizers, levers are wave receiving plates, and the outlet from the hydraulic unit is equipped with a suction pipe with check valves, while the support is submerged under the water level, and the wave receiving plates are rigidly attached in the float zone inclined to the axis of the levers. 2 Il.

Description

The invention relates to the field of hydropower engineering and can be used in hydropower to convert the energy of sea and ocean waves into electrical energy.

As an analogue, a motor driven by waves is selected, containing a composite variable-length double-arm lever pivotally mounted on the shore support, where a float (in the form of a barrel, cistern, boat, etc.) and a movable shield are fixed at one end slope, and at its other end there is a sector with obliquely cut movable rails and a ratchet wheel on the shaft,

The disadvantages of the engine are the inability to use in it the energy of the passing waves of any direction, fixing and using it in any point of the water basin, lack of reliability and low resource of its work.

A floating water engine is known for driving a pump comprising a raft and one or several pairs of double-arm levers fixed on it pivotally, where blades with pivoting flaps are rigidly attached to their lower ends, pivoting their shafts, a transient multilink shaft and piston pumps , the rods of which are connected through the shaft with the upper ends of the double-arm levers.

The disadvantages of the water engine are the lack of reliability, the low life of its work, the presence of idling of the double-arm pairs and the lack of efficiency of its use.

A wave pumping installation is also known, having a fixed support fixed at the bottom with a double-arm lever hinged to it, where at one end there is a movable float, and at the other end there is a working chamber of variable volume of two bellows pipes interconnected by a plate.

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The disadvantages of the known installation are insufficient reliability and resource of its work, the inability to use it anywhere in the water basin and the use of waves in any direction, the complexity of its installation, the inconvenience of its maintenance and repair.

As a prototype, a wave floating power plant was selected, containing a support, levers with floats attached to its two sides, piston hydraulic pumps mounted on top of the support, each lever and pump are connected kinematically between each other, and the outlets of the pumps are connected to the hydraulic unit.

The disadvantages of the known power plant are the presence of support with positive buoyancy in it, two-way fastening of the levers with floats, the arrangement of piston pumps on top of its support, the absence of braking devices for limiting the travel of the levers more than the design and suction pipe with non-return valves, which significantly reduces the reliability and service life. .

The aim of the invention is to increase the reliability and service life of a hydroelectric station.

This goal is achieved by the fact that in a wave floating hydroelectric station containing a support, levers with floats attached to its two sides, piston hydraulic pumps mounted on top of the support, each lever and pump are connected to each other kinematically, and the outlets of the pumps are connected to the hydraulic unit according to the invention equipped with vertical stabilizers, levers-waveguide plates, and the output from the hydraulic unit is equipped with a suction tube with check valves, while the pumps are made of non-rotary double action, the support is with adjustable buoyancy and is loaded under the water level, the wave receiving plates are rigidly attached in the zone of floats with an inclination to the axis of the levers,.

Figure 1 shows a General view of the hydroelectric station; in FIG. 2, node I in FIG.

The hydroelectric power plant contains a floating support 1, vertical stabilizers 2 of its negative buoyancy, stabilizers 3 in the direction of motion of the waves, hydraulic semi-rotary double-action pumps 4 with single-arm levers 5, where their free ends are provided with floats 6, and wave receiving plates 7 attached inclined to the axis levers 5, hydraulic unit 8 with suction pipe 9 with check valves

10, pipelines 11 connecting the outlets of the pumps 4 to the turbine of the hydraulic unit 8.

The operation of the hydroelectric power station begins with its being brought to the working place at the installation site, where vertical stabilizers 2 of the required weight are mounted on support 1 at the required points, which ensures its negative buoyancy with

0 full immersion of the pump casing 4 below the calm water level in the pool in the range from 0 to 0.05-0.10-0.15 length of the lever 5, and then it is transported by water to the place of work and secured

5 for measles. The action of the energy of the transmitted waves on the plane of the stabilizers 3 the station automatically rotates and is held in the direction of their movement. At the same time, the waves passing through the station

0 affect the floats 6 and the wave receiving plates 7 rotate the levers 5 up to their design position, where the plates 7 occupy a horizontal position and play the role of a limit switch

5 movements of the levers 5 due to their further tilting back to the direction of the moving waves and their effect on the already reverse plane of the plates 7. With the removal and decrease of the height of the waves, the levers 5

0, under its own weight, turns down to the base of the wave. The oncoming successive waves again provide the turning of the levers 5 upwards. The cycle is repeated. The resulting reciprocating movement of the levers 5 ensures the operation of semi-rotary double-acting pumps 4, their continuous supply of required parameters through hydraulic pipe 11 to the hydraulic unit 8, which ensures its normal operation and the production of electricity by it. The waste water in the hydraulic unit 8 enters the suction pipe 9 and is discharged through check valves 10 into the pool. If necessary, you should dismantle vertical stabilizers 2 for this period to inspect or repair the station's working bodies, which ensures that its support with negative buoyancy is transferred to positive, convenience,

0 quality and reduced turnaround time.

Claims (1)

The invention of the Volnova floating hydroelectric power plant, containing a main support with 5 noses connected to the hydraulic unit, and floats with levers, the free ends of which are pivotally attached to the support and associated with the working bodies of the pumps, characterized in that, in order to increase reliability and service life work support equipped with vertical stabilizers, levers - wave receiving plates, and the output of the hydraulic unit - suction pipe with check valves, while two-sided action, support - with adjustable buoyancy and submerged under the water level, and wave receiving plates are rigidly attached in the area of floats with Pumps are made with a half-turn 5 clone to the axis of the levers. Calm I 57 6 2.