RU1813917C - Wind motor - Google Patents

Abstract

The invention relates to wind energy and can be used in wind turbines. SUMMARY OF THE INVENTION: A wind turbine comprises a rotary head mounted on a support with a wind wheel kinematically connected to a compressor, a turbine located at the bottom of the support, kinematically connected to an electric generator and communicated with the compressor via an air supply regulator, a receiver and an air duct. The turbine has a nozzle for supplying water-air mixture to its blades, communicated through a pipeline with a circulating water tank and through a regulator with a receiver, and the electric generator is equipped with a voltage indicator electrically connected to the regulator. The voltage indicator is made in the form of rectifiers, shunt relays, the resistors of which are connected in series. the regulator is electrically connected to the rectifier by means of resistors, and the rectifier is also connected to the relay coils through variable resistors connected in parallel to it. The air supply regulator is made in the form of liquid filled chambers facing each other, the walls of which are made elastic, an electromagnet with windings connected to resistors and a rectifier, and the core of the electromagnet is mounted with the possibility of movement in one of the chambers. When the voltage of the electric generator changes after the load, the voltage indicator accordingly changes the current strength in the windings of the electromagnet, causing the core to move and the pressure of the latter on the elastic walls through the fluid. In this case, the diameter of the hole in the walls and the air supply to the nozzle change until the voltage of the electric generator becomes nominal again. Recycled water mixed in the nozzle with a stream of compressed air acting on the blades of the turbine is pumped into a container to increase its kinetic energy after being used in the turbine. The wind turbine is stopped by stopping the air supply from the receiver to the regulator and nozzle. 2 s.p. f-ly, 2 ill. & Ё 00 с Ч) V4

Description

The invention relates to wind energy and can be used in wind turbines.

The purpose of the invention is to increase efficiency.

In FIG. 1 shows a wind turbine, general view; figure 2 - schematic electrical diagram of a wind turbine.

The wind turbine comprises a rotary head 2 mounted on a vertical support 1 with a wind wheel 3 kinematically connected to the compressor 4, a turbine 5 located in the lower part of the support 1, kinematically connected to the electric generator 6 and communicated with the compressor 4

by means of an air supply regulator 7, a receiver 8 and an air duct 9. The wind turbine is equipped with a circulating water tank 11 connected to each other by a pipe 10 and a nozzle 12 communicated via an air supply regulator 7 with a receiver 8, and the electric generator b is equipped with a voltage indicator electrically connected to the air supply regulator 7.

The voltage indicator is made in the form of rectifier 13, shunted relays 14, the resistors 15 of which are connected in series. In this case, the regulator 7 is electrically connected to the rectifier 13 by means of resistors 15 of the relay 14, and the rectifier 13 by means of parallel connected variable resistors 16 is connected to the coils of the relay 14.

The air supply regulator 7 is made in the form of chambers filled with liquid 17 facing each other, the walls 18 of which are made elastic, the electromagnet 19, the windings of which are connected with resistors t5 and rectifier 13, and the core 20 is mounted with the possibility of movement in one from the cameras.

The wind turbine operates as follows.

Turning with the head 2 on the support 1 under the influence of a side wind, the wind wheel 3 is self-oriented to the wind, i.e. mounted by the shaft in the wind direction. After that, the wheel rotated by the wind drives the compressor 4. Compressed air from it passes through the air duct 9 to the receiver 8 and through the air supply regulator 7 to the nozzle 12, where it is mixed with the circulating water coming through the pipeline 10 from the tank 11 and into in the form of a jet of water-air mixture is ejected from the nozzle onto the blades of the turbine 5, which drives the electric generator 6. The generated alternating current is supplied to the consumers. The rectifier 13 connected to the electric generator b converts the alternating current to a constant current, which therefore, it passes through a series of resistors 15, shunting the normally open contacts of the relay 14, and into the winding of the electromagnet 19. Simultaneously, the current from the rectifier 13 passes in parallel through the variable resistors 15 included in the power supply circuit of the relay coils 14. When the load on the generator 6 decreases, and its voltage increases, relays 14 alternately close their contacts. This leads to an increase in the current in the electromagnet 19, the movement of the core 20, increasing its pressure on the liquid 17 in the chamber of the controller 7 and

a reducing hole in the elastic walls 18 of the chamber for the passage of air to the nozzle 12. As a result, the rotational speed of the turbine 5 with the electric generator 6 together with the voltage of the latter decreases to the nominal value.

When the load on the electric generator increases, causing its voltage to drop, part of the relay 14 opens its contacts. In this case, the current strength in the winding of the electric generator 19 together with the pressure of its core 20 on the liquid 17 decreases, and the hole in the walls 18 and the air supply to the nozzle 12 increases until the voltage of the electric generator 6 becomes nominal again. During the operation of the turbine 5, the waste water therein is pumped into the tank 11.

The wind turbine is stopped by stopping the supply of compressed air from the receiver 8 to the air supply regulator 7.

Claims (3)

1. A wind turbine comprising a rotary head mounted on a vertical support with a wind wheel kinematically connected to a compressor, located at the bottom of a turbine support, kinematically connected to an electric generator and communicated with a compressor by means of an air supply regulator, a receiver and an air duct, characterized in that, in order to increase the efficiency, the wind turbine is equipped with a circulating water tank and a nozzle, connected through a pipeline, connected through the air supply regulator to the receiver, and lektro. generator - with a voltage indicator electrically connected to the air supply regulator. 2. The wind turbine according to claim 1, with the fact that the voltage indicator is made in the form of rectifiers, shunt relays, the resistors of which are connected in series, while the air supply regulator is electrically connected connected to the rectifier by means of relay resistors, and the rectifier by means of parallel connected variable resistors - with relay coils. 3. The wind turbine according to claim 1, with a rout and the fact that the air supply regulator is made in the form of liquid-filled chambers facing each other, the walls of which are made elastic, an electromagnet whose windings are connected with resistors and a rectifier, and the core is movably mounted in one of the chambers.