RU2656516C2 - Wind rotor - Google Patents

Abstract

FIELD: engines.

SUBSTANCE: invention relates to wind power engineering. Rotor of the windmill includes a vertical axis, at least one pair of blades arranged diametrically opposite to each other and including upper and lower wind receiving plates fixed respectively on the upper and lower horizontal shafts with the displacement of their edges relative to the axes of the horizontal shafts in the direction of motion of the blades by an amount that ensures overlapping of the distance between the horizontal shafts with the wind-receiving plates of one blade with the horizontal position of the wind-receiving plates of the other blade. Wind-receiving plates are parallel to the horizontal shafts with displacement relative to the axes of the horizontal shafts in the direction of motion of the blades, and the kinematic connection between the horizontal shafts is made in the form of two flexible elements, the ends of which are fixed on horizontal shafts.

EFFECT: invention is aimed at simplifying the design of the rotor.

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Description

The invention relates to wind energy and can be used in power supply systems.

Known rotor of a wind turbine containing a vertical shaft, rigidly connected with the housing, in the bearings of which are placed the upper and lower horizontal shafts. On the consoles of these shafts, respectively, the upper and lower wind receiving plates are fixed. Wind-receiving plates of the same name are fixed at an angle to each other, and horizontal shafts are kinematically connected with each other with the possibility of rotation in opposite directions. The edges of the wind receiving plates are offset relative to the axes of the horizontal shafts in the direction of movement of the blades by an amount that overlaps the distance between the horizontal shafts of the wind receiving plates of one blade with the horizontal position of the wind receiving plates of the other blade (see patent document US 20140050583 A1, publ. 02.20.2014).

The disadvantage of this rotor of the wind turbine is the complexity of the kinematic connection between the horizontal shafts, which increases its cost.

The problems solved by this invention are to simplify the design of the rotor of the wind turbine and reduce its cost.

These technical problems are solved by the rotor of a wind turbine containing a vertical axis, at least one pair of blades placed diametrically opposite to each other and including upper and lower wind receiving plates mounted respectively on the upper and lower horizontal shafts with the displacement of their edges relative to the axes of the horizontal shafts in the direction of movement of the blades by an amount that ensures the overlap of the distance between the horizontal shafts of the wind receiving plates of one blade at horizontal Talnoye position vetropriemnyh other blade plates, wherein the plates are arranged vetropriemnye parallel horizontal shafts offset with respect to the axes of the horizontal shafts of blades in the direction of movement, and the kinematic connection between the horizontal shaft comprises two flexible elements, the ends of which are mounted on horizontal shafts.

The invention is illustrated graphic materials, which depict:

FIG. 1 is a diagram of a rotor of a wind turbine.

FIG. 2 is a diagram for determining the angle between the tangent to the trajectories of the edges of the wind receiving plates at the point of intersection when the wind receiving plates are displaced relative to the axes of the horizontal shafts in the direction of movement of the blades.

The vertical shaft 1 is rigidly connected with the housing 2, in the bearings of which are placed the upper horizontal shaft 3 and the lower horizontal shaft 4 parallel to it.

The upper wind receiving plates 5 and 6 and the lower wind receiving plates 7 and 8, respectively, are fixed on the consoles of these shafts. The same plates are fixed at an angle to each other. In this case, the angle can be assigned in the range from 45 ° to 90 °. Horizontal shafts 3 and 4 are kinematically connected with each other with the possibility of rotation in opposite directions. Given that the rotation angle does not exceed 90 °, the kinematic connection is made in the form of two flexible elements 9 and 10 (for example, tapes), the ends of which are fixed on horizontal shafts. The edges of the wind receiving plates are offset relative to the axes of the horizontal shafts. The amount of displacement provides overlapping distances between the horizontal shafts 3 and 4 of the wind receiving plates 5 and 7 by one blade with the horizontal position of the wind receiving plates 6 and 8 of the other blade.

Upon contact between the wind receiving plates, spacer forces occur. These forces increase with increasing angle between the wind receiving plates 5 and 7. To reduce the spacer forces at large angles between the wind receiving plates, the latter are placed parallel to the axes of the horizontal shafts with their displacement relative to the axes of the horizontal shafts in the direction of movement of the blades. In this case, the magnitude of the spacer forces is determined not by the angle between the wind receiving plates, but by the angle α between the tangent to the paths of the edges of the wind receiving plates at the point of their intersection. This allows you to increase the angle between the wind receiving plates without increasing spacer efforts. In this case, the kinematic connection between the horizontal shafts does not experience workloads, which simplifies the design of the rotor of the wind turbine and reduces its cost. In addition, the implementation of the kinematic connection in the form of two flexible elements removes structural constraints at the distance between the horizontal shafts, which allows for any amount of displacement of the edges of the wind receiving plates relative to the horizontal shafts, for any size of the blades.

Wind receiving plates are equipped with additional surfaces 11 that create resistance to air flow in the radial direction, which increases the efficiency of use of wind energy.

The rotor of the wind turbine operates as follows.

Under the influence of the wind pressure, the wind receiving plates 5 and 7 open up to the stop against each other, blocking the distance between the horizontal shafts 3 and 4, creating maximum resistance when the blades move behind the air stream. Due to the rigid connection of the wind receiving plates with horizontal shafts and the kinematic connection between the horizontal shafts, the wind receiving plates 6 and 8 occupy a horizontal position, creating minimal resistance when the blade moves against the wind.

Reducing the spacer forces in the interaction of wind receiving plates, removing workloads from the kinematic connection between horizontal shafts and using flexible elements in it significantly simplifies the design of the rotor of the wind turbine and reduces its cost.

Claims (1)

A wind turbine rotor containing a vertical axis, at least one pair of blades placed diametrically opposite to each other and including upper and lower wind receiving plates mounted respectively on the upper and lower horizontal shafts with the displacement of their edges relative to the axes of the horizontal shafts in the direction of movement of the blades on a value that ensures overlapping of the distance between the horizontal shafts of the wind receiving plates of one blade with the horizontal position of the wind receiving plates d the blade, and the wind-receiving plates of the same name are placed at an angle to one another, and the horizontal shafts are kinematically connected to each other with the possibility of rotation in opposite directions, characterized in that the wind-receiving plates are parallel to the horizontal shafts with an offset relative to the axes of the horizontal shafts in the direction of movement of the blades, and the kinematic connection between the horizontal shafts is made in the form of two flexible elements, the ends of which are mounted on horizontal shafts.

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