RU90496U1 - WAVE POWER INSTALLATION - Google Patents

Abstract

A wave power plant, including a tank connected to a water supply pipe, an electric generator, a turbine, and a water pumping device, the latter is made in the form of a cylindrical-shaped water pump with a corrugated body, in the body of which there are rigid hoops located at the places of the bend of the corrugated body perpendicular to its longitudinal axis, and the water blower is installed horizontally at a predetermined depth of the relative surface of the water with the possibility of arranging a longitudinal axis of the corrugated body perpendicular to the front of the incident waves, in the inner cavity of the corrugated body of the water blower there are walls forming separate sections communicating with each other through check valves with the possibility of compression together with the corrugated body of the water blower, at one end the corrugated body of the water blower has an intake hole, on the other end the water outlet side has a discharge opening connected directly to the inlet of the water supply pipe, and the water supply pipe at the point of its connection to the water pump is raised to the level of its water outlet with the possibility of connecting the water inlet pipe to the water pump discharge port, and a through hole is made in the bottom of the water receiving tank, to which the upper end of the pipeline is connected directly water outlet, the lower end of which is connected to a water turbine connected to the electric generator by means of a common shaft.

Description

The utility model relates to the field of mechanical engineering, namely, to a wave power plant designed to convert the energy of waves of water bodies into electricity.

Known installation for energy conversion according to patent No. 60642, class. F03B 17/04, publ. 2007.01.27., Which contains a hydraulic turbine, an electric generator, a water feeder made in the form of a hollow body of rectangular cross section open from above and from below, a diaphragm is located inside for reciprocating movement from one wall with holes to another.

A disadvantage of the known analogue is not the reliability of the installation, since the electric generator is installed inside the installation itself and is not provided with sealing, which leads to its rapid wear.

Known wave power plant according to patent No. 599744, class. F03B 13/18, publ. 2006.12.27., Which contains a semi-submerged platform with drives and pumps, movably mounted on a columnar bottom support, floats with keels, drives and pumps are in the transverse front of the direction wave, a rotor wind turbine is installed on the protruding part of the support, on the shaft of which there are parts of the threshold system connecting the wind turbine when the specified values of the storm impact are exceeded and the platform retention system when the storm impact is reduced to acceptable levels.

The known installation has a complex structure, time-consuming and not reliable in operation.

Known wave power plant according to patent No. 49135, according to class. F03B 13/16, publ. 2005.11.10., Which contains a floating hull, a mechanical transducer of sea wave energy, a pendulum, two gear sectors are installed on its axis, each of which is engaged with a corresponding gear wheel mounted on the deck of the ship, an electric generator installed inside the hull, shaft its rotor is connected to the corresponding gears.

The well-known wave power plant, like the previous analogue, has a complex structure, laborious in operation.

The closest analogue to the claimed utility model for the combination of essential features and purpose is the wave power plant according to patent No. 57840, class. F03B 13/12, publ. 2006.10.27., Which contains a vertical support with a glass mounted on it and fixed at the bottom of a reservoir, a pump is fixed outside the glass cup and connected to a hydro-pneumatic accumulator via a pipeline, and a turbine is connected through a constant pressure valve to a hydro-pneumatic accumulator and a drain is connected to the turbine outlet nozzle, on the rod is a float connected to the pneumatic line, which is connected to a source of compressed air, there are also hydrostatic pressure sensors.

However, this analogue has a rather complicated and not sufficiently reliable design for resistance to adverse external factors, since the connection of pipelines to the float and pump, mechanically connected with the short arm of the swinging rod, cannot provide the dynamics of negative and positive buoyancy, since the float can often come out failure and not be filled with water, and the disconnection of the turbine with a source of compressed air does not entail the stability of the entire installation.

The technical task of the proposed utility model is to simplify its design, increase the reliability of the wave power plant in any conditions of its operation, as well as improve the quality of the conversion of wave energy into electricity.

The problem is solved with the achievement of a new useful technical result, due to the fact that in a wave power plant including a tank connected to a water supply pipe, an electric generator, a turbine and a device for pumping water (features similar to the closest analogue), the latter is made in the form a cylindrical-shaped water blower with a corrugated body, in the body of which rigid hoops are installed, located at the bend of the corrugated body perpendicular to its longitudinal axis, The retractor is installed horizontally at a predetermined depth of the relative surface of the water with the possibility of arranging the longitudinal axis of its corrugated body perpendicular to the front of the incident waves, in the inner cavity of the corrugated body of the water blower there are walls forming separate sections communicating with each other through check valves with the possibility of their compression together with the corrugated body of the water blower . The corrugated body of the water blower has an intake hole at one end, the discharge hole is connected at the water outlet at the other end, connected directly to the inlet of the water supply pipe, and part of the water supply pipe at the point of its connection with the water pump is raised to the level of its discharge hole with the possibility of connecting the inlet of the pipeline for supplying water with the discharge opening of the water blower, and through the bottom of the tank for receiving water an opening directly to which the upper end of the water outlet pipe is connected, the lower end of which is connected to a water turbine connected to the electric generator by means of a common shaft.

The implementation of the device for pumping water in the form of a cylindrical water pump makes it possible to arrange in the internal cavity of its corrugated body separate sections communicating with each other via check valves, and the number of these sections can vary depending on the length of the water pump, which expands the technological capabilities of the installation.

The corrugated body of the water blower allows the latter to be compressed during the intake of water from the reservoir, which creates a pressure that facilitates the movement of water through the check valves from one section to another, then to the inlet of the water supply pipe and then to the water receiving tank.

The implementation of the corrugated body in the body at the places of its bending of hard hoops allows the body to be compressed along the longitudinal axis without significant radial expansion.

The utility model is schematically illustrated by the drawing, where in Fig.1 - shows the installation in General;

figure 2 - shows the location of the hard hoops in the corrugated casing of the water blower, a section along aa of figure 1.

The installation includes a device for pumping water, which is made in the form of a cylinder 1 of a cylindrical shape mounted horizontally at a predetermined depth relative to the surface of the water with the possibility of arranging the longitudinal axis of its corrugated body 2 perpendicular to the front of the incident waves, rigid hoops 3 are installed in the body of the corrugated body 2, located in the places of inflection of the corrugated body perpendicular to its longitudinal axis, in the inner cavity of the corrugated body 2 of the water pump 1 at equal walls 4 are installed at a distance from each other (conventionally indicated by one number) with check valves 5, 6, 7 and 8, through which the walls 4 form separate, interconnected sections 9, 10, 11 and 12, and the number of these sections , as well as their valves may vary. On the side of the water intake from the reservoir in the corrugated body 2 of the water pump 1, a sampling hole 13 is made, and on the water outlet side of the water pump 1 there is a discharge hole 14, which is directly connected to the inlet 15 of the water supply pipe 16, and part of the water supply pipe 16 in the place of its connection with the water blower 1 is raised to the level of its discharge opening 14 with the possibility of unhindered connection of the inlet 15 of the pipeline for supplying water with a discharge opening iem 14 vodonagnetatelya 1. The other upper end 17 of the duct 16 for supplying the water discharge opening 18 for egress of water into the tank 19 for receiving water. Part of the water supply pipe 16 is located along the bottom of the reservoir parallel to the coastline in the direction of the shore, and as the depth decreases, the other part is installed perpendicular to the shore base, so that the water supply pipe 16 with its outlet 18 is installed above the open part of the reservoir 19 for receiving water, which is installed ashore on the supports 20 (conventionally indicated by one number in the drawing) with the possibility of a stable and reliable position of this reservoir at the design height relative to the water level in the reservoir, in the bottom 21 of the tank for receiving water, a through hole 22 for water exit is made, the upper end of the water outlet pipe 23 is connected directly to this hole, its lower end is connected to the water turbine 24 to enable direct water supply to it , the water turbine 24 on the other hand is connected to an electric generator 26 converting mechanical energy into electrical energy, while the water turbine 24 and the electric generator 26 are connected by a common shaft 27.

To position the wave power plant at the bottom of the reservoir, a reinforced concrete base 28 is installed, installed on the bottom 29 of the reservoir, which ensures the position of the corrugated body 2 of the water pump 1 at a given depth and perpendicular to the front of the incident waves.

When there are no waves in the reservoir, the water pump 1 with its communicating sections 9, 10, 11 and 12 are not in a compressed state and its sections are filled with water, while the check valves 5, 6, 7 and 8 are in the closed position.

The installation works as follows.

Under the pressure of the incoming waves, water enters through the intake opening 13 into the water pump 1, under the pressure of the incoming water, a pressure is created at which the corrugated body 2 of the water pump 1 is compressed and its communicating sections 9, 10, 11 and 12 are also compressed by the action of the waves, and the valve 5 opens by passing water into section 9 through the intake opening 13 and then flows through the opening check valves 6, 7 and 8, partially flowing into the following sections 10, 11 and 12.

When the wave passes over the water blower 1, sections 9, 10, 11 and 12 can both compress and stretch. So section 11 under the crest of the wave is compressed, and section 9 under the cavity is stretched. When carrying out such lateral deformations of these sections, the check valves 5, 6, 7 and 8 carry out unidirectional movement of water. The number of sections varies depending on the height of the water. To prevent lateral bending of the water blower 1, longitudinal guides (not shown conventionally in the drawing) can be used. Under the pressure of the following incoming waves, the corrugated body 2 of the water pump 1 is again compressed, pushing water from section to section in the direction of the discharge hole 14 through the water valves 1, 6, 7 and 8 of the water pump 1, which are opened under pressure, and at the same time, additional water flows through the opening valves 5, 6, 7, and 8, respectively, in sections 9, 10, 11, and 12 of the water pump 1, as the wave passes over the body 2 of the water pump 1, the communicating sections are alternately compressed and stretched.

Thus, sufficient water pressure is created in front of the discharge opening 14, as a result of which the water through the inlet 15 enters through the pipe 16 for supplying water and then through its outlet 18 enters the reservoir 19 for receiving water. From the reservoir 19, through the opening 22 in its bottom 21, water enters the pipe 23 for water to exit and then into the water turbine 24, forcing it to rotate, which in turn causes the electric generator 26 to rotate, which generates electricity when it rotates. Spent water in a water turbine 24 through a pipe 25 to drain the water flows into the reservoir. Thus, the conversion of wave energy into electric energy occurs.

The utility model claimed for patenting in comparison with the closest analogue and other analogs described above has several advantages:

1. The design of the installation is simplified, which reduces labor and energy costs for its operation;

2. Ensures the reliability of the installation due to the implementation of a water pump of a simple design and from one housing;

3. The quality of the conversion of wave energy into electricity increases due to the constant operation of the water pump, which raises the water to a predetermined level relative to the reservoir.

In case of insufficient water supply, it is possible to use several water blowers at the same time, due to which it becomes possible to keep the water level in the tank constant to ensure continuous operation of the water turbine.

4. Ensures the continuity of the water blower, with the exception of the period of complete calm.

Claims (1)

A wave power plant, including a tank connected to a water supply pipe, an electric generator, a turbine, and a water pumping device, the latter is made in the form of a cylindrical-shaped water pump with a corrugated body, in the body of which there are rigid hoops located at the places of the bend of the corrugated body perpendicular to its longitudinal axis, and the water blower is installed horizontally at a predetermined depth of the relative surface of the water with the possibility of arranging a longitudinal axis of the corrugated body perpendicular to the front of the incident waves, walls are installed in the inner cavity of the corrugated body of the water blower, forming separate sections communicating with each other through the check valves with the possibility of compression together with the corrugated body of the water blower, at one end the corrugated body of the water blower has an intake hole, on the other end the water outlet side has a discharge opening connected directly to the inlet of the water supply pipe, and the water supply pipe at the point of its connection to the water pump is raised to the level of its water outlet with the possibility of connecting the water inlet pipe to the water pump discharge port, and a through hole is made in the bottom of the water receiving tank, to which the upper end of the pipeline is connected directly water outlet, the lower end of which is connected to a water turbine connected to the electric generator by means of a common shaft.