RU177202U1 - Electric wind generator - Google Patents

Abstract

The utility model relates to wind energy. An electric wind generator contains a three-dimensional frame with support legs, a vertical turbine with a shaft and a flywheel mounted on the shaft, a wind-guiding enclosing structure and electric generators. A vertical turbine consists of the first and second plates, each of which is made with a central hole for accommodating the shaft, and radial blades, each of which is attached with the first side to the first plate, the second opposite side to the second plate, and the third side to the thick-walled shaft pipe. The flywheel is attached to the first plate on the opposite side of the said blades using the third plate. A useful model is aimed at improving the reliability of the shaft mount with the flywheel. 2 ill.

Description

The utility model relates to wind energy.

A known electric wind generator containing a frame on supports, a vertical turbine mounted on a shaft with a flywheel, a wind-guiding structure and electric generators / RF Patent 2352808, 04/20/2009 /.

The electric wind generator has insufficiently reliable shaft mounting with a flywheel.

The utility model is aimed at improving the reliability of the shaft mount with the flywheel.

To achieve this technical result, an electric wind generator is proposed, comprising a frame on supports, a vertical turbine mounted on a shaft with a flywheel, a wind-guiding structure and electric generators.

A vertical turbine consists of the first and second plates, each of which is made with a central hole for accommodating the shaft, and radial blades, each of which is attached with the first side to the first plate, the second opposite side to the second plate, and the third side to the thick-walled shaft pipe, flywheel attached to the first plate on the opposite side of the said blades using the third plate

The utility model is illustrated by figures of drawings.

FIG. 1 - Electric wind generator. Lengthwise cut.

FIG. 2 is a plan view of FIG. one.

The electric wind generator contains (Fig. 1, 2) a volumetric frame 10 with support legs, a shaft 1 mounted perpendicularly (vertically) with respect to the frame 10, a turbine with blades 2 and a flywheel 4 mounted on the shaft 1, a wind guide enclosing structure 3 and electric generators 14.

A vertical turbine consists of a first plate 24 and a second plate 25, each of which is located in a horizontal plane and made with a central hole to accommodate the shaft 1, and twelve radial blades 2, each of which is welded to the first plate 24 by the first side, the second ( opposite) side to the second plate 25, and the third side to the thick-walled tube of the shaft 1, while the fourth side forms the leading edge of the blade. The flywheel 4 is attached to the first plate 24 on the opposite side of the blades 2 using the third plate 5 and bolted connections.

The shaft 1 is made of a thick-walled pipe, into which a long shank 1a is welded on one side, and a short shank 16 on the opposite side. fourteen.

On the racks of the supporting volumetric frame 10, electric generators 14 are installed with pulleys 20, connected via transmission belts 15 with drive pulleys 12 mounted on the turbine shaft 1 with blades 2.

The first plate 24 is located on the thick-walled tube of the shaft 1 from the side of the long shank 1a, and the second plate 25 is located on the side of the short shank 1b.

The wind-guiding enclosing structure 3 is made in the form of a metal frame having two side walls, which are connected on one side by a plate, and on the opposite side are connected by an annular base in the form of a movable holder of a slewing ring with rollers 7.

On the volumetric frame 10 there is a stationary holder 11 of the slewing ring for the wind-guiding enclosing structure 3 and an angular contact assembly for vertical mounting of the shaft 1.

On the rollers 7 mounted thrust washers 2, which prevent the displacement of the enclosing structure 3 relative to the stationary holder 11.

The angular contact node is located in the Central part of the volumetric frame 10 and includes sequentially mounted thrust bearing 9, the radial rolling bearing 8 and the thrust ring 27, made with the possibility of axial force from the long shaft 1a of the shaft 1.

A short shaft 1b of the shaft 1 is located in a radial ball bearing 8 of the rolling plate of the wind-guiding enclosing structure 3.

On each side wall, on one side, a telescopic rotary leaf is fixed, made with a sliding insert and connected to the electric actuator 21, and a rotary leaf 17 with a manual actuator is fixed on the opposite side.

To obtain the maximum air flow rate on the upper outer surface of the plate of the wind-guiding building 3, a feathering ridge 22 is provided (Fig. 1), which always turns the structure towards the wind relative to the volume frame 10.

The rotation of the flaps 16, in which the telescopic inserts 19 are located, allowing to increase the air flow at a low wind speed, occurs by means of electric drives 21 by a signal from the control unit 23.

The mounting of the shaft 1 and bearings 8; 9 in a vertical plane is provided by installing the cover 27, as well as a nut 28, which fastens the pulleys 2 through the evenly distributed washers on the shaft 1.

Nut 28 is secured by a multi-foot lock washer.

Flywheel 4 allows you to smooth out the undesirable effect in the operation of electric generators with an uneven air flow.

If it is necessary to completely stop the turbine, the front 19 and rear 16 wings are set to closed 18.

Claims (1)

An electric wind generator comprising a three-dimensional frame with support legs, a vertical turbine with a shaft and a flywheel mounted on the shaft, a wind-guiding enclosing structure and electric generators, characterized in that the vertical turbine consists of the first and second plates, each of which is made with a central hole for accommodating the shaft, and radial blades, each of which is attached by the first side to the first plate, the second opposite side to the second plate, and the third side to the thick-walled shaft pipe, max a first plate attached to the opposite side of said blades by means of the third plate.

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