CN205744295U - A small vertical axis magnetic levitation wind generator - Google Patents

Abstract

The utility model discloses a small-size vertical axis magnetic suspension aerogenerator, including static part and rotating part. The static part comprises an upper end cover baffle ring, a lower end cover baffle ring, an upper protective bearing, a lower radial magnetic bearing stator and a generator stator fixed in the middle, wherein the upper end cover baffle ring and the lower end cover baffle ring are symmetrically fixed on the vertical stator supporting shaft from outside to inside along the axial direction; the rotating part comprises wind turbine blades fixed on a wind turbine shell, the upper end cover and the lower end cover of the shell are respectively connected with a double outer rotor of a generator, a radial magnetic bearing rotor is respectively embedded in the double outer rotors, and an axial magnetic bearing moving magnetic ring is embedded in an inner hole of the lower end cover of the shell. The upper radial magnetic bearing and the lower radial magnetic bearing of the generator respectively realize suspension with four degrees of freedom, namely left, right, front and back, and the repulsion between the axial moving magnetic ring and the static magnetic ring and the suction between the moving magnetic ring and the gland nut support the weight of the wind turbine and keep the balance of the axial degrees of freedom, can realize stable suspension, and has no noise, no friction loss and low starting wind speed.

Description

A small vertical axis magnetic levitation wind generator

technical field

The utility model relates to a vertical axis magnetic suspension wind power generator, in particular to a small vertical shaft magnetic suspension wind power generator with short axial length, compact structure and stable radial and axial force.

Background technique

Small-scale low-wind-speed wind turbines are very suitable for remote areas without grids, and can be used as distributed power sources to provide the required power to these areas. Compared with horizontal-axis wind turbines, vertical-axis wind turbines have a simple structure and can capture different wind directions. They have the characteristics of dispersibility, individual use, and miniaturization. They are especially suitable for pastures, islands, mountains, and roofs.

However, the magnitude and direction of the natural wind are constantly changing. According to the wind speed, it is divided into 0~12 grades, of which 0~2 grades are called light winds, and the corresponding wind speeds are 0.55~1.67m/s, and light winds are 1.94~3.33m /s. Existing wind turbines start at relatively high wind speeds, generally 3 to 5 m/s, with a minimum of 2 m/s.

In order to reduce mechanical friction and achieve "light wind start, breeze power generation", the Chinese patent publication number is CN102338038A, and the patent document named "Disc Magnetic Suspension Inner Rotor Type Vertical Axis Wind Power Generator Set" utilizes the suction force of the permanent magnet rotor and stator core , to reduce the axial force borne by the mechanical bearing, but the radial degree of freedom still requires the mechanical bearing, which cannot completely eliminate the friction. The Chinese Patent Publication No. is CN104389741A, and the patent literature titled "A Magnetic Levitation Wind Power Generator with a Vertical Axis External Rotor" utilizes upper and lower axial magnetic bearings and upper and lower radial magnetic bearings to achieve frictionless suspension, and utilizes electric The excitation adjustment makes it stable and suspended. The Chinese patent publication number is CN204283732U, and the patent literature titled "A Vertical Axis Magnetic Levitation Wind Power Generator" uses radial hybrid magnetic bearings and axial magnetic bearings to achieve five-degree-of-freedom suspension, which completely eliminates mechanical friction. The distribution of bearings along the axial direction is too long, the control is complicated, and the amount of permanent magnets is increased, which will increase the cost and is not conducive to reducing the volume and weight of the wind turbine.

Contents of the invention

The purpose of the utility model is to overcome the deficiencies of the prior art and propose a small vertical axis magnetic levitation wind power generator. It can realize the five-degree-of-freedom suspension of the rotating part, completely eliminate mechanical friction and wear between the rotating part and the static part, and the magnetic suspension bearing is inside the generator, making full use of the inner space of the generator, greatly reducing the axial length, compact structure, and using suction in the axial direction and repulsion to bear the axial force and maintain the axial stable suspension respectively.

The technical scheme adopted by the utility model is: a small vertical axis magnetic levitation wind power generator, which includes a static part and a rotating part. The static part includes the upper and lower end cover retaining rings symmetrically fixed on the vertical stator support shaft from outside to inside in the axial direction, the upper and lower protective bearings, the upper and lower radial magnetic bearing stators, and the generator stator fixed in the middle , an axial magnetic bearing magnetostatic ring is fixed on the retaining ring of the lower end cover, and the stator support shaft is supported on the tower on the ground; The upper and lower end covers of the casing are respectively connected to the double outer rotors of the generator, and the permanent magnets are respectively pasted on the double outer rotors of the generator, and the radial magnetic bearing rotors are respectively embedded in the double outer rotors of the generator. The hole is embedded with an axial magnetic bearing moving magnetic ring.

The upper and lower radial magnetic bearing stators are respectively formed by fixing the stator permanent magnet ring and the magnetic isolation material on the magnetic ring platform fixedly connected with the stator support shaft by compression nuts threadedly connected with the stator support shaft. The radial magnetic bearing rotor is formed by embedding the rotor permanent magnet ring and the magnetic isolation material into the generator rotor; the working air gap between the radial magnetic bearing stator and the radial magnetic bearing rotor is 1.5~3mm.

Further, the stator magnetic ring and the rotor magnetic ring of the radial magnetic bearing are relatively radially magnetized and repel each other to form a radial thrust. When the wind force changes, the bearing capacity in the radial direction makes it shake from side to side, and the side with the smaller working air gap between the stator magnetic ring and the rotor magnetic ring of the radial magnetic bearing will generate a larger repulsion force to maintain the radial degree of freedom Balance, to complete the radial four-degree-of-freedom balance of the wind turbine rotor.

Further, the axial magnetic bearing is axially magnetized and has the same pole opposite to each other. The attraction between the moving magnetic ring of the axial magnetic bearing and the compression nut and the repulsion between the moving magnetic ring and the static magnetic ring of the axial magnetic bearing Support the overall weight of the rotating part of the generator and keep the axial freedom stable suspension. When the wind force increases, the bearing capacity in the axial direction increases, the working air gap between the dynamic and static magnetic rings in the axial direction becomes smaller, and the repulsive force becomes larger, so that the rotating part of the wind turbine maintains a balance between the upper and lower degrees of freedom.

Furthermore, the permanent magnets pasted on the double outer rotors of the generator, the dynamic and static magnetic rings of the axial magnetic bearings, and the permanent magnetic rings used in the radial magnetic bearings are all NdFeB materials with high magnetic energy product.

Preferably, the protection gap between the upper end cover retaining ring and the upper end cover of the wind turbine shell is 0.5-1mm.

Preferably, the protective gap between the upper end cover of the wind turbine casing and the upper protective bearing, and the protective gap between the lower end cover of the wind turbine casing and the lower protective bearing are all in the range of 0.5-1mm.

The stator of the generator is a concentrated winding, and its central disc part has the same diameter as the magnetic ring platform, and is fixed on the stator support shaft, and the discs outside the center are cast from epoxy resin.

The upper and lower end cap retaining rings are threadedly connected to the corresponding stator supporting shaft parts.

Preferably, the axial magnetic bearing includes a moving magnetic ring, a static magnetic ring, and a magnetic isolation material, wherein the dynamic magnetic ring and the magnetic isolation material are embedded in the inner hole of the lower end cover of the wind turbine casing, and the static magnetic ring is fixed on the lower end cover , The axial working air gap between the axial dynamic and static magnetic rings is 1~2mm, the axial working air gap between the moving magnetic ring and the compression nut is 1.5~3mm, and the axial magnetic bearing The protective gap between the moving magnetic ring and the lower protective bearing is 0.5~1mm.

Preferably, the working air gap between the generator stator and the permanent magnet on the generator rotor side is 1-2mm.

Based on the above, the utility model small vertical axis maglev wind power generator has the following advantages:

The utility model uses radial and axial magnetic bearings to realize five-degree-of-freedom suspension, completely eliminates mechanical friction, and axially uses the suction force between the moving magnetic ring and the compression nut and the repulsion between the axial moving and static magnetic rings to support the wind force Reduce the overall weight of the rotating part of the machine and achieve axially stable suspension, reduce the thickness of the permanent magnet, and reduce the cost of the generator.

The radial and axial magnetic bearings are installed inside the generator body, making full use of the inner space of the generator, greatly shortening the axial length of the generator and reducing the overall weight of the wind turbine.

Based on the above advantages, a vertical axis magnetic levitation wind power generation of the present invention has the characteristics of no noise, low starting wind speed, no friction, small size, light weight, simple and compact structure, stable radial and axial suspension, and low cost. Realize "light wind start, breeze power generation".

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is an axial sectional view of the radial magnetic bearing of the present utility model;

Fig. 3 is the A-A sectional view of Fig. 2;

Fig. 4 is an axial sectional view of the axial magnetic bearing of the present invention.

Each label in the figure: 1 is the blade of the wind turbine, 2 and 7 are the upper and lower end covers of the wind turbine casing, 31 and 31' are the radial magnetic bearing stator, 32 and 32' are the radial magnetic bearing rotor, and 310 is the radial working Air gap, 311 and 311' are compression nuts, 312 is stator permanent magnet ring, 321 is rotor permanent magnet ring, 322 is magnetic isolation material, 41 and 61 are double outer rotors of generator, 42 and 62 are pasted on generator The permanent magnet on the double outer rotor, 5 is the inner stator of the generator, 8 is the countersunk screw, 90 is the protective gap between the wind turbine casing 2 and the upper protective bearing 12, 91 is the axial magnetic bearing moving magnetic ring, 93, 95 is the axial working air gap, 94 is the static magnetic ring of the axial magnetic bearing, 11 is the wind turbine tower, 12 and 13 are the protective bearings, 14 and 15 are the retaining rings of the upper and lower end covers of the wind turbine shell, and 141 is the wind turbine shell The protective gap between the upper end cover and the upper end cover retaining ring.

detailed description

Below in conjunction with accompanying drawing, the specific embodiment of utility model is described further:

As shown in Figure 1, a small vertical axis maglev wind turbine includes a stationary part and a rotating part:

The static part includes the upper and lower end cover retaining rings 14, 15 symmetrically fixed on the vertical stator support shaft sequentially from outside to inside in the axial direction, upper and lower protective bearings 12, 13, radial magnetic bearing stators 31, 31', As well as the fixed generator stator 5 in the middle, an axial magnetostatic ring 94 is pasted on the lower end cover retaining ring 15, and the stator support shaft is supported on the tower 11 on the ground. The upper and lower end cover retaining rings 14 and 15 are magnetic isolation materials, and the upper and lower end cover retaining rings are threadedly connected with their corresponding stator support shafts.

The rotating part includes a wind turbine blade 1, and the wind turbine blade 1 is fixed on the wind turbine casing, and the upper and lower end covers 2 and 7 of the wind turbine casing are respectively connected to the double outer rotors 41 and 61 of the generator, and the double outer rotors 41 and 61 of the generator are respectively Permanent magnets 42 and 62 are pasted on 61 respectively, radial magnetic bearing rotors 32 and 32' are embedded in the generator double outer rotors 41 and 61, and axial magnetic bearing dynamic magnetic rings are embedded in the inner hole of the lower end cover 7 of the wind turbine casing 91. The moving magnetic ring 91 of the axial magnetic bearing and the static magnetic ring 94 of the axial magnetic bearing pasted on the retaining ring 15 of the lower end cover form an axial repulsion force with the same poles opposite to each other. The upper and lower shells of the wind turbine are fixed with countersunk screws 8, and the inner walls of the upper and lower shells are respectively fixed with double outer rotors 41, 61, and the double outer rotors are respectively pasted with permanent magnets 42, 62. Both the magnet and the permanent magnetic ring of the magnetic bearing are made of NdFeB material with high magnetic energy product. The stator of the generator is a structure without slots and iron cores. It adopts concentrated winding. On the support shaft, the discs other than the center are cast by epoxy resin, which is convenient for processing and installation. The stator has no slot and no iron core, which not only reduces the weight of the motor but also eliminates the cogging torque and core loss related to it. .

As shown in Figure 2, the radial magnetic bearing stator 31 is to fix the stator permanent magnet ring 312 and the magnetic isolation material 322 on the magnetic field fixedly connected with the stator support shaft by a compression nut 311 threadedly connected with the stator support shaft. Formed on the ring platform 313, the magnetic ring platform 313 is the protruding part of the stator support shaft, and is fixedly connected with the stator support shaft as a whole. The radial magnetic bearing rotor 32 is embedded into the outer rotor 41 through the magnetic isolation material 322 (see Figure 1 ); the working air gap 310 between the radial magnetic bearing stator 31 and the radial magnetic bearing rotor 32 ranges from 1.5 to 3mm; The range of the protection gap 90 between the upper protection bearing and the upper protection bearing 12 is 0.5-1mm.

As shown in Figure 3, the radial magnetic bearing stator permanent magnet ring 312 and the rotor permanent magnet ring 321 face each other with the same poles, forming a radial repulsion force. The side of the working air gap between the stator magnetic ring and the rotor magnetic ring of the magnetic bearing will generate a larger repulsive force to maintain the balance of the radial degree of freedom and satisfy the suspension of the four degrees of freedom in the radial direction. The lower radial magnetic bearing It is the same as the upper radial magnetic bearing, and will not be repeated here.

As shown in Figure 4, the axial magnetic bearing moving magnetic ring 91 is embedded in the lower end cover 7 of the wind turbine casing through the magnetic isolation material 92, and the axial working gas between the axial magnetic bearing moving magnetic ring 91 and the compression nut 311' The range of the gap 93 is 1.5~3mm, the range of the protective gap 90 between the lower end cover 7 and the lower protective bearing 13 of the wind turbine casing is 0.5~1mm, and the axial working air gap between the moving magnetic ring 91 and the static magnetic ring 94 of the axial magnetic bearing The range of 95 is 1~2mm; the compression nut 311' is A3 steel magnetic material, the suction force between the compression nut and the dynamic magnetic ring of the axial magnetic bearing and the repulsion between the axial dynamic and static magnetic rings support the wind turbine shaft Stable suspension towards the overall weight and maintain the axial degree of freedom. When the wind force increases, the bearing capacity in the axial direction increases, the working air gap between the axial dynamic and static magnetic rings becomes smaller, and the repulsive force becomes larger, so that the rotating part of the wind turbine is stable and the upper and lower degrees of freedom are balanced.

As shown in Figures 2 and 4, the suspension bearing of the utility model is installed inside the generator body, making full use of the inner space of the generator, greatly shortening the axial length of the generator, reducing the overall weight of the wind turbine, and the axial magnetic bearing moving magnet The suction force between the ring 91 and the compression nut 311' and the repulsion force between the ring 91 and the magnetostatic ring 94 support the overall weight of the rotating part of the generator and realize axially stable suspension.

The utility model not only has no noise, no friction loss, low starting wind speed, but also has the advantages of short axial length, compact structure, stable axial free floating, low cost, no magnetic circuit coupling between the magnetic bearing and the generator rotor, and no additional power supply And the controller can realize stable suspension with five degrees of freedom.

Claims (11)

1. a small-sized vertical shaft maglev wind power generator, including stationary part and rotating part, it is characterised in that:

Described stationary part includes the upper and lower end cap gear that ecto-entad symmetry is fixed in vertical stator support shaft the most successively Ring (14,15), upper and lower protection bearing (12,13), upper and lower radial direction magnetic bearing stator (31,31 '), and middle fixing generating Machine stator (5), bottom end cover baffle ring (15) is fixed with the magnetostatic ring of axial magnetic bearing (94), and described stator support shaft is supported on ground Pylon (11) on；

Described rotating part includes that pneumatic equipment blades (1), pneumatic equipment blades (1) are fixed on wind energy conversion system shell, wind energy conversion system shell Connecting electromotor double external rotor (41,61) in upper and lower end cap (2,7) respectively, electromotor double external rotor is pasted on (41,61) respectively There is permanent magnet (42,62), in electromotor double external rotor (41,61), be embedded with radial direction magnetic bearing rotor (32,32 '), wind-force respectively Machine shell bottom end cover (7) endoporus setting-in axial magnetic bearing moves magnet ring (91).

Small-sized vertical shaft maglev wind power generator the most according to claim 1, it is characterised in that: described upper and lower radial direction Magnetic bearing stator (31,31 ') is by stator respectively by the clamp nut (311,311 ') threadeded with described stator support shaft Permanent-magnetic clamp (312), NULL (322) are fixed on to fix with described stator support shaft and form on the magnet ring platform (313) being connected；Footpath It is to be embedded into generator amature (41) by rotor permanent magnet ring (321), NULL (322) to form to magnetic bearing rotor (32)； Working gas gap (310) scope between radial direction magnetic bearing stator (31) and radial direction magnetic bearing rotor (32) is 1.5 ~ 3mm.

Small-sized vertical shaft maglev wind power generator the most according to claim 2, it is characterised in that: described radial direction magnetic bearing Stator permanent magnet ring (312) and rotor permanent magnet ring (321) for relatively radially to magnetize, mutually exclusive formation radial thrust.

Small-sized vertical shaft maglev wind power generator the most according to claim 1, it is characterised in that: described axial magnetic bearing Relative for axial charging and homopolarity, by the suction between dynamic magnet ring (91) and clamp nut (311 ') and dynamic magnet ring (91) with magnetostatic Repulsion between ring (94) supports the overall weight of generator rotation part and keeps axial freedom stable suspersion.

5. according to the small-sized vertical shaft maglev wind power generator described in claim 1, it is characterised in that: electromotor double external rotor (41,61) upper permanent magnet (42,62) pasted, the dynamic and static magnet ring of axial magnetic bearing (91,94), and used by radial direction magnetic bearing Permanent-magnetic clamp (312,321) is the NdFeB material of high energy product.

Small-sized vertical shaft maglev wind power generator the most according to claim 1, it is characterised in that: described upper end cover baffle ring (14) portable protective gaps (141) scope is 0.5 ~ 1mm and between wind energy conversion system shell upper end cover (2).

Small-sized vertical shaft maglev wind power generator the most according to claim 1, it is characterised in that: wind energy conversion system shell upper end Between portable protective gaps (90), wind energy conversion system shell bottom end cover (7) and the lower protection bearing (13) between lid (2) and upper protection bearing (12) Portable protective gaps (90) scope is 0.5 ~ 1mm.

Small-sized vertical shaft maglev wind power generator the most according to claim 1, it is characterised in that: described generator unit stator (5) being concentratred winding, its center disk part is as magnet ring platform diameter, and is fixed in described stator support shaft, in Beyond the heart, partial disc is to be formed by poured with epoxy resin.

Small-sized vertical shaft maglev wind power generator the most according to claim 1, it is characterised in that: described upper and lower end cap The described stator support shaft partial threads connection that baffle ring (14,15) is corresponding.

Small-sized vertical shaft maglev wind power generator the most according to claim 1, it is characterised in that: described axial magnetic axis Contract and include magnet ring (91), magnetostatic ring (94), NULL (92), wherein move magnet ring (91), NULL (92) is embedded in wind At power machine shell bottom end cover (7) endoporus, magnetostatic ring (94) is fixed on bottom end cover baffle ring (15), is axle between axial dynamic and static magnet ring Being 1 ~ 2mm to working gas gap (95) scope, axial magnetic bearing moves between magnet ring (91) and clamp nut (311 ') as axially work Air gap (93) scope is 1.5 ~ 3mm, and axial magnetic bearing moves portable protective gaps (90) model between magnet ring (91) and lower protection bearing (13) Enclosing is 0.5 ~ 1mm.

11. small-sized vertical shaft maglev wind power generators according to claim 1, it is characterised in that: generator unit stator (5) With the working gas gap between generator amature side permanent magnet (42,62) is 1 ~ 2mm.