RU205885U1 - Wave power plant - Google Patents

Abstract

The utility model relates to the field of electricity production by converting mechanical energy, for example, the energy of sea waves, into electrical energy. to vertical reciprocating movement inside the stator. The wave power plant contains a rocker, kinematically connecting the rod of the generating core with the upper end of the rod, at the lower end of which a float is fixed by means of a hinge device. The rocker arm is fixed on the bracket with the possibility of rotation by means of the rocker arm support. The ends of the rod and rod are connected to the rocker with the possibility of rotation by means of hinges located in the middle and end of the rocker at distances, respectively, relative to the rocker support. The use of a lever mechanism with a rocker in the design of the wave power plant allows to increase the speed of movement of the generating core inside the stator, which increases the efficiency of the installation.

Description

The utility model relates to the field of electricity generation by converting mechanical energy, for example, the energy of sea waves, into electrical energy.

Known float wave power plant (RU application 2007130120, publ. 20.02.2009), consisting of a sealed floating housing having an internal cavity with an energy converter located in it, which is a linear electric generator, including stator windings and an inductor, installed concentrically with the possibility of relative vertical return - translational motion. In this case, the inductor, equipped with a core, is made of several annular sections of permanent magnets, docked with the same poles, the stator windings are made separately for each section and are interconnected in the same direction of current and are fixedly fixed on the wall of the housing cavity, and the permanent magnets of the inductor are made in the form of inertial masses. The wave power plant is equipped with a vertical support installed at the bottom of the reservoir and passing through the cavity of a sealed floating hull that can move along this support. The disadvantages are low efficiency and unevenness of the process of converting mechanical energy of waves into electrical energy.

Known wave power plant (RF patent No. 2440510) contains a vertical rack, fixedly installed in the soil of the reservoir, and a housing reinforced on it, in which a linear electric current generator is located, consisting of a stator and a generating core capable of vertical reciprocating movement inside the stator, float, rod, kinematically connecting the generating core with the float. The stator and the generating core are located inside the housing. The generating core is capable of vertical reciprocating movement inside the stator thanks to support rollers that move along vertical guide beams rigidly fixed to the roof and the bottom of the housing. Vertical guide beams and support rollers move the generating core inside the stator while maintaining a gap between them. To limit the stroke of the movable part of the structure, consisting of a float and a rod and a generating core rigidly connected to each other, dampers are placed at the ends of the vertical guide beams.

The disadvantage of this wave power plant is the low speed of movement of the generating core inside the stator when the wave runs.

The task of the utility model is to improve the design of the wave power plant, which makes it possible to increase the efficiency.

The technical result of using the proposed wave power plant is to increase the speed of movement of the generating core inside the stator.

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относительно опоры коромысла. Рычаг для обеспечения вертикального положения штанги с поплавком при повороте коромысла, расположен параллельно коромыслу, одним концом закреплен на кронштейне с возможностью поворота посредством шарнира, а другим концом соединен со штангой с возможностью поворота посредством шарнира. Корпус установлен на кронштейне с возможностью поворота посредством шарнира. Кронштейны жестко закреплены на вертикальной стойке.The technical result is achieved by the proposed wave power plant containing a vertical rack, stationary installed, for example, in the soil of a reservoir, and a housing reinforced on it, in which a linear electric current generator is located, consisting of a stator and a generating core capable of vertical reciprocating movement inside the stator ... The body is made in the form of a hollow box made of non-metallic material with central holes on the roof and on the bottom. The generating core with the rod is capable of vertical reciprocating movement inside the stator thanks to support rollers that move along vertical guide beams rigidly fixed to the roof and the bottom of the housing. Support rollers are attached to the side surface of the generating core. To limit the stroke of the generating core, dampers are placed at the ends of the vertical guide beams. The wave power plant contains a rocker, kinematically connecting the rod of the generating core with the upper end of the rod, at the lower end of which a float is fixed by means of a hinge device. The rocker arm is fixed on the bracket with the possibility of rotation by means of the rocker arm support. The ends of the rod and rod are connected to the rocker with the possibility of rotation by means of hinges located in the middle and end of the rocker at distances, respectively

and

relative to the rocker arm support. The lever for ensuring the vertical position of the rod with the float when the rocker arm is turned is located parallel to the rocker arm, at one end it is fixed on the bracket with the possibility of rotation by means of a hinge, and at the other end it is connected to the rod with the possibility of rotation by means of a hinge. The body is mounted on a bracket with the possibility of rotation by means of a hinge. The brackets are rigidly fixed to the upright post.

FIG. 1 shows a wave power plant in the neutral position of the float. FIG. 2 shows a wave power plant in the extreme upper position of the float.

The wave power plant contains (Fig. 1) a vertical rack 1, stationary installed, for example, in the soil of a reservoir 2, and a housing 7 fixed on it, in which a linear electric current generator 3 is located, consisting of a stator 12 and a generating core 13 capable of vertical reciprocating movement inside the stator 12. The housing 7 is made in the form of a hollow box made of non-metallic material with central holes 10 and 11 on the roof 8 and on the bottom 9. The generating core 13 with the rod 5 is capable of vertical reciprocating movement inside the stator 12 due to support rollers 14, which move along vertical guide beams 6, rigidly fixed on the roof 8 and bottom 9 of the housing 7. Support rollers 14 are attached to the lateral surface of the generating core 13. To limit the stroke of the generating core 13, dampers 15 are placed at the ends of the vertical guide beams 6. The wave power plant contains a rocker o 16, kinematically connecting the rod 5 of the generating core 13 with the upper end of the rod 17, at the lower end of which the float 4 is fixed by means of the hinge device 18. The rocker 16 is fixed on the bracket 19 with the possibility of rotation relative to the support of the rocker 20.

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относительно опоры коромысла 20. Рычаг 23 для обеспечения вертикального положения штанги 17 с поплавком 4 при повороте коромысла 16, расположен параллельно коромыслу 16, одним концом закреплен на кронштейне 19 с возможностью поворота посредством шарнира 24, а другим концом соединен со штангой 17 с возможностью поворота посредством шарнира 25. Корпус 7 установлен на кронштейне 26 с возможностью поворота посредством шарнира 27. Кронштейны 19 и 26 жестко закреплены на вертикальной стойке 1.The ends of the rod 17 and the rod 5 are connected to the rocker 16 with the possibility of rotation by means of the hinges 21 and 22, respectively, located at the middle and end of the rocker 16 at distances, respectively

and

relative to the support of the rocker arm 20. The lever 23 for ensuring the vertical position of the rod 17 with the float 4 when the rocker arm 16 is turned is located parallel to the rocker arm 16, at one end is fixed on the bracket 19 with the possibility of rotation by means of the hinge 24, and the other end is connected to the rod 17 with the possibility of rotation by means of hinge 25. The body 7 is mounted on the bracket 26 with the possibility of rotation by means of the hinge 27. The brackets 19 and 26 are rigidly fixed on the vertical post 1.

The wave power plant works as follows. When the wave is running up (Fig. 2), the float 4 rises with the wave upward and raises the bar 17, which, while maintaining its vertical position with the help of the lever 23, moves up the hinge 21 of the rocker arm 16 at a linear velocity V. In this case, the rocker arm 16 rotates relative to the support of the rocker arm 20 and moves up the hinge 22 together with the rod 5 and the generating core 13 at twice the linear speed 2V. The generating core 13 moves upward on support rollers 14 along the vertical guide beams 6 relative to the stator 12. When the wave peak passes, its level decreases, and with it the float 4 descends under the influence of its weight, the weight of the rod 5 and the generating core 13. With a reciprocating the movement of the generating core 13 inside the stator 12 changes the magnetic field, due to which EMF appears in the stator windings 12, which is transmitted to the central network for conversion. Moreover, due to the doubled linear speed of movement of the generating core 13 inside the stator 12, the efficiency of the power plant increases. The course of the generating core 13 along the vertical guide beams 6 is designed for the maximum wave height in this reservoir and is provided by dampers 15 installed and fixed on the vertical guide beams 6.

Claims (1)

A wave power plant containing a vertical stand, fixedly installed in the soil of the reservoir, and a housing fixed on it, in which a linear electric current generator is located, consisting of a stator and a generating core capable of vertical reciprocating movement inside the stator, the housing is made in the form of a hollow box made of a non-metallic material with central holes on the roof and on the bottom, the generating core with the rod is capable of vertical reciprocating movement inside the stator thanks to support rollers that move along vertical guide beams rigidly fixed on the roof and bottom of the housing, support rollers are attached to the side the surface of the generating core, to limit the stroke of the generating core, dampers are placed at the ends of the vertical guide beams, characterized in that it contains a rocker, kinematically connecting the rod of the generating core with the upper end of the rod, at the lower the end of which a float is fixed by means of a hinge device, the rocker arm is fixed on the bracket with the possibility of rotation by means of the support of the rocker arm, the ends of the rod and the rod are connected to the rocker arm with the possibility of rotation by means of hinges located in the middle and end of the rocker arm at distances, respectively

and

relative to the rocker arm support, the lever for ensuring the vertical position of the rod with the float when the rocker arm is rotated is located parallel to the rocker arm, at one end it is fixed on the arm with the possibility of rotation by means of a hinge, and at the other end is connected to the arm with the possibility of rotation by means of a hinge, the body is mounted on the arm with the possibility of rotation by means of hinge, brackets are rigidly fixed to the vertical post.

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