RU2076237C1 - Wave-powered generator - Google Patents

Abstract

FIELD: hydroelectric power engineering; conversion of wave energy into electricity. SUBSTANCE: wave-powered generator has mount, vertical barrel with cover and bottom provided with wave admission port, check valve, and wave energy converter in the form of vertical shaft rigidly coupled with carrel cover whose side wall has in its bottom part vertical, tangentially arranged slits. Novelty is that wave-powered generator has, in addition, second barrel, electric generator, and wave admission ports; second barrel is loosely couped with first barrel through vertical shaft rigidly fixed with second-barrel cover; shaft carries tightly fitted annular magnetic rotor of electric generator whose stator is rigidly fixed with first-barrel bottom which is coupled with mount; vertical, tangentially arranged slits of second barrel are oriented in opposite directions to those of first barrel. EFFECT: improved design. 5 dwg

Description

 The invention relates to hydropower and can be used in all sectors of the economy to create additional energy sources.

 A wave engine is known comprising a vertical housing with a wave receiving hole, a valve and a wave energy converter, where the body is cylindrical with a cover and a bottom, a wave receiving hole is made in the bottom, the valve is reverse and installed in the hole, the converter is a vertical shaft and is rigidly connected to the cover case, while in the lower part of the side wall of the case made vertical tangentially located slotted holes.

 A disadvantage of the known design is the low efficiency.

 The technical result of the invention is to increase the efficiency.

 The technical result is achieved in that in a wave generator containing a vertical cylindrical body with a cover and a bottom, in which a wave receiving hole is made, a check valve and a wave energy converter in the form of a vertical shaft, rigidly connected to the body cover, in the lower part of the side wall of which are made vertical tangentially located slotted holes, characterized in that it further comprises a second vertical cylindrical body, an electric generator, a support, wave receiving holes rstia, and the second vertical cylindrical housing is movably connected to the first housing through a vertical shaft rigidly connected to the cover of the second housing, and the rotor of the generator is rigidly mounted on the shaft, and the stator is rigidly connected to the bottom of the first housing, which is connected to the support, and the vertical tangentially located slotted the holes of the second body are directed in the opposite direction to the same holes of the first body.

 Figure 1 shows a wave generator; in Fig.2 and 3, the first and second cylindrical bodies, section, respectively.

 The wave generator comprises a vertical cylindrical body 1 with a cover and a bottom, in which a wave receiving hole 2 is made, a check valve 3 and a wave energy converter in the form of a vertical shaft 4, rigidly connected to the body cover, in the lower part of the side wall of which vertical tangentially located slotted holes are made 5. The main distinguishing features are a second vertical cylindrical body 6, an electric generator 7, a support 8, wave receiving holes 9, the second vertical cylindrical The housing 6 is movably connected to the first housing 1 by means of a vertical shaft 10 rigidly connected to the cover of the second housing, and a magnetic ring rotor 11 of the electric generator 7 is rigidly mounted on the shaft 10, and the stator 12 is rigidly connected to the bottom of the first housing 1, which is connected to the support 8 moreover, the vertical tangentially located slotted holes 13 of the second housing 6 are directed in the direction opposite to the same holes 5 of the first housing 1.

 The wave generator is installed at a certain depth and works as follows.

 With an increase in hydrostatic pressure, the pressure inside the vertical housings 1 and 6 also increases. Through the check valves 3 installed in the wave-receiving holes 2 and 9, water flows into the housings 1 and 6 and reduces the volume of air gaps that are formed when the generator is installed at a depth and in the upper parts of buildings 1 and 6. Further, when the hydrostatic pressure drops under the action of the elastic forces of compressed air, water with reactive force is ejected through the tangentially directed slotted holes 5 and 13, which causes the rotational movement of the housings 1 and 6, and therefore the magnetic ring rotor of the electric generator 11 and the stator 12, and they rotate in opposite directions from each other, since. vertical tangentially directed slotted holes 5 and 13 of the buildings 1 and 6 are directed in opposite directions relative to each other. Moreover, the magnetic field lines of the rotor 11, penetrating the stator winding 12, induce an EMF in them. If the stator winding is closed through an external circuit, then current arises in this circuit, as well as in the stator windings 12.

Claims (1)

 A wave generator comprising a support, a vertical cylindrical body with a cover and a bottom, in which a wave receiving hole is made, a check valve and a wave energy converter made in the form of a vertical shaft rigidly connected to the body cover, in the lower part of the side wall of which there are vertical tangentially located slotted holes, characterized in that it is equipped with an electric generator and a second vertical cylindrical body with wave receiving and vertical tangentially located slotted holes, the second housing being movably connected to the first by means of an additional vertical shaft rigidly connected to the cover of the second housing, a magnetic ring rotor of an electric generator, the stator of which is connected to the bottom of the first housing associated with the support, is rigidly fixed to the additional shaft, while the slotted holes the second housing are directed in the direction opposite to the slotted holes of the first housing.

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