SU1372096A1 - Endless chain wind motor - Google Patents

Abstract

The invention allows to increase the reliability of a wind turbine in operation. One shoulder of a two-shouldered curved arm mounted on the rail 10 is connected to the tensioning element, while the other one is equipped with a weight of 16. The drive shaft 6 has supports 17 fixed to the uprights. Gears 18 are mounted on shafts 6 and 7 by means of bearings and encompass them with endless chains 19 associated with extensions. As the wind speed increases, the torsion springs 20 mounted on the shaft 6 do not withstand the increasing load and allow the wheels to turn along the shaft 6 in the direction ahead of its rotation. As a result, the blades 3 are automatically set at a certain angle to the wind direction, the resistance of the blades is reduced, and the revolutions of the shaft 6 are maintained. In order to see the impact of the blade on the conveyor chain on one shoulder, the plate can be attached. 3 hp f-ly, 3 np. (L

Description

eleven

The invention relates to wind power and can be used in devices designed to provide power to various consumers.

The aim of the invention is to increase the reliability of the wind turbine.

FIG. 1 is a diagram of the wind turbine, side view; in fig. 2 - the same, top view; in fig. 3 is a section A-A in FIG. one.

The conveyor wind turbine contains articulated on infinite power chains x 1 conveyors 2 sailing blades 3 with extensions 4, covered by chains 1 gears 5, rigidly fixed on the driving 6 and driven 7 shafts, supports 8, placed on the turntable 9, and circular rail 10. The wind turbine further comprises a tensioning element 11 connected to the driven shaft 7 and mounted on the rail 10 by means of the running wheels 12 curved arm 13, one shoulder 14 of which is connected to the tension element 11, the other sleeping shoulder 15 Jeno counterweight 16 and the drive shaft 6 has a support 17 fixed to uprights 8.

In addition, the wind turbine is equipped with additional gear wheels 18 mounted on shafts 6 and 7 with bearings and additional endless chains 19 connected with springs 4, and the drive shaft 6 is equipped with torsion springs 20 associated with additional gear wheels one

The wind turbine is also provided with a second conveyor 21 interacting with sailing blades 3, mounted below the first conveyor 2 and fixed on one side on the turntable 9, and on the other on the arm 14 of the lever 13 connected to the tension element 11. It is also provided with a shielding sailing blades 3 plate 22, cantilevered between the conveyors on the shoulder 14 of the lever 13, associated with the tension element 11.

An electric generator 23 is mounted on the turntable 9, kinematically coupled to the drive shaft 6, on which brake 24 is also installed.

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Wind turbine works as follows.

Under the pressure of the wind, the blades 3 move progressively and pull the upper branch of chains 1 and 19, driving shaft 6 and generator 23 into rotation. Stretches 4 hold blades 3 in the working position. With possible increases in wind speed, springs 20, calculated for a torque corresponding to the calculated wind speed, do not withstand the increasing load and allow the wheels 18 to rotate along shaft 6 in the direction of its advance, which automatically sets the blades 3 at an angle to the wind direction , the resistance of the blades 3 is reduced, and the revolutions of the shaft 6 are maintained. With a significant increase in wind speed, springs 20 allow the blade m 3 to lie down on the chain 1j thus preserving the wind turbine from damage. On the wheels 5 of the shaft 7, the blades 3 change the direction of movement to the opposite and go to the lower branch of chains 1 and 19, laying down on the second conveyor 21 in a horizontal position, and returning to the shaft 6. The movement of the chains 19 of the conveyor 21 occurs due to forces friction moving sailing blades 3. To see the impact of the blade 3 and the conveyor chain 19 on the arm 14, the plate 22 is attached to the console 22. The combination of the platform 9 and the lever 13 allows the conveyors 2 and 21 to self-adjust to the wind.

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Claims (4)

1. Conveyor wind turbine containing sailing blades with extension arms, hingedly mounted on infinite power chains of the first conveyor, gears rigidly fixed on the driving and driven shafts, stands mounted on a turntable, and a circular rail distinguishing the reliability of operation, wind turbine additionally contains a tensioning element connected to the 55 by the driven shaft and mounted on the rail by means of the traveling wheels a double-arm curved lever, one arm of which is connected  With tensioning element, the other is equipped with a counterweight, and the drive shaft has supports mounted on racks. 2, a wind turbine according to claim 1, characterized in that it is provided with additional gear wheels mounted on shafts by means of bearings and additional endless chains surrounding them connected with extensions, and the drive shaft is equipped with torsion springs associated with additional gear wheels . 3. Wind turbine according to claim 1, characterized in that it it is equipped with a sailing blade with a second conveyor installed below the first and fixed on one side on the turntable, and on the other on the lever arm connected to the tensioning element. 4. A wind turbine according to Claim 1, characterized in that it is provided with a shielding plate for the sailing blades, which is cantilevered between the conveyors on the lever arm connected to the tensioning element. P 5Su5 6X X FTs2. / //  L l 19 7 . Fig.Z