RU2727108C1 - Rotary wind generator - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: rotary wind generator includes a generator, a multiplier, a coupling, a central shaft, flaps and blades. It comprises composite case made of base, diaphragms and flaps made up of frames consisting of horizontal and vertical elements and blades with air pockets. In addition to the main structural solutions, the generator housing weight is used as a flywheel, the body for stability of the installation position for stabilization in the plant operation, the frame and fixed (non-rotating) design of the flies provides their increased strength, the blades with the recess in the working part increase the plant efficiency. Rotary wind generator can be used in areas with high wind load.EFFECT: invention relates to power engineering, particularly, to wind-driven power generation.12 cl, 7 dwg

Description

The invention relates to power engineering, and in particular to wind power. Known carousel wind turbine (patent No. 2563047 dated April 15, 2014, IPC F03D 3/06). The disadvantage limiting implementation is the lack of a well-developed design.

The aim of the invention is to develop the design of the KVG.

This goal is achieved by the fact that a carousel wind generator (KVG), including a generator, a multiplier, a coupling, a central shaft, a swing, a blade, is characterized in that it is equipped with a frame-type casing, consisting of racks, for example, three or four connected by a base and four diaphragms forming the compartments, the compartment where the generator stationary shaft is located, the second compartment, in which the rotating generator housing is located, the third compartment of the multiplier with a coupling connecting the central shaft with the multiplier, the fourth compartment, in which the base of the central shaft, fixed between the two upper diaphragms, passes and is attached on bearings that provide one degree of freedom (rotation around its axis), the compartments are closed on all sides by panels (to protect against precipitation and dirt), the generator is made with permanent magnets installed inside the generator housing, which is also a flywheel, the stationary generator shaft is supported and fastened through the support to the base and is centered in the lower diaphragm, the coupling consists of a driving half-coupling made in the form of two plates connected by bushings, a central bushing attached to the lower end (base) of the central shaft, and in the peripheral bushings there are leashes on which plastic bushings are put on, and the driven half-coupling consists of a plate with a bushing installed on the input shaft of the multiplier, and the peripheral holes include leashes with a gap that excludes jamming in case of possible distortions, the swings are made in the form of a double-sided frame, including the upper and lower horizontal rods passing and fixed in the tubes of the central shaft and dividing the swing into two parts, the ends of the rods are connected by vertical ties, the vertical ties of the swing are made in the form of axes, on each of which a blade is installed with the possibility of turning in the form of a frame with a material stretched on it, which is deformed under the pressure of the wind, forming from the working side (with side of the incumbent stream and air) a depression (deepening), and after the elimination of the flow pressure during the transition to the other half, it returns to its original position, eliminating the depression, the swings are arranged vertically in tiers, in each tier there are no more than two swings, the angle in the horizontal plane between the swings is:

где

Where

n - the number of swings, the second swing in the tier at an angle of 90 ° in the horizontal plane to the first swing of the tier, at the ends of the swings, blade rotation limiters are installed, equipped with a clutch that locks the generator shaft during transmission by the generator of increased power, including a housing with a flange for attachment to the lower diaphragm and with a central hole for mounting on the neck of the stationary shaft of the generator and containing wedges that are tightened by the nuts fastening the stationary shaft, contains blades installed with the upper inner end on the bushing of the central shaft or next to the upper horizontal rod, and the outer upper end of the blade is installed at the peripheral end of the upper rod , both ends of the blade are mounted on bearings, for example, rolling, and the lower edge of the blade in the working position rests on the lower swing rod, the blades of one swing in the cross section are located at an angle of 90 ° to each other and are rigidly connected to each other by a thrust, equipped with a visor and a false diaphragm fixed to the top to the diaphragm, and the visor is located above the false diaphragm and fixed on the central shaft, equipped with an overtaking clutch installed between the generator housing and the multiplier, the blade is made in the form of a frame tightened with material.

Brief description of the KVG design

The drawing (Fig. 1) shows a schematic design of a KVG, containing a frame-type body, consisting in turn of the base 1, racks 2, diaphragms 3, 4, 5 and 6, dividing the body into compartments. In the lower compartment between the base 1 and the lower diaphragm 3, a stationary generator shaft 7 is installed, supported and fixed through the support 8 on the base 1, and centered by the lower diaphragm 3. In the second compartment between the diaphragms 3 and 4, a rotating generator housing 9 is installed. In the compartment between diaphragms 4 and 5, a multiplier 10 and a connecting sleeve are installed, consisting of a driving half-coupling 11 with leads 12 and a driven half-coupling 13 connecting the multiplier 10 with the central shaft 14.

In the compartment between diaphragms 5 and 6, the lower part of the central shaft (base) 14 is mounted on bearings.

The upper part of the central shaft 14 is tubular with horizontal tubes 15 reinforcing the connection through which the upper 16 (Figs. 1 and 2) and lower 17 swing rods are connected by the axes 18, on which its own blade, consisting of a frame 19, is rotatably mounted on each side covered with material 20 (Figs. 2 and 3), which can bend under the action of the air flow, forming a cavity.

In the absence of air flow, the cavity is eliminated.

At both ends of the rods 16 and 17 are installed limiters turn 21 blades (Fig. 1 and 2).

The angle between swings in the horizontal plane (Fig. 4) is equal to:

n is the number of swings.

In the case of a large energy load on the generator (Fig. 5), the stationary shaft 7 of the generator is fastened by a clutch consisting of a housing 22 (Fig. 5) with a flange intended for fastening to the lower diaphragm 3 and having a hole for installation on the shaft journal 7 of the generator and is fastened with wedges 23 with tightening nuts.

The blade 24 (Fig. 6), the inner upper end on the bearing is mounted on the tube 15 of the central shaft 14, the outer upper end of the blade is mounted on the swing rod 16, for example, mounted on rolling bearings.

The blade 24 rests with its lower part in the working position on the lower swing rod 17. In the transverse plane, the blades 24 of one swing are turned to each other by 90 ° and are connected by a thrust 25.

The false diaphragm 26 (Fig. 7) is fixed on the upper diaphragm 6, and the visor 27 is installed with a gap above the false diaphragm 26 and is attached to the central shaft 14.

Thanks to the use of the proposed carousel wind generator, it is possible to have an emergency energy source in places with increased wind load.

Claims (14)

1. Carousel wind generator (KVG), including a generator, multiplier, coupling, central shaft, swing, blades, characterized in that it is equipped with a frame-type casing, consisting of racks, for example three or four, connected by a base and four diaphragms, forming compartments: compartment the location of the stationary generator shaft, the second compartment, in which the rotating body of the generator is located, the third compartment of the multiplier with a coupling connecting the central shaft with the multiplier, the fourth compartment, in which the base of the central shaft passes and is attached, fixed between the two upper diaphragms on bearings that provide one degree of freedom (rotation around its axis), the compartments are closed on all sides by panels (to protect against precipitation and dirt), the generator is made with permanent magnets installed and fixed inside the generator casing, which is also a flywheel. 2. KVG under item 1, characterized in that the stationary shaft of the generator is supported and fastened through the support to the base and is centered in the lower diaphragm. 3. KVG according to claim 1, characterized in that the coupling consists of a leading half-coupling made in the form of two plates connected by bushings, a central bushing connected to the lower end of the central shaft, and in the peripheral bushings there are leashes on which plastic bushings are put on , and the driven half-coupling consists of a plate with a bushing installed on the input shaft of the multiplier, and the leads enter into the peripheral holes with a gap that prevents jamming in case of possible distortions. 4. KVG under item 1, characterized in that the swings are made in the form of a double-sided frame, including the upper and lower horizontal rods passing and fixed in the tubes of the central shaft and dividing the swing into two parts, the ends of the rods are connected by vertical ties. 5. KVG according to claim 4, characterized in that the vertical links of the swing are made in the form of axes, on each of which a blade is installed with the possibility of turning in the form of a frame with a material stretched on it, which is deformed under the pressure of the wind, forming from the working side (from side of the current air flow) a cavity (depression), and after the elimination of the pressure of the flow when passing to the other half, it returns to its original position, eliminating the cavity. 6. KVG according to claim 4, characterized in that the swings are arranged vertically in tiers, in each tier there are no more than two swings, the angle in the horizontal plane between swings is equal to:

Where n is the number of swings, the second swing in the tier at an angle of 90 ° in the horizontal plane to the first swing of the tier. 7. KVG according to claim 5, characterized in that at the ends of the swings, the blades turn limiters are installed. 8. KVG according to claim 1, characterized in that it is equipped with a clutch that locks the generator shaft during transmission by the generator of increased power, including a housing with a flange for attachment to the lower diaphragm and with a central hole for installation on the neck of a stationary generator shaft and containing wedges that are tightened fixing the fixed shaft with nuts. 9. KVG according to claim 4, characterized in that it contains blades mounted with the upper inner end on the bushing of the central shaft or next to the upper horizontal rod, and the outer upper end of the blade is installed at the peripheral end of the upper rod, both ends of the blade are mounted on bearings, for example rolling, and the lower edge of the blade in the working position rests on the lower swing rod, the blades of one swing in the cross section are located at an angle of 90 ° to each other and are rigidly connected to each other by a thrust. 10. KVG according to claim. 1, characterized in that it is equipped with a visor and a false diaphragm fixed on the upper diaphragm, and the visor is located above it and fixed on the central shaft. 11. KVG according to claim 1, characterized in that it is equipped with an overtaking clutch installed between the generator housing and the multiplier. 12. KVG under item 9, characterized in that the blade is made in the form of a frame, tightened with material.

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