RU86254U1 - WINDWATER WHEEL - Google Patents

Abstract

1. A wind wheel containing a stator in the form of a frame of one or more frames, a supporting rim vertically centered inside them, a rotor with a horizontal axis of rotation in the form of a hub with axial tips, with an even number of levers and blades placed on them, characterized in that the support rim has a symmetry axis located vertically in its plane along which the axis of rotation of the rotor is offset, and the configuration of the support rim in its plane is chosen so that the distance between the two points of intersection of the inner generatrix of ornogo rim with a line passing through the center of the rotor axis, at any angle of inclination of this straight line was constant and equal to the distance between the points of contact between the inner surface of the supporting rim with opposite pressure rollers mounted centrally on the transverse cantilever strips connecting console pair of arm rails. ! 2. The wind-driven wheel according to claim 1, characterized in that the rotor contains an even number of combined levers in the form of an even number of pairs of rails and parallel pair of rails parallel to them, which are able to move in holes in the hub when the rotor rotates and rigidly fixed on the hub rails placed in front of a pair of lever rails relative to the direction of rotation of the rotor. ! 3. The wind-driven wheel according to claim 2, characterized in that the pair of lever rails passing through the holes in the hub are supported by paired support rollers mounted between the cheeks of the liners fixed inside the hub on both sides of each lever rail. ! 4. The wind wheel according to claim 2, characterized in that the length of

Description

The utility model relates to wind or water energy converters for stationary and mobile wind power and hydraulic installations.

A device based on the use of wind or water energy is known, containing, like the proposed device, a rotor with an axis of rotation, levers with blades placed on rotary axes, creating a torque for an electric generator kinematically connected with the axis of rotation of the rotor of the converter. In the known device, the levers are rigidly fixed to the axis of rotation of the rotor (see patent RU No. 2168652), prototype.

The disadvantage of the prototype is the low efficiency of converting the energy of currents into torque on the axis of the rotor, due to the use of only half the wheel, and the increase in torque is associated with the need to increase the size, weight, cost of the Converter.

The technical result consists in increasing the torque on the axis of the rotor of the windwheel wheel, increasing its sensitivity to wind speed due to the use of the shifted axis of rotation of the wheel rotor, changing the length of the levers and increasing the area of the blades creating a positive torque, reducing weight and friction losses.

The technical result is achieved by the fact that the wind wheel contains a stator in the form of a frame of one or more frames, a support rim placed vertically in the center, a rotor with a horizontal axis of rotation in the form of a hub with axial tips, an even number of levers with blades placed on them. The peculiarity is that the support rim has a symmetry axis located vertically in its plane along which the axis of rotation of the rotor is offset, and the configuration of the support rim in its plane is chosen so that the distance between the two points of intersection of the support rim with a straight line passing through the center of the rotation axis the rotor, at any angle of inclination of this straight line, was constant and equal to the distance between the points of contact of the inner surface of the support rim with opposite thrust rollers mounted in the center on the transverse onsolnyh strips connecting the console, the pair of arm rails. The rotor contains an even number of combined levers in the form of an even number of pairs of racks and parallel pair of rails rigidly fixed around the circumference of the hub, which can move in holes in the hub when the rotor rotates, and the racks rigidly fixed on the hub are located in front of the pair of lever rails, relative to the direction of rotation of the rotor. Paired lever rails passing through the holes in the hub are supported by paired support rollers mounted between the cheeks of the liners fixed inside the hub on both sides of each lever rail. The length of each rail rigidly fixed on the hub is less than the minimum distance between the support rim and the hub, and the length of the pair of lever rails that are able to move in the holes in the hub is more than four times the length of the battens rigidly fixed on the hub. Each of the blades is a combination of three, close in length, able to move and move apart, flat sections, one of which is internal, fixed at the ends, rigidly fixed at the hub, battens on the outside and with a gap between them, others are external, identical in length with the inner sections, fixed at both ends of the pair of lever rails on the outside and with gaps between them, the third - intermediate sections, located between the rails rigidly fixed on the hub and the pair of lever rails, capable of move along them within the length of the inner and outer sections. The pair of lever rails in pairs connected by transverse cantilever rails with the corresponding sections of the blades through thrust rollers mounted on the outer sides in the center of the transverse cantilever rails are supported on the inner surface of the support rim capable of displacing the pair of lever rails along the holes in the hub, changing the ratio of the lengths of the opposing levers, their blades and moments of rotation depending on the phase of movement of the rotor.

The essence of the utility model is illustrated by graphic materials, which depict: figure 1 - a wind-driven wheel with a displaced axis of rotation, combined levers and composite blades; figure 2 - view of the liners with support rollers.

The wind-driven wheel (Fig. 1) has a stator in the form of a frame of one or more frames 1, 2, a support rim 3 placed vertically in the center inside it, a rotor with a horizontal axis of rotation in the form of a hub 4 with axial tips 5, 6, an even number of levers with blades placed on them. The supporting rim 3 covers the rotor with levers and blades. It has one axis of symmetry, located vertically in its plane, along which the axis of rotation of the rotor is displaced. The configuration of the support rim 3 in its plane is chosen so that the distance L between the two points K, K of the intersection of the support rim 3 with the straight line KK passing through the center of the axis of rotation of the rotor at any angle α of inclination of this straight line is constant and equal to the distance between the points of contact of the inner surface the support rim 3 with opposite thrust rollers 7 mounted centrally on the transverse cantilever bars 8 connecting the console of the pair of lever rails 9, 10. The rotor contains an even number of combined levers, in the form of rigidly mounted around the circumference of the hub 4 at its edges an even number of pairs of rails 11 and parallel to them pair of lever rails 9, 10, which can move in the holes 12 in the hub 4 when the rotor rotates, and the rails 11 rigidly fixed on the hub 4 are placed in front of the pair of lever rails 9 , 10 relative to the direction of rotation of the rotor. Paired lever rails 9, 10, passing through the holes 12 in the hub 4, rely on paired support rollers 13 mounted between the cheeks 14 of the liners 15 (see figure 2), mounted inside the hub 4 on both sides of each lever rail 9, 10. The length L _{1 of} each, rigidly fixed on the hub 4, rails 11 is less than the minimum distance between the support rim 3 and the hub 4, and the length (L ₁ + L ₂ + D, where D is the diameter of the hub 4), with the ability to move in holes 12 in the hub 4, the pair of lever rails 9, 10 more than four times the length L ₁ rigidly mounted on the hubs e 4 rails 11. Each of the blades is a combination of three close in length, able to move and move apart, flat sections, one of which is the inner 16, fixed at the ends, rigidly fixed to the hub 4, rails 11 and with a gap δ between them the others are external 17, the same length as the inner sections 16, fixed at both ends of the pair of lever rails 9, 10 on the outside and with gaps between them δ, the third are intermediate sections 18, located between the rails 11 which are rigidly fixed on the hub 4 and paired lever rails 9, 10, capable of moving along them within the lengths of the inner and outer sections, for which a clearance 2δ is established between the pair of lever rails 9, 10 and the rails 11, and the intermediate sections 18 have a gap δ between them and the pair of lever rails 9, 10 and between the rails 11 Pairwise coupled by transverse cantilever bars 8, pair of lever rails 9, 10 with corresponding sections of the blades 17 through thrust rollers 7 mounted on the outer sides in the center of the transverse cantilever bars 8, are supported on the inner surface of the support rim 3, capable of press the pair of lever rails 9, 10 through the holes in the hub 4, changing the ratio of the lengths of the opposing levers, their blades and the moments of rotation depending on the phase of movement of the rotor.

Thrust rollers 7 are placed between the corners 19 mounted on the transverse cantilever bars 8, and the supporting rim 3 is mounted on the frames 1, 2 by means of struts 20. The movement of the intermediate sections 18 of the blades is limited by clamps 21 that can freely move along the pair of lever rails 9 , 10 and racks 11.

Claims (6)

1. A wind wheel containing a stator in the form of a frame of one or more frames, a supporting rim vertically centered inside them, a rotor with a horizontal axis of rotation in the form of a hub with axial tips, with an even number of levers and blades placed on them, characterized in that the support rim has a symmetry axis located vertically in its plane along which the axis of rotation of the rotor is offset, and the configuration of the support rim in its plane is chosen so that the distance between the two points of intersection of the inner generatrix of ornogo rim with a line passing through the center of the rotor axis, at any angle of inclination of this straight line was constant and equal to the distance between the points of contact between the inner surface of the supporting rim with opposite pressure rollers mounted centrally on the transverse cantilever strips connecting console pair of arm rails. 2. The wind-driven wheel according to claim 1, characterized in that the rotor contains an even number of combined levers in the form of an even number of pairs of rails and parallel pair of rails parallel to them, which are able to move in holes in the hub when the rotor rotates and rigidly fixed on the hub rails placed in front of a pair of lever rails relative to the direction of rotation of the rotor. 3. The wind-driven wheel according to claim 2, characterized in that the pair of lever rails passing through the holes in the hub are supported by paired support rollers mounted between the cheeks of the liners fixed inside the hub on both sides of each lever rail. 4. The wind-driven wheel according to claim 2, characterized in that the length of each rail rigidly fixed on the hub is less than the minimum distance between the support rim and the hub, and the length of the pair of arm rails more than four times that can move in the holes in the hub more than the length of the rigidly fixed on the hub rails. 5. The wind-driven wheel according to claim 1, characterized in that each of the blades is a combination of three, close in length, able to slide and move apart, flat sections, one of which is internal, fixed at the ends, rigidly fixed to the hub, rails on the outside and with a gap between them, others are external, the same length as the inner sections, fixed at both ends of the pair of lever rails on the outside and with gaps between them, the third are intermediate sections, located between rigidly fixed to the steps chains and twin lever rails that can move along them within the length of the inner and outer sections. 6. The wind-driven wheel according to claim 1, characterized in that the pair of lever rails pairwise connected by the transverse cantilever rails, with the corresponding sections of the blades, through the thrust rollers mounted on the outer sides in the center of the transverse cantilever rails, rely on the inner surface of the support rim that can displace paired lever rails through holes in the hub, changing the ratio of the lengths of opposing levers, their blades and moments of rotation, depending on the phase of movement of the rotor.