SU1173059A1 - Windmill - Google Patents

Abstract

Wind turbine containing a tower, a rotatable head mounted on it, mounted on it symmetrically with respect to the power take-off shaft two impellers, each of which has a shaft equipped with a support placed in the head and connected with a bevel gear with a power take-off shaft, two parallel rims, rotary blades and blades turning mechanisms placed between them on the axes rigidly fixed on the shaft, characterized in that, in order to increase the utilization of wind energy, the blades They are made in the form of frames with flexible sailing material fixed on them, the swivel head is equipped with a frame with racks according to the number of impellers, the shaft of each wheel is provided with a second support fixed on the stand and a two-star sprocket, and the axes of the blades are placed sprockets mounted on them connected to each other by means of an endless chain, each wheel having two diametrically opposed sprockets of the axles made two-sided and connected to the sprocket of the shaft of the same wheel using an additional Additional endless chains, SS and the blades turning mechanisms are made (L autonomous for each wheel in the form of a lever and a sector fixed on the sprocket shaft and the head, respectively, connected with each other by means of a clamp.

Description

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The invention relates to wind energy and can be used in installations for generating electrical energy or performing mechanical work.

The aim of the invention is to increase the utilization of wind energy.

FIG. 1 shows the proposed wind turbine, a section along the shafts of the impellers; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. one; in fig. 5 - projection of the blade; in fig. 6 - the mechanism of rotation of the blades.

The wind turbine contains a turret 1, a rotatable head 2 mounted on it, mounted on it symmetrically with respect to the power take-off shaft 3 two impellers 4, each of which has a shaft 5 fitted with a support 6 placed in the head 2 and connected with a shaft by means of a bevel gear 7 3 power takeoffs, two parallel rims 8 rigidly mounted on the shaft 5, and swiveling blades 10 placed between them on the axes 9 and the mechanisms for turning the blades 10 (Fig. 1-4).

The blades 10 (Fig. 5) are made in the form of frames 11 with flexible sailing material 12 fixed on them, the swivel head 2 is provided with a frame 13 with uprights 14 according to the number of impellers 4, the shaft 5 of each wheel 4 is second supported 15 mounted on a rack 14 , and a two-star asterisk 16, and the axes of the 9 blades 10 are placed on the side of the head 2 by consoles 17 with asterisks 18 mounted on them, interconnected by an endless chain 19, each wheel 4 having two diametrically opposed asterisks 20

the axles 9 are made two-sided and connected to the sprocket 16 of the shaft 5 of the same wheel 4 by means of additional endless chains 21 and 22, and the mechanisms for turning the blades 10 are made autonomous for each wheel 4 in the form of a lever 23 fixed to the sprocket 16 and sector 24 associated with latch 25.

In addition, the cantilever form 26 is fixed on the head 2 (FIG. 2), at the end of which is the tail unit 27. The number of teeth on the inner rims of the sprockets 20 is twice as large as that of the two-star sprocket 16. The wind turbine works as follows.

When sufficient wind speeds up, tail tail 27 sets head 2 in the direction of the wind, and impellers 4 begin to rotate on shafts 5. Power take-off shaft 3 transmits energy to the consumer through a bevel gear transmission 7. When each wheel rotates, 4 blades 10 are set to flow under angle a (fig. 3 and 4), and each blade 10 makes the most of the flow energy,

5 changing the direction of deflection of the material 12. To control the operation of the wheel 4, they press the lever 23, removing the latch 25 from the slot of the sector 24. Then the two-sided sprocket 16 will turn through a certain angle, the chains 21 and 22 will move and the two-year stars of the daughter 20 will also blades 10 are rotated at this angle, and with the help of chain 19 and sprockets 18 other blades 10 are rotated. In this case, it is possible to stop the wheel 4 or change its direction

rotation When you press both levers 23, the rotational speed of the two impellers 4 changes.

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Claims (1)

A wind turbine containing a tower, a rotary head mounted on it, two impellers mounted symmetrically with respect to the power take-off shaft, each of which has a shaft equipped with a support located in the head and connected by a bevel gear with a power take-off shaft, two parallel rims, rigidly mounted on the shaft, and rotary blades and rotor blades arranged between them on the axes, characterized in that, in order to increase the wind energy utilization coefficient, the blades they are flaxen in the form of frames with flexible sailing material fixed to them, the rotary head is equipped with a frame with racks according to the number of impellers, the shaft of each wheel has a second support mounted on the rack and a two-row sprocket, and the axis of the blades are mounted on the side of the head with consoles mounted on them with asterisks interconnected by means of an endless chain, with each wheel having two diametrically opposite axle sprockets made in two rows and connected to the shaft sprocket of the same wheel using additional x endless chains, and the rotation mechanisms of the blades are autonomous for each wheel in the form of a lever and a sector fixed to a shaft and a head, respectively, of a lever and a sector, interconnected by a latch.