SU1408099A1 - Wind-driven electric plant - Google Patents

Abstract

The invention makes it possible to increase the total energy output by increasing the time for the plant to operate continuously. The car is made in the form of a pipe 10J mounted for rotation. The energy storage device is installed at the base of the tower and is made in the form of vertical windings.

Description

About 00

about with so

ny shaft 2 spring-tapes (PL) 4 and batteries connected with the help of clutches With a spring-loaded battery accumulator - IropoB (PA). In the cylindrical case of each PA there is a rotating Central rod, on which there is at least one ribbon spring attached at one end to the rod and the other to the case. Kineetic bond of a shaft with a wind wheel

1 is made in the form of a mechanical gear 11 connected to a pipe and a wind wheel, and each PL is attached at one end to a shaft and the other to a pipe. With such a performance, after the wind has ceased, the machine is put into operation from charged PAs by successively connecting each of them to the machine, and in the next - by launching the SP. 5 il.

I. one

This invention relates to wind energy, iFeTHKe, and relates to wind power installations including wind energy storage devices.

The purpose of the invention is to increase the total energy production by increasing the time of continuous operation of the installation.

Figure 1 shows the installation of the tower with a wind wheel placed on it; EA figure 2 - diagram of wind 3; installation, top view; on fig.Z - installation, with a large number of wind wheels; 4 shows a spring battery; on fig.Z - section AA on 4 | u. ,four.

I Wind power plant cp;; 1 the tower, the wind-wheel 1 on it, the kinematically connected vertical shaft 2 connected to the latter, p | located inside the tower, the mechanical energy storage connected to the shaft 2, and working machine 3. The energy gun is made in the form of 2 spring tapes 4 wound on a shaft and a battery connected by means of sleeves 5 to a working machine 3 spring-mounted actuators 6, each of which Has a cylindrical body 7, installed the rotating central rod 8 and navi On the latter, at least one ribbon spring 9 attached at one end to the rod 8 and the other to the housing 7, the tower is made in the form of a pipe 10 rotatably mounted, and the kinematic connection of the vertical shaft 2 to the wind wheel 1 - in the form of a mechanical gear 11, connected to the tube 10 and the wind wheel 1, each with a black tape 4 at one end attached to the shaft 2 and the other end to the pipe 10.

On the pipe 10 several windwheels 1 can be installed, and the installation can contain several pipes 10, as well as several working machines 3, which increases the total capacity of the installation when using inexpensive, high-tech windwheels 1 of limited sizes.

As working machines 3, it can be used as electric generators, pumps, compressors, and any actuators necessary for the operation of the installation.

Clutches 5 can be made both electromagnetic and mechanical, including, for example, ratchets 12 and 13, interacting with the help of flags 14 with the body 7 of the battery 6 and the gear wheel 15, kinematically connected with the shaft 2 of the installation. Ratchet wheels 16 and 17, similar to the first one and interacting with a gear wheel 18, are kinematically connected to the working machine 3, are also fixed on the rod 8. For sequential operation of the batteries 6, mechanical counters 19 turns are provided that control with the help of t g 20 stoppers 21 ratchet 12 and 16.

When the installation of its wind turbine 1 is oriented to the wind, turning relative to the pipes 10. Rotation of the wind turbine 1 through a mechanical transmission 11 causes the rotation of the pipe 10 and the twisting of the spring tapes 4 on the shaft 2. After twisting the tapes 4, the rotation from the shaft 2 is transmitted to the gear wheels 15, successively twisting through the ratchets 12,13 and the body. 7 belt springs 9 of batteries 6; After charging of spring batteries 6, the battery is sequentially discharged. 6 to the working machine 3 by triggering the counter 19, turning it off

with the help of t g 20 stopper 21 snoring, the energy storage device is made in

16 and the transfer of the last rotation of the rod 8, associated with the unwinding-springs 9, through the gear wheel 18 and the transmission to the working

as wound on the shaft of the pr: tape and battery, connected by means of couplings to the working machine spring batteries, each of which has a cylindrical machine 3, When the unit is in operation, a single-body is installed in it

a rotating central rod and wound on the last at least one ribbon spring attached at one end to the rod and the other 25 to the body, the tower is made in. B1 of the pipe installed rotatably, and the kinematic connection of the vertical shaft with the wind wheel - in the form of a mechanical transmission It is connected with a pipe and a wind wheel, with each spring tape attached at one end to the shaft and the other to the pipe.

one of the batteries 6 of the battery is temporarily charged and the other is discharged. The spring ribbons 4, when twisted, are located in the p. Mr. reserve. After the wind stops, the machine 3 is put into operation from the charged batteries 6 by connecting each of them to the machine 3 in series, and later by unwinding the spring tapes 4, which increases the time of continuous operation of the machine 3 and the total energy consumption for the consumer .

. ..

I lig t y

Claims (1)

Invention Formula A wind power installation containing a tower, a wind-wheel mounted on it, a kinematically connected vertical shaft, located inside the bosch, a mechanical energy storage device mounted at the base of the tower, and a working machine that differs from for the purpose of increasing total energy production by increasing the time of continuous operation of the installation, the energy storage device is made in as wound on the shaft pr: skin bands and batteries, connected by means of clutches to the working machine spring batteries, each of which has a cylin / fW.t /// /// /// /// / / // //////// // /// /// /// /// /// /// fih /////// i-vww GSch / f // i 20 FIG. five