CN201466945U - Radial magnetic field coreless permanent magnet wind generator - Google Patents

Abstract

The utility model discloses a radial magnetic field coreless permanent magnet wind generator, which comprises a rotor inner side cylinder, a rotor outer side cylinder and a stator cylinder which are arranged coaxially, wherein the rotor inner side cylinder and the rotor outer side cylinder are connected into a whole and are both connected with a main shaft through a bearing; the direction of the rotor inner side cylinder port is in line with that of the rotor outer side cylinder port, the direction of the stator cylinder port is opposite to that of the rotor cylinder port, and the stator cylinder wall is positioned between the rotor inner side cylinder wall and the rotor outer side cylinder wall; internal steel magnets are uniformly distributed on the rotor inner side cylinder wall along the circumferential direction, external steel magnets are uniformly distributed on the rotor outer side cylinder wall along the circumferential direction, the polarities of the uniformly distributed internal steel magnets and the external steel magnets are changed alternately, and the corresponding polarities of the internal steel magnets and the external steel magnets are opposite; and the wire coils are uniformly distributed on the stator cylinder wall along the circumference. The utility model reduces the starting torque effectively, thereby solving the problem that the generator is difficult to start in breeze.

Description

Radial magnetic field coreless permanent magnet wind-driven generator

Technical field

The utility model relates to a kind of permanent magnet generator, and particularly a kind of radial magnetic field does not have the permanent-magnetic wind driven generator of iron core.

Background technology

Small-sized AC permanent-magnetic generator according to the configuration difference of magnet steel in rotor, generally has multiple patterns such as radial magnetic field formula, tangential magnetic field formula, hybrid inner permanent magnetic structure and surface permanent magnetic structure.The existing permanent magnet generator that is used for small-size wind power-generating, what usually adopt is the trunnion axis structure of ribbon core, as the FD-500 permanent-magnetic wind driven generator in red hawk HY-400 in the more advanced Guangzhou of present technology and Huaian, Jiangsu etc.These permanent magnet generator stator winding embed according to certain rules in iron core slot, and because of air gap is little, the suction of magnet steel and iron core is bigger, and starting is changeed apart from big, is difficult to starting under the gentle breeze; And because of slot effect, electromagnetic torque can produce pulsation during motor rotation.Generally, the rated wind speed of above-mentioned permanent magnet generator (also promptly exporting the rotating speed of rated power) is higher, usually in 10～12m/s scope, and the fan blade diameter is bigger than normal, in the low wind speed district of deficiency in draught, power output is little even can not send out electricity, can not reasonably utilize wind energy.

The patent No. is 200820059414.1, name is called in the utility model patent of " a kind of permanent magnet generator ", though provided a kind of permanent magnet generator that iron core is implemented wind power generation that do not have, but up and down end cap, be closely to connect between permanent magnetism yoke, permanent magnet and the coil up and down, air gap is little, but is difficult to guarantee machining accuracy, and technology difficulty is big, change apart from not playing too big effect solving starting, implementation result is bad; In addition, complex structure is difficult for making.

The patent No. is 87206678, name is called in the utility model patent of " disc type does not have the iron core AC permanent-magnetic generator ", though also provided a kind of permanent magnet generator that iron core is implemented wind power generation that do not have, complex structure, and coil is too thick, air gap is big, magnetic field intensity is little, and power output is little, and its rated speed is too high simultaneously, be unfavorable for gentle breeze starting, equally also do not have to solve the problem that permanent-magnetic wind driven generator can high-efficiency operation under gentle breeze.

The utility model content

The technical problems to be solved in the utility model is because air gap is little, the suction of magnet steel and iron core is bigger, starting is changeed apart from big, the problem that under gentle breeze, is difficult to start, provide a kind of and can under low wind speed, little air quantity situation, can export bigger power, be suitable for the permanent-magnetic wind driven generator that wind speed range is wide, operational efficiency is high.

For achieving the above object, the utility model is by the following technical solutions:

The utility model comprises rotor inside cylindrical, rotor outside cylindrical and the stator cylinder of coaxial setting, wherein, the rotor inside cylindrical links to each other with the rotor outside cylindrical and is one, and all be connected with main shaft by bearing, and the nozzle direction of rotor inside cylindrical and rotor outside cylindrical is consistent, the nozzle direction of described stator cylinder is opposite with the rotor cylinder, and the barrel of stator cylinder is between the barrel of rotor inside cylindrical and rotor outside cylindrical; The interior magnet steel that on the barrel of rotor inside cylindrical, is uniformly distributed along the circumference, the outer steel that on the barrel of rotor outside cylindrical, is uniformly distributed along the circumference, uniform interior magnet steel and outer steel alternating polarity change, and magnet steel is opposite with outer steel polarity in corresponding; The coil of wire is uniformly distributed along the circumference on the barrel of described stator cylinder.

Iron yoke in the inboard of interior magnet steel is provided with, iron yoke outside the arranged outside of outer steel.

Above-mentioned rotor inside cylindrical is connected with main shaft by the rotor inboard bearing, and the rotor outside cylindrical is connected with main shaft by the rotor outboard bearing; Above-mentioned rotor inboard bearing and rotor outboard bearing tight fit gland are on main shaft.

The single-phase 18 blocks of interior magnet steel that on the barrel of rotor inside cylindrical, are uniformly distributed along the circumference, single-phase 18 outer steels that on the barrel of rotor outside cylindrical, are uniformly distributed along the circumference, 18 coils of wire are uniformly distributed along the circumference on the barrel of stator cylinder.

The 24 blocks of interior magnet steel of three-phase that on the barrel of rotor inside cylindrical, are uniformly distributed along the circumference, 24 outer steels of three-phase that on the barrel of rotor outside cylindrical, are uniformly distributed along the circumference, 18 coils of wire are uniformly distributed along the circumference on the barrel of stator cylinder.

Above-mentioned rotor inside cylindrical and rotor outside cylindrical are the cylindrical rotor structure of aluminum alloy material.

On rotor inside cylindrical or rotor outside cylindrical, be provided with velocity transducer.

Lower surface in stator cylinder is provided with pressing plate, and pressing plate is vertical with main shaft to be provided with.

Have coil of wire groove on the barrel of stator cylinder, the coil of wire is arranged in coil of wire groove; Lower surface in stator cylinder has groove, and the lead-in wire of the coil of wire is drawn from groove.

The above-mentioned coil of wire be connected with three-phase Y knot two strings three also, three-phase Y knot three strings two also, three-phase Y knot six strings in the lump.

Adopt the utility model of technique scheme, owing to be provided with two cylindrical rotor structures and single cylinder stator structure, make and constitute two air gaps between rotor inside cylindrical, rotor outside cylindrical and the stator cylinder, and air gap is even, and there is not iron core, reduce starting torque effectively, thereby solved the problem that generator is difficult to start under the gentle breeze.In the utility model stator do not have teeth groove, no iron core, simple in structure, moment of inertia is little, response speed is fast, torque pulsation is greatly improved.Simultaneously, for further enlarging the wind speed scope of application of generator, on rotor inside cylindrical or rotor outside cylindrical, be provided with velocity transducer, the real-time speed signal that sends by transducer, the automatic operation of control power electronic device, effectively change the connected mode of the stator coil of wire, the connected mode of the stator coil of wire 9 can be selected, in multiple connected modes such as 2S3P, 3S2P, 6S1P to realize the requirement of high-efficient operation in the wide wind speed range.

Description of drawings

Fig. 1 is an overall structure schematic diagram of the present utility model;

Fig. 2 is the connection diagram of the stator coil of wire among the utility model embodiment 1;

Fig. 3 is the connection diagram of the stator coil of wire among the utility model embodiment 2;

Fig. 4 is the connection diagram of the stator coil of wire among the utility model embodiment 3;

Fig. 5 is the power utilization comparison diagram of three embodiment of the utility model.

Embodiment

Embodiment 1

As shown in Figure 1, the utility model comprises rotor inside cylindrical 5, rotor outside cylindrical 6 and the stator cylinder 12 of coaxial setting.Its rotor inside cylindrical 5 and rotor outside cylindrical 6 constitutes two cylindrical rotor structures, and they are the execution mode of the best with the cylinder of aluminum alloy material.Rotor inside cylindrical 5 is connected with main shaft 1 by rotor inboard bearing 2, and rotor outside cylindrical 6 is connected with main shaft 1 by rotor outboard bearing 3, and rotor inboard bearing 2 and rotor outboard bearing 3 tight fit glands are on main shaft 1.In addition, rotor inside cylindrical 5 is connected by bolt 4 with rotor outside cylindrical 6 and is one, and like this, rotor inside cylindrical 5 and rotor outside cylindrical 6 can be rotated synchronously.And, the nozzle direction of rotor inside cylindrical 5 and rotor outside cylindrical 6 is consistent, and the nozzle direction of stator cylinder 12 is opposite with the nozzle direction of above-mentioned two kinds of rotor cylinders, and the barrel of stator cylinder 12 is between the barrel of rotor inside cylindrical 5 and rotor outside cylindrical 6.

On the barrel of rotor inside cylindrical 5 circumferentially 18 single-phase in magnet steel 8, circumferentially adjacent interior magnet steel 8 alternating polarities change, and in the inboard of interior magnet steel 8 the good interior iron yoke 7 of magnetic conductivity are set; 18 single-phase outer steels 10 circumferentially on the barrel of rotor outside cylindrical 6, circumferentially adjacent outer steel 10 alternating polarities change, and magnet steel 8 is opposite with outer steel 10 polarity in corresponding, can form the flux circuit that passes the coil of wire 9 like this. in addition, equally in the present embodiment at the good outer iron yoke 11. of the arranged outside magnetic conductivity of outer steel 10, interior magnet steel 8 and outer steel 10 are 18. and with Fig. 1 the setting of magnet steel polarity in the example explanation present embodiment, when interior magnet steel 8 is the N utmost point, corresponding outer steel 10 should be the S utmost point, and outer steel 10 and interior magnet steel 8 all are evenly to distribute along the circumference alternating polarity.

In the utility model, stator is single cylindrical structure, only is made of a stator cylinder 12.Circumference has coil of wire groove in the barrel upper edge of stator cylinder 12, and the coil of wire 9 is arranged in coil of wire groove; Lower surface in stator cylinder 12 has groove, and the lead-in wire of the coil of wire 9 is drawn from groove.It is pointed out that to preventing leakage field and eddy current loss the material selection of stator cylinder 12 not magnetic conduction, high-quality engineering plastics non-conductive, that can reach machining accuracy again is advisable.Should guarantee the lower surface of stator cylinder 12 and the vertical setting of main shaft 1 simultaneously.In the present embodiment, for better keeping the perpendicularity of stator cylinder 12 lower surfaces and main shaft 1, be provided with pressing plate 13 in the lower surface of stator cylinder 8, pressing plate 13 and main shaft 1 vertical setting.Pressing plate 13 clamping stators can guarantee also that to strengthen rigidity the air gap of the inside and outside magnet steel and the coil of wire 9 is even, meet design load.

As shown in Figure 2, in the present embodiment, the connected mode of the coil of wire 9 is three-phase Y knot two string three and 2S3P, and promptly the coil of wire 9 integral body are three-phase Y shape structure, and each is made of the parallel connection of three coil of wire groups in mutually, and each coil of wire group is formed by two coils of wire series connection.

To sum up, constitute two air gaps between rotor inside cylindrical 5, rotor outside cylindrical 6 and the stator cylinder 12, the top plan of two cylindrical rotors and wind are failed direct connection, and rotate under it drives.In the present embodiment, adopt not that wind-engaging influences to the sudden turn of events, vertical Savonius wind that again can the gentle breeze starting is defeated, guarantees the high efficiency of unit.

Embodiment 2

Present embodiment as different from Example 1, in the present embodiment, the 24 blocks of interior magnet steel 8 of three-phase that on the barrel of rotor inside cylindrical 5, are uniformly distributed along the circumference, 24 outer steels 10 of three-phase that on the barrel of rotor outside cylindrical 6, are uniformly distributed along the circumference, 18 coils of wire 9 are uniformly distributed along the circumference on the barrel of stator cylinder 12.The polarity of interior magnet steel 8 and outer steel 10 distributes identical with embodiment 1.

In addition, as shown in Figure 3, the connected mode of the coil of wire 9 is three-phase Y knot three string two and 3S2P, and promptly the coil of wire 9 integral body are three-phase Y shape structure, and each is made of the parallel connection of two coil of wire groups in mutually, and each coil of wire group is formed by three coils of wire series connection.

The other technologies feature is identical with embodiment 1.

Embodiment 3

As shown in Figure 4, what present embodiment and embodiment 1, embodiment 2 were different is, in the present embodiment, the connected mode of the coil of wire 9 is gone here and there 6S1P in the lump for three-phase Y knot six, and promptly the coil of wire 9 integral body are three-phase Y shape structure, and each is formed by six coils of wire series connection in mutually.

The other technologies feature is identical with embodiment 1.

Embodiment 4

For further enlarging the wind speed scope of application of generator, on rotor inside cylindrical 5 or rotor outside cylindrical 6, be provided with velocity transducer.The real-time speed signal that sends by transducer, the automatic operation of control power electronic device, effectively change the connected mode of the stator coil of wire 9, the connected mode of the stator coil of wire 9 can be selected, in 2S3P, 3S2P, 6S1P to realize the requirement of high-efficient operation in the wide wind speed range.9 three kinds of connected modes of the above-mentioned coil of wire switch to technology well known to those of ordinary skill in the art.

As shown in Figure 5, the utility model proves with Theoretical Calculation by experiment: the stator coil of wire connected mode that is suitable for low wind speed generating most is: the three-phase bifurcation knot 6S1P power maximum when three-phase Y knot two strings three during wind speed 6m/s and 2S3P and wind speed 2m/s; Near wind speed 4m/s low wind speed district, 3S2P the best of three-phase Y knot. in service can control in real time according to concrete wind regime, three kinds of connection modes of the switching coil of wire 9 are to realize efficient high output generating.

The other technologies feature is identical with embodiment 1.

Claims (10)

1. radial magnetic field coreless permanent magnet wind-driven generator, it is characterized in that: it comprises the rotor inside cylindrical (5) of coaxial setting, rotor outside cylindrical (6) and stator cylinder (12), wherein, rotor inside cylindrical (5) links to each other with rotor outside cylindrical (6) and is one, and all be connected with main shaft (1) by bearing, and rotor inside cylindrical (5) is consistent with the nozzle direction of rotor outside cylindrical (6), the nozzle direction of described stator cylinder (12) is opposite with the rotor cylinder, and the barrel of stator cylinder (12) is positioned between the barrel of rotor inside cylindrical (5) and rotor outside cylindrical (6); Interior magnet steel (8) is uniformly distributed along the circumference on the barrel of described rotor inside cylindrical (5), outer steel (10) is uniformly distributed along the circumference on the barrel of described rotor outside cylindrical (6), uniform interior magnet steel (8) and outer steel (10) alternating polarity change, and magnet steel (8) is opposite with outer steel (10) polarity in corresponding; The coil of wire (9) is uniformly distributed along the circumference on the barrel of described stator cylinder (12).

2. radial magnetic field coreless permanent magnet wind-driven generator according to claim 1 is characterized in that: iron yoke (7) in the inboard of magnet steel in described (8) is provided with, iron yoke (11) outside the arranged outside of outer steel (10).

3. radial magnetic field coreless permanent magnet wind-driven generator according to claim 1, it is characterized in that: described rotor inside cylindrical (5) is connected with main shaft (1) by rotor inboard bearing (2), and rotor outside cylindrical (6) is connected with main shaft (1) by rotor outboard bearing (3); Described rotor inboard bearing (2) and rotor outboard bearing (3) tight fit gland are on main shaft (1).

4. radial magnetic field coreless permanent magnet wind-driven generator according to claim 1, it is characterized in that: single-phase 18 blocks of interior magnet steel (8) are uniformly distributed along the circumference on the barrel of described rotor inside cylindrical (5), single-phase 18 outer steels (10) that are uniformly distributed along the circumference on the barrel of rotor outside cylindrical (6), 18 coils of wire (9) are uniformly distributed along the circumference on the barrel of stator cylinder (12).

5. radial magnetic field coreless permanent magnet wind-driven generator according to claim 1, it is characterized in that: 24 blocks of interior magnet steel of three-phase (8) are uniformly distributed along the circumference on the barrel of described rotor inside cylindrical (5), 24 outer steels of three-phase (10) that are uniformly distributed along the circumference on the barrel of rotor outside cylindrical (6), 18 coils of wire (9) are uniformly distributed along the circumference on the barrel of stator cylinder (12).

6. according to claim 1 or 3 or 4 or 5 described radial magnetic field coreless permanent magnet wind-driven generators, it is characterized in that: described rotor inside cylindrical (5) and rotor outside cylindrical (6) are the cylindrical rotor structure of aluminum alloy material.

7. radial magnetic field coreless permanent magnet wind-driven generator according to claim 6 is characterized in that: be provided with velocity transducer on described rotor inside cylindrical (5) or rotor outside cylindrical (6).

8. radial magnetic field coreless permanent magnet wind-driven generator according to claim 1 is characterized in that: be provided with pressing plate (13) in the lower surface of described stator cylinder (12), pressing plate (13) and the vertical setting of main shaft (1).

9. radial magnetic field coreless permanent magnet wind-driven generator according to claim 8 is characterized in that: have coil of wire groove on the barrel of described stator cylinder (12), the coil of wire (9) is arranged in coil of wire groove; Lower surface in stator cylinder (12) has groove, and the lead-in wire of the coil of wire (9) is drawn from groove.

10. radial magnetic field coreless permanent magnet wind-driven generator according to claim 1 is characterized in that: the described coil of wire (9) be connected with three-phase Y knot two strings three also, three-phase Y knot three strings two also, three-phase Y knot six strings in the lump.

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